Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes
Spectral reflectance indices can be used to estimate the water status of plants in a rapid, non-destructive manner. Water spectral indices were measured on wheat under a range of water-deficit conditions in field-based yield trials to establish their relationship with water relations parameters as well as available volumetric soil water (AVSW) to indicate soil water extraction patterns. Three types of wheat germplasm were studied which showed a range of drought adaptation; near-isomorphic sister lines from an elite/elite cross, advanced breeding lines, and lines derived from interspecific hybridization with wild relatives (synthetic derivative lines). Five water spectral indices (one water index and four normalized water indices) based on near infrared wavelengths were determined under field conditions between the booting and grain-filling stages of crop development. Among all water spectral indices, one in particular, which was denominated as NWI-3, showed the most consistent associations with water relations parameters and demonstrated the strongest associations in all three germplasm sets. NWI-3 showed a strong linear relationship (r2 >0.6?0.8) with leaf water potential Across a broad range of values (?2.0 to ?4.0 MPa) that were determined by natural variation in the environment associated with intra- and inter-seasonal affects. Association observed between NWI-3 and canopy temperature (CT) was consistent with the idea that genotypes with a better hydration status have a larger water flux (increased stomatal conductance) during the day. NWI-3 was also related to soil water potential and AVSW, indicating that drought-adapted lines could extract more water from deeper soil profiles to maintain favourable water relations. NWI-3 was sufficiently sensitive to detect genotypic differences (indicated by phenotypic and genetic correlations) in water status at the canopy and soil levels indicating its potential application in precision phenotyping.
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Oxford University Press
2010
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| Subjects: | AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Canopy Water Content, Water Index, CANOPY, REFLECTANCE, MOISTURE CONTENT, LEAF WATER POTENTIAL, ROOTS, GROWTH, |
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dig-cimmyt-10883-28092021-02-09T20:58:57Z Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes Gutierrez, M. Reynolds, M.P. Klatt, A.R. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Canopy Water Content Water Index CANOPY REFLECTANCE MOISTURE CONTENT LEAF WATER POTENTIAL ROOTS GROWTH Spectral reflectance indices can be used to estimate the water status of plants in a rapid, non-destructive manner. Water spectral indices were measured on wheat under a range of water-deficit conditions in field-based yield trials to establish their relationship with water relations parameters as well as available volumetric soil water (AVSW) to indicate soil water extraction patterns. Three types of wheat germplasm were studied which showed a range of drought adaptation; near-isomorphic sister lines from an elite/elite cross, advanced breeding lines, and lines derived from interspecific hybridization with wild relatives (synthetic derivative lines). Five water spectral indices (one water index and four normalized water indices) based on near infrared wavelengths were determined under field conditions between the booting and grain-filling stages of crop development. Among all water spectral indices, one in particular, which was denominated as NWI-3, showed the most consistent associations with water relations parameters and demonstrated the strongest associations in all three germplasm sets. NWI-3 showed a strong linear relationship (r2 >0.6?0.8) with leaf water potential Across a broad range of values (?2.0 to ?4.0 MPa) that were determined by natural variation in the environment associated with intra- and inter-seasonal affects. Association observed between NWI-3 and canopy temperature (CT) was consistent with the idea that genotypes with a better hydration status have a larger water flux (increased stomatal conductance) during the day. NWI-3 was also related to soil water potential and AVSW, indicating that drought-adapted lines could extract more water from deeper soil profiles to maintain favourable water relations. NWI-3 was sufficiently sensitive to detect genotypic differences (indicated by phenotypic and genetic correlations) in water status at the canopy and soil levels indicating its potential application in precision phenotyping. 3291-3303 2013-06-07T21:12:39Z 2013-06-07T21:12:39Z 2010 Article 0022-0957 1460-2431 http://hdl.handle.net/10883/2809 10.1093/jxb/erq156 English CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose. Open Access PDF Oxford University Press Society for Experimental Biology 12 61 Journal of Experimental Botany |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Canopy Water Content Water Index CANOPY REFLECTANCE MOISTURE CONTENT LEAF WATER POTENTIAL ROOTS GROWTH AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Canopy Water Content Water Index CANOPY REFLECTANCE MOISTURE CONTENT LEAF WATER POTENTIAL ROOTS GROWTH |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Canopy Water Content Water Index CANOPY REFLECTANCE MOISTURE CONTENT LEAF WATER POTENTIAL ROOTS GROWTH AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Canopy Water Content Water Index CANOPY REFLECTANCE MOISTURE CONTENT LEAF WATER POTENTIAL ROOTS GROWTH Gutierrez, M. Reynolds, M.P. Klatt, A.R. Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| description |
Spectral reflectance indices can be used to estimate the water status of plants in a rapid, non-destructive manner. Water spectral indices were measured on wheat under a range of water-deficit conditions in field-based yield trials to establish their relationship with water relations parameters as well as available volumetric soil water (AVSW) to indicate soil water extraction patterns. Three types of wheat germplasm were studied which showed a range of drought adaptation; near-isomorphic sister lines from an elite/elite cross, advanced breeding lines, and lines derived from interspecific hybridization with wild relatives (synthetic derivative lines). Five water spectral indices (one water index and four normalized water indices) based on near infrared wavelengths were determined under field conditions between the booting and grain-filling stages of crop development. Among all water spectral indices, one in particular, which was denominated as NWI-3, showed the most consistent associations with water relations parameters and demonstrated the strongest associations in all three germplasm sets. NWI-3 showed a strong linear relationship (r2 >0.6?0.8) with leaf water potential Across a broad range of values (?2.0 to ?4.0 MPa) that were determined by natural variation in the environment associated with intra- and inter-seasonal affects. Association observed between NWI-3 and canopy temperature (CT) was consistent with the idea that genotypes with a better hydration status have a larger water flux (increased stomatal conductance) during the day. NWI-3 was also related to soil water potential and AVSW, indicating that drought-adapted lines could extract more water from deeper soil profiles to maintain favourable water relations. NWI-3 was sufficiently sensitive to detect genotypic differences (indicated by phenotypic and genetic correlations) in water status at the canopy and soil levels indicating its potential application in precision phenotyping. |
| format |
Article |
| topic_facet |
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Canopy Water Content Water Index CANOPY REFLECTANCE MOISTURE CONTENT LEAF WATER POTENTIAL ROOTS GROWTH |
| author |
Gutierrez, M. Reynolds, M.P. Klatt, A.R. |
| author_facet |
Gutierrez, M. Reynolds, M.P. Klatt, A.R. |
| author_sort |
Gutierrez, M. |
| title |
Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| title_short |
Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| title_full |
Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| title_fullStr |
Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| title_full_unstemmed |
Association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| title_sort |
association of water spectral indices with plant and soil water relations in contrasting wheat genotypes |
| publisher |
Oxford University Press |
| publishDate |
2010 |
| url |
http://hdl.handle.net/10883/2809 |
| work_keys_str_mv |
AT gutierrezm associationofwaterspectralindiceswithplantandsoilwaterrelationsincontrastingwheatgenotypes AT reynoldsmp associationofwaterspectralindiceswithplantandsoilwaterrelationsincontrastingwheatgenotypes AT klattar associationofwaterspectralindiceswithplantandsoilwaterrelationsincontrastingwheatgenotypes |
| _version_ |
1756086415846801408 |