Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes

Department of Plant and Environmental Sciences

Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes. / Makonya, Givemore M.; Ogola, John B.O.; Muasya, A. Muthama; Crespo, Olivier; Maseko, Sipho; Valentine, Alex J.; Ottosen, Carl-Otto; Rosenqvist, Eva; Chimphango, Samson B.M.

In: Crop Science, Vol. 60, No. 5, 2020, p. 2527-2542.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Makonya, GM, Ogola, JBO, Muasya, AM, Crespo, O, Maseko, S, Valentine, AJ, Ottosen, C-O, Rosenqvist, E & Chimphango, SBM 2020, 'Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes', Crop Science, vol. 60, no. 5, pp. 2527-2542. https://doi.org/10.1002/csc2.20228

APA

Makonya, G. M., Ogola, J. B. O., Muasya, A. M., Crespo, O., Maseko, S., Valentine, A. J., Ottosen, C-O., Rosenqvist, E., & Chimphango, S. B. M. (2020). Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes. Crop Science, 60(5), 2527-2542. https://doi.org/10.1002/csc2.20228

Vancouver

Makonya GM, Ogola JBO, Muasya AM, Crespo O, Maseko S, Valentine AJ et al. Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes. Crop Science. 2020;60(5):2527-2542. https://doi.org/10.1002/csc2.20228

Author

Makonya, Givemore M. ; Ogola, John B.O. ; Muasya, A. Muthama ; Crespo, Olivier ; Maseko, Sipho ; Valentine, Alex J. ; Ottosen, Carl-Otto ; Rosenqvist, Eva ; Chimphango, Samson B.M. / Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes. In: Crop Science. 2020 ; Vol. 60, No. 5. pp. 2527-2542.

Bibtex

@article{dc9d05ed9de9431e87ddba7ad875b674,

title = "Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes",

abstract = "Heat and drought stresses are two abiotic factors that often occur simultaneously and are predicted to increase, consequently hampering plant growth. Response of different species to either stresses is well documented but information on the response of the same genotypes to both stresses in chickpea (Cicer arietinum L.) is limited. We aimed to determine whether previously noted heat-stress-tolerant genotype (Acc#7) is drought tolerant, that heat-sensitive genotype (Acc#8) is drought sensitive, and whether intermittent moisture supply at vegetative stage would induce priming effect to later drought at flowering. At vegetative stage, plants were divided into three groups, nonstressed (watered to 75% field capacity [FC], severe water stress (moisture withholding for 14 d), and treated to 40% FC throughout the experiment (mild stress), with recovery for the severely stressed plants after which they were stressed (double stress) at flowering. Drought treatments at vegetative and flowering growth stages decreased physiological parameters and biomass accumulation in both genotypes except low water supply at 40% FC that decreased biomass in Acc#7 but not Acc#8. Double-drought stress resulted in priming effect in Acc#7, having higher biomass, chlorophyll fluorescence, stomatal conductance (gs), net photosynthesis, and relative water content (RWC) vs. the introduction of stress only at flowering growth stage as well as in comparison with Acc#8. These results showed that both Acc#7 and Acc#8 are sensitive to drought, whereas after priming, Acc#7 is better acclimated to drought than Acc#8 associated with osmotic adjustment on leaf RWC and higher capacity to protect photosynthetic activity, making Acc#7 potentially ideal for areas associated with intermittent drought spells.",

author = "Makonya, {Givemore M.} and Ogola, {John B.O.} and Muasya, {A. Muthama} and Olivier Crespo and Sipho Maseko and Valentine, {Alex J.} and Carl-Otto Ottosen and Eva Rosenqvist and Chimphango, {Samson B.M.}",

year = "2020",

doi = "10.1002/csc2.20228",

language = "English",

volume = "60",

pages = "2527--2542",

journal = "Crop Science",

issn = "0011-183X",

publisher = "Crop Science Society of America",

number = "5",

}

RIS

TY - JOUR

T1 - Intermittent moisture supply induces drought priming responses in some heat-tolerant chickpea genotypes

AU - Makonya, Givemore M.

AU - Ogola, John B.O.

AU - Muasya, A. Muthama

AU - Crespo, Olivier

AU - Maseko, Sipho

AU - Valentine, Alex J.

AU - Ottosen, Carl-Otto

AU - Rosenqvist, Eva

AU - Chimphango, Samson B.M.

PY - 2020

Y1 - 2020

N2 - Heat and drought stresses are two abiotic factors that often occur simultaneously and are predicted to increase, consequently hampering plant growth. Response of different species to either stresses is well documented but information on the response of the same genotypes to both stresses in chickpea (Cicer arietinum L.) is limited. We aimed to determine whether previously noted heat-stress-tolerant genotype (Acc#7) is drought tolerant, that heat-sensitive genotype (Acc#8) is drought sensitive, and whether intermittent moisture supply at vegetative stage would induce priming effect to later drought at flowering. At vegetative stage, plants were divided into three groups, nonstressed (watered to 75% field capacity [FC], severe water stress (moisture withholding for 14 d), and treated to 40% FC throughout the experiment (mild stress), with recovery for the severely stressed plants after which they were stressed (double stress) at flowering. Drought treatments at vegetative and flowering growth stages decreased physiological parameters and biomass accumulation in both genotypes except low water supply at 40% FC that decreased biomass in Acc#7 but not Acc#8. Double-drought stress resulted in priming effect in Acc#7, having higher biomass, chlorophyll fluorescence, stomatal conductance (gs), net photosynthesis, and relative water content (RWC) vs. the introduction of stress only at flowering growth stage as well as in comparison with Acc#8. These results showed that both Acc#7 and Acc#8 are sensitive to drought, whereas after priming, Acc#7 is better acclimated to drought than Acc#8 associated with osmotic adjustment on leaf RWC and higher capacity to protect photosynthetic activity, making Acc#7 potentially ideal for areas associated with intermittent drought spells.

AB - Heat and drought stresses are two abiotic factors that often occur simultaneously and are predicted to increase, consequently hampering plant growth. Response of different species to either stresses is well documented but information on the response of the same genotypes to both stresses in chickpea (Cicer arietinum L.) is limited. We aimed to determine whether previously noted heat-stress-tolerant genotype (Acc#7) is drought tolerant, that heat-sensitive genotype (Acc#8) is drought sensitive, and whether intermittent moisture supply at vegetative stage would induce priming effect to later drought at flowering. At vegetative stage, plants were divided into three groups, nonstressed (watered to 75% field capacity [FC], severe water stress (moisture withholding for 14 d), and treated to 40% FC throughout the experiment (mild stress), with recovery for the severely stressed plants after which they were stressed (double stress) at flowering. Drought treatments at vegetative and flowering growth stages decreased physiological parameters and biomass accumulation in both genotypes except low water supply at 40% FC that decreased biomass in Acc#7 but not Acc#8. Double-drought stress resulted in priming effect in Acc#7, having higher biomass, chlorophyll fluorescence, stomatal conductance (gs), net photosynthesis, and relative water content (RWC) vs. the introduction of stress only at flowering growth stage as well as in comparison with Acc#8. These results showed that both Acc#7 and Acc#8 are sensitive to drought, whereas after priming, Acc#7 is better acclimated to drought than Acc#8 associated with osmotic adjustment on leaf RWC and higher capacity to protect photosynthetic activity, making Acc#7 potentially ideal for areas associated with intermittent drought spells.

U2 - 10.1002/csc2.20228

DO - 10.1002/csc2.20228

M3 - Journal article

AN - SCOPUS:85089456937

VL - 60

SP - 2527

EP - 2542

JO - Crop Science

JF - Crop Science

SN - 0011-183X

IS - 5

ER -

ID: 257600803