Climate change across the globe has an impact on the occurrence, prevalence, and severity
of plant diseases. About 30% of yield losses in major crops are due to plant diseases; …

Peanut production plays a crucial role in global food security, particularly in developing
countries, where it provides essential nutrition and income. This paper examines the …

Multiparental genetic mapping populations such as nested‐association mapping (NAM)
have great potential for investigating quantitative traits and associated genomic regions …

A deep understanding of the genetic control of drought tolerance and iron deficiency
tolerance is essential to hasten the process of developing improved varieties with higher …

Seed size is not only a yield-related trait but also an important measure to determine the
commercial value of groundnut in the international market. For instance, small size is …

As one of the most important and largest transcription factors, WRKY plays a critical role in
plant disease resistance. However, little is known regarding the functions of the WRKY …

Late leaf spot (LLS) caused by fungus Nothopassalora personata in groundnut is
responsible for up to 50% yield loss. To dissect the complex nature of LLS resistance …

Breeding high yielding groundnut cultivars with 2–3 weeks of fresh seed dormancy,
particularly in Spanish-type cultivars, enhances the sustainability of agriculture in …

The morphological and molecular diversity of 101 peanut varieties from South China were
analyzed to identify distinctness among these varieties. No significant difference was …

In order to integrate genomics in breeding and development of drought-tolerant groundnut
genotypes, identification of genomic regions/genetic markers for drought surrogate traits is …