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書(shū)目名稱(chēng)Genomics-aided Breeding Strategies for Biotic Stress in Grain Legumes影響因子(影響力)




書(shū)目名稱(chēng)Genomics-aided Breeding Strategies for Biotic Stress in Grain Legumes影響因子(影響力)學(xué)科排名




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書(shū)目名稱(chēng)Genomics-aided Breeding Strategies for Biotic Stress in Grain Legumes網(wǎng)絡(luò)公開(kāi)度學(xué)科排名




書(shū)目名稱(chēng)Genomics-aided Breeding Strategies for Biotic Stress in Grain Legumes被引頻次




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書(shū)目名稱(chēng)Genomics-aided Breeding Strategies for Biotic Stress in Grain Legumes讀者反饋




書(shū)目名稱(chēng)Genomics-aided Breeding Strategies for Biotic Stress in Grain Legumes讀者反饋學(xué)科排名

放肆的你

Genetic and Genomic Resources for Improving Biotic Stress Tolerance in Chickpea, 738 Mbp, this crop boasts a cool-season preference and self-pollinating tendencies. Notably, chickpea demonstrates remarkable resilience in regions characterized by scarce rainfall and high temperatures. The nutritional prowess of chickpea is a beacon of hope against malnutrition, particularly for

meditation

Genomics-Aided Breeding Strategies for Biotic Stress in Pigeonpea,lisp.], a legume crop grown in both tropical and subtropical regions, is known for its high protein content and bioavailable nutritional value, but it is also susceptible to various biotic stresses such as diseases, insect-pests, and weeds during its different growth stages. Genomics-aided breeding

excrete

BILL

Biotic Stresses in Mung Bean: Achievements and Prospects for Genomics-Enabled Breeding Strategies,eginning with an overview, it explores the richness of germplasm resources harboring tolerance traits and spotlights on promising candidates. Understanding the genetic underpinnings of resistance, both against diseases and insect pests, take center stage, with a focus on molecular mechanisms and gen

SSRIS

SSRIS

Genomics-Enabled Breeding for Sustainable Management of Pests and Diseases in Cowpea,mploying advanced breeding techniques for genomic designing of cowpea to induce resistance against various biotic stresses for improving the cowpea productivity. Further, transcriptomic, proteomic, and metabolomic approach applications in characterization of trait and developing resistance genotypes

救護(hù)車(chē)

Genomic-Assisted Breeding Strategies for Biotic Stress in Common Bean: Progress and Prospects,nues to be a crucial obstacle in maximizing the productive potential of beans. From this chapter, a thorough overview is provided on the current progress of genome-enabled breeding strategies in developing bean resistance cultivars against various diseases such as anthracnose, angular leaf spot, bea

Subjugate

Genomics-Assisted Approaches for Improving Biotic Stress Response in Pea, occurrence of various biotic stresses like . wilt and root rot, common root rot, powdery mildew, downy mildew, . blight, rust, bacterial blight, nematodes, broom rape parasite, aphids, weevils and different viruses. Development of resistant varieties to these stresses through conventional breeding

內(nèi)部

Integrating Germplasm Diversity and Omics Science to Enhance Biotic Stress Resistance in Soybean,challenges from various biotic stresses such as fungal, bacterial, viral, and nematode diseases, as well as damage from insects and pests, resulting in substantial yield losses. Traditional breeding methods have been effective in developing improved soybean varieties. Yet, to expedite breeding endea