A thready affair: linking fungal diversity and community dynamics to terrestrial decomposition processes

Abstract Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of...

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Published in	FEMS microbiology reviews Vol. 37; no. 4; pp. 477 - 494
Main Authors	van der Wal, Annemieke, Geydan, Thomas D., Kuyper, Thomas W., de Boer, Wietse
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.07.2013 Oxford University Press
Subjects	active fungi Carbon Cycle carbon cycling Climate change Decomposition diversity–functioning relationship Ecosystem functional diversity fungal ecology Fungi Fungi - growth & development global change Global Warming home-field advantage leaf-litter decomposition microbial community niche differentiation nitrogen deposition Organic matter Soil Microbiology soil organic-matter succession temperature sensitivity Terrestrial environments white-rot fungi wood-decaying fungi carbon cycling succession diversity–functioning relationship niche differentiation fungal ecology global change
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Abstract	Abstract Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity–functioning relationships, succession, priority effects and home–field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. This review discusses the functioning of terrestrial decomposer fungi and examines the factors that affect their activities and community dynamics.
AbstractList	Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity-functioning relationships, succession, priority effects and home-field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity-functioning relationships, succession, priority effects and home-field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. This review discusses the functioning of terrestrial decomposer fungi and examines the factors that affect their activities and community dynamics. [PUBLICATION ABSTRACT] Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity-functioning relationships, succession, priority effects and home-field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation.Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity-functioning relationships, succession, priority effects and home-field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity-functioning relationships, succession, priority effects and home-field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. This review discusses the functioning of terrestrial decomposer fungi and examines the factors that affect their activities and community dynamics. Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity–functioning relationships, succession, priority effects and home–field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. This review discusses the functioning of terrestrial decomposer fungi and examines the factors that affect their activities and community dynamics. Abstract Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their contribution to degradation of recalcitrant lignocellulose complexes has been widely studied. In this review, we focus on the functioning of terrestrial fungal decomposers and examine the factors that affect their activities and community dynamics. In relation to this, impacts of global warming and increased N deposition are discussed. We also address the contribution of fungal decomposer studies to the development of general community ecological concepts such as diversity–functioning relationships, succession, priority effects and home–field advantage. Finally, we indicate several research directions that will lead to a more complete understanding of the ecological roles of terrestrial decomposer fungi such as their importance in turnover of rhizodeposits, the consequences of interactions with other organisms and niche differentiation. This review discusses the functioning of terrestrial decomposer fungi and examines the factors that affect their activities and community dynamics.
Author	de Boer, Wietse van der Wal, Annemieke Geydan, Thomas D. Kuyper, Thomas W.
Author_xml	– sequence: 1 givenname: Annemieke surname: van der Wal fullname: van der Wal, Annemieke email: a.vanderwal@nioo.knaw.nl organization: Department of Microbial Ecology, Netherlands Institute of Ecology, Wageningen, The Netherlands – sequence: 2 givenname: Thomas D. surname: Geydan fullname: Geydan, Thomas D. organization: Department of Microbial Ecology, Netherlands Institute of Ecology, Wageningen, The Netherlands – sequence: 3 givenname: Thomas W. surname: Kuyper fullname: Kuyper, Thomas W. organization: Department of Soil Quality, Wageningen University, Wageningen, The Netherlands – sequence: 4 givenname: Wietse surname: de Boer fullname: de Boer, Wietse organization: Department of Microbial Ecology, Netherlands Institute of Ecology, Wageningen, The Netherlands
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/22978352$$D View this record in MEDLINE/PubMed
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Snippet	Abstract Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their... Filamentous fungi are critical to the decomposition of terrestrial organic matter and, consequently, in the global carbon cycle. In particular, their...
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SubjectTerms	active fungi Carbon Cycle carbon cycling Climate change Decomposition diversity–functioning relationship Ecosystem functional diversity fungal ecology Fungi Fungi - growth & development global change Global Warming home-field advantage leaf-litter decomposition microbial community niche differentiation nitrogen deposition Organic matter Soil Microbiology soil organic-matter succession temperature sensitivity Terrestrial environments white-rot fungi wood-decaying fungi
Title	A thready affair: linking fungal diversity and community dynamics to terrestrial decomposition processes
URI	https://onlinelibrary.wiley.com/doi/abs/10.1111%2F1574-6976.12001 https://www.ncbi.nlm.nih.gov/pubmed/22978352 https://www.proquest.com/docview/1365975705 https://www.proquest.com/docview/1366821985 https://www.proquest.com/docview/1399910582 http://www.narcis.nl/publication/RecordID/oai:library.wur.nl:wurpubs%2F449683
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