Nitrogen prediction model of rice plant at panicle initiation stage using ground-based hyperspectral imaging: growing degree-days integrated model-Reference-Cited by-同舟云学术

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Nitrogen prediction model of rice plant at panicle initiation stage using ground-based hyperspectral imaging: growing degree-days integrated model

Published:2015-04-12 Issue:5 Volume:16 Page:558-570
ISSN:1385-2256
Container-title:Precision Agriculture
language:en
Short-container-title:Precision Agric

Author:

Onoyama Hiroyuki,Ryu Chanseok,Suguri Masahiko,Iida Michihisa

Publisher

Springer Science and Business Media LLC

Subject

General Agricultural and Biological Sciences

Link

http://link.springer.com/content/pdf/10.1007/s11119-015-9394-9.pdf

Reference16 articles.

1. Bajwa, S. G., Mishra, A. R., & Norman, R. J. (2010). Canopy reflectance response to plant nitrogen accumulation in rice. Precision Agriculture, 11, 488–506.

2. Hansen, P. M., & Schjoerring, J. K. (2003). Reflectance measurement of canopy biomass and nitrogen status in wheat crops using normalized difference vegetation indices and partial least squares regression. Remote Sensing of Environment, 86, 542–553.

3. Inamura, T., Hamada, H., Iida, K., & Umeda, M. (2003). Correlation of the amount of nitrogen accumulated in the aboveground biomass at panicle initiation and nitrogen content of soil with the nitrogen uptake by lowland rice during the period from panicle initiation to heading. Plant Production Science, 6(4), 302–308.

4. McMaster, G. S., & Wilhelm, W. W. (1997). Growing degree-days: one equation, two interpretations. Agricultural and Forest Meteorology, 87, 291–300.

5. Nguyen, H. T., & Lee, B. W. (2006). Assessment of rice leaf growth and nitrogen status by hyperspectral canopy reflectance and partial least square regression. European Journal of Agronomy, 24, 349–356.

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