<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation"^^ . "With the genomics revolution in full swing, relevant phenotyping\r\nis now a main bottleneck. New imaging technologies\r\nprovide opportunities for easier, faster and more informative\r\nphenotyping of many plant parameters. However, it is critical\r\nthat the development of automated phenotyping be driven by a\r\nclear framing of target phenotypes rather than by a technological\r\npush, especially for complex constraints. Previous studies\r\non drought adaptation shows the importance of water availability\r\nduring the grain filling period, which depends on traits\r\ncontrolling the plant water budget at earlier stages. We will\r\nthen discuss “cause” and “consequence” in phenotypes. Drawing\r\non this, a phenotyping platform (LeasyScan) was developed\r\nto target canopy development and conductance traits. Based\r\non a novel 3D scanning technique to capture leaf area development\r\ncontinuously and a scanner-to-plant concept to increase\r\nimaging throughput, LeasyScan is also equipped with 1488 analytical\r\nscales to measure transpiration seamlessly. Examples\r\nof the first applications are presented: (i) to compare the leaf\r\narea development pattern of pearl millet breeding material targeted\r\nto different agro-ecological zones, (ii) for the mapping\r\nof QTLs for vigour traits in chickpea, shown to co-map with an\r\nearlier reported “drought tolerance” QTL; (iii) for the mapping\r\nof leaf area development in pearl millet; (iv) for assessing the\r\ntranspiration response to high vapour pressure deficit in different\r\ncrops. This new platform has the potential to phenotype\r\ntraits controlling plant water use at a high rate and precision,\r\nopening the opportunity to harness their genetics towards\r\nbreeding improved varieties."^^ . "2017-02" . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "G"^^ . "Karthika"^^ . "G Karthika"^^ . . "V"^^ . "Vadez"^^ . "V Vadez"^^ . . "C"^^ . "Keerthi"^^ . "C Keerthi"^^ . . "M"^^ . "Srikanth"^^ . "M Srikanth"^^ . . "B"^^ . "Rekha"^^ . "B Rekha"^^ . . "J"^^ . "Kholova"^^ . "J Kholova"^^ . . "M"^^ . "Tharanya"^^ . "M Tharanya"^^ . . "M"^^ . "Alimagham"^^ . "M Alimagham"^^ . . "K"^^ . "Sivasakthi"^^ . "K Sivasakthi"^^ . . . . "InterDrought-V"^^ . . . . . "Hyderabad, India"^^ . . . . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation (PDF)"^^ . . . . . "Abstract_Book_125.pdf"^^ . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation (Other)"^^ . . . . . . "preview.jpg"^^ . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation (Other)"^^ . . . . . . "medium.jpg"^^ . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation (Other)"^^ . . . . . . "small.jpg"^^ . . . "LeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness\r\nthe genetics of key traits for drought adaptation (Other)"^^ . . . . . . "indexcodes.txt"^^ . . "HTML Summary of #10293 \n\nLeasyScan: 3D scanning of crop canopy plus seamless monitoring of water use to harness \nthe genetics of key traits for drought adaptation\n\n" . "text/html" . . . "Drought"@en . . . "Genetics and Genomics"@en . . . "Plant Physiology"@en . .