unseen majority: soil microbes as drivers of plant diversity and productivity in terrestrial ecosystems

Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with spe...

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Bibliographic Details
Published inEcology letters Vol. 11; no. 3; pp. 296 - 310
Main Authors van der Heijden, Marcel G.A, Bardgett, Richard D, van Straalen, Nico M
Format Journal Article
LanguageEnglish
Published Oxford, UK Oxford, UK : Blackwell Publishing Ltd 01.03.2008
Blackwell Publishing Ltd
Blackwell
Subjects
Animal and plant ecology
Animal, plant and microbial ecology
Bacteria
Bacterial Physiological Phenomena
Biodiversity
Biological and medical sciences
Biological diversity and ecosystem functioning
Boreal forests
Botany
Ecology
Ecosystem
Fundamental and applied biological sciences. Psychology
Genetic diversity
genetic variation
Genetics
Grasslands
Introduced plants
Limiting nutrients
microbial consortia
microbial diversity
microbiology
Mineralization
Mycorrhizae
Mycorrhizae - physiology
mycorrhizal fungi
nitrogen
Nitrogen fixation
nitrogen-fixing bacteria
Nutrients
Pathogens
phosphorus
physiology
Plant communities
Plant diversity
Plant Physiological Phenomena
Plant species
Plants
Plants - microbiology
Productivity
Savannahs
savannas
soil
Soil Microbiology
Soil microorganisms
Soils
species diversity
Species richness
symbionts
Symbiosis
Symbiosis - physiology
Synecology
Terrestrial ecosystems
Terrestrial environments
Terrestrial environment
Productivity
mycorrhizal fungi
Phosphorus
soil
Nitrogen
Biodiversity
Biological diversity and ecosystem functioning
Symbiont
Fungi
microbial consortia
Soils
Plant
Ecosystem
Mycorrhiza
Nitrogen fixation
Ecosystem functioning
Microorganism
microbial diversity
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Abstract Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen-fixing bacteria are responsible for c. 5-20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free-living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems.
AbstractList Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen-fixing bacteria are responsible for c. 5-20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free-living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems.
The roles that soil microbes played in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity were discussed. Soil microbes regulated plant productivity via a variety of mechanisms. Positive effects of microbes on plant productivity were most common in nutrient poor ecosystems where they enhanced the supply of growth limiting nutrients namely N and P to plants. Negative effects of soil microbes on plant productivity could also occur when they acted as pathogens, competed with plants for nutrients, or transformed nutrients into forms that were inaccessible to plants. The fungus could change plant community structure considerably if the growth of specific plant species was stimulated.
Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen-fixing bacteria are responsible for c. 5-20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free-living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems. [PUBLICATION ABSTRACT]
Microbes are the unseen majority in soil and comprise a large portion of life’s genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen‐fixing bacteria are responsible for c. 5–20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free‐living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems.
Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen-fixing bacteria are responsible for c. 5-20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free-living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems.Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen-fixing bacteria are responsible for c. 5-20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free-living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems.
Author Bardgett, Richard D.
Van Straalen, Nico M.
Van Der Heijden, Marcel G. A.
Author_xml – sequence: 1
  fullname: van der Heijden, Marcel G.A
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  fullname: Bardgett, Richard D
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  fullname: van Straalen, Nico M
BackLink http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=20110675$$DView record in Pascal Francis
https://www.ncbi.nlm.nih.gov/pubmed/18047587$$D View this record in MEDLINE/PubMed
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Issue 3
Keywords Terrestrial environment
Productivity
mycorrhizal fungi
Phosphorus
soil
Nitrogen
Biodiversity
Biological diversity and ecosystem functioning
Symbiont
Fungi
microbial consortia
Soils
Plant
Ecosystem
Mycorrhiza
Nitrogen fixation
Ecosystem functioning
Microorganism
microbial diversity
Language English
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1998; 396
2003; 157
2006a; 56
1998; 392
1993; 362
1998; 394
2007; 173
2006; 21
2002; 83
2005; 102
2000; 404
2007; 175
1998; 90
1983
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2005; 71
2001; 55
2007; 1
1998; 95
2006; 442
2001; 411
2006; 289
2001; 413
1994; 75
1988
1986; 92
1996; 17
1989; 134
2000; 65
1987; 328
1997
2002; 415
2005; 86
2002; 419
2007; 95
2002; 417
2007; 10
2007; 316
2007; 151
2004a; 305
2006; 44
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2002; 66
2000; 81
2006b; 172
1989; 59
2001; 33
2007; 88
1992; 23
2006; 103
2004b; 304
1995; 73
2001; 93
1997; 85
2000; 3
1997; 112
2005; 20
1999; 400
1998; 43
1999; 80
1995; 174
2005; 29
2001; 105
2004; 70
2005; 142
2005; 143
2001
2002; 40
1996; 180
2003; 6
1999; 13
1999; 11
1983; 63
2005; 309
2001; 16
2003; 1
2003; 84
2005; 39
2004; 139
2005; 36
2004; 85
2006; 439
2006; 94
2004; 82
2006; 12
2006; 9
2006; 8
2007
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2006; 87
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SSID ssj0012971
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Snippet Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on...
Microbes are the unseen majority in soil and comprise a large portion of life’s genetic diversity. Despite their abundance, the impact of soil microbes on...
The roles that soil microbes played in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity were discussed....
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SubjectTerms Animal and plant ecology
Animal, plant and microbial ecology
Bacteria
Bacterial Physiological Phenomena
Biodiversity
Biological and medical sciences
Biological diversity and ecosystem functioning
Boreal forests
Botany
Ecology
Ecosystem
Fundamental and applied biological sciences. Psychology
Genetic diversity
genetic variation
Genetics
Grasslands
Introduced plants
Limiting nutrients
microbial consortia
microbial diversity
microbiology
Mineralization
Mycorrhizae
Mycorrhizae - physiology
mycorrhizal fungi
nitrogen
Nitrogen fixation
nitrogen-fixing bacteria
Nutrients
Pathogens
phosphorus
physiology
Plant communities
Plant diversity
Plant Physiological Phenomena
Plant species
Plants
Plants - microbiology
Productivity
Savannahs
savannas
soil
Soil Microbiology
Soil microorganisms
Soils
species diversity
Species richness
symbionts
Symbiosis
Symbiosis - physiology
Synecology
Terrestrial ecosystems
Terrestrial environments
Title unseen majority: soil microbes as drivers of plant diversity and productivity in terrestrial ecosystems
URI https://api.istex.fr/ark:/67375/WNG-Q9TDGV4M-F/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1461-0248.2007.01139.x
https://www.ncbi.nlm.nih.gov/pubmed/18047587
https://www.proquest.com/docview/203657861
https://www.proquest.com/docview/14840613
https://www.proquest.com/docview/47541762
https://www.proquest.com/docview/70271764
Volume 11
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