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Evolution of the Mode of Nutrition in Symbiotic and Saprotrophic Fungi in Forest Ecosystems

Annie Lebreton, Qingchao Zeng, Shingo Miyauchi, Annegret Kohler, Yu‐Cheng Dai, Francis Martin

2021Annual Review of Ecology Evolution and Systematics85 citationsDOIOpen Access PDF

Abstract

In this review, we highlight the main insights that have been gathered from recent developments using large-scale genomics of fungal saprotrophs and symbiotrophs (including ectomycorrhizal and orchid and ericoid mycorrhizal fungi) inhabiting forest ecosystems. After assessing the goals and motivations underlying our approach, we explore our current understanding of the limits and future potential of using genomics to understand the ecological roles of these forest fungi. Comparative genomics unraveled the molecular machineries involved in lignocellulose decomposition in wood decayers, soil and litter saprotrophs, and mycorrhizal symbionts. They also showed that transitions from saprotrophy to mutualism entailed widespread losses of lignocellulose-degrading enzymes; diversification of novel, lineage-specific symbiosis-induced genes; and convergent evolution of genetic innovations that facilitate the accommodationof mutualistic symbionts within their plant hosts. We also identify the major questions that remain unanswered and propose new avenues of genome-based research to understand the role of soil fungi in sustainable forest ecosystems.

Topics & Concepts

Mutualism (biology)BiologyForest ecologySymbiosisEcologyEcosystemGenomicsBiodiversityDiversification (marketing strategy)Mycorrhizal fungiEvolutionary biologyGenomeGeneInoculationBusinessGeneticsBacteriaBiochemistryImmunologyMarketingMycorrhizal Fungi and Plant InteractionsForest Ecology and Biodiversity StudiesPlant and animal studies
Evolution of the Mode of Nutrition in Symbiotic and Saprotrophic Fungi in Forest Ecosystems | Litcius