Diversity and abundance of springtails (Hexapoda: Collembola) in soil under 90-year potato monoculture in relation to crop rotation

References

• Alvarez T, Frampton GK, Goulson D. 2001. Epigeic Collembola in winter wheat under organic, integrated and conventional farm management regimes. Agric Ecos Envir. 83:95–110.
   Web of Science ®Google Scholar
• Ballabio L, Fumagalli P, Comolli R. 2013. Soil quality evaluation in periurban lowland forest using biological indicators. Poster session presented at: The walking urban forest. A dynamic green infrastructure for our cities. 16th European Forum on Urban Forestry; May 7–11; Milano.
   Google Scholar
• Battigelli JP, Spence JR, Langor DW, Berch SM. 2004. Short-term impact of forest soil compaction and organic matter removal on soil mesofauna density and oribatid mite density. Can J For Res. 34:1136–1149.
   Web of Science ®Google Scholar
• Carter MR, Angers DA, Gregorich EG, Bolinder MA. 2003. Characterizing organic matter retention for surface soils in eastern Canada using density and particle size fractions. Can J Soil Sci. 83:11–23.
   Web of Science ®Google Scholar
• Carter MR, Noronha C. 2007. Soil micro–arthropod communities and microbial parameters in the potato ridge under two field management systems on sandy loams in Atlantic Canada. Can J Soil Sci. 87:399–404.
   Web of Science ®Google Scholar
• Cassagne N, Gers C, Gauquelin T. 2003. Relationships between Collembola, soil chemistry and humus types in forest stands (France). Biol Fertil Soils. 37:355–361.
   Web of Science ®Google Scholar
• Crossley DA, Coleman DC. 1999. Microarthropods. In: Sumner, ME, editor. Handbook of soil science. Boca Raton: CRC Press; p. 59–65.
   Google Scholar
• Ducarme XHMA, Wauthy G, Lebrun P. 2004. Are there real endogeic species in temperate forest mites? Pedobiologia. 48:139–147.
   Web of Science ®Google Scholar
• Fjellberg A. 2007. The Collembola of Fennoscandia and Denmark. Part II: Entomobryomorpha and Symphypleona. Fauna Entomol Scand. 42:264.
   Google Scholar
• Flores-Pardavė L, Palacios-Vargas JG, Castańo-Meneses G, Cutz-Pool LGQ. 2011. Collembolans from agricultural soils with alfalfa and corn crops amended with biosolids in Aquascalientes, Mexico. Agrociencia. 45:353–362.
   Web of Science ®Google Scholar
• Frampton GK. 1997. The potential of Collembola as indicators of pesticide usage: evidence and methods from the UK arable ecosystem. Pedobiologia. 41:179–184.
   Web of Science ®Google Scholar
• Gardi C, Menta C, Parisi V. 2002. Use of microarthropods as biological indicators of soil quality: the BSQ synthetic indicator. Options Méditerranéennes, Seria A. 50:297–304.
   Google Scholar
• Giller KE, Beare MH, Lavelle P, Izac AMN, Swift MJ. 1997. Agricultural intensification, soil biodiversity and agroecosystem function. Appl Soil Ecol. 6:3–16.
   Web of Science ®Google Scholar
• Graenitz J, Bauer R. 2000. The effect of fertilization and crop rotation on biological activity in a 90 year long–term experiment. Die Bodenkultur. 51:99–105.
   Google Scholar
• Gruss I, Twardowski J. 2012. Quantitative and ecological characteristic of springtails (Hexapoda: Collembola) assemblages on winter rye field, cultivated in a long-term monoculture and five-crop rotation. J Res Appl Agric Eng. 57:129–132.
   Google Scholar
• Hopkin SP. 2007. A key to the Collembola (springtails) of Britain and Ireland. London: AIDGAP, Field Studies Council.
   Google Scholar
• Innocenti G, Montanari M, Ganassi S, Sabatini MA. 2011. Does substrate water content influence the effect of Collembola-pathogenic fungus interaction on plant health? A mesocosm study. Bull Insect. 64:73–76.
   Web of Science ®Google Scholar
• Jacomini C, Nappi P, Sbrilli G, Mancini L. 2000. Indicatori ed indici ecotossicologicie biologici applicati al suolo: stato dell’arte. Roma, Italy: Agenzia Nazionale per la Protezione dell’Ambiente (ANPA).
   Google Scholar
• Jing S, Solhřy T, Huifu W, Vollant TI, Rumei X. 2005. Differences in soil arthropods communities along a high altitude gradient at Shergyla Mountain, Tibet, China. Arctic Alpin Res. 37:261–266.
   Web of Science ®Google Scholar
• Kalia A, Gosal SK. 2011. Effect of pesticide application on soil microorganisms. Archiv Agr Soil Sci. 57:569–596.
   Web of Science ®Google Scholar
• Kanal A. 2004. Effects of fertilisation of edaphic properties on soil associated Collembola in crop rotation. Agronom Res. 2:153–168.
   Google Scholar
• Kovac L, Miklisova D. 1997. Collembolan communities (Hexapoda: Collembola) in arable soils of East Slovakia. Pedobiologia. 41:62–68.
   Web of Science ®Google Scholar
• Liu X, Zhang J, Gu T, Zhang W, Shen Q, Yin S, Qiu H. 2014. Microbial community diversities and taxa abundances in soils along a seven-year gradient of potato monoculture using high throughput pyrosequencing approach. PLoS ONE. 9:e86610.
   PubMed Web of Science ®Google Scholar
• Magurran AE. 2004. Measuring biological diversity. Oxford: Blackwell Publishing.
   Google Scholar
• Mema Devi W, Binoy Singh T, Joymati Devi L. 2011. Monthly changes of collembolan population under the gradients of moisture, organic carbon and nitrogen contents in a sub-tropical forest soil. Manipur J Exp Sci. 2:10–12.
   Google Scholar
• Murphy PW. 1956. A modified funnel method for extracting soil mesofauna. In: Proceedings of the transactions on 6th International Congress of Soil Science; Aug 28–Sep 1; Paris. p. 255–262.
   Google Scholar
• Mussury R, Scalon S. 2002. Study of Acari and Collembola populations in four cultivation systems in Dourados. MS Braz Arch Biol Techn. 45:257–264.
   Web of Science ®Google Scholar
• Muturi JJ, Mbugi JP, Mueke JM, Lagerlóf J, Mungatu JK, Nyamasyo D, Gikungu M. 2009. Collembola density and diversity along a gradient of land-use types in Embu district, Eastern Kenya. Trop Subtrop Agroecosyst. 11:361–369.
   Google Scholar
• Neher D, Barbercheck M. 1999. Diversity and function of soil mesofauna. In: Collins W, Qualset C, editors. Biodiversity in agroecosystems. New York, NY: CRC Press, LLC; p. 27–47.
   Google Scholar
• Parisi V. 2001. The biological soil quality, a method based on microarthropods. Acta Naturalia De L’Ateneo Parmense. 37:97–106.
   Google Scholar
• Parisi V, Menta C, Gardi C, Jacomini C, Mozzanica E. 2005. Microarthropod communities as a tool to assess soil quality and biodiversity: a new approach in Italy. Agric Ecos Envir. 105:323–333.
   Web of Science ®Google Scholar
• Petersen H, Luxton M. 1982. A comparative analysis of soil fauna populations and their role in decomposition processes. Oikos. 39:288–388.
   Web of Science ®Google Scholar
• Pielou EC. 1966. The measurement of diversity in different types of biological collections. J Theor Biol. 13:131–144.
   Web of Science ®Google Scholar
• Ponge JF. 2000. Acidophic Collembola: living fossils? Contr Boil Lab Kyoto Univ. 29:65–74.
   Google Scholar
• Ponge JF, Gillet S, Dubs F, Fedoroff E, Haese L, Sousa JP, Lavelle P. 2003. Collembolan communities as bioindicators of land use intensification. Soil Biol Bioch. 35:813–826.
   Web of Science ®Google Scholar
• Römbke J, Schmelz RM, Knaebe S. 2009. Field studies for the assessment of pesticides with soil mesofauna, in particular enchytraeids, mites and nematodes: design and first results. Soil Organ. 81:237–264.
   Google Scholar
• Rusek J. 1998. Biodiversity of Collembola and their functional role in the ecosystem. Biodiv Conserv. 7:1207–1219.
   Web of Science ®Google Scholar
• Rychcik B, Adamiak J, Wójciak H. 2006. Dynamics of the soil organic matter in crop rotation and long-term monoculture. Plant Soil Environ. 52:15–20.
   Google Scholar
• Santofuro L, Van Gestel C, Rocco A, Maisto G. 2012. Soil invertebrates as bioindicators of urban soil quality. Environ Pollut. 161:57–63.
   PubMed Web of Science ®Google Scholar
• Schloter M, Dilly O, Munch JC. 2003. Indicators for evaluating soil quality. Agric Ecosys Environ. 98:255–262.
   Web of Science ®Google Scholar
• Seastedt TR. 1984. The role of microarthropods in decomposition and mineralization processes. Ann Rev Ent. 29:25–46.
   Web of Science ®Google Scholar
• Shannon CE. 1948. A mathematical theory of communication. Bell Syst Tech J. 27:379–423.
   Web of Science ®Google Scholar
• Simpson EH. 1949. Measurement of diversity. Nature. 163:688.
   Web of Science ®Google Scholar
• Tiilikkala K. 2008. Effect of crop rotation on Globodera rostochiensis and on potato yield. Bulletin OEPP/EPPO. 21:41–47.
   Google Scholar
• Twardowski J. 2010. Wpływ uproszczeń w uprawie roli pod pszenicę ozimą na zgrupowania stawonogów epigeicznych i glebowych [The effect of reduced tillage systems in winter wheat crop on the assemblages of epigeal and soil arthropods]. Monographs. 107:1–141. Wrocław: Publisher of Wrocław University of Environmental and Life Sciences.
   Google Scholar
• Visser S. 1985. Role of the soil invertebrates in determining the composition of soil microbial communities. In: Fitter AH, editor. Ecological interactions in soil: plants, microbes and animals. Oxford: Blackwell Scientific; p. 297–317.
   Google Scholar
• Waikhom MD, Singh TB, Devi LJ. 2006. Vertical distribution pattern of Collembola in a sub-tropical forest floor of Manipur. Zoos’ Print Journal. 21:2331–2332.
   Google Scholar
• Wang S, Ruan H. 2011. Effects of soil mesofauna and microclimate on nitrogen dynamics in leaf decomposition along an elevation gradient. Afr J Biotech. 10:6732–6742.
   Google Scholar
• Wharton P, Driscoll J, Douches D, Hammerschmidt R, Kirk W. 2007. Common scab of potato. In: Michigan potato diseases. Extension Bulletin E-2990. East Lansing: Michigan State University.
   Google Scholar
• Winkler D, Traser G. 2012. Collembola diversity in agricultural environments. In: International Scientific Conference on Sustainable Development & Ecological Footprint; March 26–27; Sopron. University of West Hungary.
   Google Scholar
• World Reference Base for Soil Resources. 2006. World Soil Resources Reports, Rome: FAO. No. 103; p. 1–128.
   Google Scholar
• Xu GL, Kuster TM, Günthardt-Goerg MS, Dobbertin M, Li MH. 2012. Seasonal exposure to drought and air warming affects soil Collembola and mites. PLoSONE. 7:e43102.
   PubMed Web of Science ®Google Scholar
• Zimdars B, Dunger W. 2000. Different methods for the evaluation of species of the genus Mesaphorura (Collembola, Tullbergiinae). Pedobiologia. 44:240–247.
   Web of Science ®Google Scholar