Integrated modeling of canopy photosynthesis, fluorescence, and the transfer of energy, mass, and momentum in the soil–plant–atmosphere continuum (STEMMUS–SCOPE v1.0.0)
Yunfei Wang et al.
Viewed
Total article views: 2,370 (including HTML, PDF, and XML)
HTML
PDF
XML
Total
BibTeX
EndNote
1,660
638
72
2,370
42
67
HTML: 1,660
PDF: 638
XML: 72
Total: 2,370
BibTeX: 42
EndNote: 67
Views and downloads (calculated since 02 Jun 2020)
Cumulative views and downloads
(calculated since 02 Jun 2020)
Total article views: 1,381 (including HTML, PDF, and XML)
HTML
PDF
XML
Total
BibTeX
EndNote
958
396
27
1,381
8
23
HTML: 958
PDF: 396
XML: 27
Total: 1,381
BibTeX: 8
EndNote: 23
Views and downloads (calculated since 11 Mar 2021)
Cumulative views and downloads
(calculated since 11 Mar 2021)
Total article views: 989 (including HTML, PDF, and XML)
HTML
PDF
XML
Total
BibTeX
EndNote
702
242
45
989
34
44
HTML: 702
PDF: 242
XML: 45
Total: 989
BibTeX: 34
EndNote: 44
Views and downloads (calculated since 02 Jun 2020)
Cumulative views and downloads
(calculated since 02 Jun 2020)
Viewed (geographical distribution)
Total article views: 1,940 (including HTML, PDF, and XML)
Thereof 1,938 with geography defined
and 2 with unknown origin.
Total article views: 1,187 (including HTML, PDF, and XML)
Thereof 1,187 with geography defined
and 0 with unknown origin.
Total article views: 753 (including HTML, PDF, and XML)
Thereof 751 with geography defined
and 2 with unknown origin.
This study integrates photosynthesis and transfer of energy, mass, and momentum in the soil–plant–atmosphere continuum system, via a simplified 1D root growth model. The results indicated that the simulation of land surface fluxes was significantly improved by considering the root water uptake, especially when vegetation was experiencing severe water stress. This finding highlights the importance of enhanced soil heat and moisture transfer in simulating ecosystem functioning.
This study integrates photosynthesis and transfer of energy, mass, and momentum in the...