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Published October 15, 2020 | Version v1
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Relative abundance of oribatid mites (Sarcoptiformes: Oribatida) in two tillage systems of irrigated and rain-fed wheat farms of Khodabandeh County, Iran

  • 1. .Department of Plant Protection, Faculty of Agriculture, University of Tehran, Karaj, Iran; E-mails: mahshid_ mirzaei@ut.ac.ir, saboori@ut.ac.ir, nozari@ut.ac.ir
  • 2. . Department of Agronomy and Plant Breeding, Faculty of Agriculture, University of Zanjan, Zanjan, Iran; E-mail: afsahi@znu.ac.ir

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Mirzaei-Pashami, Mahshid, Saboori, Alireza, Nozari, Jamasb, Afsahi, Kamran (2020): Relative abundance of oribatid mites (Sarcoptiformes: Oribatida) in two tillage systems of irrigated and rain-fed wheat farms of Khodabandeh County, Iran. Persian Journal of Acarology 9 (4): 341-352, DOI: 10.22073/pja.v9i4.60639

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References

  • Ahmadi, K., Ebadzadeh, H.M., Hatami, F., Abdeshah, H., & Kazemian, A. (2019) Statistics of crop production 2017-2018. Vol. 1 Crop products, Ministry of Jihad-e-Agriculture. 95 pp. Available from: https://www.maj.ir/Dorsapax/userfiles/Sub65/Amarnamehj1-96-97-site.pdf (Accessed on 15 February 2020).
  • Akrami, M.A. & Saboori, A. (2012) Acari of Iran, Vol. 2, Oribatid mites. University of Tehran Press, Tehran, 281 pp. (In Persian).
  • Alimardani, R. (2010) New tillage systems. Agricultural Science Press, Tehran, 226 pp. (In Persian).
  • Amani, M., Khajeali, J., Noorbakhsh, F., Joharchi, O. & Sabzalian, M.R. (2015) Species diversity of laelapid soil mites (Acari: Laelapidae) under different land use types in Saman and Shahrekord. Iranian Journal of Applied Ecology, 4(13) 89-99.
  • Arroyo, J. & Iturrondobeitia, J.C. (2006) Differences in the diversity of oribatid mite communities in forests and agrosystems lands. European Journal of Soil Biology, 42(4): 259-269.
  • Balogh, J. (1983) Apartial revision of Oppiidae Grandjean, 1954 (Acari: Oribatei). Acta Zoologica Academia Scientiarum Hungaricae, 29(1-3): 1-79.
  • Balogh, J. & Balogh, P. (1992) The oribatid mites genera of the world (Vol. 1). Budapest, Hungarian Natural History Museum Press, 263 pp.
  • Barbercheck, M.E., Neher, D.A., Anas, O., EL-Allaf, S.M. & Weicht, T.R. (2009) Response of soil invertebrates to disturbance across three resource regions in North Carolina. Enviromental Monitoring and Assessment, 152 (1-4): 283-298.
  • Bedano, J.C., Cantu, M.P. & Doucet, M.E. (2005) Abundance of soil mites (Arachnida: Acari) in a natural soil of central Argentina. Zoological Studies, 44(4): 505-512
  • Behan-Pelletier, V.M. 1999. Oribatid mite biodiversity in agro-ecosystems-role for bioindication. Agriculture, Ecosystem and Enviroment, 74 (1-3): 411-423.
  • Booher, E.C., Greenwood, C.M. & Hattey, J.A. (2012) Effects of soil amendments on soil microarthropods in continuous maize in Western Oklahoma. Southwestern Entomologist, 37(1): 23-30.
  • Coleman, D.C., Crossley, D.A. Jr. & Hendrix, P.F. (2004) Fundementals of Soil Ecology. Burlington, MA, Elsevier Academic Press, 408 pp.
  • Cortet, J., Ronce, D., Poinsot-Balaguer, N., Beaufreton, C., Chabert, A., Viaux, P. & Cancela de Fonseca, J.P. (2002) Impacts of different agricultural practices on the biodiversity of microarthropod communities in arable crop systems. European Journal of Soil Biology, 38: 239- 244.
  • Ejtehadi, H., Sepehri, A. & Akkafi, H.R. (2012) Methods of measuring biodiversity. Ferdowsi University of Mashhad Press, 228 pp. (In Persian).
  • FAO (2010) Biodiversity for food and agriculture, outcomes of an expert workshop held by FAO and the platform on agrobiodiversity research. Rome, Italy, 78 pp.
  • Fujita, M. (2003) Comparison of soil mites (Oribatida; Acari) between conventional and nature (tillage and no-tillage practices) farming crop fields in Japan. Seventh International Conference on Kyusei Nature Farming. Proceedings of the conference held at Christchurch, New Zealand, pp. 149-154.
  • Fuller, R. J., Norton, L. R. , Feber, R.E., Johnson, P.J., Chamberlain, D.E., Joys, A.C., Mathews, F., Stuart, R.C., Townsend, M.C., Manley, W.J., Wolfe, M.S., Macdonald, D.W. & Firbank, L.G. (2005) Benefits of organic farming to biodiversity vary among taxa. Biology Letters, 1(4): 431- 434.
  • Gergocs, V. & Hufnagel, L. (2009) Application of oribatid mites as indicators. Applied Ecology and Enviromental Research, 7(1): 79-98.
  • Gulvik, M. (2007) Mites (Acari) as indicators of soil biodiversity and land use monitoring: a review. Polish Journal of Ecology, 55(3): 415-440.
  • Hagvar, S. (1998) Mites (Acari) developing inside decomposing spruce needles: biology and effect on decomposition rate. Pedobiologia, 42: 358-377.
  • Heltshe, J.F. & Forrester, N.E. (1983) Estimating species richness using the jackknife procedure. Biometrics, 39(1): 1-11.
  • Hendrix, P.F., Parmelee, R.W., Crossley Jr, D.A., Coleman, D.C., Odum, E.P. & Goffman, P.M. (1986) Detritus food webs in conventional and no-tillage agroecosystems, Bioscience, 36: 374- 380.
  • Hulsmann, A. & Wolters, V. (1998) The effects of different tillage practices on soil mites, with particular reference to Oribatida. Applied Soil Ecology, 9: 327-332.
  • Keshavarz Jamshidian, M., Akrami, M.A. & Saboori, A. (2015) Oppiid mites (Acari: Oribatida: Oppiidae) from Alborz Province, with a key to the known species and new records for Iran. Persian Journal of Acarology, 4(1): 11-26.
  • Klimek, A., Rolbiecki, S. & Rolbiecki, R. (2013) Effect of irrigation and organic fertilization on oribatid mites (Acari, Oribatida) in forest nursery. Scientific Research and Essays, 8(5): 227- 237.
  • Krebs, C. J. (1999) Ecological methodology. 2nd ed. Benjamin/Cummings, CA, USA, 620 pp.
  • Lotz, F., Herzfeld, T., Heinke, J., Rolinski, S., Schaphoff, S., von Bloh, W., Stoorvogel, J. & Muller, C. (2019) Simulating the effect of tillage practices with the global ecosystem model LPJmL (version 5.0-tillage). Geoscientific Model Development, 12(6): 2419-2440.
  • Manu, M. (2011) The influence of some environmental factors on the species diversity of the predator mites (Acari: Mesostigmata) from natural forest ecosystems of Bucegi Massif (Romania). Travaux du Museum National d'Histoire Naturelle "Grigore Antipa", 1: 9-20.
  • Maturna, J. (2000) Oribatid communities (Acari: Oribatida) inhabiting saxicolous mosses and lichens in the Krkonose Mts. (Czech Republic). Pedobiologia, 44: 40-62.
  • Minor, M.A. & Norton, R.A. (2004) Effects of soil amendments on assemblages of soil mites (Acari: Oribatida, Mesostigmata) in short-rotation willow plantings in central New York. Canadian Journal of Forest Research, 34(7): 1417-1425.
  • Neher, D.A., & Barbercheck, M.E. (1999) Diversity and function of soil mesofauna. In: Collins, W.W. & Qualset, C.O. (Eds.), Biodiversity in Agroecosystems. CRC Press, New York, pp. 27- 47.
  • Perez-Vlazquez, D., Castano-Meneses, G., Callejas-Chavero, A. & Palacios-Vargas, P.G. (2011) Mesostigmatid mite (Acari: Mesostigmata) diversity and abundance in two sites in Pedregal de San Angel Ecological Reserve, Distrito Federal, Mexico. Zoosymposia, 6: 255-259.
  • Rahgozar, M., Haddad Irani-Nejad, K., Zargaran, M.R. & Saboori, A. (2019) Biodiversity and species richness of oribatid mites (Acari: Oribatida) in orchards of East Azerbaijan province, Iran. Persian Journal of Acarology, 8(2): 147-159.
  • Ramezani, L. & Mossadegh, M.S. (2014) Biodiversity of oribatid mites in two different microhabitats of Khuzestan province (Southwestern Iran). Journal of Crop Protection, 3(4): 443-448.
  • Raoofi, M., Khanjani, M., Daneshian, J. & Giti, S. (2014) Integrated weed management in perennial alfalfa (Medicago sativa L.) and theirs effects on soil's microfauna. International Journal of Farming and Allied Sciences, 3(4): 430-435.
  • Rodriguez, E., Fernandez-Anero, F.J., Ruiz, P. & Campos, M. (2006) Soil arthropod abundance under conventional and no tillage in a Mediterranean climate. Soil and Tillage Research, 85(1): 229- 233.
  • Rockett, L.C. (1986) Agricultural impact on the horizontal distribution of Oribatida (Acari: Oribatida). International Journal of Acarology, 12(3): 175-180.
  • Sabatini, M.A., Rebecchi, L., Cappi, C., Bertolani R. & Fratello, B. (1997) Long-term effects of three different continuous tillage practices on Collembola populations, Pedobiologia, 41: 185- 193.
  • Seyd, E.L. & Seaward, M.R.D. (1984) The association of oribatid mites with lichens. Zoological Journal of the Linnaean Society, 80: 369-420.
  • Sharma, N. & Parwez, H. (2017) Population density and diversity of soil mites (Order: Acarina) in agroforestry habitat: Relationship to soil temperature and soil moisture. International Journal of Applied Environmental Sciences, 12(7): 1449-1460.
  • Singh, R., Serawat, M., Singh & Babli, A. (2018) Effect of tillage and crop residue management on soil physical properties. Journal of Soil Salinity and Water Quality 10(2): 200-206.
  • Siepel, H. (1996) The importance of unpredictable and short term environmental extremes for biodiversity in oribatid mites. Biodiversity Letters, 3(1): 26-34.
  • Smrz, S. & Kocourkova, J. (1999) Mite communities of two epiphytic lichen species (Hypogymnia physodes and Parmelia sulcata) in the Czech Republic. Pedobiologia, 43: 385-390.
  • Zhan, L.-L., Xu, Y.-L., Zhang, X.-Y., Pei, X.-C., Zhao, G. & Wang, J.-H. (2013) Effect of tillage systems on community structure of soil mites. Chinese Journal of Eco-Agriculture, 21(5): 598- 605.