Crop water stress index and yield of water-deficit-stressed alfalfa

The yield relationship of water-deficit-stressed alfalfa (Medicago sativa L.) with the Crop Water Stress Index (CWSI) may be dynamic over the alfalfa harvest period. This investigation was conducted to define the alfalfa yield-CWSI relationship(s), to test possible advantages of using the CWSI over...

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Main Authors: Hattendorf, M. J., Carlson, R. E., Abd Halim, Mohd Ridzwan, Buxton, D. R.
Format: Article
Language:English
Published: American Society of Agronomy 1988
Online Access:http://psasir.upm.edu.my/id/eprint/39124/1/60.%20Crop%20water%20stress%20index%20and%20yield%20of%20water-deficit-stressed%20alfalfa.pdf
http://psasir.upm.edu.my/id/eprint/39124/
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Institution: Universiti Putra Malaysia
Language: English
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spelling my.upm.eprints.391242019-11-14T07:39:53Z http://psasir.upm.edu.my/id/eprint/39124/ Crop water stress index and yield of water-deficit-stressed alfalfa Hattendorf, M. J. Carlson, R. E. Abd Halim, Mohd Ridzwan Buxton, D. R. The yield relationship of water-deficit-stressed alfalfa (Medicago sativa L.) with the Crop Water Stress Index (CWSI) may be dynamic over the alfalfa harvest period. This investigation was conducted to define the alfalfa yield-CWSI relationship(s), to test possible advantages of using the CWSI over the canopy-min us-air temperature (Tc-Ta) differential, and to combine the yield-CWSI relationship with a growth function. •Apollo II' alfalfa was grown for 2 yr in 100-L containers set into the ground and protected from rain by a movable shelter. The soil was a Nicollet silt loam topsoil (fine-loamy, mixed, mesic Aquic Hapludoll). Treatments were irrigation levels of 112, 100,88,77, and 65% field capacity. Five harvests were taken at 7-d intervals beginning 21 d 'after an initial clipping. Canopy temperatures were taken daily with an infrared thermometer. A series of exponential yield-CWSI curves resulted from the sequential harvests. Yield reductions of about 10 and 20% resulted from mean CWSI of 0.05 and a.lO, respectively, over 42-d periods. The Gompertz growth function was modified for water-deficit- stress by combining it with the exponential yield-CWSI relationship. Vapor-pressure deficit (VPD) effectively normalized the Tc-Ta data, allowing yield data of the 2 yr to be combined in the yield-mean CWSI relationship. Yield and Tc-Ta data not normalized for VPD showed clear separation by year for slight VPD differences. Alfalfa yield response to water-deficit-stress over time appeared to be adequately described by the combined Gompertz function and the yield-CWSI (Tc+Ta normalized for VPD) curves. American Society of Agronomy 1988-11 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/39124/1/60.%20Crop%20water%20stress%20index%20and%20yield%20of%20water-deficit-stressed%20alfalfa.pdf Hattendorf, M. J. and Carlson, R. E. and Abd Halim, Mohd Ridzwan and Buxton, D. R. (1988) Crop water stress index and yield of water-deficit-stressed alfalfa. Agronomy Journal, 80 (6). pp. 871-875. ISSN 0002-1962; ESSN: 1435-0645
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description The yield relationship of water-deficit-stressed alfalfa (Medicago sativa L.) with the Crop Water Stress Index (CWSI) may be dynamic over the alfalfa harvest period. This investigation was conducted to define the alfalfa yield-CWSI relationship(s), to test possible advantages of using the CWSI over the canopy-min us-air temperature (Tc-Ta) differential, and to combine the yield-CWSI relationship with a growth function. •Apollo II' alfalfa was grown for 2 yr in 100-L containers set into the ground and protected from rain by a movable shelter. The soil was a Nicollet silt loam topsoil (fine-loamy, mixed, mesic Aquic Hapludoll). Treatments were irrigation levels of 112, 100,88,77, and 65% field capacity. Five harvests were taken at 7-d intervals beginning 21 d 'after an initial clipping. Canopy temperatures were taken daily with an infrared thermometer. A series of exponential yield-CWSI curves resulted from the sequential harvests. Yield reductions of about 10 and 20% resulted from mean CWSI of 0.05 and a.lO, respectively, over 42-d periods. The Gompertz growth function was modified for water-deficit- stress by combining it with the exponential yield-CWSI relationship. Vapor-pressure deficit (VPD) effectively normalized the Tc-Ta data, allowing yield data of the 2 yr to be combined in the yield-mean CWSI relationship. Yield and Tc-Ta data not normalized for VPD showed clear separation by year for slight VPD differences. Alfalfa yield response to water-deficit-stress over time appeared to be adequately described by the combined Gompertz function and the yield-CWSI (Tc+Ta normalized for VPD) curves.
format Article
author Hattendorf, M. J.
Carlson, R. E.
Abd Halim, Mohd Ridzwan
Buxton, D. R.
spellingShingle Hattendorf, M. J.
Carlson, R. E.
Abd Halim, Mohd Ridzwan
Buxton, D. R.
Crop water stress index and yield of water-deficit-stressed alfalfa
author_facet Hattendorf, M. J.
Carlson, R. E.
Abd Halim, Mohd Ridzwan
Buxton, D. R.
author_sort Hattendorf, M. J.
title Crop water stress index and yield of water-deficit-stressed alfalfa
title_short Crop water stress index and yield of water-deficit-stressed alfalfa
title_full Crop water stress index and yield of water-deficit-stressed alfalfa
title_fullStr Crop water stress index and yield of water-deficit-stressed alfalfa
title_full_unstemmed Crop water stress index and yield of water-deficit-stressed alfalfa
title_sort crop water stress index and yield of water-deficit-stressed alfalfa
publisher American Society of Agronomy
publishDate 1988
url http://psasir.upm.edu.my/id/eprint/39124/1/60.%20Crop%20water%20stress%20index%20and%20yield%20of%20water-deficit-stressed%20alfalfa.pdf
http://psasir.upm.edu.my/id/eprint/39124/
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