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        <dc:title>Efforts and strategies for alleviation of drought tolerance in chickpea in India</dc:title>
        <dc:creator>Chaturvedi, S K</dc:creator>
        <dc:creator>Singh, N P</dc:creator>
        <dc:creator>Gaur, P M</dc:creator>
        <dc:creator>Mishra, N</dc:creator>
        <dc:creator>Alok, D</dc:creator>
        <dc:creator>Sumit, S</dc:creator>
        <dc:creator>Varshney, R K</dc:creator>
        <dc:subject>Abiotic Stress</dc:subject>
        <dc:subject>Drought Tolerance</dc:subject>
        <dc:subject>Chickpea</dc:subject>
        <dc:subject>Drought</dc:subject>
        <dc:description>Among the various cool season pulses grown in India, chickpea&#13;
(Cicer arietinum L.) occupies an important position in rainfed&#13;
agriculture. Chickpea is largely grown (&gt;67% area) on conserved/&#13;
residual moisture, contributing about 45% to the total&#13;
pulses production in India. Being a rainfed crop, it often faces&#13;
terminal drought stress. When chickpea sowing is delayed in&#13;
fields vacated by paddy in the presence of terminal heat, soil&#13;
moisture stress further limits its productivity. This necessitates&#13;
the adoption of suitable strategies to alleviate per se drought&#13;
tolerance in chickpea. Two main strategies, integrated breeding&#13;
and transgenic technology, have been adopted for developing&#13;
drought-tolerant varieties. The third potential strategy is&#13;
utilization of nanotechnology, which has not been tried under&#13;
Indian NARES. Systematic breeding efforts resulted in development&#13;
of varieties having per se drought tolerance (RSG 44, Vijay,&#13;
RSG 888, JG 74, Pusa 2024), and escape (JG 11, JG 16, JSC&#13;
56, IPC 2006-77 etc.) exploiting earliness. QTLs responsible&#13;
for drought tolerance have been identified in chickpea genotype&#13;
ICC 4958, which have been transferred, and drought-tolerant&#13;
elite breeding lines have been developed. MAGIC and&#13;
NAM populations combining drought and heat tolerance are&#13;
now becoming available for identification of elite breeding lines&#13;
having combined tolerance to both stresses for their possible&#13;
release. Exploitation of transgenic technology using DREB&#13;
gene has also shown promise. The use of nano-particles in enhancing&#13;
root development and growth vigour in chickpea has&#13;
opened the doors for exploitation of nanotechnology for alleviation&#13;
of per se drought tolerance.</dc:description>
        <dc:date>2017-02</dc:date>
        <dc:type>Conference or Workshop Item</dc:type>
        <dc:type>PeerReviewed</dc:type>
        <dc:format>application/pdf</dc:format>
        <dc:language>en</dc:language>
        <dc:identifier>http://oar.icrisat.org/10246/1/Abstract_Book_58.pdf</dc:identifier>
        <dc:identifier>  Chaturvedi, S K and Singh, N P and Gaur, P M and Mishra, N and Alok, D and Sumit, S and Varshney, R K  (2017) Efforts and strategies for alleviation of drought tolerance in chickpea in India.  In: InterDrought-V, February 21-25, 2017, Hyderabad, India.     </dc:identifier></oai_dc:dc>
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