Worldwide, heavy metals pollution is mostly caused by rapid population growth and
industrial development which is accumulated in food webs causing a serious public health …

Endophytic bacteria colonize plants and live inside them for part of or throughout their life
without causing any harm or disease to their hosts. The symbiotic relationship improves the …

Salinity is a major abiotic stress threatening crop production. Root-derived bacteria (RDB)
are hypothesized to play a role in enhancing plant adaptability to various stresses. However …

Globally, substantial research into endophytic microbes is being conducted to increase
agricultural and environmental sustainability. Endophytic microbes such as bacteria …

In this study, we characterized, identified, and determined the effect of salt-tolerant PGPR
isolated from coastal saline areas on rice growth and yield. A total of 44 bacterial strains …

The development of an environmentally friendly agricultural system as opposed to
conventional methods using chemical fertilizers and pesticides for improved crop …

The conventional means of achieving enhanced agricultural productivity are not ecologically
balanced and sustainable. The excessive use of synthetic agrochemicals, declining soil …

Nanotechnology has enormous potential for sustainable agriculture, such as improving
nutrient use efficiency, plant health, and food production. Nanoscale modulation of the plant …

Soil salinization is an important global issue since marginal salt-affected soils have harmful
consequences in agriculture and ecosystems. This article reviews different sustainable …

Endophytic bacteria inevitably form mutualistic relationships with plants and supply
numerous benefits without causing peripheral infection or adverse effects on their host. They …