.. (comment): DO NOT EDIT this file. .. It is auto-generated by running : /home/runner/work/MetPy/MetPy/docs/make_areas.py .. Please adjust by making changes there. .. It is included in the repository only to aid detection of changes. .. _api-areas: MetPy Area List =============== us - UNITED STATES --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['us'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-119.0, -56.0, 19.0, 47.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=us name=UNITED STATES') awips - AWIPS US ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['awips'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-127.0, -59.0, 20.0, 50.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=awips name=AWIPS US') uslcc - UNITED STATES LCC ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['uslcc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-124.0, -62.0, 20.0, 51.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=uslcc name=UNITED STATES LCC') whlf - WESTERN HALF ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['whlf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-123.8, -85.9, 22.9, 50.2), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=whlf name=WESTERN HALF') chlf - CENTRAL HALF ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['chlf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-111.0, -79.0, 27.5, 50.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=chlf name=CENTRAL HALF') centus - CENTRAL US ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['centus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-105.4, -77.0, 24.7, 47.6), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=centus name=CENTRAL US') ehlf - EASTERN HALF ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ehlf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-96.2, -62.7, 22.0, 49.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ehlf name=EASTERN HALF') mehlf - EASTERN HALF ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mehlf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-89.9, -66.6, 23.8, 49.1), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mehlf name=EASTERN HALF') west - WESTERN US -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['west'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-125.0, -90.0, 25.0, 55.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=west name=WESTERN US') cent - CENTRAL US -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cent'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-107.4, -75.3, 24.3, 49.7), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cent name=CENTRAL US') east - EASTERN US -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['east'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-100.55, -65.42, 24.57, 47.2), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=east name=EASTERN US') nwus - NW SECTOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nwus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-126.0, -102.0, 38.25, 50.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nwus name=NW SECTOR') swus - SW SECTOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['swus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-126.0, -100.0, 28.25, 40.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=swus name=SW SECTOR') ncus - NC SECTOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ncus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-108.0, -84.0, 38.25, 50.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ncus name=NC SECTOR') scus - SC SECTOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['scus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-108.9, -84.0, 24.0, 40.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=scus name=SC SECTOR') neus - NE SECTOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['neus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-89.0, -64.0, 37.25, 47.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=neus name=NE SECTOR') seus - SE SECTOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['seus'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-90.0, -66.0, 28.25, 40.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=seus name=SE SECTOR') bosfa - BOSTON FA AREA ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bosfa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-87.5, -63.5, 34.5, 50.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bosfa name=BOSTON FA AREA') miafa - MIAMI FA AREA ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['miafa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-88.0, -72.0, 23.0, 39.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=miafa name=MIAMI FA AREA') chifa - CHICAGO FA AREA -------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['chifa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-108.0, -75.0, 34.0, 50.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=chifa name=CHICAGO FA AREA') dfwfa - DALLAS FA AREA ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['dfwfa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-106.5, -80.5, 22.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=dfwfa name=DALLAS FA AREA') slcfa - SALT LAKE FA AREA ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['slcfa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-126.0, -98.0, 29.5, 50.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=slcfa name=SALT LAKE FA AREA') sfofa - SAN FRAN FA AREA --------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sfofa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-129.0, -111.0, 30.0, 50.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sfofa name=SAN FRAN FA AREA') ak - ALASKA HPC QPF ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ak'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-180.0, -106.0, 42.0, 73.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ak name=ALASKA HPC QPF') al - ALABAMA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['al'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-95.0, -79.0, 27.0, 38.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=al name=ALABAMA') ar - ARKANSAS ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ar'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-100.75, -84.75, 29.5, 40.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ar name=ARKANSAS') ca - CALIFORNIA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ca'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-127.75, -111.75, 31.5, 42.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ca name=CALIFORNIA') co - COLORADO ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['co'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-114.0, -98.0, 33.5, 44.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=co name=COLORADO') ct - CONNECTICUT ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ct'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-81.25, -65.25, 36.0, 47.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ct name=CONNECTICUT') dc - WASHINGTON DC --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['dc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-85.0, -69.0, 33.35, 44.35), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=dc name=WASHINGTON DC') de - DELAWARE ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['de'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-83.75, -67.75, 33.25, 44.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=de name=DELAWARE') fl - FLORIDA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-90.0, -74.0, 23.0, 34.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fl name=FLORIDA') ga - GEORGIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ga'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-92.0, -76.0, 27.5, 38.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ga name=GEORGIA') hi - HAWAII -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['hi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-161.5, -152.5, 17.0, 23.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=hi name=HAWAII') ia - IOWA ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ia'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-102.0, -86.0, 36.5, 47.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ia name=IOWA') id - IDAHO ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['id'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-123.0, -107.0, 39.25, 50.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=id name=IDAHO') il - ILLINOIS ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['il'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-97.75, -81.75, 34.5, 45.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=il name=ILLINOIS') in - INDIANA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['in'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-94.5, -78.5, 34.5, 45.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=in name=INDIANA') ks - KANSAS -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ks'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-106.5, -90.5, 33.25, 44.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ks name=KANSAS') ky - KENTUCKY ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ky'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-93.0, -77.0, 31.75, 42.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ky name=KENTUCKY') la - LOUISIANA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['la'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-100.75, -84.75, 25.75, 36.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=la name=LOUISIANA') ma - MASSACHUSETTS --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ma'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.25, -64.25, 36.75, 47.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ma name=MASSACHUSETTS') md - MARYLAND ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['md'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-85.25, -69.25, 33.75, 44.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=md name=MARYLAND') me - MAINE ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['me'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-77.75, -61.75, 39.5, 50.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=me name=MAINE') mi - MICHIGAN ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-93.0, -77.0, 37.75, 48.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mi name=MICHIGAN') mn - MINNESOTA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-102.0, -86.0, 40.5, 51.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mn name=MINNESOTA') mo - MISSOURI ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mo'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-101.0, -85.0, 33.0, 44.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mo name=MISSOURI') ms - MISSISSIPPI ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ms'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-98.0, -82.0, 27.0, 38.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ms name=MISSISSIPPI') mt - MONTANA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-117.0, -101.0, 41.5, 52.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mt name=MONTANA') nc - NORTH CAROLINA ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-87.25, -71.25, 30.0, 41.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nc name=NORTH CAROLINA') nd - NORTH DAKOTA -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nd'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-107.5, -91.5, 42.25, 53.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nd name=NORTH DAKOTA') ne - NEBRASKA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ne'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-107.5, -91.5, 36.25, 47.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ne name=NEBRASKA') nh - NEW HAMPSHIRE --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nh'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-79.5, -63.5, 38.25, 49.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nh name=NEW HAMPSHIRE') nj - NEW JERSEY ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nj'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-82.5, -66.5, 34.75, 45.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nj name=NEW JERSEY') nm - NEW MEXICO ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-114.25, -98.25, 29.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nm name=NEW MEXICO') nv - NEVADA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-125.0, -109.0, 34.0, 45.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nv name=NEVADA') ny - NEW YORK ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ny'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-84.0, -68.0, 37.25, 48.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ny name=NEW YORK') oh - OHIO ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['oh'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-91.0, -75.0, 34.5, 45.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=oh name=OHIO') ok - OKLAHOMA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ok'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-105.25, -89.25, 30.25, 41.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ok name=OKLAHOMA') or - OREGON -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['or'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-128.0, -112.0, 38.75, 49.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=or name=OREGON') pa - PENNSYLVANIA -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-86.0, -70.0, 35.5, 46.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pa name=PENNSYLVANIA') ri - RHODE ISLAND -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ri'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-79.75, -63.75, 36.0, 47.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ri name=RHODE ISLAND') sc - SOUTH CAROLINA ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-89.0, -73.0, 28.5, 39.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sc name=SOUTH CAROLINA') sd - SOUTH DAKOTA -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sd'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-107.5, -91.5, 39.0, 50.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sd name=SOUTH DAKOTA') tn - TENNESSEE ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-95.0, -79.0, 30.0, 41.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tn name=TENNESSEE') tx - TEXAS ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tx'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-107.0, -91.0, 25.4, 36.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tx name=TEXAS') ut - UTAH ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ut'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-119.0, -103.0, 34.0, 45.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ut name=UTAH') va - VIRGINIA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['va'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-86.5, -70.5, 32.25, 43.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=va name=VIRGINIA') vt - VERMONT --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['vt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.75, -64.75, 38.25, 49.25), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=vt name=VERMONT') wi - WISCONSIN ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['wi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-98.0, -82.0, 38.5, 49.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=wi name=WISCONSIN') wv - WEST VIRGINIA --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['wv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-89.0, -73.0, 33.0, 44.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=wv name=WEST VIRGINIA') wy - WYOMING --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['wy'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-116.0, -100.0, 37.75, 48.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=wy name=WYOMING') az - ARIZONA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['az'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-119.0, -103.0, 29.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=az name=ARIZONA') wa - WASHINGTON ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['wa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-128.0, -112.0, 41.75, 52.75), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=wa name=WASHINGTON') cn - CANADA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-120.4, -14.0, 37.9, 58.6), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cn name=CANADA') cnlcc - CANADA LCC --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cnlcc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-127, -54.0, 40, 70), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cnlcc name=CANADA LCC') ab - ALBERTA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ab'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-119.6, -108.2, 48.6, 60.4), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ab name=ALBERTA') bc - BRITISH COLUMBIA ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-134.5, -109.0, 47.2, 60.7), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bc name=BRITISH COLUMBIA') mb - MANITOBA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-102.4, -86.1, 48.3, 60.2), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mb name=MANITOBA') nb - NEW BRUNSWICK --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-75.7, -57.6, 42.7, 49.6), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nb name=NEW BRUNSWICK') nf - NEWFOUNDLAND -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-68.0, -47.0, 45.0, 62.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nf name=NEWFOUNDLAND') ns - NOVA SCOTIA ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ns'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-67.0, -59.0, 43.0, 47.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ns name=NOVA SCOTIA') nt - NW TERRITORIES ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-132.0, -100.0, 59.0, 70.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nt name=NW TERRITORIES') nu - NUNAVUT --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-115.0, -65.0, 59.0, 80), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nu name=NUNAVUT') on - ONTARIO --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['on'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-94.5, -68.2, 41.9, 55.0), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=on name=ONTARIO') pe - PRINCE EDWARD IS ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pe'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-64.6, -61.7, 45.8, 47.1), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pe name=PRINCE EDWARD IS') qb - QUEBEC -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['qb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.0, -49.2, 44.1, 60.9), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=qb name=QUEBEC') sa - SASKATCHEWAN -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-111.2, -97.8, 48.5, 60.3), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sa name=SASKATCHEWAN') yt - YUKON TERRITORY ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['yt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-142.0, -117.0, 59.0, 70.5), ccrs.PlateCarree()) ax.add_feature(cfeature.STATES.with_scale('10m'), edgecolor='grey', linewidth=0.75) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=yt name=YUKON TERRITORY') tropatl - TROPICAL ATLANTIC ------------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tropatl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-115.0, 10.0, 0.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tropatl name=TROPICAL ATLANTIC') subtrop - SUBTROPICAL ATL ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['subtrop'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-90.0, -20.0, 20.0, 60.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=subtrop name=SUBTROPICAL ATL') troppac - TROPICAL PACIFIC ----------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['troppac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-165.0, -80.0, -25.0, 45.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=troppac name=TROPICAL PACIFIC') gulf - GULF OF MEXICO ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gulf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-105.0, -70.0, 10.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gulf name=GULF OF MEXICO') carib - CARIBBEAN SEA ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['carib'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-100.0, -50.0, 0.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=carib name=CARIBBEAN SEA') sthepac - SOUTH E PACIFIC ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sthepac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-170.0, -70.0, -60.0, 0.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sthepac name=SOUTH E PACIFIC') natlmed - N ATL/MEDITER -------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['natlmed'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-30.0, 70.0, 0.0, 65.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=natlmed name=N ATL/MEDITER') atlhur - ATLANTIC HURR ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['atlhur'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-96.0, -6.0, 4.0, 3.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=atlhur name=ATLANTIC HURR') nam - N AMERICA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nam'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-144, -50, 12, 75), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nam name=N AMERICA') sam - S AMERICA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sam'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-120.0, -20.0, -60.0, 20.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sam name=S AMERICA') samps - S AMERICA (PS) ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['samps'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-100.0, -34.0, -58.0, 15.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=samps name=S AMERICA (PS)') eur - EUROPE --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['eur'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-16.0, 80.0, 24.0, 52.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=eur name=EUROPE') natl - N ATLANTIC -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['natl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-110.0, 20.1, 15.0, 70.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=natl name=N ATLANTIC') watl - W ATLANTIC -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['watl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-84.0, -38.0, 25.0, 46.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=watl name=W ATLANTIC') tatl - TROPICAL ATLANTIC --------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tatl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-90.0, -15.0, -10.0, 35.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tatl name=TROPICAL ATLANTIC') npac - N PACIFIC ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['npac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((102.0, 250.0, -12.0, 60.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=npac name=N PACIFIC') spac - S PACIFIC ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['spac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((102.0, 290.0, -60.0, 20.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=spac name=S PACIFIC') tpac - TROPICAL PACIFIC -------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tpac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-165.0, -75.0, -10.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tpac name=TROPICAL PACIFIC') epac - E PACIFIC ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['epac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-150.0, -98.0, 12.0, 60.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=epac name=E PACIFIC') wpac - W PACIFIC ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['wpac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((130.0, 240.0, 0.0, 63.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=wpac name=W PACIFIC') mpac - MARINE PACIFIC ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mpac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((128.0, 252.0, 15.0, 71.95), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mpac name=MARINE PACIFIC') americas - ICAO MERC AREA A ------------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['americas'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-137.4, -12.6, -54.0, 67.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=americas name=ICAO MERC AREA A') atlantic - ICAO MERC AREA B1 ------------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['atlantic'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-125.0, 40.0, -45.5, 62.7), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=atlantic name=ICAO MERC AREA B1') africa - ICAO MERC AREA C ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['africa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-35.0, 70.0, -45.0, 75.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=africa name=ICAO MERC AREA C') indocean - ICAO MERC AREA D ------------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['indocean'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-15.0, 132.0, -27.0, 63.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=indocean name=ICAO MERC AREA D') oceania - ICAO MERC AREA E ----------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['oceania'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((25.0, 180.0, -54.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=oceania name=ICAO MERC AREA E') trop_pac - ICAO MERC AREA F ------------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['trop_pac'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((100.0, 250, -52.7, 50.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=trop_pac name=ICAO MERC AREA F') asia_ps - ICAO P.S. AREA G ----------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['asia_ps'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((34.8, 157.2, -0.8, 13.7), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=asia_ps name=ICAO P.S. AREA G') na_ps - ICAO P.S. AREA H --------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['na_ps'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-79.1, 56.7, 1.6, 25.2), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=na_ps name=ICAO P.S. AREA H') npac_ps - ICAO P.S. AREA I ----------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['npac_ps'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((166.24, -60.62, -6.74, 33.32), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=npac_ps name=ICAO P.S. AREA I') antarctica - ICAO P.S. AREA J -------------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['antarctica'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((106.8, -101.1, -27.6, 0.8), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=antarctica name=ICAO P.S. AREA J') europe - ICAO P.S. AREA EU ----------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['europe'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-21.6, 68.4, 21.4, 58.7), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=europe name=ICAO P.S. AREA EU') middle_east - ICAO MERC AREA ME ---------------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['middle_east'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((17.0, 70.0, 10.0, 44.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=middle_east name=ICAO MERC AREA ME') india - ICAO MERC AREA AS ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['india'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((53.0, 108.0, 0.0, 36.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=india name=ICAO MERC AREA AS') ag - ARGENTINA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ag'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.0, -53.0, -56.0, -20.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ag name=ARGENTINA') ah - AFGHANISTAN ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ah'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((60.0, 77.0, 27.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ah name=AFGHANISTAN') afrca - AFRICA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['afrca'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-25.0, 59.4, -36.0, 41.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=afrca name=AFRICA') ai - ASCENSION ISLAND ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ai'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-14.3, -14.1, -8.0, -7.8), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ai name=ASCENSION ISLAND') alba - ALBANIA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['alba'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((18.0, 23.0, 39.0, 43.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=alba name=ALBANIA') alge - ALGERIA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['alge'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-9.0, 12.0, 15.0, 38.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=alge name=ALGERIA') an - ANGOLA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['an'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((10.0, 25.0, -20.0, -5.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=an name=ANGOLA') antl - LESSER ANTILLES ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['antl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-70.0, -58.0, 11.0, 19.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=antl name=LESSER ANTILLES') antg - GREATER ANTILLES -------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['antg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-86.0, -65.0, 17.0, 25.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=antg name=GREATER ANTILLES') atg - ANTIGUA & BARBUDA -------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['atg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-62.0, -61.6, 16.9, 17.75), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=atg name=ANTIGUA & BARBUDA') au - AUSTRALIA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['au'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((110.0, 160.0, -40.0, -6.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=au name=AUSTRALIA') azor - AZORES ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['azor'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-27.6, -23.0, 36.0, 41.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=azor name=AZORES') ba - BAHAMAS --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ba'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.5, -72.5, 22.5, 28.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ba name=BAHAMAS') be - BERMUDA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['be'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-64.9, -64.5, 32.2, 32.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=be name=BERMUDA') bel - BELGIUM ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bel'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((2.5, 6.5, 49.4, 51.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bel name=BELGIUM') bf - BRUNEI -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((113.0, 116.0, 4.0, 5.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bf name=BRUNEI') bfa - BURKINA FASO --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bfa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-6.0, 3.0, 9.0, 15.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bfa name=BURKINA FASO') bh - BELIZE -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bh'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-89.3, -88.1, 15.7, 18.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bh name=BELIZE') bi - BURUNDI --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((29.0, 30.9, -4.6, -2.2), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bi name=BURUNDI') bj - BENIN ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bj'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((0.0, 5.0, 6.0, 12.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bj name=BENIN') bn - BAHRAIN --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((50.0, 51.0, 25.5, 27.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bn name=BAHRAIN') bo - BOLIVIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bo'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-72.0, -50.0, -24.0, -8.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bo name=BOLIVIA') bots - BOTSWANA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bots'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((19.0, 29.6, -27.0, -17.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bots name=BOTSWANA') br - BARBADOS ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['br'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-62.5, -56.5, 12.45, 13.85), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=br name=BARBADOS') bt - BRITISH INDIAN OC ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((71.25, 72.6, -7.5, -5.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bt name=BRITISH INDIAN OC') bu - BULGARIA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((22.0, 30.0, 40.0, 45.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bu name=BULGARIA') bv - BOUVET ISLANDS ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((3.0, 4.0, -55.0, -54.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bv name=BOUVET ISLANDS') bw - BANGLADESH ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((87.0, 93.0, 20.8, 27.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bw name=BANGLADESH') by - BYELORUSSIA ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['by'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((19.0, 33.0, 51.0, 60.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=by name=BYELORUSSIA') bz - BRAZIL -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['bz'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-75.0, -30.0, -35.0, 5.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=bz name=BRAZIL') cais - CANTON ISLAND ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cais'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-172.0, -171.0, -3.0, -2.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cais name=CANTON ISLAND') nwcar - NWX CARIBBEAN ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nwcar'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-120.0, -50.0, -15.0, 35.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nwcar name=NWX CARIBBEAN') cari - CARIBBEAN ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cari'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-103.0, -53.0, 3.0, 36.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cari name=CARIBBEAN') cb - CHAD ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((13.0, 25.0, 7.0, 24.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cb name=CHAD') ce - CENTRAL AFRICA ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ce'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((14.0, 29.0, 2.0, 11.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ce name=CENTRAL AFRICA') cg - CONGO ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((10.0, 20.0, -6.0, 5.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cg name=CONGO') ch - CHILE ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ch'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.0, -66.0, -56.0, -15.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ch name=CHILE') ci - CHINA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ci'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((85.0, 145.0, 14.0, 48.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ci name=CHINA') cm - CAMEROON ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((7.5, 17.1, 1.0, 14.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cm name=CAMEROON') colm - COLUMBIA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['colm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-81.0, -65.0, -5.0, 14.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=colm name=COLUMBIA') cr - CANARY ISLANDS ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-19.0, -13.0, 27.0, 30.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cr name=CANARY ISLANDS') cs - COSTA RICA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cs'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-86.5, -81.5, 8.2, 11.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cs name=COSTA RICA') cu - CUBA ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-85.0, -74.0, 19.0, 24.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cu name=CUBA') cv - CAPE VERDE ISLAND ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-26.0, -22.0, 14.0, 18.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cv name=CAPE VERDE ISLAND') cy - CYPRUS -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cy'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((32.0, 35.0, 34.0, 36.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cy name=CYPRUS') cz - CZECH REPUBLIC ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['cz'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((8.9, 22.9, 47.4, 52.4), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=cz name=CZECH REPUBLIC') dj - DJIBOUTI ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['dj'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((41.5, 44.1, 10.5, 13.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=dj name=DJIBOUTI') dl - GERMANY --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['dl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((4.8, 16.8, 47.0, 55.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=dl name=GERMANY') dn - DENMARK --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['dn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((8.0, 11.0, 54.0, 58.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=dn name=DENMARK') do - DOMINICA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['do'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-61.6, -61.2, 15.2, 15.8), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=do name=DOMINICA') dr - DOMINICAN REPUBLIC -------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['dr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-72.2, -68.0, 17.5, 20.2), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=dr name=DOMINICAN REPUBLIC') eg - EGYPT ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['eg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((24.0, 37.0, 21.0, 33.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=eg name=EGYPT') eq - ECUADOR --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['eq'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-85.0, -74.0, -7.0, 3.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=eq name=ECUADOR') er - UAE ----------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['er'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((50.0, 57.0, 22.0, 26.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=er name=UAE') es - EL SALVADOR ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['es'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-90.3, -87.5, 13.0, 14.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=es name=EL SALVADOR') et - ETHIOPIA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['et'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((33.0, 49.0, 2.0, 19.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=et name=ETHIOPIA') fa - FAEROES --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fa'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-8.0, -6.0, 61.0, 63.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fa name=FAEROES') fg - FRENCH GUIANA --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-55.0, -49.0, 1.0, 7.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fg name=FRENCH GUIANA') fi - FINLAND --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((20.9, 35.1, 59.0, 70.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fi name=FINLAND') fj - FIJI ISLANDS -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fj'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((176.0, 181.0, 16.0, 19.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fj name=FIJI ISLANDS') fk - FALKLAND ISLANDS ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-61.3, -57.5, -53.0, -51.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fk name=FALKLAND ISLANDS') fn - NIGER ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((0.0, 17.0, 11.0, 24.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fn name=NIGER') fr - FRANCE -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['fr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-5.0, 11.0, 41.0, 51.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=fr name=FRANCE') gb - GAMBIA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-17.1, -13.5, 13.0, 14.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gb name=GAMBIA') gc - CAYMAN ISLANDS ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-82.8, -77.6, 17.9, 21.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gc name=CAYMAN ISLANDS') gh - GHANA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gh'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-4.5, 1.5, 4.0, 12.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gh name=GHANA') gi - GIBRALTAR ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-8.0, -4.0, 35.0, 38.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gi name=GIBRALTAR') gl - GREENLAND ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-60, -20, 58.3, 85), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gl name=GREENLAND') glp - GUADALOUPE ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['glp'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-64.2, -59.8, 14.8, 19.2), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=glp name=GUADALOUPE') gm - GUAM ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((144.5, 145.1, 13.0, 14.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gm name=GUAM') gn - GUINEA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((2.0, 16.0, 3.5, 15.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gn name=GUINEA') go - GABON ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['go'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((8.0, 14.5, -4.6, 3.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=go name=GABON') gr - GREECE -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((20.0, 27.6, 34.0, 42.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gr name=GREECE') gu - GUATEMALA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-95.6, -85.0, 10.5, 21.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gu name=GUATEMALA') gw - GUINEA-BISSAU --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-17.5, -13.5, 10.8, 12.8), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gw name=GUINEA-BISSAU') gy - GUYANA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['gy'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-62.0, -55.0, 0.0, 10.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=gy name=GUYANA') ha - HAITI ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ha'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-75.0, -71.0, 18.0, 20.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ha name=HAITI') he - ST HELENA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['he'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-6.1, -5.5, -16.3, -15.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=he name=ST HELENA') hk - HONG KONG ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['hk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((113.5, 114.7, 22.0, 23.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=hk name=HONG KONG') ho - HONDURAS ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ho'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-90.0, -83.0, 13.0, 16.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ho name=HONDURAS') hu - HUNGARY --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['hu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((16.0, 23.0, 45.5, 49.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=hu name=HUNGARY') ic - COMOROS --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ic'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((43.0, 45.0, -13.2, -11.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ic name=COMOROS') icel - ICELAND ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['icel'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-24.1, -11.5, 63.0, 67.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=icel name=ICELAND') ie - IRELAND --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ie'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-11.1, -4.5, 50.0, 55.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ie name=IRELAND') inda - INDIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['inda'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((67.0, 92.0, 4.2, 36.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=inda name=INDIA') indo - INDONESIA ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['indo'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((95.0, 141.0, -8.0, 6.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=indo name=INDONESIA') iq - IRAQ ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['iq'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((38.0, 50.0, 29.0, 38.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=iq name=IRAQ') ir - IRAN ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ir'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((44.0, 65.0, 25.0, 40.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ir name=IRAN') is - ISRAEL -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['is'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((34.0, 37.0, 29.0, 34.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=is name=ISRAEL') iv - IVORY COAST ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['iv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-9.0, -2.0, 4.0, 11.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=iv name=IVORY COAST') iw - WEST BANK ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['iw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((34.8, 35.6, 31.2, 32.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=iw name=WEST BANK') iy - ITALY ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['iy'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((6.6, 20.6, 35.6, 47.2), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=iy name=ITALY') jd - JORDAN -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['jd'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((34.0, 39.6, 29.0, 33.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=jd name=JORDAN') jm - JAMAICA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['jm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-80.0, -76.0, 16.0, 19.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=jm name=JAMAICA') jp - JAPAN ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['jp'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((123.0, 155.0, 24.0, 47.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=jp name=JAPAN') ka - CAROLINE ISLANDS ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ka'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((131.0, 155.0, 1.0, 9.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ka name=CAROLINE ISLANDS') kash - JAMMU & KASHMIR ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['kash'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((74.0, 78.0, 32.0, 35.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=kash name=JAMMU & KASHMIR') kb - KIRIBATI ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['kb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((172.0, 177.0, -3.0, 3.2), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=kb name=KIRIBATI') khm - CAMBODIA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['khm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((102.0, 108.0, 10.0, 15.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=khm name=CAMBODIA') ki - CHRISTMAS ISLAND ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ki'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((105.2, 106.2, -11.0, -10.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ki name=CHRISTMAS ISLAND') kn - KENYA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['kn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((32.5, 42.1, -6.0, 6.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=kn name=KENYA') kna - ST KITTS & NEVIS ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['kna'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-62.9, -62.4, 17.0, 17.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=kna name=ST KITTS & NEVIS') ko - KOREA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ko'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((124.0, 131.5, 33.0, 43.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ko name=KOREA') ku - COOK ISLANDS -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ku'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-168.0, -155.0, -24.1, -6.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ku name=COOK ISLANDS') kw - KUWAIT -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['kw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((46.5, 48.5, 28.5, 30.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=kw name=KUWAIT') laos - LAOS -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['laos'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((100.0, 108.0, 13.5, 23.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=laos name=LAOS') lb - LEBANON --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['lb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((34.5, 37.1, 33.0, 35.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=lb name=LEBANON') lc - ST LUCIA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['lc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((60.9, 61.3, 13.25, 14.45), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=lc name=ST LUCIA') li - LIBERIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['li'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-12.0, -7.0, 4.0, 9.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=li name=LIBERIA') ln - LINE ISLANDS -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ln'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-162.1, -154.9, -4.2, 6.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ln name=LINE ISLANDS') ls - LESOTHO --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ls'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((27.0, 29.6, -30.6, -28.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ls name=LESOTHO') lt - LIECHTENSTEIN --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['lt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((9.3, 9.9, 47.0, 47.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=lt name=LIECHTENSTEIN') lux - LUXEMBOURG ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['lux'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((5.6, 6.6, 49.35, 50.25), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=lux name=LUXEMBOURG') ly - LIBYA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ly'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((8.0, 26.0, 19.0, 35.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ly name=LIBYA') maar - ST MAARTEN -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['maar'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-63.9, -62.3, 17.0, 18.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=maar name=ST MAARTEN') made - MADEIRA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['made'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-17.3, -16.5, 32.6, 33.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=made name=MADEIRA') mala - MALAYSIA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mala'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((100.0, 119.6, 1.0, 8.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mala name=MALAYSIA') mali - MALI -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mali'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-12.5, 6.0, 8.5, 25.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mali name=MALI') maur - MAURITIUS ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['maur'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((57.2, 57.8, -20.7, -19.9), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=maur name=MAURITIUS') maut - MAURITANIA -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['maut'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-17.1, -4.5, 14.5, 28.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=maut name=MAURITANIA') mc - MOROCCO --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-13.0, -1.0, 25.0, 36.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mc name=MOROCCO') mg - MADAGASCAR ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((43.0, 50.6, -25.6, -12.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mg name=MADAGASCAR') mh - MARSHALL ISLANDS ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mh'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((160.0, 172.0, 4.5, 12.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mh name=MARSHALL ISLANDS') ml - MALTA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ml'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((14.3, 14.7, 35.8, 36.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ml name=MALTA') mmr - MYANMAR ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mmr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((92.0, 102.0, 7.5, 28.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mmr name=MYANMAR') mong - MONGOLIA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mong'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((87.5, 123.1, 38.5, 52.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mong name=MONGOLIA') mr - MARTINIQUE ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-61.2, -60.8, 14.3, 15.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mr name=MARTINIQUE') mu - MACAO ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((113.0, 114.0, 22.0, 23.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mu name=MACAO') mv - MALDIVE ISLANDS ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((70.1, 76.1, -6.0, 10.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mv name=MALDIVE ISLANDS') mw - MALAWI -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((32.5, 36.1, -17.0, -9.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mw name=MALAWI') mx - MEXICO -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mx'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-119.0, -83.0, 13.0, 34.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mx name=MEXICO') my - MARIANNA ISLANDS ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['my'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((142.5, 148.5, 9.0, 25.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=my name=MARIANNA ISLANDS') mz - MOZAMBIQUE ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['mz'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((29.0, 41.0, -26.5, -9.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=mz name=MOZAMBIQUE') nama - NAMIBIA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nama'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((11.0, 25.0, -29.5, -16.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nama name=NAMIBIA') ncal - NEW CALEDONIA ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ncal'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((158.0, 172.0, -23.0, -18.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ncal name=NEW CALEDONIA') ng - NEW GUINEA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ng'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((130.0, 152.0, -11.0, 0.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ng name=NEW GUINEA') ni - NIGERIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ni'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((2.0, 14.6, 3.0, 14.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ni name=NIGERIA') nk - NICARAGUA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-88.0, -83.0, 10.5, 15.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nk name=NICARAGUA') nl - NETHERLANDS ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((3.5, 7.5, 50.5, 54.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nl name=NETHERLANDS') no - NORWAY -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['no'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((3.0, 35.0, 57.0, 71.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=no name=NORWAY') np - NEPAL ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['np'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((80.0, 89.0, 25.0, 31.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=np name=NEPAL') nw - NAURU ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((166.4, 167.4, -1.0, 0.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nw name=NAURU') nz - NEW ZEALAND ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['nz'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((165.0, 179.0, -48.0, -33.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=nz name=NEW ZEALAND') om - OMAN ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['om'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((52.0, 60.0, 16.0, 25.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=om name=OMAN') os - AUSTRIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['os'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((9.0, 18.0, 46.0, 50.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=os name=AUSTRIA') pf - FRENCH POLYNESIA ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pf'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-154.0, -134.0, -28.0, -8.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pf name=FRENCH POLYNESIA') ph - PHILIPINES ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ph'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((116.0, 127.0, 4.0, 21.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ph name=PHILIPINES') pi - PHOENIX ISLANDS ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-177.5, -167.5, -9.0, 1.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pi name=PHOENIX ISLANDS') pk - PAKISTAN ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((60.0, 78.0, 23.0, 37.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pk name=PAKISTAN') pl - POLAND -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((14.0, 25.0, 48.5, 55.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pl name=POLAND') pm - PANAMA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-83.0, -77.0, 7.0, 10.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pm name=PANAMA') po - PORTUGAL ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['po'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-10.0, -4.0, 36.5, 42.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=po name=PORTUGAL') pr - PERU ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-82.0, -68.0, -20.0, 5.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pr name=PERU') pt - PITCAIRN ISLANDS ------------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-130.6, -129.6, -25.56, -24.56), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pt name=PITCAIRN ISLANDS') pu - PUERTO RICO ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['pu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-67.5, -65.5, 17.5, 18.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=pu name=PUERTO RICO') py - PARAGUAY ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['py'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-65.0, -54.0, -32.0, -17.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=py name=PARAGUAY') qg - EQUATORIAL GUINEA ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['qg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((7.0, 12.0, -2.0, 3.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=qg name=EQUATORIAL GUINEA') qt - QATAR ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['qt'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((50.0, 52.0, 24.0, 27.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=qt name=QATAR') ra - RUSSIA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ra'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((40.0, 190.0, 35.0, 70.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ra name=RUSSIA') re - REUNION --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['re'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((55.0, 56.0, -21.5, -20.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=re name=REUNION') riro - RIO DE ORO -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['riro'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-18.0, -12.0, 17.5, 27.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=riro name=RIO DE ORO') ro - ROMANIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ro'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((19.0, 31.0, 42.5, 48.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ro name=ROMANIA') rw - RWANDA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['rw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((29.0, 31.0, -3.0, -1.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=rw name=RWANDA') saudi - SAUDI ARABIA ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['saudi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((4.6, 92.5, -13.2, 60.3), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=saudi name=SAUDI ARABIA') sb - SRI LANKA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((79.0, 83.0, 5.0, 10.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sb name=SRI LANKA') seyc - SEYCHELLES ISLANDS ---------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['seyc'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((55.0, 56.0, -5.0, -4.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=seyc name=SEYCHELLES ISLANDS') sg - SENEGAL --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-18.0, -10.0, 12.0, 17.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sg name=SENEGAL') si - SOMALIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['si'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((39.5, 52.1, -4.5, 13.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=si name=SOMALIA') sk - SARAWAK --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((109.5, 119.3, 1.0, 7.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sk name=SARAWAK') sl - SIERRA LEONE -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sl'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-13.6, -10.2, 6.9, 10.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sl name=SIERRA LEONE') sm - SURINAME ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-59.0, -53.0, 1.0, 6.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sm name=SURINAME') sn - SWEDEN -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((10.0, 25.0, 55.0, 69.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sn name=SWEDEN') so - SOLOMON ISLANDS ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['so'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((156.0, 167.0, -12.0, -6.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=so name=SOLOMON ISLANDS') sp - SPAIN ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sp'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-10.0, 6.0, 35.0, 44.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sp name=SPAIN') sr - SINGAPORE ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((103.0, 105.0, 1.0, 2.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sr name=SINGAPORE') su - SUDAN ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['su'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((21.5, 38.5, 3.5, 23.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=su name=SUDAN') sv - SWAZILAND ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((30.5, 33.1, -27.5, -25.3), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sv name=SWAZILAND') sw - SWITZERLAND ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((5.9, 10.5, 45.8, 48.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sw name=SWITZERLAND') sy - SYRIA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['sy'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((35.0, 42.6, 32.0, 37.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=sy name=SYRIA') tanz - TANZANIA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tanz'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((29.0, 40.6, -13.0, 0.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tanz name=TANZANIA') td - TRINIDAD & TOBAGO ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['td'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-62.1, -60.5, 10.0, 11.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=td name=TRINIDAD & TOBAGO') tg - TOGO ------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-0.5, 2.5, 5.0, 12.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tg name=TOGO') th - THAILAND ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['th'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((97.0, 106.0, 5.0, 21.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=th name=THAILAND') ti - TURKS ISLANDS --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ti'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-71.6, -70.6, 21.0, 22.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ti name=TURKS ISLANDS') tk - TOKELAU ISLANDS ----------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-173.0, -171.0, -11.5, -7.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tk name=TOKELAU ISLANDS') to - TONGA ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['to'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-178.5, -170.5, -22.0, -15.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=to name=TONGA') tp - SAO TOME-PRINCIPE ------------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tp'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((6.0, 7.6, 0.0, 2.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tp name=SAO TOME-PRINCIPE') ts - TUNISIA --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ts'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((7.0, 13.0, 30.0, 38.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ts name=TUNISIA') tu - TURKEY -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((25.0, 48.0, 34.1, 42.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tu name=TURKEY') tv - TUVALU -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tv'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((176.0, 180.0, -11.0, -5.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tv name=TUVALU') tw - TAIWAN -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['tw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((120.0, 122.0, 21.9, 25.3), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=tw name=TAIWAN') ug - UGANDA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ug'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((29.0, 35.0, -3.5, 5.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ug name=UGANDA') uk - UNITED KINGDOM ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['uk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-11.0, 5.0, 49.0, 60.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=uk name=UNITED KINGDOM') ur - UKRAINE --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ur'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((20.0, 41.0, 45.0, 52.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ur name=UKRAINE') uy - URUGUAY --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['uy'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-60.0, -52.0, -35.5, -29.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=uy name=URUGUAY') vanu - VANUATU ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['vanu'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((167.0, 170.0, -21.0, -13.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=vanu name=VANUATU') vi - VIRGIN ISLANDS ---------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['vi'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-65.5, -64.0, 16.6, 19.6), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=vi name=VIRGIN ISLANDS') vk - SLOVAKIA ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['vk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((13.8, 25.8, 46.75, 50.75), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=vk name=SLOVAKIA') vn - VENEZUELA ----------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['vn'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((-75.0, -60.0, -2.0, 14.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=vn name=VENEZUELA') vs - VIETNAM --------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['vs'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((102.0, 110.0, 8.0, 24.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=vs name=VIETNAM') wk - WAKE ISLAND ------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['wk'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((166.1, 167.1, 18.8, 19.8), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=wk name=WAKE ISLAND') ye - YEMEN ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['ye'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((42.5, 54.1, 12.5, 19.1), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=ye name=YEMEN') yg - YUGOSLAVIA ------------------ .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['yg'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((13.5, 24.6, 40.0, 47.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=yg name=YUGOSLAVIA') za - SOUTH AFRICA -------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['za'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((16.0, 34.0, -36.0, -22.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=za name=SOUTH AFRICA') zb - ZAMBIA -------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['zb'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((21.0, 35.0, -20.0, -7.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=zb name=ZAMBIA') zm - WESTERN SAMOA --------------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['zm'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((170.5, 173.5, -15.0, -13.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=zm name=WESTERN SAMOA') zr - ZAIRE ------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['zr'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((12.0, 31.6, -14.0, 6.0), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=zr name=ZAIRE') zw - ZIMBABWE ---------------- .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs import cartopy.feature as cfeature from metpy.plots import named_areas proj = named_areas['zw'].projection plt.figure(figsize=(8, 10)) ax = plt.subplot(111, projection=proj) ax.set_extent((25.0, 34.0, -22.9, -15.5), ccrs.PlateCarree()) ax.add_feature(cfeature.COASTLINE.with_scale('10m'), linewidth=1.1) ax.add_feature(cfeature.BORDERS.with_scale('10m'), edgecolor='black') ax.set_title(f'area=zw name=ZIMBABWE')