Microbial-fungal symbioses are key drivers in ecological networks and agricultural systems, orchestrating vital processes such as nutrient cycling, maintaining soil and plant health, enhancing plant resilience, and the success of animal hosts, including those that are pests. These complex interactions, ranging from mutualistic to commensal or antagonistic, involve fungi and diverse microorganisms, such as bacteria, archaea, and other fungi, and can influence a wide range of hosts, including both plants and animals. Amidst ever-changing climates, land degradation, and agricultural shifts, understanding these interactions is critical. Recent studies have highlighted their crucial contribution to soil fertility, plant productivity, ecosystem adaptation, and the ecological success of associated hosts. However, knowledge gaps remain regarding the mechanisms, diversity, and functional aspects of these symbiotic partnerships, prompting ongoing debates and calls for further exploration to harness their full potential.This Research Topic aims to consolidate pioneering research and insightful reviews focusing on the mechanistic basis and diversity of microbial-fungal partnerships. It seeks to answer critical questions related to molecular and ecological mechanisms, the impact of environmental changes and agricultural practices on these interactions, their role in nutrient cycling, plant growth promotion, stress tolerance, and their interaction with hosts. The overarching objective is to uncover the ecological consequences and feedback that influence ecosystem stability and resilience and to explore innovative ways to leverage microbial-fungal partnerships for sustainable agriculture, bioremediation, green biotechnology, and pest management.Our scope encompasses both the breadth and limitations of microbial-fungal symbioses in ecological and applied contexts. We invite submissions on, but not limited to, the following themes:o Ecological studies describing symbiotic interactions among fungi, other microbial associates, and their plant or animal hostso Molecular, genetic, and ecological mechanisms underpinning microbial-fungal symbioseso Impact of environmental changes, land use, and agricultural practices on symbiotic interactionso Roles in nutrient mobilization, carbon and nitrogen cycling, plant growth promotion, and abiotic stress mitigationo Ecological outcomes and feedback influencing ecosystem stabilityo Co-evolutionary dynamics and community assembly in rhizosphere and endospore habitatso Novel methods for harnessing these symbioses in sustainable agriculture, bioremediation, synthetic consortia, biotechnology, and pest controlo Advances in omics technologies, imaging, and modeling to study symbiotic networksBy encapsulating the ecological, environmental, and applied perspectives of microbial-fungal symbioses, this Research Topic aims to cultivate a comprehensive understanding of their significance and potential for innovation in natural and managed systems.All article types suitable for Frontiers in Microbiology are welcome, including original research articles, reviews, mini-reviews, and perspectives, to capture diverse insights and advance the field.
Microbial-fungal symbioses are key drivers in ecological networks and agricultural systems, orchestrating vital processes such as nutrient cycling, maintaining soil and plant health, enhancing plant resilience, and the success of animal hosts, including those that are pests. These complex interactions, ranging from mutualistic to commensal or antagonistic, involve fungi and diverse microorganisms, such as bacteria, archaea, and other fungi, and can influence a wide range of hosts, including both plants and animals. Amidst ever-changing climates, land degradation, and agricultural shifts, understanding these interactions is critical. Recent studies have highlighted their crucial contribution to soil fertility, plant productivity, ecosystem adaptation, and the ecological success of associated hosts. However, knowledge gaps remain regarding the mechanisms, diversity, and functional aspects of these symbiotic partnerships, prompting ongoing debates and calls for further exploration to harness their full potential.This Research Topic aims to consolidate pioneering research and insightful reviews focusing on the mechanistic basis and diversity of microbial-fungal partnerships. It seeks to answer critical questions related to molecular and ecological mechanisms, the impact of environmental changes and agricultural practices on these interactions, their role in nutrient cycling, plant growth promotion, stress tolerance, and their interaction with hosts. The overarching objective is to uncover the ecological consequences and feedback that influence ecosystem stability and resilience and to explore innovative ways to leverage microbial-fungal partnerships for sustainable agriculture, bioremediation, green biotechnology, and pest management.Our scope encompasses both the breadth and limitations of microbial-fungal symbioses in ecological and applied contexts. We invite submissions on, but not limited to, the following themes:o Ecological studies describing symbiotic interactions among fungi, other microbial associates, and their plant or animal hostso Molecular, genetic, and ecological mechanisms underpinning microbial-fungal symbioseso Impact of environmental changes, land use, and agricultural practices on symbiotic interactionso Roles in nutrient mobilization, carbon and nitrogen cycling, plant growth promotion, and abiotic stress mitigationo Ecological outcomes and feedback influencing ecosystem stabilityo Co-evolutionary dynamics and community assembly in rhizosphere and endospore habitatso Novel methods for harnessing these symbioses in sustainable agriculture, bioremediation, synthetic consortia, biotechnology, and pest controlo Advances in omics technologies, imaging, and modeling to study symbiotic networksBy encapsulating the ecological, environmental, and applied perspectives of microbial-fungal symbioses, this Research Topic aims to cultivate a comprehensive understanding of their significance and potential for innovation in natural and managed systems.All article types suitable for Frontiers in Microbiology are welcome, including original research articles, reviews, mini-reviews, and perspectives, to capture diverse insights and advance the field.