Growth and metabolic responses of contrasting chickpea (Cicer arietinum L.) genotypes to chilling stress at reproductive phase

Growth and metabolic responses of contrasting chickpea (Cicer arietinum L.) genotypes to chilling stress at reproductive phase

Chilling stress (<10°C) at reproductive phase of chickpea results in abortion of flowers and pods leading to poor yield. The metabolic causes associated with cold sensitivity of chickpea are not well understood. Hence, in the present study, we evaluated four chickpea genotypes (ICC 16348, ICC 163...

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Bibliographic Details
Published in:Acta physiologiae plantarum Vol. 33; no. 3; pp. 779 - 787
Main Authors: Kumar, Sanjeev, Malik, Jahid, Thakur, Prince, Kaistha, Suchi, Sharma, Kamal Dev, Upadhyaya, H. D, Berger, J. D, Nayyar, Harsh
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Berlin/Heidelberg : Springer-Verlag 01-05-2011
Springer-Verlag
Subjects:
Agriculture
antioxidant activity
antioxidants
ascorbate peroxidase
ascorbic acid
biochemical mechanisms
Biomedical and Life Sciences
carbohydrate metabolism
catalase
chickpeas
Cicer arietinum
cold stress
cold tolerance
enzyme activity
flowering
genotype
genotype-environment interaction
hydrogen peroxide
leaves
Life Sciences
night temperature
Original Paper
oxidative stress
physiological response
Plant Anatomy/Development
Plant Biochemistry
plant damage
Plant Genetics and Genomics
plant growth
Plant Pathology
Plant Physiology
plant reproduction
pods
starch
superoxide dismutase
Proline
Enzymes
Chickpea
Reproductive growth
Yield
Chilling
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Summary:Chilling stress (<10°C) at reproductive phase of chickpea results in abortion of flowers and pods leading to poor yield. The metabolic causes associated with cold sensitivity of chickpea are not well understood. Hence, in the present study, we evaluated four chickpea genotypes (ICC 16348, ICC 16349, PBG1 and GPF2) having contrasting cold sensitivity for their reproductive growth and metabolism subjected to cold stress (average day temperature: 17.6°C; average night temperature: 4.9°C). Genotypes ICC 16348 and ICC 16349 showed flowering and set pods, while PBG1 and GPF2 failed to do so during the stress conditions indicating the former to be cold tolerant. The stress injury in the leaves such as increase in electrolyte leakage, decrease in chlorophyll content and relative leaf water content was significantly less in ICC 16348 and ICC 16349 genotypes. The analysis of carbohydrates indicated total sugars and starch to be present in greater content in ICC 16348 and ICC 16349 relative to PBG1 and GPF2 genotypes. The enzymes related to carbohydrate metabolism such as β-amylase, invertase and sucrose synthase showed significantly higher activity in the leaves of ICC 16348 and ICC 16349 compared to the other two genotypes. PBG1 and GPF2 genotypes experienced greater oxidative stress measured as malondialdehyde and hydrogen peroxide. ICCV 16348 and ICC 16349 possessed significantly higher levels of enzymatic (superoxide dismutase, catalase, ascorbate peroxidase) and non-enzymatic antioxidants (proline and ascorbic acid) relative to PBG1 and GPF2. Particularly, proline and ascorbic acid were markedly higher in cold-tolerant genotypes compared to the sensitive ones suggesting their deciding role in governing the cold tolerance.
Bibliography:http://dx.doi.org/10.1007/s11738-010-0602-y
ISSN:0137-5881
1861-1664
DOI:10.1007/s11738-010-0602-y