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        <dc:title>Determining transpiration efficiency of bmr sorghum genotypes for progressive drought tolerance</dc:title>
        <dc:creator>Romana, K K</dc:creator>
        <dc:creator>Kunapareddy, A</dc:creator>
        <dc:creator>Gupta, R</dc:creator>
        <dc:creator>Ashok Kumar, A</dc:creator>
        <dc:subject>Abiotic Stress</dc:subject>
        <dc:subject>Crop Improvement</dc:subject>
        <dc:subject>Sorghum</dc:subject>
        <dc:subject>Genetics and Genomics</dc:subject>
        <dc:description>Food and energy security are fundamental to the economic development&#13;
of nations and considering environmental issues, biomass-based&#13;
energy is a promising option in India through lingo-cellulosic&#13;
(2G) biofuel production. High biomass sorghum&#13;
is a promising feedstock for 2G biofuels production. However,&#13;
higher lignin content of the biomass and water-deficit stress&#13;
are major issues in enhancing biomass sorghum based biofuels&#13;
production. In sorghum, brown midrib (bmr) mutants with reduced&#13;
lignin content were developed.The present glass house&#13;
study summarizes a screening experiment of 14 bmr sorghum&#13;
lines (Atlas, Atlas bmr-12, Early hegarisart, IS 18542, Kanas collier,&#13;
N 592, N 593, N 594, N 595, N 596, N 597, N 598, Roxorange&#13;
and R-16) for progressive drought tolerance. The results&#13;
showed that among the various bmr lines tested, N 593 had&#13;
the highest transpiration efficiency in water-stressed conditions,&#13;
whereas N 592 had the highest in well-watered conditions.&#13;
The lowest transpiration efficiency was observed in N&#13;
597 under water stressed treatment. However, for well watered&#13;
treatments the lowest was observed in N 596. The genotypes&#13;
having higher transpiration efficiency has more water holding&#13;
capacity for longer time under water stressed conditions. This&#13;
preliminary study helps to identify genotypes with more water-holding&#13;
capacity to adapt well in drought conditions. The&#13;
bmr genotypes used here showed reduced lignin content vis-à-&#13;
vis white midrib sorghums. The identified lines with low-lignin,&#13;
high biomass and higher water holding capacity can be used as&#13;
feedstocks in 2G Biofuels production after appropriate testing&#13;
in target environments.</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/10706/1/216.pdf</dc:identifier>
        <dc:identifier>  Romana, K K and Kunapareddy, A and Gupta, R and Ashok Kumar, A  (2017) Determining transpiration efficiency of bmr sorghum genotypes for progressive drought tolerance.  In: InterDrought-V, February 21-25, 2017, Hyderabad, India.     </dc:identifier></oai_dc:dc>
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