Key message Genetic map** identified large number of epistatic interactions indicating
the complex genetic architecture for stem rot disease resistance. Abstract Groundnut …

Aims Determining the soil factors that drive the dynamics of soil-borne pathogens is an
essential step toward the formulation and implementation of strategies for the control of plant …

India imports the most edible oils because domestic demand exceeds production.
Horizontally expanding groundnut production in non-traditional areas especially in the …

Key message A total of 33 additive stem rot QTLs were identified in peanut genome with
nine of them consistently detected in multiple years or locations. And 12 pairs of epistatic …

Sugar beet (Beta vulgaris L.), cultivated in various regions globally, contributes to
approximately 30% of the world's sugar production. Despite its economic importance, sugar …

Peanut, also known as groundnut (Arachis hypogaea L.), is an important oilseed and food
crop globally, contributing significantly to the economy and food security. However, its …

Peanut stem rot, also known as white mold, poses a significant threat to peanut production. It
is typically managed using fungicides and moderately resistant cultivars. Cultivars with …

Stem rot of groundnut, caused by a necrotrophic pathogen Sclerotium rolfsii Sacc., is an
important soil-borne disease that can cause a pod yield loss of 20–80% depending on …

Boscalid, a widely used SDHI fungicide, has been employed in plant disease control for over
two decades. However, there is currently no available information regarding its antifungal …

Peanut (Arachis hypogaea) is an important oilseed and cash crop worldwide, contributing
an important source of edible oil and protein for human nutrition. However, the incidence of …