Global soil moisture simulated by SoilClim and mHM models at 0.5° resolution for the 1980–2022 period

This deposit contains two .zip archives (SoilClim_AWR_2m_1980_2022.zip and mHM_SM_2m_1980_2022.zip), each containing 1570 GeoTIFF files. The file SoilClim_AWR_2m_1980_2022.zip contains 10-day simulations of relative available water (AWR), where 100% represents the full field capacity and 0% represen...

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Bibliographic Details
Main Authors: Řehoř, Jan, Brázdil, Rudolf, Rakovec, Oldřich, Hanel, Martin, Fischer, Milan, Kumar, Rohini, Balek, Jan, Poděbradská, Markéta, Moravec, Vojtěch, Samaniego, Luis, Trnka, Miroslav
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2024
Subjects:
Antarc*
Antarctica
Online Access:https://doi.org/10.5281/zenodo.11395946
Description
Summary:This deposit contains two .zip archives (SoilClim_AWR_2m_1980_2022.zip and mHM_SM_2m_1980_2022.zip), each containing 1570 GeoTIFF files. The file SoilClim_AWR_2m_1980_2022.zip contains 10-day simulations of relative available water (AWR), where 100% represents the full field capacity and 0% represents the wilting point, produced the SoilClim water balance model for the 2.0 m soil depth, covering a global nonglaciated land with a 0.5° resolution, excluding latitudes above 72° N and all of Antarctica, for the 1980–2022 period. The file mHM_SM_2m_1980_2022.zip contains 10-day simulations of soil moisture (SM), produced the mesoscale Hydrologic Model (mHM) for the 2.0 m soil depth, covering a global nonglaciated land with a 0.5° resolution, excluding latitudes above 72° N and all of Antarctica, for the 1980–2022 period.

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