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Microhabitats and oribatid fauna: comparison of 2 sampling approaches

Microhabitats and oribatid fauna: comparison of 2 sampling approaches REFERENCESAnderson J. M. 1978a. Inter- and intra-habitat relationships between woodland Cryptostigmata species diversity and the diversity of soil and litter microhabitats. Oecologia 32: 341–348.Anderson J. M. 1978b. A method to quantify soil-microhabitat complexity and its application to a study of soil animal species diversity. Soil Biol. Biochem. 10: 77–78.Anderson M. J. 2001. A new method for non-parametric multivariate analysis of variance. Austral Ecol. 26: 32–46.Aoki J. 1967. Microhabitats of oribatid mites on a forest floor. Bull. National Sci. Mus. Tokyo 10: 133–138.Aoki T. 1974. Comparison among oribatid faunas from different microhabitats in forest floors. Appl. Ent. Yool. 9: 105–114.Behan-Pelletier V., Walter D. 2000. Biodiversity of oribatid mites (Acari: Oribatida) in tree canopies and litter. In: Invertebrates as Webmasters in Ecosystems (Coleman D. C., Hendrix P. F., Eds), pp. 187–202, CAB International, Wallingford.Bluhm C., Scheu S., Maraun M. 2015. Oribatid mite communities on the bark of dead wood vary with log type, surrounding forest and regional factors. Appl. Soil Ecol. 89: 102–112.Borowiak P., Niedbała W. 1982. Mikrośrodowiska mechowców (Acari, Oribatei) w dwóch odmiennych wariantach roślinnych zespołu Melico-Fagetum typicum w rezerwacie “Słomowo”. [Microhabitats of moss mites (Acari, Oribatei) in two different variants of plant association Melico-Fagetum typicum in the “Słomowo” Reserve] Bad. Fizjog. Pol. Zach. 5C, 33: 39–74 (in Polish).Cronberg N., Natcheva R., Hedlund K. 2006. Microarthropods mediate sperm transfer in mosses. Science 313: 1255.Ducarme X., André H. M., Wauthy G. 2004. Are there real endogeic species in temperate forest mites? Pedobiologia 48: 139–147.Eissfeller V., Langenbruch C., Jacob A., Maraun M., Scheu S. 2013. Tree identity surpasses tree diversity in affecting the community structure of oribatid mites (Oribatida) of deciduous temperate forests. Soil Biol. Biochem. 63: 154–162.Fujikawa T. 1970. Relation between oribatid fauna and some environments of Nopporo National Forest in Hokkaido (Acarina: Cryptostigmata) II. Oribatid fauna in soils under four different vegetations. Appl. Ent. 5: 69–83.Glime J. M. 2013. Arthropods: Mites (Acari). In: Bryophyte ecology, vol. 2. Bryological interaction (Glime J. M., Ed.), chapter 9-1, pp. 1-32, E-book sponsored by Michigan Technological University and the International Association of Bryologists.Hammer M. 1972. Microhabitats of oribatid mites on a Danish woodland floor. Pedobiologia 12: 412–423.Hammer Ø., Harper D. A. T., Ryan P. D. 2001. PAST: Paleontological Statistics Software Package for Education and Data Analysis. Palaeontol. Electron. 4: 1–9.Hansen R. A. 2000. Effects of habitat complexity and composition on a diverse litter microarthropod assemblage. Ecology 81: 1120–1132.Hansen R., Coleman D. C. 1998. Litter complexity and composition are determinants of the diversity and species composition of oribatid mites (Acari: Oribatida) in litterbags. Appl. Soil Ecol. 9: 17–23.Hubert J. 1999. Oribatid communities (Acari: Oribatida) in the soil on the border of a town. In: Soil Zoology in Central Europe (Tajovský K., Piži V., Eds), pp. 101–108, ISB AS CR, České Budejovice.Huhta V., Siira-Pietikäinen, A., Penttinen R. 2012. Importance of dead wood for soil mite (Acarina) communities in boreal old-growth forests. Soil Organisms 84: 499–512.Johnston J. M., Crossley D. A. 1993. The significance of coarse woody debris for the diversity of soil mites. In: Proceedings of the Workshop on Coarse Woody Debris in Southern Forests: Effects on Biodiversity (McMinn J. W., Crossley D. A. Eds), pp. 82–87, General Technical Report SE-94. Athens.Jost L. 2006. Entropy and diversity. Oikos 113: 363–375.Kaneko N., Sugawara Y., Miyamoto T., Hasegawa M., Hiura T. 2005. Oribatid mite community structure and tree species diversity: A link? Pedobiologia 49: 521–528.Karasawa S., Hijii N. 2004. Effects of microhabitat diversity and geographical isolation on oribatid mite (Acari: Oribatida) communities in mangrove forests. Pedobiologia 48: 245–255.Koehler H., Born H. 1989. The influence of vegetation structure on the development of soil mesofauna. Agr. Ecosyst. Environ. 27: 253–269.Lachat T., Wermelinger B., Gossner M. M., Bussler H., Isacsson G., Müller J. 2012. Saproxylic beetles as indicator species for dead-wood amount and temperature in European beech forests. Ecol. Indic. 23: 323–331.Macfadyen A. 1961. Improved funnel-type extractors for soil arthropods. J. Anim. Ecol. 30: 171–181.Maraun M., Scheu S. 2000. The structure of oribatid mite communities (Acari, Oribatida): patterns, mechanisms and implications for future research. Ecography 23: 374–383.Materna J. 2000. Oribatid communities (Acari: Oribatida) inhabiting saxicolous mosses and lichens in the Krkonoše Mts. (Czech Republic). Pedobiologia 44: 40–62.Mitchell M. J. 1978. Vertical and horizontal distributions of oribatid mites (Acari: Cryptostigmata) in an aspen woodland soil. Ecology 59: 516–525.Niedbała W. 2008. Ptyctimous mites (Acari: Oribatida) of Poland. Fauna Poloniae, Natura optima dux Foundation, 3: 1–242.Niedbała W., Błaszak Cz., Błoszyk J., Kaliszewski M., Kaźmierski A. 1982. Soil mites (Acari) of Warsaw and Mazovia. Mem. Zool. 36: 235–252.Nielsen U. N., Osler G. H. R., Campbell C. D., Neilson R., Burslem D. F. R. P., van der Wal R. 2010. The enigma of soil animal species diversity revisited: The role of small-scale heterogeneity. PLoS ONE 5: e11567. doi:10.1371/journal.pone.0011567Olszanowski Z. 1996. A monograph of the Nothridae and Camisiidae of Poland (Acari: Oribatida: Crotonioidea). Genus (Supplement): 1-201.Park O., Auerbach S. I. 1954. Further study of the tree-hole complex with emphasis on quantitative aspects of the fauna. Ecology 35: 208–222.Petersen H. 1982. Structure and size of soil animal populations. Oikos 39: 306–329.Pyle C, Brown M. M. 1998. A rapid system of decay classification for hardwood logs of the eastern deciduous forest floor. J. Torrey Bot. Soc. 125: 237–245.Ranius T. 2002. Influence of stand size and quality of tree hollows on saproxylic beetles in Sweden. Biol. Conserv. 103: 85–91.Root H. T., McGee G. G., Norton R. A. 2007. Arboreal mite communities on epiphytic lichens of the Adirondack Mountains of New York. Northeast. Nat. 14: 425–438.Schaefer M., Schauermann J. 1990. The soil fauna of beech forests: comparison between a mull and a moder soil. Pedobiologia 34: 299–314.Seastedt T. R., Reddy M. V., Cline S. P. 1989. Microarthropods in decaying wood from temperate coniferous forests. Pedobiologia 33: 69–77.Seniczak S., Dąbrowski J., Klimek A., Kaczmarek S. 1998. Effects of air pollution produced by a nitrogen fertilizer factory on the mites (Acari) associated with young Scots pine forests in Poland. Appl. Soil Ecol. 9: 453–458.Seyd E. L., Seaward M. R. D. 1984. The association of oribatid mites with lichens. Zool. J. Linn. Soc-Lond. 80: 369–420.Siira-Pietikäinen A., Penttinen R., Huhta V. 2008. Oribatid mites (Acari: Oribatida) in boreal forest floor and decaying wood. Pedobiologia 52: 111–118.Skubała P., Duras M. 2008. Do decaying logs represent habitat islands? Oribatid mite communities in dead wood. Ann. Zool. 58: 453–466.Skubała P., Gurgul B. 2011. Importance of tree hollows for biodiversity of mites (Acari) in the forest reserve „Śrubita” (Carpathian Mountains, south Poland). Biol. Lett. 48: 97–106.Skubała P., Marzec A. 2013. Importance of different types of beech dead wood for soil microarthropod fauna. Pol. J. Ecol. 61: 543–557.Skubała P., Maślak M. 2009. Succession of oribatid fauna (Acari, Oribatida) in fallen spruce trees: Deadwood promotes species and functional diversity. In: Trends in Acarology (Sabelis M. W., Bruin J. Eds), pp. 123–128, Springer Dordrecht, The Netherlands.Skubała P., Sokołowska M. 2006. Oribatid fauna (Acari, Oribatida) in spruce fallen trees in the Babia Góra National Park. Biol. Lett. 43: 243–248.Smrž J. 2010. Nutritional biology of oribatid mites from different microhabitats in the forest. In: Trends in Acarology (Sabelis M. W., Bruin J., Eds), pp. 213–216, Springer Dordrecht, The Netherlands.Smrž J., Kučera T., Vašků Z. 2015. Food Offer Inside Agroecosystem Soils as an Ecological Factor for Settling Microhabitats by Soil Saprophagous Mites. Acta Univ. Agric. et Silvic. Mendel. Brun. 63: 1565–1574.Subías L. S. 2004–2015. Listado sistemático, sinonímico y biogeográfico de los ácaros oribátidos (Acariformes: Oribatida) del mundo (excepto fósiles) [Systematic, synonymic and biogeographical check-list of the world’s oribatid mites (Acariformes, Oribatida)] (1758−2002). Graellsia 60: 3−305. Updated in March 2015: http://escalera.bio.ucm.es/usuarios/bba/cont/docs/RO_1.pdf. Cited 10 November 2015 (in Spanish with English summary).Sylwestrowicz-Maliszewska, Olszanowski Z., Błoszyk J. 1993. Moss mites (Acari: Oribatida) of pine forests from Poland. Fragm. Faun. 36: 185–199.Taguchi Y. H., Oono Y. 2005. Relational patterns of gene expression via non-metric multidimensional scaling analysis. Bioinformatics 21: 730–740.Usher M. B., Booth R. G., Sparkes K. E. 1982. A review of progress in understanding the organization of communities of soil arthropods. Pedobiologia 23: 126–144.Walter D. E., Proctor H. C. 1999. Mites. Ecology, Evolution and Behaviour. CABI Publishing, New York, USA.Wauthy G. 1982. Synecology of forest soil oribatid mites of Belgium (Acari, Oribatida). III. – Ecological groups. Acta Oecol. 3: 469–494.Wehner K., Norton R. A., Blüthgen N., Heethoff M. 2016. Specialization of oribatid mites to forest microhabitats – the enigmatic role of litter. Ecosphere 7: e01336.Weigmann G. 2006. Oribatid communities in transects form bogs to forests un Berlin indicating the biotope qualities. In: Modern Acarology (Dusbábek F., Bukva V., Eds), vol. 1, pp. 359–364, Academia, Prague and SPB Academic Publishing bv, The Hague.Weigmann G. 2006. Hornmilben (Oribatida) [Moss mites (Oribatida)]. In: Die Tierwelt Deutschland und der angrenzenden Meeresteile (Dahl F., Ed.). 76. Teil, pp. 1–520. Goecke & Evers, Keltern (in German).Wolf M. M., Rockett C. L. 1984. Habitat changes affecting bacterial composition in the alimentary canal of oribatid mites (Acari: Oribatida). Int. J. Acarol. 10: 209–215.Wunderle I. 1992. Die Oribatiden-Gemeinschaften (Acari) der verschiedenen Habitate eines Buchenwaldes. Carolinea 50: 79–144. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Biological Letters de Gruyter

Microhabitats and oribatid fauna: comparison of 2 sampling approaches

Skubała, Piotr
Biological Letters , Volume 53 (1): 17 – Jun 1, 2016
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de Gruyter
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© 2016 Faculty of Biology, Adam Mickiewicz University
ISSN
1734-7467
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1734-7467
DOI
10.1515/biolet-2017-0005
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Abstract

REFERENCESAnderson J. M. 1978a. Inter- and intra-habitat relationships between woodland Cryptostigmata species diversity and the diversity of soil and litter microhabitats. Oecologia 32: 341–348.Anderson J. M. 1978b. A method to quantify soil-microhabitat complexity and its application to a study of soil animal species diversity. Soil Biol. Biochem. 10: 77–78.Anderson M. J. 2001. A new method for non-parametric multivariate analysis of variance. Austral Ecol. 26: 32–46.Aoki J. 1967. Microhabitats of oribatid mites on a forest floor. Bull. National Sci. Mus. Tokyo 10: 133–138.Aoki T. 1974. Comparison among oribatid faunas from different microhabitats in forest floors. Appl. Ent. Yool. 9: 105–114.Behan-Pelletier V., Walter D. 2000. Biodiversity of oribatid mites (Acari: Oribatida) in tree canopies and litter. In: Invertebrates as Webmasters in Ecosystems (Coleman D. C., Hendrix P. F., Eds), pp. 187–202, CAB International, Wallingford.Bluhm C., Scheu S., Maraun M. 2015. Oribatid mite communities on the bark of dead wood vary with log type, surrounding forest and regional factors. Appl. Soil Ecol. 89: 102–112.Borowiak P., Niedbała W. 1982. Mikrośrodowiska mechowców (Acari, Oribatei) w dwóch odmiennych wariantach roślinnych zespołu Melico-Fagetum typicum w rezerwacie “Słomowo”. [Microhabitats of moss mites (Acari, Oribatei) in two different variants of plant association Melico-Fagetum typicum in the “Słomowo” Reserve] Bad. Fizjog. Pol. Zach. 5C, 33: 39–74 (in Polish).Cronberg N., Natcheva R., Hedlund K. 2006. Microarthropods mediate sperm transfer in mosses. Science 313: 1255.Ducarme X., André H. M., Wauthy G. 2004. Are there real endogeic species in temperate forest mites? Pedobiologia 48: 139–147.Eissfeller V., Langenbruch C., Jacob A., Maraun M., Scheu S. 2013. Tree identity surpasses tree diversity in affecting the community structure of oribatid mites (Oribatida) of deciduous temperate forests. Soil Biol. Biochem. 63: 154–162.Fujikawa T. 1970. Relation between oribatid fauna and some environments of Nopporo National Forest in Hokkaido (Acarina: Cryptostigmata) II. Oribatid fauna in soils under four different vegetations. Appl. Ent. 5: 69–83.Glime J. M. 2013. Arthropods: Mites (Acari). In: Bryophyte ecology, vol. 2. Bryological interaction (Glime J. M., Ed.), chapter 9-1, pp. 1-32, E-book sponsored by Michigan Technological University and the International Association of Bryologists.Hammer M. 1972. Microhabitats of oribatid mites on a Danish woodland floor. Pedobiologia 12: 412–423.Hammer Ø., Harper D. A. T., Ryan P. D. 2001. PAST: Paleontological Statistics Software Package for Education and Data Analysis. Palaeontol. Electron. 4: 1–9.Hansen R. A. 2000. Effects of habitat complexity and composition on a diverse litter microarthropod assemblage. Ecology 81: 1120–1132.Hansen R., Coleman D. C. 1998. Litter complexity and composition are determinants of the diversity and species composition of oribatid mites (Acari: Oribatida) in litterbags. Appl. Soil Ecol. 9: 17–23.Hubert J. 1999. Oribatid communities (Acari: Oribatida) in the soil on the border of a town. In: Soil Zoology in Central Europe (Tajovský K., Piži V., Eds), pp. 101–108, ISB AS CR, České Budejovice.Huhta V., Siira-Pietikäinen, A., Penttinen R. 2012. Importance of dead wood for soil mite (Acarina) communities in boreal old-growth forests. Soil Organisms 84: 499–512.Johnston J. M., Crossley D. A. 1993. The significance of coarse woody debris for the diversity of soil mites. In: Proceedings of the Workshop on Coarse Woody Debris in Southern Forests: Effects on Biodiversity (McMinn J. W., Crossley D. A. Eds), pp. 82–87, General Technical Report SE-94. Athens.Jost L. 2006. Entropy and diversity. Oikos 113: 363–375.Kaneko N., Sugawara Y., Miyamoto T., Hasegawa M., Hiura T. 2005. Oribatid mite community structure and tree species diversity: A link? Pedobiologia 49: 521–528.Karasawa S., Hijii N. 2004. Effects of microhabitat diversity and geographical isolation on oribatid mite (Acari: Oribatida) communities in mangrove forests. Pedobiologia 48: 245–255.Koehler H., Born H. 1989. The influence of vegetation structure on the development of soil mesofauna. Agr. Ecosyst. Environ. 27: 253–269.Lachat T., Wermelinger B., Gossner M. M., Bussler H., Isacsson G., Müller J. 2012. Saproxylic beetles as indicator species for dead-wood amount and temperature in European beech forests. Ecol. Indic. 23: 323–331.Macfadyen A. 1961. Improved funnel-type extractors for soil arthropods. J. Anim. Ecol. 30: 171–181.Maraun M., Scheu S. 2000. The structure of oribatid mite communities (Acari, Oribatida): patterns, mechanisms and implications for future research. Ecography 23: 374–383.Materna J. 2000. Oribatid communities (Acari: Oribatida) inhabiting saxicolous mosses and lichens in the Krkonoše Mts. (Czech Republic). Pedobiologia 44: 40–62.Mitchell M. J. 1978. Vertical and horizontal distributions of oribatid mites (Acari: Cryptostigmata) in an aspen woodland soil. Ecology 59: 516–525.Niedbała W. 2008. Ptyctimous mites (Acari: Oribatida) of Poland. Fauna Poloniae, Natura optima dux Foundation, 3: 1–242.Niedbała W., Błaszak Cz., Błoszyk J., Kaliszewski M., Kaźmierski A. 1982. Soil mites (Acari) of Warsaw and Mazovia. Mem. Zool. 36: 235–252.Nielsen U. N., Osler G. H. R., Campbell C. D., Neilson R., Burslem D. F. R. P., van der Wal R. 2010. The enigma of soil animal species diversity revisited: The role of small-scale heterogeneity. PLoS ONE 5: e11567. doi:10.1371/journal.pone.0011567Olszanowski Z. 1996. A monograph of the Nothridae and Camisiidae of Poland (Acari: Oribatida: Crotonioidea). Genus (Supplement): 1-201.Park O., Auerbach S. I. 1954. Further study of the tree-hole complex with emphasis on quantitative aspects of the fauna. Ecology 35: 208–222.Petersen H. 1982. Structure and size of soil animal populations. Oikos 39: 306–329.Pyle C, Brown M. M. 1998. A rapid system of decay classification for hardwood logs of the eastern deciduous forest floor. J. Torrey Bot. Soc. 125: 237–245.Ranius T. 2002. Influence of stand size and quality of tree hollows on saproxylic beetles in Sweden. Biol. Conserv. 103: 85–91.Root H. T., McGee G. G., Norton R. A. 2007. Arboreal mite communities on epiphytic lichens of the Adirondack Mountains of New York. Northeast. Nat. 14: 425–438.Schaefer M., Schauermann J. 1990. The soil fauna of beech forests: comparison between a mull and a moder soil. Pedobiologia 34: 299–314.Seastedt T. R., Reddy M. V., Cline S. P. 1989. Microarthropods in decaying wood from temperate coniferous forests. Pedobiologia 33: 69–77.Seniczak S., Dąbrowski J., Klimek A., Kaczmarek S. 1998. Effects of air pollution produced by a nitrogen fertilizer factory on the mites (Acari) associated with young Scots pine forests in Poland. Appl. Soil Ecol. 9: 453–458.Seyd E. L., Seaward M. R. D. 1984. The association of oribatid mites with lichens. Zool. J. Linn. Soc-Lond. 80: 369–420.Siira-Pietikäinen A., Penttinen R., Huhta V. 2008. Oribatid mites (Acari: Oribatida) in boreal forest floor and decaying wood. Pedobiologia 52: 111–118.Skubała P., Duras M. 2008. Do decaying logs represent habitat islands? Oribatid mite communities in dead wood. Ann. Zool. 58: 453–466.Skubała P., Gurgul B. 2011. Importance of tree hollows for biodiversity of mites (Acari) in the forest reserve „Śrubita” (Carpathian Mountains, south Poland). Biol. Lett. 48: 97–106.Skubała P., Marzec A. 2013. Importance of different types of beech dead wood for soil microarthropod fauna. Pol. J. Ecol. 61: 543–557.Skubała P., Maślak M. 2009. Succession of oribatid fauna (Acari, Oribatida) in fallen spruce trees: Deadwood promotes species and functional diversity. In: Trends in Acarology (Sabelis M. W., Bruin J. Eds), pp. 123–128, Springer Dordrecht, The Netherlands.Skubała P., Sokołowska M. 2006. Oribatid fauna (Acari, Oribatida) in spruce fallen trees in the Babia Góra National Park. Biol. Lett. 43: 243–248.Smrž J. 2010. Nutritional biology of oribatid mites from different microhabitats in the forest. In: Trends in Acarology (Sabelis M. W., Bruin J., Eds), pp. 213–216, Springer Dordrecht, The Netherlands.Smrž J., Kučera T., Vašků Z. 2015. Food Offer Inside Agroecosystem Soils as an Ecological Factor for Settling Microhabitats by Soil Saprophagous Mites. Acta Univ. Agric. et Silvic. Mendel. Brun. 63: 1565–1574.Subías L. S. 2004–2015. Listado sistemático, sinonímico y biogeográfico de los ácaros oribátidos (Acariformes: Oribatida) del mundo (excepto fósiles) [Systematic, synonymic and biogeographical check-list of the world’s oribatid mites (Acariformes, Oribatida)] (1758−2002). Graellsia 60: 3−305. Updated in March 2015: http://escalera.bio.ucm.es/usuarios/bba/cont/docs/RO_1.pdf. Cited 10 November 2015 (in Spanish with English summary).Sylwestrowicz-Maliszewska, Olszanowski Z., Błoszyk J. 1993. Moss mites (Acari: Oribatida) of pine forests from Poland. Fragm. Faun. 36: 185–199.Taguchi Y. H., Oono Y. 2005. Relational patterns of gene expression via non-metric multidimensional scaling analysis. Bioinformatics 21: 730–740.Usher M. B., Booth R. G., Sparkes K. E. 1982. A review of progress in understanding the organization of communities of soil arthropods. Pedobiologia 23: 126–144.Walter D. E., Proctor H. C. 1999. Mites. Ecology, Evolution and Behaviour. CABI Publishing, New York, USA.Wauthy G. 1982. Synecology of forest soil oribatid mites of Belgium (Acari, Oribatida). III. – Ecological groups. Acta Oecol. 3: 469–494.Wehner K., Norton R. A., Blüthgen N., Heethoff M. 2016. Specialization of oribatid mites to forest microhabitats – the enigmatic role of litter. Ecosphere 7: e01336.Weigmann G. 2006. Oribatid communities in transects form bogs to forests un Berlin indicating the biotope qualities. In: Modern Acarology (Dusbábek F., Bukva V., Eds), vol. 1, pp. 359–364, Academia, Prague and SPB Academic Publishing bv, The Hague.Weigmann G. 2006. Hornmilben (Oribatida) [Moss mites (Oribatida)]. In: Die Tierwelt Deutschland und der angrenzenden Meeresteile (Dahl F., Ed.). 76. Teil, pp. 1–520. Goecke & Evers, Keltern (in German).Wolf M. M., Rockett C. L. 1984. Habitat changes affecting bacterial composition in the alimentary canal of oribatid mites (Acari: Oribatida). Int. J. Acarol. 10: 209–215.Wunderle I. 1992. Die Oribatiden-Gemeinschaften (Acari) der verschiedenen Habitate eines Buchenwaldes. Carolinea 50: 79–144.

Journal

Biological Lettersde Gruyter

Published: Jun 1, 2016

References

  • Litter complexity and composition are determinants of the diversity and species composition of oribatid mites in litterbags
    HansenR
  • Effects of habitat complexity and composition on a diverse litter microarthropod assemblage
    HansenR
  • Comparison among oribatid faunas from different microhabitats in forest floors
    AokiT
  • Influence of stand size and quality of tree hollows on saproxylic beetles in Sweden
    RaniusT
  • mites of Fauna Natura optima dux Foundation
    NiedbałaW
  • Effects of microhabitat diversity and geographical isolation on oribatid mite communities in mangrove forests
    KarasawaS
  • Do decaying logs represent habitat islands ? Oribatid mite communities in dead wood
    SkubałaP
  • Oribatid communities in transects form bogs to forests un Berlin indicating the biotope qualities In Academia SPB Academic Publishing bv The
    WeigmannG
  • Soil mites of
    NiedbałaW
  • Die Gemeinschaften der verschiedenen Habitate eines
    WunderleI
  • Structure and size of soil animal populations
    PetersenH
  • The soil fauna of beech forests : comparison between a mull and a moder soil
    SchaeferM
  • communities in the soil on the border of a town In Soil Zoology in Central Europe AS
    HubertJ
  • Vertical and horizontal distributions of oribatid mites in an aspen woodland soil
    MitchellM
  • Are there real endogeic species in temperate forest mites
    DucarmeX
  • The significance of coarse woody debris for the diversity of soil mites In : Proceedings of the Workshop on Coarse Woody Debris in Effects on General Technical Report Athens
    JohnstonJ
  • communities inhabiting saxicolous mosses and lichens in the Krkonoše Republic
    MaternaJ
  • new method for non - parametric multivariate analysis of variance
    AndersonM
  • mediate sperm transfer in mosses
    CronbergN
  • of oribatid mites on a Danish woodland floor
    HammerM
  • The association of oribatid mites with lichens
    SeydE
  • Specialization of oribatid mites to forest microhabitats the enigmatic role of litter
    WehnerK
  • of oribatid mites in tree canopies and litter In Invertebrates as Webmasters in Ecosystems CAB
    Behan
  • PAST Software Package for and Data
    HammerØ
  • AuerbachS Further study of the tree - hole complex with emphasis on quantitative aspects of the fauna
    ParkO
  • Importance of dead wood for soil mite communities in boreal old - growth forests Soil Organisms
    HuhtaV
  • Relational patterns of gene expression via non - metric multidimensional scaling analysis
    TaguchiY
  • mechowców w dwóch odmiennych wariantach roślinnych zespołuMelico - Fagetum typicumw rezerwacie Słomowo of moss mites in two different variants of plant associationMelico - Fagetum typicumin the Słomowo Reserve Bad Pol in Polish
    BorowiakP
  • Effects of air pollution produced by a nitrogen fertilizer factory on the mites associated with young Scots pine forests in
    SeniczakS
  • Relation between oribatid fauna and some environments of Nopporo National Forest in Hokkaido II Oribatid fauna in soils under four different vegetations
    FujikawaT
  • monograph of the and of Supplement
    OlszanowskiZ
  • rapid system of decay classification for hardwood logs of the eastern deciduous forest floor
    PyleC
  • fauna in spruce fallen trees in the Babia Góra National
    SkubałaP
  • mite community structure and tree species diversity link
    KanekoN
  • Tree identity surpasses tree diversity in affecting the community structure of oribatid mites of deciduous temperate forests Soil
    EissfellerV
  • Food Offer Inside Agroecosystem Soils as an Ecological Factor for Settling Microhabitats by Soil Saprophagous Mites
    SmržJ
  • Synecology of forest soil oribatid mites of III Ecological groups
    WauthyG
  • derWalR The enigma of soil animal species diversity revisited : The role of small - scale heterogeneity ONE
    NielsenU
  • Importance of different types of beech dead wood for soil microarthropod fauna
    SkubałaP
  • Succession of oribatid fauna in fallen spruce trees : Deadwood promotes species and functional diversity In Trends in Acarology Dordrecht The
    SkubałaP
  • Importance of tree hollows for biodiversity of mites in the forest reserve Śrubita Mountains south
    SkubałaP
  • diversity
    JostL
  • in decaying wood from temperate coniferous forests
    SeastedtT
  • mites In Die Tierwelt Deutschland und der angrenzenden Meeresteile Teil Keltern in
    WeigmannG
  • mites of pine forests from
    Sylwestrowicz
  • of progress in understanding the organization of communities of soil arthropods
    UsherM
  • Oribatid mite communities on the bark of dead wood vary with log type surrounding forest and regional factors
    BluhmC
  • Mites In interaction chapter book sponsored by Michigan Technological University and the International Association of
    GlimeJ
  • mites in boreal forest floor and decaying wood
    Siira
  • The structure of oribatid mite communities patterns mechanisms and implications for future research
    MaraunM
  • Improved funnel - type extractors for soil arthropods
    MacfadyenA
  • Nutritional biology of oribatid mites from different microhabitats in the forest In Trends in Acarology Dordrecht The
    SmržJ
  • The influence of vegetation structure on the development of soil mesofauna
    KoehlerH
  • Arboreal mite communities on epiphytic lichens of the Adirondack Mountains of New York Northeast
    RootH
  • Mites Publishing New York
    WalterD
  • Saproxylic beetles as indicator species for dead - wood amount and temperature in European beech forests
    LachatT
  • a Inter - and intra - habitat relationships between woodland Cryptostigmata species diversity and the diversity of soil and litter microhabitats
    AndersonJ