Beyens L., Chardez D., De Landtsheer R., De Bock P., Jacques E. (1986) Testate amoebae populations from moss and lichen habitats in the Arctic. Polar Biol. 5: 165–173
Bray J. R., Curtis J. T. (1957) An ordination of the upland forest communities of southern Wisconsin. Ecol. Monogr. 27: 325–349
Charman D. J. (2001) Biostratigraphic and palaeoenvironmental applications of testate amoebae. Quaternary Sci. Rev. 20: 1753–1764
Clarke K. R. (1993) Non-parametric multivariate analyses of changes in community structure. Aust. J. Ecol. 18: 117–143
EMEP (2014) Transboundary particulate matter, photo-oxidants, acidifying and eutrophying components. EMEP Status Report 2014. Norwegian Meteorological Institute, Oslo
Foissner W. (1999) Protist diversity: Estimates of the near-imponderable. Protist 150: 363–368
Gilbert D., Amblard C., Bourdier G., Francez A.-J. (1998a) The microbial loop at the surface of a peatland: structure, function, and impact of nutrient input. Microb. Ecol. 35: 83–93
Jassey V. E., Gilbert D., Binet P., Toussaint M. L., Chiapusio G. (2011) Effect of a temperature gradient on Sphagnum fallax and its associated living microbial communities: a study under controlled conditions. Can. J. Microbiol. 57: 226–235
Mazei Yu., Blinokhvatova Yu., Embulaeva E. (2011) Specific features of the microspatial distribution of soil testate amoebae in the forests of the Middle Volga Region. Arid Ecosystems 1: 46–52
Mazei Yu., Tsyganov A. (2006) Freshwater testate amoebae. KMK Sci Press, Moscow, 300 pp.
Meyer C., Gilbert D., Gillet F., Moskura M., Franchi M., Bernard N. (2012) Using “bryophytes and their associated testate amoeba” microsystems as indicators of atmospheric pollution. Ecol. Indicators 13: 144–151
Mitchell E. A. D., Bragazza L., Gerdol R. (2004) Testate amoebae (Protista) communities in Hylocomium splendens (Hedw.) BSG (Bryophyta): relationships with altitude, and moss elemental chemistry. Protist 155: 423–436
Mitchell E. A. D., Charman D. J., Warner B. G. (2008) Testate amoebae analysis in ecological and paleoecological studies of wetlands: past, present and future. Biodivers. Conserv. 17: 2115–2137
Nguyen-Viet H., Gilbert D., Bernard N., Mitchell E. A. D., Badot P. M. (2004) Relationship between atmospheric pollution characterized by NO2 concentrations and testate amoebae density and diversity. Acta Protozool. 43: 233–239
Payne R., Charman D. and Gauci V. (2010) The impact of simulated sulfate deposition on peatland testate amoebae. Microb. Ecol. 59: 76–83
Payne R. J., Mitchell E. A. D., Nguyen-Viet H., Gilbert D. (2012a) Can pollution bias peatland palaeoclimate reconstruction? Quaternary Res. 78: 170–173
Payne R. J., Thompson A., Field C., Standen V., Caporn S. J. M. (2012b) Impact of simulated nitrogen pollution on heathland microfauna, mesofauna and plants. Eur. J. Soil Biol. 49: 73–79
Payne R. J., Belyakova O., Mazei Y. (2015) Diversity and community ecology of forest epiphyte testate amoebae from European Russia. Eur. J. Protistol. 51: 450–459
Qin Y., Xie S., Smith H. G., Swindles G. T., Gu Y. (2011) Diversity, distribution and biogeography of testate amoebae in China: implications for ecological studies in Asia. Eur. J. Protistol. 47: 1–9
Ragon M., Fontaine M., Moreira D., Lopez-Garcia P. (2012) Different biogeographic patterns of prokaryotes and microbial eukaryotes in epilithic biofilms. Molecular Ecol. 21: 3852–3868
Smith H. G. (1992) Distribution and ecology of the testate rhizopod fauna of the continental Antarctic zone. Polar Biol. 12: 629–634
Todorov M., Golemansky V. (1996) Notes on Testate Amoebae (Protozoa: Rhizopoda) from Livingston Island, South Shetland Islands, Antarctic. Bulgarian Antarctic Research: Life Sciences 1: 70
Wilkinson D. M., Mitchell E. A. D. (2010) Testate amoebae and nutrient cycling with particular reference to soils. Geomicrobiol. J. 27: 520–533