Confirmation of delayed canopy wilting QTLs from multiple soybean mapping populations

Hwang, Sadal; King, C. Andy; Ray, Jeffery D.; Cregan, Perry B.; Chen, Pengyin; Carter, Thomas E.; Li, Zenglu; Abdel‐Haleem, Hussein; Matson, Kevin W.; Schapaugh, William T.; Purcell, Larry C.

doi:10.1007/s00122-015-2566-1

Cited by 46 publications

(64 citation statements)

References 59 publications

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“…The paternal parent of the breeding lines in this research (PI 416937) is slow‐wilting (Abdel‐Haleem et al., ; Hwang et al., ; King et al., ) and has lower radiation use efficiency under water replete conditions relative to fast‐wilting genotypes (Ries et al., ). Consistent with this observation, the mechanism of slow‐wilting in PI 416937 has been attributed to conserving soil moisture prior to a drought (when moisture is abundant) and then drawing upon that moisture during a drought period when fast‐wilting genotypes have already depleted the soil moisture supply (King et al., ; Ries et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…All relative canopy temperature measurements were made before R6 and before there would likely be large decreases in stomatal conductance and transpiration (Secor, Shibles, & Stewart, ) associated with phenology that would impact canopy temperature. Previous research demonstrated that the severity of wilting increases as plants approach maturity (Hwang et al., ). Therefore, it is important to consider possible maturity effects among genotypes as they approach maturity, and there is decreased stomatal conductance, transpiration (Secor et al., ; Wittenbach, Ackerson, Giaquinta, & Herbert, ) and evaporative cooling.…”

Section: Discussionmentioning

confidence: 99%

“…Soya bean genotypes differ in the beginning and severity of wilting in response to drought stress (King et al., ; Sloane et al., ). Canopy wilting has a broad‐sense heritability of around 0.60 and has been mapped in multiple populations (Abdel‐Haleem et al., ; Charlson et al., ; Hwang et al., , ). The slow‐wilting trait in soya bean has been found in several genotypes including PI 416937 (King et al., ; Sadok & Sinclair, ), PI 471938 (Fletcher, Sinclair, & Allen, ; King et al., ), PI 567690 (Pathan et al., ) and PI 567731 (Pathan et al., ).…”

Section: Introductionmentioning

confidence: 99%

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Aerial canopy temperature differences between fast‐ and slow‐wilting soya bean genotypes

Bai

Purcell

2018

J Agronomy Crop Science

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Drought stress limits crop growth and yield in soya bean (Glycine max [L.] Merr.), but there are relatively few tools available to assess the ability of different genotypes to tolerate drought. Aerial infrared image analysis was evaluated as a potential tool for identifying drought tolerance in soya bean. Drought effects were evaluated from late vegetative to mid‐reproductive stages of soya bean development in an experiment with ten genotypes including five slow‐ and five fast‐wilting genotypes that were from a population derived from Benning×PI416937. There were two deficit irrigation levels for 2 years and one deficit irrigation level for the third year along with a fully irrigated control level. When the canopy was completely closed, relative canopy temperature was determined using an infrared camera taken from an aerial platform 50–75 m above the experiment. As water availability decreased, the relative canopy temperature generally increased. Moreover, slow‐wilting soya bean genotypes generally had lower canopy temperature compared to fast‐wilting genotypes, and grain yield was generally positively associated with cool canopy temperatures. The results indicate that the determination of canopy temperature is a promising tool for rapid characterization of drought‐related traits in soya bean.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Aerial canopy temperature differences between fast‐ and slow‐wilting soya bean genotypes

Bai

Purcell

2018

J Agronomy Crop Science

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“…Chen et al (2007) released two germplasm lines that exhibit improved N fixation during drought stress. Hussein et al (2011), Sinclair et al (2008), Charlson et al (2009), Fletcher et al (2007), Sadok and Sinclair (2010), and Hwang et al (2015) showed that the slow‐wilting trait is associated with multiple mechanisms of drought resistance, including response to atmospheric vapor pressure deficit (VPD), aquaporin activity, and rooting behavior, and genetic analyses have shown that as many as 10 quantitative trait loci (QTL) may be involved.…”

mentioning

confidence: 99%

Registration of ‘USDA‐N8002’ Soybean Cultivar with High Yield and Abiotic Stress Resistance Traits

Carter

Todd

Gillen

2016

J of Plant Registrations

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“…Genotypes evaluated were cultivar A5959, soybean accession PI 416937, and two recombinant inbred lines, 93705-34 and 93705-36, from a cross between cultivars KS4895 and Jackson (Charlson et al, 2009;Hwang et al, 2015). to progressive WD stress.…”

Section: Methodsmentioning

confidence: 99%

Evaluation of Methods for Estimating Transpiration Response to Soil Drying for Container‐Grown Plants

King¹,

Purcell²

2017

Crop Science

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Physiological responses in plants to drought at various fractions of transpirable soil water (FTSW) are often presented relative to well‐watered controls. Theoretically, this method allows for comparison of sensitivity among genotypes for various physiological processes and across experiments. It can be difficult to accurately estimate FTSW for measurements occurring over a relatively long period of time, such as gravimetric measurement of transpiration. This research evaluated the impact of determining the FTSW threshold at which transpiration begins to decline based on pot weights made at the beginning, ending, or average of daily transpiration periods. Pots were weighed once or three times daily during an 8‐d soil‐drying cycle for four soybean [Glycine max (L.) Merr.] genotypes grown in 2‐L pots. There were large artefactual differences in FTSW breakpoints among cultivars when either beginning or ending pot weights were used to estimate daily FTSW. In contrast, the estimated FTSW breakpoint was between 0.36 and 0.41 for all genotypes when the average of the beginning and ending interval pot weights was used to calculate FTSW, whether pots were weighed once or three times daily.

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Confirmation of delayed canopy wilting QTLs from multiple soybean mapping populations

Cited by 46 publications

References 59 publications

Aerial canopy temperature differences between fast‐ and slow‐wilting soya bean genotypes

Aerial canopy temperature differences between fast‐ and slow‐wilting soya bean genotypes

Registration of ‘USDA‐N8002’ Soybean Cultivar with High Yield and Abiotic Stress Resistance Traits

Evaluation of Methods for Estimating Transpiration Response to Soil Drying for Container‐Grown Plants

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