Full TGIF Record # 71563
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Web URL(s):https://link.springer.com/article/10.1023/A%3A1004891807664
    Last checked: 09/27/2017
    Access conditions: Item is within a limited-access website
    Notes: Guide page
Publication Type:
i
Refereed
Author(s):Spehn, Eva M.; Joshi, Jasmin; Schmid, Bernard; Alphei, Jörn; Körner, Christian
Author Affiliation:Spehn and K√∂rner: Botanisches Institut der Universit√§t Basel, Basel, Switzerland; Joshi and Schmid: Institut f√ľr Umweltwissenschaften der Universit√§t Z√ľrich, Z√ľrich, Switzerland; Alphei: Abteilung Oekologie der Universit√§t G√∂ttingen, G√∂ttingen, Germany
Title:Plant diversity effects on soil heterotrophic activity in experimental grassland ecosystems
Source:Plant and Soil. Vol. 224, No. 2, 2000, p. 217-230.
# of Pages:14
Publishing Information:Dordrecht, Netherlands: Kluwer Academic Publishers
Keywords:TIC Keywords: Grasslands; Diversity; Plant communities; Biodiversity; Population dynamics; Respiration; Biomass; Botanical composition; Soil microorganisms; Legumes; Decomposition; Earthworms; Voles; Soil temperature; Ecosystems; Nitrogen-fixing bacteria; Soil moisture; Soil biology; Dry weight; Microclimate
Abstract/Contents:"The loss of plant species from terrestrial ecosystems may cause changes in soil decomposer communities and in decomposition of organic material with potential further consequences for other ecosystem processes. This was tested in experimental communities of 1, 2, 4, 8, 32 plant species and of 1, 2, or 3 functional groups (grasses, legumes and non-leguminous forbs). As plant species richness was reduced from the highest species richness to monocultures, mean aboveground plant biomass decreased by 150%, but microbial biomass (measured by substrate induced respiration) decreased by only 15% (P = 0.05). Irrespective of plant species richness, the absence of legumes (across diversity levels) caused microbial biomass to decrease by 15% (P = 0.02). No effect of plant species richness or composition was detected on the microbial metabolic quotient (qCO‚āā) and no plant species richness effect was found on feeding activity of the mesofauna (assessed with a bait-lamina-test). Decomposition of cellulose and birchwood sticks was also not affected by plant species richness, but when legumes were absent, cellulose samples were decomposed more slowly (16% in 1996, 27% in 1997, P = 0.006). A significant decrease in earthworm population density of 63% and in total earthworm biomass by 84% was the single most prominent response to the reduction of plant species richness, largely due to a 50% reduction in biomass of the dominant 'anecic' earthworms. Voles (Arvicola terrestris L.) also had a clear preference for high-diversity plots. Soil moisture during the growing season was unaffected by plant species richness or the number of functional groups present. In contrast, soil temperature was 2 K higher in monocultures compared with the most diverse mixtures on a bright day at peak season. We conclude that the lower abundance and activity of decomposers with reduced plant species richness was related to altered substrate quantity, a signal which is not reflected in rates of decomposition of standard test material. The presence of nitrogen fixers seemed to be the most important component of the plant diversity manipulation for soil heterotrophs. The reduction in plant biomass due to the simulated loss of plant species had more pronounced effects on voles and earthworms than on microbes, suggesting that higher trophic levels are more strongly affected than lower trophic levels."
Language:English
References:63
Note:Tables
Graphs
ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Spehn, E. M., J. Joshi, B. Schmid, J. Alphei, and C. Körner. 2000. Plant diversity effects on soil heterotrophic activity in experimental grassland ecosystems. Plant Soil. 224(2):p. 217-230.
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Web URL(s):
https://link.springer.com/article/10.1023/A%3A1004891807664
    Last checked: 09/27/2017
    Access conditions: Item is within a limited-access website
    Notes: Guide page
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MSU catalog number: SB 13 .P55
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