Current Perspective to Predict Actual Evapotranspiration 2017
DOI: 10.5772/intechopen.68347
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Evapotranspiration in Northern Agro-Ecosystems: Numerical Simulation and Experimental Comparison

Abstract: Evapotranspiration and near-surface soil moisture dynamics are key-entangled variables regulating flux at the surface-atmosphere interface. Both are central in improving mass and energy balances in agro ecosystems. However, under the extreme conditions of high-latitude soils and weather pattern variability, the implementation of such coupled liquid and vapor phase numerical simulation remain to be tested. We consider the nonisothermal solution of the vapor flux equation that accounts for the thermally driven w… Show more

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Cited by 2 publications
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“…On the other hand, the obtained value was lower than similar observations in rubber forest in northeast Thailand and Central Cambodia, which were 83 % and 84 %, respectively [4]. This value is relatively low when compared to that reported in young secondary dry dipterocarp forest in western Thailand (83 -87 %) [20], boreal forests (94 %) [21], evergreen broadleaf forests and savannas (91 -94 %) [19], and high latitude agroecosystem (95 %) [22,23]. The issue on the general lack of energy balance closure has been the topic of much discussion during the past few decades [16,19,[24][25][26].…”
Section: Energy Balance and Evapotranspirationcontrasting
confidence: 62%
“…On the other hand, the obtained value was lower than similar observations in rubber forest in northeast Thailand and Central Cambodia, which were 83 % and 84 %, respectively [4]. This value is relatively low when compared to that reported in young secondary dry dipterocarp forest in western Thailand (83 -87 %) [20], boreal forests (94 %) [21], evergreen broadleaf forests and savannas (91 -94 %) [19], and high latitude agroecosystem (95 %) [22,23]. The issue on the general lack of energy balance closure has been the topic of much discussion during the past few decades [16,19,[24][25][26].…”
Section: Energy Balance and Evapotranspirationcontrasting
confidence: 62%