The deterioration of the environment brought on by human activity has grown into a global issue. Advanced technologies must be implemented globally to minimize the degree of harm caused by contamination of the soil, water, and air. Environmental pollution is known to negatively affect the growth and development of crops and microorganisms in agricultural systems. Environmental pollutions, e.g. heavy metals, pesticides, nanomaterials, emerging pollutants, and other chemicals, influence higher trophic levels, such as mammals and people, in addition to the qualitative and quantitative features of crops and microorganisms. Due to their effects on various agricultural practices, these pollutants have a considerable negative economic impact on farmers. The system of the complex physiological and molecular mechanism to remove the toxins of environmental pollution must be explained to explore more advanced technologies.Environmental pollution issues are prevalent globally. The hazard of environmental pollution, which affects the crops and microorganisms at different trophic levels, is greater in developing and impoverished nations. The goal of this Research Topic is to explore the toxicity, mechanism, and remediation of environmental pollution in agricultural systems. These researches, which focus on how plants and microorganism deal with new kinds of environmental pollution including heavy metals, pesticides, nanomaterials, emerging pollutants, and other chemicals that exert stress and their detoxifying mechanisms, are particularly fascinating.This Research Topic aims at exploring the toxicity, mechanism, and remediation underpinnings of any features connected to Environmental Pollution in Agricultural Systems. We welcome all types of submissions (e.g., Original Research, Reviews, Methodologies, Mini-Reviews, Perspectives, and Opinion articles), including (but not limited to) research covering:- Environmental pollution risk assessment for plants and microorganisms in agroecosystems.- Environmental pollution-induced biological changes in plants and microorganisms.- The underlying physiological and molecular mechanism in plants and microorganisms against environmental pollution.- Environmental pollution as a risk to agricultural practices.- Remediation techniques for environmental pollution in agroecosystems.
The deterioration of the environment brought on by human activity has grown into a global issue. Advanced technologies must be implemented globally to minimize the degree of harm caused by contamination of the soil, water, and air. Environmental pollution is known to negatively affect the growth and development of crops and microorganisms in agricultural systems. Environmental pollutions, e.g. heavy metals, pesticides, nanomaterials, emerging pollutants, and other chemicals, influence higher trophic levels, such as mammals and people, in addition to the qualitative and quantitative features of crops and microorganisms. Due to their effects on various agricultural practices, these pollutants have a considerable negative economic impact on farmers. The system of the complex physiological and molecular mechanism to remove the toxins of environmental pollution must be explained to explore more advanced technologies.Environmental pollution issues are prevalent globally. The hazard of environmental pollution, which affects the crops and microorganisms at different trophic levels, is greater in developing and impoverished nations. The goal of this Research Topic is to explore the toxicity, mechanism, and remediation of environmental pollution in agricultural systems. These researches, which focus on how plants and microorganism deal with new kinds of environmental pollution including heavy metals, pesticides, nanomaterials, emerging pollutants, and other chemicals that exert stress and their detoxifying mechanisms, are particularly fascinating.This Research Topic aims at exploring the toxicity, mechanism, and remediation underpinnings of any features connected to Environmental Pollution in Agricultural Systems. We welcome all types of submissions (e.g., Original Research, Reviews, Methodologies, Mini-Reviews, Perspectives, and Opinion articles), including (but not limited to) research covering:- Environmental pollution risk assessment for plants and microorganisms in agroecosystems.- Environmental pollution-induced biological changes in plants and microorganisms.- The underlying physiological and molecular mechanism in plants and microorganisms against environmental pollution.- Environmental pollution as a risk to agricultural practices.- Remediation techniques for environmental pollution in agroecosystems.