Relationships among testate amoebae (Protozoa), vegetation and water chemistry in five Sphagnum-dominated peatlands in Europe

E. A. D. MITCHELL; A. BUTTLER; Ph. GROSVERNIER; H. RYDIN; C. ALBINSSON; A. L. GREENUP; M. M. P. D. HEIJMANS; M. R. HOOSBEEK; T. SAARINEN

doi:10.1046/j.1469-8137.2000.00550.x

Abstract

To study the relationships between groups of organisms and the degree to which these relationships are consistent across major climatic gradients, we analysed the testate amoeba (Protozoa) communities, vegetation and water chemistry of one peatland in five countries: Switzerland, The Netherlands, Great Britain, Sweden and Finland, as part of the BERI (Bog Ecosystem Research Initiative) project. The relationships between the different data sets and subsets were investigated by means of detrended correspondence analysis, canonical correspondence analysis and Mantel permutation tests. The comparison of data on vegetation and testate amoebae showed that inter-site differences are more pronounced for the vegetation than for the testate amoebae species assemblage. Testate amoebae are a useful tool in multi-site studies and in environmental monitoring of peatlands because: (1) the number of species in Sphagnum-dominated peatlands is much higher than for mosses or vascular plants; (2) most peatland species are cosmopolitan in their distributions and therefore less affected than plants by biogeographical distribution patterns, thus differences in testate amoeba assemblages can be interpreted primarily in terms of ecology; (3) they are closely related to the ecological characteristics of the exact spot where they live, therefore they can be used to analyse small-scale gradients that play a major role in the functioning of peatland ecosystems. This study revealed the existence of small-scale vertical gradients within the vegetation and life-form niche separation in response to water chemistry. The deep-rooted plants such as Carex spp. and Eriophorum spp. are related to the chemistry of water sampled at or near the ground water table, whereas the mosses are not. Testate amoebae were shown to be ecologically more closely related to the chemistry of water sampled at or near the water table level and to the mosses than to the deep-rooted plants.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Pursell, Ronald A. Thiers, Barbara M. Allen, Bruce and Buck, William R. 2000. Recent Literature on Bryophytes—103(3). The Bryologist, Vol. 103, Issue. 3, p. 610.

Mitchell, E. A.D. van der Knaap, W. O. van Leeuwen, J. F.N. Buttler, A. Warner, B. G. and Gobat, J.-M. 2001. The palaeoecological history of the Praz-Rodet bog (Swiss Jura) based on pollen, plant macrofossils and testate amoebae (Protozoa). The Holocene, Vol. 11, Issue. 1, p. 65.

Searles, Peter S. Kropp, Bradley R. Flint, Stephan D. and Caldwell, Martyn M. 2001. Influence of solar UV‐B radiation on peatland microbial communities of southern Argentinia. New Phytologist, Vol. 152, Issue. 2, p. 213.

Booth, Robert K. 2001. Ecology of testate amoebae (protozoa) in two Lake Superior coastal wetlands: Implications for paleoecology and environmental monitoring. Wetlands, Vol. 21, Issue. 4, p. 564.

Jauhiainen, Sinikka 2002. Testacean amoebae in different types of mire following drainage and subsequent restoration. European Journal of Protistology, Vol. 38, Issue. 1, p. 59.

Booth, Robert K. and Jackson, Stephen T. 2003. A high-resolution record of late-Holocene moisture variability from a Michigan raised bog, USA. The Holocene, Vol. 13, Issue. 6, p. 863.

Silvola, J. Saarnio, S. Foot, J. Sundh, I. Greenup, A. Heijmans, M. Ekberg, A. Mitchell, E. and van Breemen, N. 2003. Effects of elevated CO2 and N deposition on CH4 emissions from European mires. Global Biogeochemical Cycles, Vol. 17, Issue. 2,

Mitchell, E. A. D. Gilbert, D. Buttler, A. Amblard, C. Grosvernier, P. and Gobat, J. -M. 2003. Structure of Microbial Communities in Sphagnum Peatlands and Effect of Atmospheric Carbon Dioxide Enrichment. Microbial Ecology, Vol. 46, Issue. 2, p. 187.

Robson, T. Matthew Pancotto, Verónica A. Ballaré, Carlos L. Sala, Osvaldo E. Scopel, Ana L. and Caldwell, Martyn M. 2004. Reduction of solar UV-B mediates changes in the Sphagnum capitulum microenvironment and the peatland microfungal community. Oecologia, Vol. 140, Issue. 3, p. 480.

Vincke, Sofie Gremmen, Niek Beyens, Louis and Van de Vijver, Bart 2004. The moss dwelling testacean fauna of Île de la Possession. Polar Biology, Vol. 27, Issue. 12, p. 753.

Mitchell, Edward A. D. 2004. Response of Testate Amoebae (Protozoa) to N and P Fertilization in an Arctic Wet Sedge Tundra. Arctic, Antarctic, and Alpine Research, Vol. 36, Issue. 1, p. 78.

MITCHELL, EDWARD A. D. and GILBERT, DANIEL 2004. Vertical Micro‐Distribution and Response to Nitrogen Deposition of Testate Amoebae in Sphagnum. Journal of Eukaryotic Microbiology, Vol. 51, Issue. 4, p. 480.

Saarnio, S. Wittenmayer, L. and Merbach, W. 2004. Rhizospheric exudation of Eriophorum vaginatum L. — Potential link to methanogenesis. Plant and Soil, Vol. 267, Issue. 1-2, p. 343.

Lamentowicz, Mariusz and Mitchell, Edward A. D. 2005. The Ecology of Testate Amoebae (Protists) in Sphagnum in North-western Poland in Relation to Peatland Ecology. Microbial Ecology, Vol. 50, Issue. 1, p. 48.

Booth, Robert K. and Zygmunt, Jennifer R. 2005. Biogeography and comparative ecology of testate amoebae inhabitingSphagnum‐dominated peatlands in the Great Lakes and Rocky Mountain regions of North America. Diversity and Distributions, Vol. 11, Issue. 6, p. 577.

Payne, Richard and Blackford, Jeff 2005. Simulating the impacts of distal volcanic products upon peatlands in northern Britain: an experimental study on the Moss of Achnacree, Scotland. Journal of Archaeological Science, Vol. 32, Issue. 7, p. 989.

Yang, Jun Zhang, Wenjing Feng, Weisong and Shen, Yunfen 2006. Geographical Distribution of Testate Amoebae in Tibet and Northwestern Yunnan and their Relationships with Climate. Hydrobiologia, Vol. 559, Issue. 1, p. 297.

Desrochers, André and van Duinen, Gert-Jan 2006. Boreal Peatland Ecosystems. Vol. 188, Issue. , p. 67.

Gilbert, D. and Mitchell, E.A.D. 2006. Peatlands - Evolution and Records of Environmental and Climate Changes. Vol. 9, Issue. , p. 287.

Mieczan, Tomasz 2007. Seasonal patterns of testate amoebae and ciliates in three peatbogs: relationship to bacteria and flagellates (Poleski National Park, Eastern Poland). Ecohydrology & Hydrobiology, Vol. 7, Issue. 1, p. 79.

Download full list

Article contents

Relationships among testate amoebae (Protozoa), vegetation and water chemistry in five Sphagnum-dominated peatlands in Europe

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Relationships among testate amoebae (Protozoa), vegetation and water chemistry in five Sphagnum-dominated peatlands in Europe

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests