Revisiting global vegetation controls using multi‐layer soil moisture
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
Revisiting Global Vegetation Controls Using Multi-Layer Soil Moisture.
W Li, M Migliavacca, M Forkel… - Geophysical …, 2021 - search.ebscohost.com
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
Revisiting Global Vegetation Controls Using Multi-Layer Soil Moisture
W Li, M Migliavacca, M Forkel… - Geophysical …, 2021 - ui.adsabs.harvard.edu
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
Revisiting Global Vegetation Controls Using Multi‐Layer Soil Moisture
W Li, M Migliavacca, M Forkel, S Walther… - Geophysical …, 2021 - e-docs.geo-leo.de
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
[PDF][PDF] Revisiting global vegetation controls using multi-layer soil moisture
W Li, M Migliavacca, M Forkel, S Walther, M Reichstein… - core.ac.uk
While the ERA5 soil moisture product is in principle derived with a land surface model and
therefore can potentially reflect its shortcomings. The assimilation of observations from …
therefore can potentially reflect its shortcomings. The assimilation of observations from …
[PDF][PDF] Revisiting global vegetation controls using multi-layer soil moisture
W Li, M Migliavacca, M Forkel, S Walther… - Geophysical …, 2021 - scholar.archive.org
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
Revisiting global vegetation controls using multi-layer soil moisture.
W Li, M Migliavacca, M Forkel, S Walther, M Reichstein… - 2021 - cabidigitallibrary.org
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
[PDF][PDF] Revisiting global vegetation controls using multi-layer soil moisture
W Li, M Migliavacca, M Forkel, S Walther… - Geophysical Research …, 2021 - pure.mpg.de
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
[PDF][PDF] Revisiting global vegetation controls using multi-layer soil moisture
W Li, M Migliavacca, M Forkel, S Walther… - Geophysical …, 2021 - researchgate.net
The productivity of terrestrial vegetation is determined by multiple land surface and
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …
atmospheric drivers. Water availability is critical for vegetation productivity, but the role of …