TY  -  
T1  - Tropical Peatland Hydrology Simulated With a Global Land Surface Model 
SN  -  /  
UR  - http://hdl.handle.net/10138/343141 
T3  -  
A1  - Apers, S.; De Lannoy, G. J. M.; Baird, A. J.; Cobb, A. R.; Dargie, G. C.; Pasquel, J.; Gruber, A.; Hastie, A.; Hidayat, H.; Hirano, T.; Hoyt, A. M.; Jovani-Sancho, A. J.; Katimon, A.; Kurnain, A.; Koster, R. D.; Lampela, Maija; Mahanama, S. P. P.; Melling, L.; Page, S. E.; Reichle, R. H.; Taufik, M.; Vanderborght, J.; Bechtold, M. 
A2  -  
PB  -  
Y1  - 2022 
LA  - eng 
AB  - Tropical peatlands are among the most carbon-dense ecosystems on Earth, and their water storage dynamics strongly control these carbon stocks. The hydrological functioning of tropical peatlands differs from that of northern peatlands, which has not yet been accounted for in global land surface models (LSMs). Here, we integrated tropical peat-specific hydrology modules into a global LSM for the first time, by utilizing the peatland-specific model structure adaptation (PEATCLSM) of the NASA Catchm... 
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KW  - PEATCLSM; groundwater; drainage; peat swamp; evaporation; wetland; ESSENTIAL CLIMATE VARIABLES; CATCHMENT-BASED APPROACH; WATER-TABLE DEPTH; PHYSICAL-PROPERTIES; HYDRAULIC CONDUCTIVITY; SWAMP FOREST; GEOV1 LAI; EMISSIONS; EVAPORATION; VARIABILITY; 1172 Environmental sciences; 1171 Geosciences 
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