排序方式: 共有33条查询结果,搜索用时 0 毫秒
31.
D. K. Salunkhe S. J. Jadhav M. H. Yu 《Plant foods for human nutrition (Dordrecht, Netherlands)》1974,24(1-2):85-113
The chemical contituents are concerned in the quality of tomato fruit in respect to color, texture, flavor, nutritive value, and wholesomeness. In general, high sugar contents, redness of color, and firm texture are associated with prominence of rich flavor. Biochemical changes as influenced by growth, maturation, and environment of tomato fruit are discussed.
Zusammenfassung Die Qualität der Tomatenfrucht wird chemisch bestimmt durch Farbe, Festigkeit, durch Geruch und Geschmack, durch Nährwert und Bekömmlichkeit. Im algemeinen korrellieren hoher Zuckergehalt, intensive Rotfärbung und Festigkeit der Frucht mit Vorhandensein eines vollen Armas.Biochemische Veränderungen bedingt durch Wachtums, Reife und Umwelt der Tomatenfrucht werden diskutiert.相似文献
32.
Yashoda Jadhav Surendra S. Manohar Gururaj Sunkad Viswanatha P. Kannalli Manish K. Pandey Murali T. Variath Shasidhar Yaduru Praveen Kona Rajeev K. Varshney Janila Pasupuleti 《Plant Breeding》2019,138(6):748-760
Parents and 318 F8 recombinant inbred lines (RILs) derived from the cross, TAG 24 × ICGV 86031 were evaluated for peanut bud necrosis disease (PBND) resistance and agronomic traits under natural infestation of thrips at a disease hotspot location for 2 years. Significant genotype, environment and genotype × environment interaction effects suggested role of environment in development and spread of the disease. Quantitative trait loci (QTL) analysis using QTL Cartographer identified a total of 14 QTL for six traits of which five QTL were for disease incidence. One quantitative trait locus q60DI located on LG_AhII was identified using both QTL Cartographer and QTL Network. Another QTL q90DI was detected with a high PVE of 12.57 using QTL Cartographer. A total of nine significant additive × additive (AA) interactions were detected for PBND disease incidence and yield traits with two and seven interactions displaying effects in favour of the parental and recombinant genotype combinations, respectively. This is the first attempt on QTL discovery associated with PBND resistance in peanut. Superior RILs identified in the study can be recycled or released as variety following further evaluations. 相似文献
33.
Pushpesh Joshi Mangesh P. Jadhav Kenta Shirasawa Arati Yadawad Ramesh S. Bhat 《Plant Breeding》2020,139(1):148-155
With an objective of developing the induced mutants for superior productivity and resistance to foliar diseases in peanut, two introgression lines (IL-3 and IL-4) derived from ABK genomes of peanut were subjected to gamma and sodium azide mutagenesis. Evaluation of M1, M2 and M3 generations could identify foliar disease resistant and productive mutants. Large-scale evaluation of M4 mutants during the rainy season of 2017 confirmed the superiority of 12 mutants over the respective parents and the best check (GPBD 4). The selected mutants were resistant to leaf spots (early and late) and rust diseases, and significantly more productive than the parents and GPBD 4. ddRAD-Sequencing of these mutants identified the single nucleotide polymorphisms (SNPs) when compared to their parents. The genes harbouring these structural mutations were also identified. However, no copy number variations (CNVs) were observed between the mutants and the parents. The selected mutants carried resistant-type alleles at the marker loci linked to foliar disease resistance. These promising mutants (M8) are currently under initial trials of variety development for commercial release. 相似文献