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000916159 1001_ $$0P:(DE-Juel1)129379$$aPieruschka, Roland$$b0$$ufzj
000916159 245__ $$aOrigins and drivers of crop phenotyping
000916159 260__ $$aCambridge$$bBurleigh Dodds Science Publishing Limited$$c2022
000916159 29510 $$a[Ebook] Advances in plant phenotyping for more sustainable crop production / Walter, Achim , Cambridge : Burleigh Dodds Science Publishing Limited, 2022,
000916159 300__ $$a1 Online-Ressource (xxii, 380 pages : illustrations (some color
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000916159 4900_ $$aBurleigh Dodds series in agricultural science$$vnumber 117
000916159 500__ $$aIncludes bibliographical references and index;
000916159 520__ $$aUnderstanding the phenotype of plants is essential in the context of food or biomass production from crops, for efficient use of resources such as water or nutrients or in understanding plant ecological performance. All these depend on the interaction between plant genetic makeup and the prevailing environment. Understanding multidimensional plant–environment interactionshas a long history in the eco-physiological sciences. The subject gained new momentum when genomics technologies became available about three decades ago. An increasing number of plant genome projects were initiated to analyse the genetic makeup of plants. Within the last few decades, about 600 genome assemblies from different plant species have been made available in public repositories (Kersey, 2019). Crop species dominated initially but a wider range of plants, including non-domesticated species, have now been analysed. In parallel with these developments, there have been advances in technologies to modify plant genetics. Recent progress in genetic engineering –specifically CRISPR/CAS9 – provides ʻ...enormous power in this genetic tool, which affects us all. It has not only revolutionised basic science but also resulted in innovative crops and will lead to ground-breaking new medical treatmentsʼ, to quote Claes Gustafsson, chair of the Nobel Committee for Chemistry.
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000916159 536__ $$0G:(EU-Grant)739514$$aEMPHASIS-PREP - Preparation for EMPHASIS: European Infrastructure for multi-scale Plant Phenomics and Simulation for food security in a changing climate (739514)$$c739514$$fH2020-INFRADEV-2016-2$$x1
000916159 536__ $$0G:(EU-Grant)731013$$aEPPN2020 - European Plant Phenotyping Network 2020 (731013)$$c731013$$fH2020-INFRAIA-2016-1$$x2
000916159 536__ $$0G:(EU-Grant)824087$$aEOSC-Life - Providing an open collaborative space for digital biology in Europe (824087)$$c824087$$fH2020-INFRAEOSC-2018-2$$x3
000916159 536__ $$0G:(EU-Grant)824063$$aRI-VIS - Expanding research infrastructure visibility to strengthen strategic partnerships (824063)$$c824063$$fH2020-INFRASUPP-2018-1$$x4
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000916159 650_0 $$aCrop science
000916159 650_0 $$aSustainable agriculture
000916159 650_0 $$aPhenotype
000916159 7001_ $$0P:(DE-Juel1)129402$$aSchurr, Ulrich$$b1$$eCorresponding author$$ufzj
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