Trichoderma spp. have been widely used in agricultural applications due to its well known
biological control mechanism. The usage of this microbial inoculant in Trichoderma-based …

Trichoderma is an important biocontrol agent for managing plant diseases. Trichoderma
species are members of the fungal genus hyphomycetes, which is widely distributed in soil …

Microplastic (MP) pollution severely impairs the sustainable development of modern
agriculture. However, the mechanisms underlying the effects of MP contaminants on nutrient …

Salinization of soil with sodium chloride ions inhibits plant functions, causing reduction of
yield of crops. Salt tolerant microorganisms have been studied to enhance crop growth …

New and Future Developments in Microbial Biotechnology and Bioengineering: Recent
Developments in Trichoderma Research covers topics on-Trichoderma biodiversity, strain …

Background Soil salinity and drought are an enormous worldwide problem for agriculture,
horticulture and silviculture. The initial responses of plants to drought and salinity are similar; …

Plant biostimulants are formulated with diverse microorganisms and/or substances that are
applied to crops with the aim of enhancing growth, development and adaptation to abiotic …

Trichoderma spp. are common soil and root inhabitants that have been widely studied due
to their capacity to produce antibiotics, parasitize other fungi and compete with deleterious …

Salinity stress affected crop production of more than 20% of irrigated land globally. In the
present study the effect of different concentrations of NaCl (0, 100, and 200 mM) on growth …

Soil salinization adversely affects plant growth and has become one of the major limiting
factors for crop productivity worldwide. The conventional approach, breeding salt-tolerant …