Predawn respiration rates during flowering are highly predictive of yield response in Gossypium hirsutum when yield variability is water-induced

Respiratory carbon evolution by leaves under abiotic stress is implicated as a major limitation to crop productivity; however, respiration rates of fully expanded leaves are positively associated with plant growth rates. Given the substantial sensitivity of plant growth to drought, it was hypothesiz...

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Veröffentlicht in:	Journal of plant physiology 2015-07, Vol.183, p.114-120
Hauptverfasser:	Snider, John L., Chastain, Daryl R., Meeks, Calvin D., Collins, Guy D., Sorensen, Ronald B., Byrd, Seth A., Perry, Calvin D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Drought Droughts Flowers - growth & development Georgia Gossypium - physiology Gossypium hirsutum Plant Leaves - physiology Predawn respiration Random Allocation Seasons Water - physiology Water potential Yield
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container_title	Journal of plant physiology
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creator	Snider, John L. Chastain, Daryl R. Meeks, Calvin D. Collins, Guy D. Sorensen, Ronald B. Byrd, Seth A. Perry, Calvin D.
description	Respiratory carbon evolution by leaves under abiotic stress is implicated as a major limitation to crop productivity; however, respiration rates of fully expanded leaves are positively associated with plant growth rates. Given the substantial sensitivity of plant growth to drought, it was hypothesized that predawn respiration rates (RPD) would be (1) more sensitive to drought than photosynthetic processes and (2) highly predictive of water-induced yield variability in Gossypium hirsutum. Two studies (at Tifton and Camilla Georgia) addressed these hypotheses. At Tifton, drought was imposed beginning at the onset of flowering (first flower) and continuing for three weeks (peak bloom) followed by a recovery period, and predawn water potential (ΨPD), RPD, net photosynthesis (AN) and maximum quantum yield of photosystem II (Fv/Fm) were measured throughout the study period. At Camilla, plants were exposed to five different irrigation regimes throughout the growing season, and average ΨPD and RPD were determined between first flower and peak bloom for all treatments. For both sites, fiber yield was assessed at crop maturity. The relationships between ΨPD, RPD and yield were assessed via non-linear regression. It was concluded for field-grown G. hirsutum that (1) RPD is exceptionally sensitive to progressive drought (more so than AN or Fv/Fm) and (2) average RPD from first flower to peak bloom is highly predictive of water-induced yield variability.
doi_str_mv	10.1016/j.jplph.2015.06.003
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Given the substantial sensitivity of plant growth to drought, it was hypothesized that predawn respiration rates (RPD) would be (1) more sensitive to drought than photosynthetic processes and (2) highly predictive of water-induced yield variability in Gossypium hirsutum. Two studies (at Tifton and Camilla Georgia) addressed these hypotheses. At Tifton, drought was imposed beginning at the onset of flowering (first flower) and continuing for three weeks (peak bloom) followed by a recovery period, and predawn water potential (ΨPD), RPD, net photosynthesis (AN) and maximum quantum yield of photosystem II (Fv/Fm) were measured throughout the study period. At Camilla, plants were exposed to five different irrigation regimes throughout the growing season, and average ΨPD and RPD were determined between first flower and peak bloom for all treatments. For both sites, fiber yield was assessed at crop maturity. 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subjects	Drought Droughts Flowers - growth & development Georgia Gossypium - physiology Gossypium hirsutum Plant Leaves - physiology Predawn respiration Random Allocation Seasons Water - physiology Water potential Yield
title	Predawn respiration rates during flowering are highly predictive of yield response in Gossypium hirsutum when yield variability is water-induced
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