Incorporating changes in land surface temperature improves BESS evapotranspiration estimates under water-deficit conditions: A case study for US Midwest and Great Plains grasslands

IF 5.9 1区 地球科学 Q1 ENGINEERING, CIVIL
Xiaoman Lu , Kaiyu Guan , Chongya Jiang , Lun Gao , Sheng Wang , Jiaying Zhang
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引用次数: 0

Abstract

Evapotranspiration (ET) is a critical climate and ecosystem variable that interconnects water, energy, and carbon cycles. Breathing Earth System Simulator (BESS) is one of the state-of-the-art biophysical models capable of producing spatio-temporal continuous ET results. However, we found that since the BESS model does not use an explicit constraint on soil moisture (SM), it has a relatively lower performance under drier conditions. Given that changes in land surface temperature (LST) are closely associated with surface water status and sensible heat energy, we hypothesize that integrating LST changes could explicitly add the soil moisture constraints and thus enhance BESS’s ability to estimate ET. Here we used the morning rise rate of LST (Trate) as a proxy of LST change because of the low noise level in Trate as well as Trate’s close relationship with daily mean sensible heat. To test the hypothesis, this study first assessed whether the performance of BESS ET can be explained by the LST change, targeting grassland sites of the AmeriFlux network in the US Midwest and Great Plains. Specifically, the ET deviation (i.e., the difference between BESS-modeled ET and field-measured ET) and Trate deviation, as well as their relationships, were investigated under different conditions of precipitation, SM, and vapor pressure deficit at the AmeriFlux sites. Results indicated that BESS ET exhibited consistently higher performance under well-watered conditions than water-deficit conditions. Also, the deviations of ET and Trate became more negatively correlated under water-deficit conditions. Leveraging the empirical relationship between ET and Trate deviations, this study developed a new way to calibrate BESS ET based on Trate calculated from LST diurnal observations, particularly under soil or atmospheric water-deficit conditions. After calibrating BESS ET, the statistical indicators between the calibrated ET and the ground measurements showed meaningful improvements relative to those before calibration. Specifically, in the Midwest (Great Plains), R2 increased from 0.42 to 0.51 (from 0.45 to 0.46), and RMSE and absolute bias decreased by 12% and 42% (11% and 45%), respectively. This study highlights that the morning rise rate of LST can effectively constrain the ET models that have no SM constraints under water-deficit conditions and also sheds lights on improved ET estimation for crop, biofuel, and pastureland production in dryland and semi-dryland ecosystems.
纳入地表温度变化可改进缺水条件下的 BESS 蒸发蒸散估算:美国中西部和大平原草地案例研究
蒸散量(ET)是一个关键的气候和生态系统变量,它将水、能源和碳循环联系在一起。呼吸地球系统模拟器(BESS)是最先进的生物物理模型之一,能够生成连续的时空蒸散量结果。然而,我们发现,由于 BESS 模型没有使用明确的土壤湿度(SM)约束,因此在较干旱条件下性能相对较低。鉴于地表温度(LST)的变化与地表水状态和显热能量密切相关,我们假设,整合 LST 变化可以明确增加土壤水分约束,从而提高 BESS 估算蒸散发的能力。在这里,我们使用 LST 的早晨上升率(Trate)作为 LST 变化的替代值,因为 Trate 的噪声水平较低,而且 Trate 与日平均显热关系密切。为了验证这一假设,本研究首先以美国中西部和大平原 AmeriFlux 网络的草原站点为对象,评估了 BESS 蒸散发的性能是否可以用 LST 变化来解释。具体而言,研究了 AmeriFlux 站点在不同降水、SM 和蒸汽压力不足条件下的蒸散发偏差(即 BESS 模拟的蒸散发与实地测量的蒸散发之间的差异)和 Trate 偏差及其关系。结果表明,在水分充足的条件下,BESS 的蒸散发性能始终高于缺水条件。此外,在缺水条件下,蒸散发和三酸甘油酯的偏差呈负相关。利用蒸散发和钾盐偏差之间的经验关系,本研究开发了一种新方法,根据 LST 日间观测计算的钾盐来校准 BESS 蒸散发,尤其是在土壤或大气缺水条件下。校准 BESS 蒸散发后,校准蒸散发与地面测量之间的统计指标与校准前相比有了明显改善。具体而言,在中西部(大平原),R2 从 0.42 增加到 0.51(从 0.45 增加到 0.46),RMSE 和绝对偏差分别减少了 12% 和 42%(11% 和 45%)。这项研究表明,在缺水条件下,LST 的晨间上升率可以有效地约束没有 SM 约束的蒸散发模型,同时也为改进干旱和半干旱生态系统中作物、生物燃料和牧场生产的蒸散发估算提供了启示。
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来源期刊
Journal of Hydrology
Journal of Hydrology 地学-地球科学综合
CiteScore
11.00
自引率
12.50%
发文量
1309
审稿时长
7.5 months
期刊介绍: The Journal of Hydrology publishes original research papers and comprehensive reviews in all the subfields of the hydrological sciences including water based management and policy issues that impact on economics and society. These comprise, but are not limited to the physical, chemical, biogeochemical, stochastic and systems aspects of surface and groundwater hydrology, hydrometeorology and hydrogeology. Relevant topics incorporating the insights and methodologies of disciplines such as climatology, water resource systems, hydraulics, agrohydrology, geomorphology, soil science, instrumentation and remote sensing, civil and environmental engineering are included. Social science perspectives on hydrological problems such as resource and ecological economics, environmental sociology, psychology and behavioural science, management and policy analysis are also invited. Multi-and interdisciplinary analyses of hydrological problems are within scope. The science published in the Journal of Hydrology is relevant to catchment scales rather than exclusively to a local scale or site.
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