Agriculture is a major contributor to the world's food supply and is highly dependent on field crops, which face serious threats such as poor soil quality, biotic and abiotic stresses, and changing climatic conditions. To address these challenges, major efforts are needed to increase field crop production in a sustainable manner. Increasing desertification due to climate change and loss of arable land are severely limiting the amount of land available to produce food for a growing population. In addition, the overuse of fertilizers and pesticides has led to an unprecedented increase in global productivity, but also to many ecosystem problems. To sustainably increase agricultural production, innovative and environmentally friendly strategies are needed to reduce the use of chemicals in agriculture. Plant Growth Promoting Bacteria (PGPB), or the use of organic or nano-organic chemistry compounds, could be a low-cost, long-term solution to restore soil fertility, as they have a wide range of benefits in agriculture, including increasing crop productivity, improving nutrient levels and inhibiting pathogen growth.
The objective of this Research Topic is to highlight the growing knowledge of these beneficial plant interactions and their direct impact on plant and ecosystem performance, as well as open questions and challenges. The collection will reflect the growing basic knowledge and its direct translation into ecological and sustainable practices for plant growth, soil management, ecosystem conservation and agricultural progress.
The following studies are welcomed to the collection, but not limited to:
- Microorganisms, the use of organic compounds and their interaction.
- Microbial Ecology
- Plant partners in symbiotic associations or their impact on environmental stresses, including those associated with global climate change.
- Emphasis on genomics, genetics, molecular biology, biochemistry and physiology associated with pathogenic, symbiotic and associative interactions of microorganisms with plants.
Scientists and experts are invited to submit original research articles and reviews that improve our understanding of plant-microbe interactions and contribute to crop improvement. In order to characterize these interactions, studies combining multidisciplinary approaches are encouraged.
Keywords:
Bacteria, Symbiosis, Root, Plant Growth, Environmental Stress, Beneficial Interaction, Microbiome, Adaption, Tolerance, Sustainable Production, Marginal Lands, Organic compounds, Nanotechnology
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Agriculture is a major contributor to the world's food supply and is highly dependent on field crops, which face serious threats such as poor soil quality, biotic and abiotic stresses, and changing climatic conditions. To address these challenges, major efforts are needed to increase field crop production in a sustainable manner. Increasing desertification due to climate change and loss of arable land are severely limiting the amount of land available to produce food for a growing population. In addition, the overuse of fertilizers and pesticides has led to an unprecedented increase in global productivity, but also to many ecosystem problems. To sustainably increase agricultural production, innovative and environmentally friendly strategies are needed to reduce the use of chemicals in agriculture. Plant Growth Promoting Bacteria (PGPB), or the use of organic or nano-organic chemistry compounds, could be a low-cost, long-term solution to restore soil fertility, as they have a wide range of benefits in agriculture, including increasing crop productivity, improving nutrient levels and inhibiting pathogen growth.
The objective of this Research Topic is to highlight the growing knowledge of these beneficial plant interactions and their direct impact on plant and ecosystem performance, as well as open questions and challenges. The collection will reflect the growing basic knowledge and its direct translation into ecological and sustainable practices for plant growth, soil management, ecosystem conservation and agricultural progress.
The following studies are welcomed to the collection, but not limited to:
- Microorganisms, the use of organic compounds and their interaction.
- Microbial Ecology
- Plant partners in symbiotic associations or their impact on environmental stresses, including those associated with global climate change.
- Emphasis on genomics, genetics, molecular biology, biochemistry and physiology associated with pathogenic, symbiotic and associative interactions of microorganisms with plants.
Scientists and experts are invited to submit original research articles and reviews that improve our understanding of plant-microbe interactions and contribute to crop improvement. In order to characterize these interactions, studies combining multidisciplinary approaches are encouraged.
Keywords:
Bacteria, Symbiosis, Root, Plant Growth, Environmental Stress, Beneficial Interaction, Microbiome, Adaption, Tolerance, Sustainable Production, Marginal Lands, Organic compounds, Nanotechnology
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.