Planned intervention: On Wednesday April 3rd 05:30 UTC Zenodo will be unavailable for up to 2-10 minutes to perform a storage cluster upgrade.
Published April 12, 2023 | Version v1
Journal article Open

REVIEW ON ADVANCEMENT OF BIOFILM BIOFERTILIZER AND ITS IMPACT ON STRESS RESISTANT PLANTS

  • 1. Departmentof Microbiology, Guru Nanak Institute of Pharmaceutical Science and Technology, 157/F, Nilgunj Rd, Sahid Colony, Panihati, Kolkata, West Bengal 700114, India.

Description

Nutrients from plants are essential for the cultivation of crops and the production of healthy food to feed the worlds growing population. The impacts of global warming threaten nearly every economic sector, including agriculture. In order to maintain ecological equilibrium, microorganisms play an important role in the natural carbon, nitrogen, sulphur, and phosphorus cycles. Microbial biofilms are an intriguing issue because of their implications for ecology, economy, and human health. Advances in biochemical and molecular approaches have helped us gain a better grasp on how biofilms form and evolve. Growers are starting to take notice of biofilms because of their vast potential in agricultural productivity, security, and enhancement. Biofilms not only increase plant productivity, but they also play a critical role in the colonization of surfaces including soil, plant roots, and plant shoots. Utilizing bio-fertilizers allows plants to better absorb nutrients, thrive, and resist environmental stresses such as drought and pests. Potential biological fertilizers would be essential to the productivity and sustainability of soil, as well as to environmental conservation, because they are both environmentally beneficial and economical inputs for farmers.

 

Files

20.pdf

Files (299.9 kB)

Name Size Download all
md5:f3c57f507eabadf2d52d4454df589407
299.9 kB Preview Download