A Framework for Assessing Soil Moisture Deficit and Crop Water Stress at Multiple Space and Time Scales Under Climate Change Scenarios Using Model Platform, Satellite Remote Sensing, and Decision Support System

Binayak P. Mohanty; Amor V. M. Ines; Yongchul Shin; Nandita Gaur; Narendra Das; Raghavendra Jana

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A Framework for Assessing Soil Moisture Deficit and Crop Water Stress at Multiple Space and Time Scales Under Climate Change Scenarios Using Model Platform, Satellite Remote Sensing, and Decision Support System

Mohanty B
Ines A
Shin Y
et al.

DOI: 10.1007/978-3-319-43744-6_9

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Abstract

… Furthermore, the influence of vegetation on soil moisture is more dynamic (Mohanty et al … 2007, 2008), adaptive Markov Chain Monte Carlo (Das et al … Method 2—Nonhomogeneous Hidden Markov Model: This model aims to relate regional or local hydrologic process (discrete or …

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Mohanty, B. P., Ines, A. V. M., Shin, Y., Gaur, N., Das, N., & Jana, R. (2017). A Framework for Assessing Soil Moisture Deficit and Crop Water Stress at Multiple Space and Time Scales Under Climate Change Scenarios Using Model Platform, Satellite Remote Sensing, and Decision Support System (pp. 173–196). https://doi.org/10.1007/978-3-319-43744-6_9

A Framework for Assessing Soil Moisture Deficit and Crop Water Stress at Multiple Space and Time Scales Under Climate Change Scenarios Using Model Platform, Satellite Remote Sensing, and Decision Support System

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