Polyamines (PAs) have a variety of roles in plant environment interactions and stress
responses, which control the tolerance induction of plants under hypoxic stress. Citrus plants …

Citrus is a remarkable fruit crop, extremely sensitive to flooding conditions, which frequently
trigger hypoxia stress and cause severe damage to citrus plants. Silicon nanoparticles …

Silicon (Si) can have several beneficial effects when exogenously applied to plants,
including increased tolerance against several abiotic and biotic stressors. The current study …

Flooding induces low oxygen (hypoxia) stress to plants, and this scenario is mounting due to
hurricanes followed by heavy rains, especially in subtropical regions. Hypoxia stress results …

Lemongrass (Cymbopogon flexuosus) has great relevance considering the substantial
commercial potential of its essential oil. Nevertheless, the increasing soil salinity poses an …

Climate change exacerbates flooding problems due to hurricanes followed by heavy rains,
particularly in sub-tropical regions. Consequently, submerged plants experience hypoxia …

Environmental stresses are major cause of poor lower yield and poor quality of fruits. Among
these, fruit yield is low due to irrigation with brackish water. The adverse effects of poor …

Silicon plays a crucial role in enhancing plant tolerance to various abiotic and biotic
stresses, including drought, salinity, heavy metals, and pathogen/pest attacks. Its application …

Silicon (Si) has been reported to minimize the impacts of water deficit, even though it is not
considered an essential plant element. Sugarcane is highly impacted by water deficit and …

Silicon can increase salt tolerance, but the underlying mechanism has remained unclear.
Here, we investigated the effect of silicon on polyamine metabolism and the role of …