A Two-Source Model for Estimating Evaporative Fraction (TMEF) Coupling Priestley-Taylor Formula and Two-Stage Trapezoid

Author: Sun Hao  

Publisher: MDPI

E-ISSN: 2072-4292|8|3|248-248

ISSN: 2072-4292

Source: Remote Sensing, Vol.8, Iss.3, 2016-03, pp. : 248-248

Access to resources Favorite

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

Remotely sensed land surface temperature and fractional vegetation coverage (LST/FVC) space has been widely used in modeling and partitioning land surface evaporative fraction (EF) which is important in managing water resources. However, most of such models are based on conventional trapezoid and simply determine the wet edge as air temperature (Ta) or the lowest LST value in an image. We develop a new Two-source Model for estimating EF (TMEF) based on a two-stage trapezoid coupling with an extension of the Priestly-Taylor formula. Latent heat flux on the wet edge is calculated with the Priestly-Taylor formula, whereas that on the dry edge is set to 0. The wet and dry edges are then determined by solving radiation budget and energy balance equations. The model was evaluated by comparing with other two models that based on conventional trapezoid (i.e., the Two-source Trapezoid Model for Evapotranspiration (TTME) and a One-source Trapezoid model for EF (OTEF)) in how well they simulate and partition EF using MODIS products and field observations from HiWATER-MUSOEXE in 2012. Results show that the TMEF outperforms the other two models, where EF mean absolute relative deviations are 9.57% (TMEF), 15.03% (TTME), and 30.49% (OTEF).

Related content

Validation and Application of the Modified Satellite-Based Priestley-Taylor Algorithm for Mapping Terrestrial Evapotranspiration

By Yao Yunjun   Liang Shunlin   Zhao Shaohua   Zhang Yuhu   Qin Qiming   Cheng Jie   Jia Kun   Xie Xianhong   Zhang Nannan   Liu Meng  

Remote Sensing, Vol. 6, Iss. 1, 2014-01 ,pp. : 880-904 (25)

MDPI

Access to resources Recommend Favorite

Inter-Algorithm Relationships for the Estimation of the Fraction of Vegetation Cover Based on a Two Endmember Linear Mixture Model with the VI Constraint

By Obata Kenta   Yoshioka Hiroki  

Remote Sensing, Vol. 2, Iss. 7, 2010-07 ,pp. : 1680-1701 (22)

MDPI

Access to resources Recommend Favorite

Relationships Between Errors Propagated in Fraction of Vegetation Cover by Algorithms Based on a Two-Endmember Linear Mixture Model

By Obata Kenta   Yoshioka Hiroki  

Remote Sensing, Vol. 2, Iss. 12, 2010-12 ,pp. : 2680-2699 (20)

MDPI

Access to resources Recommend Favorite

Remote Sensing Based Two-Stage Sampling for Accuracy Assessment and Area Estimation of Land Cover Changes

By Gallaun Heinz   Steinegger Martin   Wack Roland   Schardt Mathias   Kornberger Birgit   Schmitt Ursula  

Remote Sensing, Vol. 7, Iss. 9, 2015-09 ,pp. : 11992-12008 (17)

MDPI

Access to resources Recommend Favorite

A Comparison of Two Open Source LiDAR Surface Classification Algorithms

By Tinkham Wade T.   Huang Hongyu   Smith Alistair M. S.   Shrestha Rupesh   Falkowski Michael J.   Hudak Andrew T.   Link Timothy E.   Glenn Nancy F.   Marks Danny G.  

Remote Sensing, Vol. 3, Iss. 3, 2011-03 ,pp. : 638-649 (12)

MDPI

Access to resources Recommend Favorite