期刊
JOURNAL OF INTEGRATIVE PLANT BIOLOGY
卷 54, 期 12, 页码 1007-1020出版社
WILEY
DOI: 10.1111/j.1744-7909.2012.01156.x
关键词
Climate change; drought stress; ideotypes; maize; senescence; spectral reflectance
资金
- Bill and Melinda Gates Foundation under the Drought Tolerant Maize for Africa project
- BMZ under the Precision phenotyping for improving drought stress tolerant maize for southern Asia and eastern Africa project
- MAIZE - Global Alliance for Improving Food Security
- Livelihoods of the Resource-poor in the Developing World research program of the Consultative Group on International Agricultural Research (CGIAR)
- Consultative Group on International Agricultural Research MAIZE research program
To increase maize (Zea mays L.) yields in drought-prone environments and offset predicted maize yield losses under future climates, the development of improved breeding pipelines using a multi-disciplinary approach is essential. Elucidating key growth processes will provide opportunities to improve drought breeding progress through the identification of key phenotypic traits, ideotypes, and donors. In this study, we tested a large set of tropical and subtropical maize inbreds and single cross hybrids under reproductive stage drought stress and well-watered conditions. Patterns of biomass production, senescence, and plant water status were measured throughout the crop cycle. Under drought stress, early biomass production prior to anthesis was important for inbred yield, while delayed senescence was important for hybrid yield. Under well-watered conditions, the ability to maintain a high biomass throughout the growing cycle was crucial for inbred yield, while a stay-green pattern was important for hybrid yield. While new quantitative phenotyping tools such as spectral reflectance (Normalized Difference Vegetation Index, NDVI) allowed for the characterization of growth and senescence patterns as well as yield, qualitative measurements of canopy senescence were also found to be associated with grain yield.
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