学術雑誌論文 Effects of different representations of stomatal conductance response to humidity across the African continent under warmer CO2-enriched climate conditions

佐藤, 永  ,  熊谷, 朝臣  ,  高橋, 厚裕  ,  KATUL, Gabriel  ,  SATO, Hisashi  ,  KUMAGAI, Tomo'omi  ,  TAKAHASHI, Atsuhiro  ,  KATUL, Gabriel

120 ( 5 )  , pp.979 - 988 , 2015-05-30 , American Geophysical Union
ISSN:21698953
NII書誌ID(NCID):AA12077675
内容記述
General circulation models (GCMs) forecast higher global vapor pressure deficit (VPD) but unchanged global relative humidity (RH) in future climates. A literature survey revealed that 50% of Earth system models (ESMs) and land surface models (LSMs) embedded within GCMs employ RH as an atmospheric aridity index when describing stomatal conductance (gs), whereas the remaining 50% employ VPD. The consequences of using RH or VPD in gs models for water cycling and vegetation productivity in future climates on large spatial and temporal scales remain to be explored. Process-based global dynamic vegetation model runs, changes in the hydrological cycle, and concomitant vegetation productivity for the 21st century projected climate were conducted by altering only gs responses to VPD or RH and not changing any other formulations. In the simulations of the African continent under a 21st century warming trend, both stomatal functions of VPD and RH resulted in similar gross geographic patterns in primary production (GPP). However, continental total GPP was larger for the VPD response than that for the RH response. Transpiration rates were lower, resulting in a 13% increase in water-use efficiency for the VPD response compared with its RH counterpart.
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http://www.jamstec.go.jp/jdb/ronbun/Ks00045534.pdf

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