OISST AVHRR Grid (Projected)

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OISST AVHRR Grid (Projected)#

This example demonstrates how to render a projected rectilinear grid.

πŸ“‹ Summary#

Creates a mesh from 1-D latitude and longitude rectilinear cell bounds.

The resulting mesh contains quad cells.

The example uses NOAA/NECI 1/4Β° Daily Optimum Interpolation Sea Surface Temperature (OISST) v2.1 Advanced Very High Resolution Radiometer (AVHRR) gridded data. The data targets the mesh faces/cells.

Note that, a threshold is also applied to remove land NaN cells, and a NASA Blue Marble base layer is rendered along with Natural Earth coastlines. The mesh is also transformed to the Equidistant Cylindrical (Plate CarrΓ©e) conformal cylindrical projection.

Tags: Coastlines Projection Rectilinear Texture Threshold


from 1d  oisst eqc
from __future__ import annotations

import geovista as gv
from geovista.pantry.data import oisst_avhrr_sst
import geovista.theme


def main() -> None:
    """Plot a projected OISST AVHRR rectilinear grid.

    Notes
    -----
    .. versionadded:: 0.1.0

    """
    # Load the sample data.
    sample = oisst_avhrr_sst()

    # Create the mesh from the sample data.
    mesh = gv.Transform.from_1d(sample.lons, sample.lats, data=sample.data)

    # Remove cells from the mesh with NaN values.
    mesh = mesh.threshold()

    # Plot the rectilinear grid.
    crs = "+proj=eqc"
    plotter = gv.GeoPlotter(crs=crs)
    sargs = {"title": f"{sample.name} / {sample.units}", "shadow": True}
    plotter.add_mesh(mesh, scalar_bar_args=sargs)
    plotter.add_base_layer(texture=gv.blue_marble())
    plotter.add_coastlines()
    plotter.add_axes()
    plotter.add_text(
        f"NOAA/NCEI OISST AVHRR ({crs})",
        position="upper_left",
        font_size=10,
        shadow=True,
    )
    plotter.view_xy()
    plotter.camera.zoom(1.5)
    plotter.show()


if __name__ == "__main__":
    main()

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