Predicting vegetation water content in wheat using normalized difference water indices derived from ground measurements
Author:
Publisher
Springer Science and Business Media LLC
Subject
Plant Science
Link
http://link.springer.com/content/pdf/10.1007/s10265-009-0215-y.pdf
Reference30 articles.
1. Bowyer P, Danson FM (2004) Sensitivity of remotely sensed spectral reflectance to variation in live fuel moisture content. Remote Sens Environ 92:297–308
2. Carter GA (1991) Primary and secondary effects of water content on the spectral reflectance of leaves. Am J Bot 78:916–924
3. Ceccato P, Flasse S, Tarantola S, Jacquemoud S, Gregoire JM (2001) Detecting vegetation leaf water content using reflectance in the optical domain. Remote Sens Environ 77:22–33
4. Ceccato P, Gobron N, Flasse S, Pinty B, Tarantola S (2002) Designing a spectral index to estimate vegetation water content from remote sensing data. Part 1. Theoretical approach. Remote Sens Environ 82:188–197
5. Chen D, Huang J, Jackson TJ (2005) Vegetation water content estimation for corn and soybeans using spectral indices from MODIS near- and short-wave infrared bands. Remote Sens Environ 98:225–236
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