Methodology for measuring fAPAR in crops using a combination of active optical and linear irradiance sensors: a case study in Triticale (X Triticosecale Wittmack)-Reference-Cited by-同舟云学术

Methodology for measuring fAPAR in crops using a combination of active optical and linear irradiance sensors: a case study in Triticale (X Triticosecale Wittmack)

Published:2014-02-14 Issue:5 Volume:15 Page:532-542
ISSN:1385-2256
Container-title:Precision Agriculture
language:en
Short-container-title:Precision Agric

Author:

Rahman M. M.,Stanley J. N.,Lamb D. W.,Trotter M. G.

Publisher

Springer Science and Business Media LLC

Subject

General Agricultural and Biological Sciences

Link

http://link.springer.com/content/pdf/10.1007/s11119-014-9349-6.pdf

Reference33 articles.

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2. Arkin, G. F., Ritchie, J. T., & Mass, S. J. (1978). A model for calculating light interception by a grain sorghum canopy. Transactions of the American Society of Agricultural Engineers, 21(2), 303–308.

3. Asrar, G., Fuchs, M., Kanemasu, E. T., & Hatfield, J. L. (1984). Estimating absorbed photosynthetic radiation and leaf area index from spectral reflectance in wheat. Agronomy Journal, 76(2), 300–306. doi: 10.2134/agronj1984.00021962007600020029x .

4. Asrar, G., Myneni, R. B., & Choudhury, B. J. (1992). Spatial heterogeneity in vegetation canopies and remote sensing of absorbed photosynthetically active radiation: A modeling study. Remote Sensing of Environment, 41(2–3), 85–103. doi: 10.1016/0034-4257(92)90070-z .

5. Baker, D. N., & Musgrave, R. B. (1964). Photosynthesis under field conditions. V. Further plant chamber studies of the effect of light on corn (Zea mays L.). Crop Science, 4(2), 127–131. doi: 10.2135/cropsci1964.0011183X000400020001x .

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