John Quealy scite author profile

Aims Chickpea (Cicer arietinum L.) is considered a salt sensitive species, but some genetic variation for salinity tolerance exists. The present study was initiated to determine the degree of salt tolerance among chickpea genotypes, and the relationship between salt tolerance and ion accumulation in leaves and reproductive tissues. Methods Three experiments were conducted in a glasshouse in Perth, Western Australia, in which up to 55 genotypes of chickpea were subjected to 0, 40 or 60mM NaCl added to the soil to determine the variation in salt tolerance, and the association between salt tolerance and reproductive success. Pod and seed numbers, seed yield and yield components, pollen viability, in vitro pollen germination and in vivo pollen tube growth, were used to evaluate reproductive success. Leaves, flowers and seeds were sampled in the reproductive phase to measure the concentrations of sodium, potassium and chloride ions in these organs. Results When grown in soil with 40mM NaCl, a 27fold range in seed yield was observed among the 55 chickpea genotypes. The increased salt tolerance, as measured by yield under salinity or relative yield under saline conditions, was positively associated with

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Salt sensitivity in chickpea (Cicer arietinum L.): ions in reproductive tissues and yield components in contrasting genotypes

Kotula

Khan

Quealy

et al. 2015

Plant Cell & Environment

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The reproductive phase in chickpea (Cicer arietinum L.) is affected by salinity, but little is known about the underlying cause. We investigated whether high concentrations of Na(+) and Cl(-) in the reproductive structures influence reproductive processes. Chickpea genotypes contrasting in tolerance were subjected to 0, 35 or 50 mm NaCl applied to soil in pots. Flower production and abortion, pod number, percentage of empty pods, seed number and size were evaluated. The concentrations of Na(+) , K(+) and Cl(-) were measured in various plant tissues and, using X-ray microanalysis, in specific cells of developing reproductive structures. Genotypic variation in reproductive success measured as seed yield in saline conditions was associated with better maintenance of flower production and higher numbers of filled pods (and thus seed number), whereas seed size decreased in all genotypes. Despite the variation in reproductive success, the accumulation of Na(+) and Cl(-) in the early reproductive tissues of developing pods did not differ between a tolerant (Genesis836) and a sensitive (Rupali) genotype. Similarly, salinity tolerance was not associated with the accumulation of salt ions in leaves at the time of reproduction or in seeds at maturity.

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Novel Salinity Tolerance Loci in Chickpea Identified in Glasshouse and Field Environments

et al. 2021

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A better understanding of the genetics of salinity tolerance in chickpea would enable breeding of salt tolerant varieties, offering potential to expand chickpea production to marginal, salinity-affected areas. A Recombinant Inbred Line population was developed using accelerated-Single Seed Descent of progeny from a cross between two chickpea varieties, Rupali (salt-sensitive) and Genesis836 (salt-tolerant). The population was screened for salinity tolerance using high-throughput image-based phenotyping in the glasshouse, in hydroponics, and across 2 years of field trials at Merredin, Western Australia. A genetic map was constructed from 628 unique in-silico DArT and SNP markers, spanning 963.5 cM. Markers linked to two flowering loci identified on linkage groups CaLG03 and CaLG05 were used as cofactors during genetic analysis to remove the confounding effects of flowering on salinity response. Forty-two QTL were linked to growth rate, yield, and yield component traits under both control and saline conditions, and leaf tissue ion accumulation under salt stress. Residuals from regressions fitting best linear unbiased predictions from saline conditions onto best linear unbiased predictions from control conditions provided a measure of salinity tolerance per se, independent of yield potential. Six QTL on CaLG04, CaLG05, and CaLG06 were associated with tolerance per se. In total, 21 QTL mapped to two distinct regions on CaLG04. The first distinct region controlled the number of filled pods, leaf necrosis, seed number, and seed yield specifically under salinity, and co-located with four QTL linked to salt tolerance per se. The second distinct region controlled 100-seed weight and growth-related traits, independent of salinity treatment. Positional cloning of the salinity tolerance-specific loci on CaLG04, CaLG05, and CaLG06 will improve our understanding of the key determinants of salinity tolerance in chickpea.

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Salt Stress Delayed Flowering and Reduced Reproductive Success of Chickpea (Cicer arietinum L.), A Response Associated with Na⁺ Accumulation in Leaves

Pushpavalli

Quealy

Colmer

et al. 2015

J Agronomy Crop Science

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Salinity is known to reduce chickpea yields in several regions of the world. Although ion toxicity associated with salinity leads to yield reductions in a number of other crops, its role in reducing yields in chickpea growing in saline soils is unclear. The purpose of this study was to (i) identify the phenological and yield parameters associated with salt stress tolerance and sensitivity in chickpea and (ii) identify any pattern of tissue ion accumulation that could relate to salt tolerance of chickpea exposed to saline soil in an outdoor pot experiment. Fourteen genotypes of chickpea (Cicer arietinum L.) were used to study yield parameters, of which eight were selected for ion analysis after being grown in soil treated with 0 and 80 mM NaCl. Salinity delayed flowering and the delay was greater in sensitive than tolerant genotypes under salt stress. Filled pod and seed numbers, but not seed size, were associated with seed yield in saline conditions, suggesting that salinity impaired reproductive success more in sensitive than tolerant lines. Of the various tissues measured for concentrations of Cl À , Na + and K + , higher seed yields in saline conditions were positively correlated with higher K + concentration in seeds at the mid-filling stage (R 2 = 0.55), a higher K + /Na + ratio in the laminae of fully expanded young leaves (R 2 = 0.50), a lower Na + concentration in old green leaves (R 2 = 0.50) and a higher Cl À concentration in mature seeds. The delay in flowering was associated with higher concentrations of Na + in the laminae of fully expanded young leaves (R 2 = 0.61) and old green leaves (R 2 = 0.51). We conclude that although none of the ions appeared to have any toxic effect, Na + accumulation in leaves was associated with delayed flowering that in turn could have played a role in the lower reproductive success in the sensitive lines.

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Male Sterility in three crop Lupinus species

Clements¹,

Wilson²,

Sweetingham³

et al. 2011

Plant Breeding

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Male sterility is described for the first time in lupin crop species Lupinus angustifolius L. and Lupinus luteus L. and is also characterized in the Andean lupin, Lupinus mutabilis Sweet. In L. angustifolius and L. luteus, male-sterile plants were identified in artificially induced mutation populations, while in L. mutabilis, both naturally occurring and induced male-sterile plants were selected. For L. angustifolius artificially induced sterility, the segregation ratios in F 1 , F 2 and backcrosses showed a single-gene recessive inheritance and was concluded to be of a nuclear rather than cytoplasmic form. In L. luteus, male-sterile plants were recovered from an M 3 mutation population derived from cv. ÔWodjilÕ, and several were consistent with that of single recessive gene, most likely nuclear. A naturally occurring sterility in L. mutabilis was concluded to be cytoplasmic with identification of restorer and maintainer genotypes. The trait in L. mutabilis has greatly increased the rate of F 1 seed set with zero selfing. Male sterility could be useful for increasing crossing efficiency in breeding programmes, for exploiting heterosis and for interspecific hybridization.

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John Quealy

Salinity tolerance and ion accumulation in chickpea (Cicer arietinum L.) subjected to salt stress

Salt sensitivity in chickpea (Cicer arietinum L.): ions in reproductive tissues and yield components in contrasting genotypes

Novel Salinity Tolerance Loci in Chickpea Identified in Glasshouse and Field Environments

Salt Stress Delayed Flowering and Reduced Reproductive Success of Chickpea (Cicer arietinum L.), A Response Associated with Na⁺ Accumulation in Leaves

Male Sterility in three crop Lupinus species

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John Quealy

Salinity tolerance and ion accumulation in chickpea (Cicer arietinum L.) subjected to salt stress

Salt sensitivity in chickpea (Cicer arietinum L.): ions in reproductive tissues and yield components in contrasting genotypes

Novel Salinity Tolerance Loci in Chickpea Identified in Glasshouse and Field Environments

Salt Stress Delayed Flowering and Reduced Reproductive Success of Chickpea (Cicer arietinum L.), A Response Associated with Na+ Accumulation in Leaves

Male Sterility in three crop Lupinus species

Contact Info

Product

Resources

About

Salt Stress Delayed Flowering and Reduced Reproductive Success of Chickpea (Cicer arietinum L.), A Response Associated with Na⁺ Accumulation in Leaves