Search Results - "Gowda, R. P. Veeresh"

Discovery of genomic regions associated with resistance to late wilt disease caused by Harpophora maydis (Samra, Sabet and Hing) in maize (Zea mays L.) by Sunitha, N. C., Gangappa, E., Gowda, R. P. Veeresh, Ramesh, S., Biradar, Sunil, Swamy, Dharanendra, Hemareddy, H. B.

“…Late wilt disease (LWD) caused by Harpophora maydis (Samra, Sabet and Hing) is emerging as major production constraint in maize across the world. As a prelude…”
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Root biology and genetic improvement for drought avoidance in rice by Gowda, Veeresh R.P., Henry, Amelia, Yamauchi, Akira, Shashidhar, H.E., Serraj, Rachid

“…► Rice root growth encompasses a remarkable range of genetic diversity. ► A detailed background of rice root growth at a range of scales is reviewed. ► Key…”
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Variation in root system architecture and drought response in rice ( Oryza sativa): Phenotyping of the OryzaSNP panel in rainfed lowland fields by Henry, Amelia, Gowda, Veeresh R.P., Torres, Rolando O., McNally, Kenneth L., Serraj, Rachid

“…▶ Genetic variation for deep root growth in drought-stressed rice was observed. ▶ Differences in root length density at depth were related to soil moisture…”
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Mapping genomic regions controlling resistance to late wilt disease caused by Harpophora maydis in maize (Zea mays L.) by Rakesh, B., Gangappa, E., Gandhi, Sonali, Gowda, R. P. Veeresh, Swamy, S. Dharanendra, Ramesh, S., Hemareddy, H. B.

“…Maize ( Zea mays L.) is the third largest globally cultivated cereal after wheat and rice contributing chiefly to global food and nutritional security. It is…”
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Discovery of genomic regions associated with resistance to late wilt disease caused by Harpophora maydis by Sunitha, N. C, Gangappa, E, Gowda, R. P. Veeresh, Ramesh, S, Biradar, Sunil, Swamy, Dharanendra, Hemareddy, H. B

“…Late wilt disease (LWD) caused by Harpophora maydis (Samra, Sabet and Hing) is emerging as major production constraint in maize across the world. As a prelude…”
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Functional roles of the plasticity of root system development in biomass production and water uptake under rainfed lowland conditions by Kano-Nakata, Mana, Gowda, Veeresh R.P., Henry, Amelia, Serraj, Rachid, Inukai, Yoshiaki, Fujita, Daisuke, Kobayashi, Nobuya, Suralta, Roel R., Yamauchi, Akira

“…► Dry and wet cycle is being repeated in rainfed lowland fields. ► Root plastic development in response to rewatering after drought was observed. ► Such root…”
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The large-effect drought-resistance QTL qtl12.1 increases water uptake in upland rice by Bernier, Jérôme, Serraj, Rachid, Kumar, Arvind, Venuprasad, Ramaiah, Impa, Somayanda, R.P., Veeresh Gowda, Oane, Rowena, Spaner, Dean, Atlin, Gary

“…Drought stress is the most important abiotic factor limiting upland rice yields. Identification of quantitative trait loci (QTL) conferring improved drought…”
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Rice near-isogenic-lines (NILs) contrasting for grain yield under lowland drought stress by Venuprasad, R., Impa, S.M., Gowda, R.P. Veeresh, Atlin, G.N., Serraj, R.

“…► Near-isogenic lines (NILs) are very useful in genetic and physiological investigations in crop plants. ► We report on development and characterization of…”
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