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Molecular Breeding in Wheat, Maize and Sorghum
Strategies for Improving Abiotic Stress Tolerance and Yield
- de
- Andrea AcunaMuhammad Amjad AliJohn AmalrajMaria ArguelloArushi AroraDiana BallesterosBhoja R BasnetSalma BhyanRichard BoylesFaïçal BriniYibo CaoS Antony CeasarNidhi ChakmaSubhadra ChakrabartyMoutoshi ChakrabortyHarmeet Singh ChawlaDharampal ChoudharyMukesh ChoudharyM C DaglaMônica Furaste DanileviczAbhijit Kumar DasHaixiao DongKate DreherSusanne DreisigackerProfessor David EdwardsXiaorong FanMaria Laura FedericoCassandria Tay FernandezErtugrul FilizMonika GargClaudia Teixeira GuimaraesKarama HamdiK HariprasannaFiroz HossainGuanghui HuZhaorong HuB S JatCaifu JiangFaiz Ahmad JoyiaMehar KambojChikkappa KarjagiLovenpreet KaurMuhammad Sarwar KhanEmna KhanfirRajesh KhulbeBhupender KumarPardeep KumarPradeep KumarSantosh KumarFirat KurtZhao LiYun-Hua LiuNingthaipuilu LongmeiDamar Lopez-ArredondoJurandir Vieira de MagalhaesT MaharajanJacob MarshR. Esten MasonClémentine MercéGhulam MustafaVignesh MuthusamySudha K NairZhongfu NiKazutoshi OkunoGeoffrey OnagaHuiru PengJorge Fernando PereiraSACN PereraBhukya PrakashLydia PramithaP RajendrakumarMantena RajuSavaram VR RaoAli RazzaqP Sanjana ReddyTrenton RobertsG Victor RochUmesh R RosyaraPawan SainiSindhu SareenGajanan SaykhedkarAndré SchaffaszArmin SchebenNatasha SharmaTariq ShehzadSonia SheoranCharan SinghIshwar SinghPrabha SinghVishal SinghRod SnowdonNithya SubramanianQixin SunMadhumal Thayil VinayanYiqiao WangShabir Hussain WaniSteffen WindpassingerKerstin WydraYinping JiaoMingming XinInes YacoubiPranjal YadavaYingyin YaoKuohai YuYaping YuanPervez Haider ZaidiHong-Bin ZhangMeiping ZhangZhiwu ZhangRajkumar U Zunjare
2021
EN
The global population is projected to reach almost 10 billion by 2050, and food and feed production will need to increase by 70%. Wheat, maize and sorghum are three key cereals which provide nutrition for the majority of the world's population. Their production is affected by various abiotic stresses which cause significant yield losses. The effects of climate change also increase the frequency and severity of such abiotic stresses. Molecular breeding technologies offer real hope for impro...
$3,327.00 MXN
- Serie -
- Compendium of Plant Genomes
2021
EN
This book presents comprehensive information on genetics, genomics and breeding in Brassica oleracea, an agriculturally important species that includes popular vegetable crops such as cabbage, cauliflower, broccoli, Brussels sprouts, kale, collard greens, savoy, kohlrabi, and gai lan. The content spans whole genome sequencing, assembly and gene annotation for this global vegetable species, along with molecular mapping and cloning of genes, physical genome mapping and analyses of the struct...
$2,575.00 MXN
- Serie -
- Compendium of Plant Genomes
2018
EN
This book describes how the genome sequence contributes to our understanding of allopolyploidisation and the genome evolution, genetic diversity, complex trait regulation and knowledge-based breeding of this important crop. Numerous examples demonstrate how widespread homoeologous genome rearrangements and exchanges have moulded structural genome diversity following a severe polyploidy bottleneck. The allopolyploid crop species Brassica napus has the most highly duplicated plant genome to ...
$3,127.00 MXN


