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Understanding water and energy fluxes in the Amazonia: Lessons from an observation-model intercomparison

环境科学 大气科学 亚马逊雨林 蒸散量 水文学(农业) 涡度相关法 气候变化 降水 焊剂(冶金)
作者
Natalia Restrepo-Coupe,Loren P. Albert,Marcos Longo,Ian Baker,Naomi M. Levine,Lina M. Mercado,A. C. Araujo,Bradley O. Christoffersen,Marcos Heil Costa,David R. Fitzjarrald,David W. Galbraith,Hewlley Maria Acioli Imbuzeiro,Yadvinder Malhi,Celso von Randow,Xubin Zeng,Paul Moorcroft,Scott R. Saleska
出处
期刊:Global Change Biology [Wiley]
卷期号:27 (9): 1802-1819
标识
DOI:10.1111/gcb.15555
摘要

Tropical forests are an important part of global water and energy cycles, but the mechanisms that drive seasonality of their land-atmosphere exchanges have proven challenging to capture in models. Here, we (1) report the seasonality of fluxes of latent heat (LE), sensible heat (H), and outgoing short and longwave radiation at four diverse tropical forest sites across Amazonia-along the equator from the Caxiuana and Tapajos National Forests in the eastern Amazon to a forest near Manaus, and from the equatorial zone to the southern forest in Reserva Jaru; (2) investigate how vegetation and climate influence these fluxes; and (3) evaluate land surface model performance by comparing simulations to observations. We found that previously identified failure of models to capture observed dry-season increases in evapotranspiration (ET) was associated with model overestimations of (1) magnitude and seasonality of Bowen ratios (relative to aseasonal observations in which sensible was only 20%-30% of the latent heat flux) indicating model exaggerated water limitation, (2) canopy emissivity and reflectance (albedo was only 10%-15% of incoming solar radiation, compared to 0.15%-0.22% simulated), and (3) vegetation temperatures (due to underestimation of dry-season ET and associated cooling). These partially compensating model-observation discrepancies (e.g., higher temperatures expected from excess Bowen ratios were partially ameliorated by brighter leaves and more interception/evaporation) significantly biased seasonal model estimates of net radiation (Rn ), the key driver of water and energy fluxes (LE ~ 0.6 Rn and H ~ 0.15 Rn ), though these biases varied among sites and models. A better representation of energy-related parameters associated with dynamic phenology (e.g., leaf optical properties, canopy interception, and skin temperature) could improve simulations and benchmarking of current vegetation-atmosphere exchange and reduce uncertainty of regional and global biogeochemical models.

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