Pod size is a key agronomic trait that greatly determines peanut yield, the regulatory genes
and molecular mechanisms that controlling peanut pod size are still unclear. Here, we used …

Key message Integrating GAB methods with high-throughput phenotyping, genome editing,
and speed breeding hold great potential in designing future smart peanut cultivars to meet …

The cultivated peanut (Arachis hypogaea L.) is a significant oil and cash crop globally.
Hundred-pod and-seed weight are important components for peanut yield. To unravel the …

Malnutrition is a major challenge globally, and groundnut is a highly nutritious self‐
pollinated legume crop blessed with ample genomic resources, including the routine …

After crosses, the identification of true hybrids is not only the most important step in the
initiation of a breeding program but also plays a crucial role in the improvement of hybrid …

The potential production and productivity of groundnuts are limited due to severe drought
stress associated with climate change. The current study aimed to identify genomic regions …

Key message A Fusarium wilt resistance gene FwS1 on pea chromosome 6 was identified
and mapped to a 91.4 kb region by a comprehensive genomic-based approach, and the …

Background Foliar diseases namely late leaf spot (LLS) and leaf rust (LR) reduce yield and
deteriorate fodder quality in groundnut. Also the high oleic acid content has emerged as one …

Silicon (Si) has been shown to promote peanut growth and yield, but whether Si can
enhance the resistance against peanut bacterial wilt (PBW) caused by Ralstonia …

Peanuts (Arachis hypogaea L.) are important high-protein and oil-containing legume crops
adapted to arid to semi-arid regions. The yield and quality of peanuts are complex …