<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea"^^ . "Terminal drought stress leads to substantial yield losses in\r\nchickpea (Cicer arietinum L.). Water conservation at vegetative\r\ngrowth (canopy conductivity and canopy size and development)\r\nallow plants to increase soil water extraction during grain filling\r\nand are hypothesised to help chickpea adaptation to water\r\nlimited environments. Plant vigour and water saving traits were\r\nphenotyped in 232 recombinant inbred lines (RILs), derived\r\nfrom a cross between ICC4958 and ICC1882, at 28 days after\r\nsowing under well water conditions using a high throughput\r\nphenotyping platform. Different density genetic maps (241-SSRLow\r\ndensity, 1007-SSR+SNPs-High density and 1557-SNPs-Ultra\r\nhigh density) were used for QTLs identification. Several major\r\nQTLs (M-QTLs) for plant vigour traits (3D-leaf area, shoot biomass,\r\nplant height and growth related traits) were identified\r\non CaLG04, and co-mapped with previously identified and\r\nfine mapped major drought tolerance QTL-hotspot region on\r\nCaLG04 (~300Kb).The canopy conductance trait (e.g Transpiration\r\nrate) had a M-QTL mapped on CaLG03 using ultra-high\r\ndensity bin markers. Plant vigour traits on CaLG04 and canopy\r\nconductance related traits on CaLG03 provide opportunity\r\nto manipulate these loci to tailor recombinants having lower\r\ntranspiration rate and high plant vigour. This ideotype might be\r\nenhancing the water stress adaptation in chickpea. To test this\r\nhypothesis, a subset of 40 RILs contrasting for vigour and water\r\nuse traits was tested in lysimeters and field under different water\r\nstress treatments. High vigour low water use lines had higher\r\nseed yield under severe water stress treatments than high vigour\r\nand high water use lines, validating the hypothesis."^^ . "2017-02" . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "M H"^^ . "Halime"^^ . "M H Halime"^^ . . "S M"^^ . "Kale"^^ . "S M Kale"^^ . . "D"^^ . "Jaganathan"^^ . "D Jaganathan"^^ . . "P M"^^ . "Gaur"^^ . "P M Gaur"^^ . . "K"^^ . "Sivasakthi"^^ . "K Sivasakthi"^^ . . "M"^^ . "Thudi"^^ . "M Thudi"^^ . . "V"^^ . "Vadez"^^ . "V Vadez"^^ . . "R K"^^ . "Varshney"^^ . "R K Varshney"^^ . . "R"^^ . "Baddam"^^ . "R Baddam"^^ . . "T"^^ . "Thirunalasundari"^^ . "T Thirunalasundari"^^ . . "M"^^ . "Tharanya"^^ . "M Tharanya"^^ . . "J"^^ . "Kholova"^^ . "J Kholova"^^ . . . . "InterDrought-V"^^ . . . . . "Hyderabad, India"^^ . . . . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea (PDF)"^^ . . . . . "Abstract_Book_402.pdf"^^ . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea (Other)"^^ . . . . . . "preview.jpg"^^ . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea (Other)"^^ . . . . . . "medium.jpg"^^ . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea (Other)"^^ . . . . . . "small.jpg"^^ . . . "High throughput phenotyping and advanced genotyping reveals QTLs for plant\r\nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought\r\ntolerance in chickpea (Other)"^^ . . . . . . "indexcodes.txt"^^ . . "HTML Summary of #10305 \n\nHigh throughput phenotyping and advanced genotyping reveals QTLs for plant \nvigor and water saving traits in a “QTL-hotspot”: New opportunities for enhancing drought \ntolerance in chickpea\n\n" . "text/html" . . . "Abiotic Stress"@en . . . "Drought Tolerance"@en . . . "Chickpea"@en . . . "Drought"@en . . . "Genetics and Genomics"@en . .