Abstract
Abstract There is compelling evidence that losses in plant diversity can alter ecosystem functioning, particularly by reducing primary production. However, impacts of biodiversity loss on decomposition, the complementary process in the carbon cycle, are highly uncertain. By manipulating fungal decomposer diversity in stream microcosm experiments we found that rates of litter decomposition and associated fungal spore production are unaffected by changes in decomposer diversity under benign and harsher environmental conditions. This result calls for caution when generalizing outcomes of biodiversity experiments across systems. In contrast to their magnitude, the variability of process rates among communities increased when species numbers were reduced. This was most likely caused by a portfolio effect (i.e. statistical averaging), with the uneven species distribution typical of natural communities tending to weaken that effect. Curbing species extinctions to maintain ecosystem functioning thus can be important even in situations where process rates are unaffected.
Keywords
DecomposerBiodiversityMicrocosmEcologyEcosystemBiologyAbundance (ecology)LitterSpecies diversityEnvironmental science
Affiliated Institutions
Related Publications
Species richness–decomposition relationships depend on species dominance
Abstract Human disturbances both decrease the number of species in ecosystems and change their relative abundances. Here we present field evidence demonstrating that shifts in s...
Decay Rates, Nitrogen Fluxes, and Decomposer Communiies of Single‐ and Mixed‐Species Foliar Litter
Decomposition rates, N fluxes, and abundances of decomposer organisms were quantified in mixed—species litterbags (containing leaves of two or three of the following tree specie...
Biodiversity and Plant Litter: Experimental Evidence Which Does Not Support the View That Enhanced Species Richness Improves Ecosystem Function
There has been a rapidly increasing recent interest in the effects of biological diversity on ecosystem properties, and while some studies have recently concluded that biodivers...
Impacts of stream acidification on litter breakdown: implications for assessing ecosystem functioning
Summary Scientific understanding of acidification in aquatic ecosystems relies on effective assessment, which at present is mostly limited to chemical and sometimes structural b...
Patterns in the Fate of Production in Plant Communities
I examine, through an extensive compilation of published reports, the nature and variability of carbon flow (i.e., primary production, herbivory, detrital production, decomposit...
Publication Info
- Year
- 2005
- Type
- letter
- Volume
- 8
- Issue
- 11
- Pages
- 1129-1137
- Citations
- 260
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
260
OpenAlex
Cite This
Christian K. Dang,
Éric Chauvet,
Mark O. Gessner
(2005).
Magnitude and variability of process rates in fungal diversity‐litter decomposition relationships.
Ecology Letters
, 8
(11)
, 1129-1137.
https://doi.org/10.1111/j.1461-0248.2005.00815.x
Identifiers
- DOI
- 10.1111/j.1461-0248.2005.00815.x