02768nam a2200349 a 450000100080000000500110000800800410001910000210006024500840008126001740016530000110033952017370035065000100208765300190209765300270211665300220214365300150216565300150218065300160219565300350221165300100224665300190225670000170227570000200229270000180231270000160233070000140234670000170236070000140237770000130239170000140240410592352019-06-12       2017    bl uuuu     u01u1 u    #d1 aSAINT PIERRE, C.  aGlobal network for precision wheat phenotypin.[Resumen].h[electronic resource]  aIn: Latin-American Conference on Plant Phenotyping and Phenomics for Plant Breeding, 2, 2017, São Carlos, SP. Proceedings... São Carlos: Embrapa Instrumentaçãoc2017  ap. 77.  aInvestments in high quality phenotyping are needed to fully exploit the potential of genomic data, and consequently, to contribute for more efficient plant selections, shorter breeding cycles, and rapid advances in breeding. Based on a global network of wheat partners, several precision fieldbased wheat phenotyping platforms are being developed with the support of the CGIAR Research Program on Wheat and co-investing national agricultural research institutes. The objective is to generate higher precision multi-location phenotypic data on prioritized traits, under defined good practices, short- and longer-term training and sharing of the generated knowledge, as well as fostering global germplasm exchange among participating NARS and scientists. The selected locations represent key environments, as for example, hotspots for specific diseases and future climate analogue sites. Within this network, phenotyping activities are being conducted for wheat blast (Magnaporthe oryzae) in Bolivia, Septoria tritici blotch (STB) in durum wheat in Tunisia, and for multiple diseases (leaf rust, Fusarium head blight, and STB) in bread wheats in Uruguay. Subject to further funding, additional platforms to be developed include the ones for evaluation of heat and drought tolerance (Morocco - already funded - India, Pakistan, Bangladesh, Nepal, Turkey), yield potential (China, India, Pakistan, Egypt, Zimbabwe), and wheat diseases (China, Turkey, Bangladesh-Nepal). The generated information will contribute to a faster development of broad genetic based resistant, high yielding wheat varieties, complementing evaluations currently performed for diseases (Kenya, Ethiopia, Turkey, Mexico) and heat/drought/yield potential (Mexico).  aTRIGO  aABIOTIC STRESS  aENFERMEDADES DEL TRIGO  aESTRÉS ABIÓTICO  aFENOTIPADO  aNETWORKING  aPHENOTYPING  aPLATAFORMA FENOTIPADO DE TRIGO  aWHEAT  aWHEAT DISEASES1 aGHANEM, M.E.1 aBEN M'BAREK, S.1 aAZZIMONTI, G.1 aPEREYRA, S.1 aMARZA, F.1 aYAHYAOUI, A.1 aSINGH, P.1 aBAUM, M.1 aBRAUN, H.