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United States Department of Agriculture

Agricultural Research Service

Research Project: Enhancing Plant Resistance to Water-Deficit and Thermal Stresses in Economically Important Crops

Location: Plant Stress and Germplasm Development Research

Title: Identification of elite upland germplasm with tolerance to reduced irrigation rates from the RBTN

Authors
item Hendon, Bralie -
item Ulloa, Mauricio
item Burke, John
item Ritchie, Glen -
item Imel, Robert -
item Auld, Dick -

Submitted to: National Cotton Council Beltwide Cotton Conference
Publication Type: Abstract Only
Publication Acceptance Date: January 7, 2014
Publication Date: May 15, 2014
Citation: Hendon, B.R., Ulloa, M., Burke, J.J., Ritchie, G.L., Imel, R.K., Auld, D.L. 2014. Identification of elite upland germplasm with tolerance to reduced irrigation rates from the RBTN [abstract]. National Cotton Council Beltwide Cotton Conference, January 6-8, 2014, New Orleans, Lousiana. p. 600

Technical Abstract: The decline in aquifers and water reservoirs combined with the unpredictability of precipitation during the growing season has pushed cotton (Gossypium spp.) researchers and breeders to look/develop sources of germplasm with specific plant-architecture, root-morphology, or physiological traits that can improve water use efficiency (WUE), drought and extreme heat tolerance. To identify germplasm with improved WUE and drought tolerance, elite upland germplasm lines were evaluated from the Regional Breeders Testing Network (RBTN supported by Cotton Incorporated) of 13 U.S. public breeding programs across the Cotton Belt. RBTN germplasm lines and commercial cultivars were subjected to four water regimes (high, high-medium, medium, and low) on drip irrigation with three replications (25 feet single row per entry) in a RCBD within each regime. Preliminary analyses revealed genetic diversity and differences such as plant height, nodes, fruiting positions, flowering, and early open bolls. We also observed differences of spectral reflectance and canopy temperature on these entries. Plant mapping data combined with collected data using spectral reflectance and canopy temperature sensors will further be discussed. Continuing cotton improvements depend on the utilization of diverse germplasm and the introduction of this genetic diversity into commercial cultivars.

Last Modified: 12/20/2014
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