Abstract

Tungro virus infection significantly threatens rice cultivation, particularly in regions where the disease is endemic. This article reviews recent advancements in understanding the mechanisms of Tungro virus infection and its profound impact on plant physiology. The interaction between the virus and the host plant involves intricate molecular processes that influence various physiological parameters, ultimately leading to compromised crop yield and discuss insights gained from molecular studies, physiological analyses, and crop management strategies aimed at mitigating the effects of Tungro virus infection. By elucidating these complexities, researchers aim to develop sustainable approaches for managing Tungro disease and ensuring global food security.