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Changes in soil arthropod communities and soil biological quality along an elevation gradient in Taurus Fir forest

Yıl 2020, Cilt: 21 Sayı: 4, 388 - 395, 29.12.2020
https://doi.org/10.18182/tjf.816354

Öz

Soil arthropods (Arthropoda) in forest ecosystems play an important role as primary and secondary consumers in the process of litter fragmentation and decomposition. Amount, diversity, and community structure of arthropods in the soil ecosystem reacts very quickly to changes in habitat characteristics. In this study, it was aimed to reveal the seasonal changes, diversity, and effects of soil biological quality of soil-dwelling arthropods in Taurus Fir (Abies cilicica (Antoine & Kotschy) Carrière) ecosystem at different altitudes. The study was carried out in pure fir stands between 1600-1730 meters (3 different altitudes) in Berçin highland (Tomarza-Kayseri) forests. Sampling made from the litter using a cylinder core 10 cm diameter and height was performed in winter, spring, summer, and autumn seasons. The amount, diversity, trophic structure, and soil biological quality (QBS) values of arthropods were determined in seasonal and different altitudes. QBS abbreviations for soil biological quality based on arthropod (arthropoda; QBS-ar) and Collembola (Collembola; QBS-C) communities. As a result of the study, in the distribution of arthropods according to the seasons, the highest number of individuals was found in summer, and in the distribution depending on altitude, the highest number of individuals was found at an altitude of 1613 m. No statistical difference was found between elevations in terms of diversity index. Soil biological quality both QBS-ar and QBS-C value decrease along an elevation gradient. Identified Collembola species are new records for Kayseri/ Berçin Highland while Protaphorura microsellata species are new records for Turkey.

Kaynakça

  • Akkaya, A., Uğurtaş, İ.H., 2006. The feeding biology of Ophisops elegans Menetries, 1832 (Reptilia: Lacertidae) populations of the Bursa region. Turkish Journal of Zoology, 30: 357-360.
  • Akkemik, Ü., 2018. Türkiye’nin Doğal-Egzotik Ağaç ve Çalıları. Orman Genel Müdürlüğü Yayınları, Ankara.
  • Aspetti, G.P., Boccelli, R., Ampollini, D., Del Re, A.A., Capri, E., 2010. Assessment of soil-quality index based on microarthropods in corn cultivation in Northern Italy. Ecological Indicators, 10: 129-135.
  • Bastida, F., Zsolnay, A., Hernández, T., García, C., 2008. Past, present and future of soil quality indices: a biological perspective. Geoderma, 147: 159-171.
  • Begum, F., Bajracharya, R.M., Sharma, S., Sitaula, B.K., 2011. Assessment of soil quality using microarthropod communities under different land system: A case study in the mid-hills of central Nepal. Journal of Life Sciences, 5: 66-73.
  • Begum, F., Bajracharya, R.M., Sitaula, B.K., Sharma, S., Ali, S., Ali, H., 2014. Seasonal dynamics and land use effect on soil microarthropod communities in the Mid-hills of Nepal. Int. J. Agron. Agri. Res, 5: 114-123.
  • Bei-Bienko, G.Y., Blagoveshchenskii, D.I., Chernova, O.A., Datsig, E.M., Emel'yanov, A.F., Kerzhner, I.M., Loginova, M.M., Martynova, E.F., 1967. Keys to Insects of the European USSR. Akademiya Nauk, USSR.
  • Bozkuş, H.F., 1989. Toros Göknarı (Abies cilicica Carr.)’nın Türkiye’deki Doğal Yayılış ve Silvikültürel Özellikleri, (Doktora Tezi). Tarım, Orman ve Köyişleri Bakanlığı, OGM Yayınları, Ankara.
  • Bretfeld, G., 1999. Symphypleona Synopses on Palaearctic Collembola. Staatliches Museum für Naturkunde, Görlitz.
  • Cakir, M., Makineci, E., 2013. Humus characteristics and seasonal changes of soil arthropod communities in a natural sessile oak (Quercus petraea L.) stand and adjacent Austrian pine (Pinus nigra Arnold) plantation. Environmental Monitoring and Assessment, 185: 8943-8955.
  • Christiansen, K., 1964. Bionomics of collembola. Annual Review of Entomology, 9: 147-178.
  • Clapperton, M.J., Kanashiro, D.A., Behan-Pelletier, V.M., 2002. Changes in abundance and diversity of microarthropods associated with Fescue Prairie grazing regimes. Pedobiologia, 46: 496-511.
  • Coleman, D.C., Callaham, M.A., Crossley Jr, D., 2018. Fundamentals of soil ecology, 3rd Edition. Academic press.
  • Coleman, D.C., Crossley, D.A., Hendrix, P.F., 2004. Fundamentals of soil ecology. Academic Press, USA.
  • Çakır, M., 2019a. Belgrad Ormanının Toprak Biyolojik Kalite İndeksinin Mikroeklembacaklılar ile Belirlenmesi. Anadolu Orman Araştırmaları Dergisi, 5: 38-45.
  • Çakır, M., 2019b. The negative effect of wood ants (Formica rufa) on microarthropod density and soil biological quality in a semi-arid pine forest. Pedobiologia, 77: 150593.
  • Çakır, M., Makineci, E., 2011. Toprak faunası: sınıflandırılması ve besin ağındaki yeri. İ.Ü. Orman Fakültesi Dergisi, 61: 43-55.
  • de Oliveira Filho, L.C.I., Klauberg Filho, O., Baretta, D., Tanaka, C.A.S., Sousa, J.P., 2016. Collembola community structure as a tool to assess land use effects on soil quality. Revista Brasileira de Ciência do Solo, 40: 1-18.
  • Dindal, D.L., 1990. Soil biology guide. Wiley, New York.
  • Fjellberg, A., 1998. The Collembola of Fennoscandia and Denmark. Part 1: Poduromorpha fauna, Brill.
  • Fjellberg, A., 2007. The Collembola of Fennoscandia and Denmark Part II: Entomobryomopha and Symphypleona, Brill.
  • Hooper, D.U., Bignell, D.E., Brown, V.K., Brussard, L., Mark Dangerfield, J., Wall, D.H., Wardle, D.A., Coleman, D.C., Giller, K.E., Lavelle, P., 2000. Interactions between aboveground and belowground biodiversity in terrestrial ecosystems: patterns, mechanisms, and feedbacks. BioScience, 50: 1049-1061.
  • Hopkin, S.P., 2007. A key to the Collembola (springtails) of Britain and Ireland. FSC publications, England.
  • Igor Kaprus, W.W., Paśnik, G., 2016. Collembola of the genus Protaphorura Absolon, 1901 (Onychiuridae) in the Eastern Palearctic: morphology, distribution, identification key. ZooKeys: 119.
  • Illig, J., Schatz, H., Scheu, S., Maraun, M., 2008. Decomposition and colonization by micro-arthropods of two litter types in a tropical montane rain forest in southern Ecuador. Journal of Tropical Ecology: 157-167.
  • Irmler, U., 2006. Climatic and litter fall effects on collembolan and oribatid mite species and communities in a beech wood based on a 7 years investigation. European Journal of Soil Biology, 42: 51-62.
  • Jiang, Y., Xiuqin, Y., Fubin, W., 2015. Composition and spatial distribution of soil mesofauna along an elevation gradient on the north slope of the Changbai Mountains, China. Pedosphere, 25: 811-824.
  • Joo, S.J., Yim, M.H., Nakane, K., 2006. Contribution of microarthropods to the decomposition of needle litter in a Japanese cedar (Cryptomeria japonica D. Don) plantation. Forest ecology and management, 234: 192-198.
  • Jordana, R., Arbea, J.I., 1989. Clave de identificación de los géneros de Colémbolos de España (lnsecta: Collembola). Publicaciones De Biologia De La Universidad De Navarra, Pamplona.
  • Kaprus, I.J., Weiner, W.M., 2009. The genus Pseudachorutes Tullberg, 1871 (Collembola, Neanuridae) in the Ukraine with descriptions of new species. Zootaxa, 2166: 1-23.
  • Karaöz, M.Ö., 1989. Toprakların bazı kimyasal özelliklerinin (pH, karbonat, tuzluluk, organik madde, total azot, yararlanılabilir fosfor) analiz yöntemleri. Journal of the Faculty of Forestry Istanbul University, 39: 64-82.
  • Krantz, G.W., 1978. A manual of acarology (2nd edition). Oregon St Univ Bookstores, Corvallis.
  • Lawton, J., MacGarvin, M., Heads, P., 1987. Effects of altitude on the abundance and species richness of insect herbivores on bracken. The Journal of Animal Ecology, 56: 147-160.
  • Liu, J.-L., Li, F.-R., Liu, C.-A., Liu, Q.-J., 2012. Influences of shrub vegetation on distribution and diversity of a ground beetle community in a Gobi desert ecosystem. Biodiversity and Conservation, 21: 2601-2619.
  • Mateos, E., 2011. New Lepidocyrtus Bourlet, 1839 taxa from Greece (Collembola: Entomobryidae). Zootaxa, 3108: 25-40.
  • Mateos, E., 2012. The European Lepidocyrtus lanuginosus group (Collembola: Entomobryidae), definition and description of a new species from Spain. Zootaxa, 3570: 69-81.
  • Meehan, T.D., Drumm, P.K., Schottland Farrar, R., Oral, K., Lanier, K.E., Pennington, E.A., Pennington, L.A., Stafurik, I.T., Valore, D.V., Wylie, A.D., 2006. Energetic equivalence in a soil arthropod community from an aspen–conifer forest. Pedobiologia, 50: 307-312.
  • Menta, C., Conti, F., Pinto, S., Leoni, A., Lozano-Fondón, C., 2014. Monitoring soil restoration in an open-pit mine in northern Italy. Applied Soil Ecology, 83: 22-29.
  • Menta, C., Tagliapietra, A., Caoduro, G., Zanetti, A., Pinto, S., 2015. Ibs-Bf and Qbs-Ar comparison: Two quantitative indices based on soil fauna community. EC Agriculture, 2: 427-439.
  • Olson, D.M., 1994. The distribution of leaf litter invertebrates along a Neotropical altitudinal gradient. Journal of Tropical Ecology, 10: 129-150.
  • Özata, M.A., 2015. Ordu ili Collembola (Hexapoda) faunasının belirlenmesi üzerine bir çalışma. Yüksek Lisans Tezi, Ordu Üniversitesi, Fen Bilimleri Enstitüsü, Ordu.
  • Özata, M.A., Sevgili, H., Kaprus, I., 2017a. New records of springtail fauna (Hexapoda: Collembola: Entomobryomorpha) from Ordu Province in Turkey. Turkish Journal of Zoology, 41: 24-32.
  • Özata, M.A., Sevgİlİ, H., Kaprus, I., 2017b. Contribution to the Collembola (Hexapoda) fauna of Turkey from Ordu and Rize provinces. Biharean Biologist, 11: 117-120.
  • Özata, M.A., Sevgİlİ, H., Kaprus, I.J., 2017c. Poduromorpha fauna of Ordu province in Turkey (Hexapoda: Collembola). Bitki Koruma Bülteni, 57: 231-250.
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Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim

Yıl 2020, Cilt: 21 Sayı: 4, 388 - 395, 29.12.2020
https://doi.org/10.18182/tjf.816354

Öz

Orman ekosistemlerindeki toprak eklembacaklıları (Arthropoda), ölüörtünün parçalanması ve ayrışması sürecinde, birincil ve ikincil tüketiciler olarak önemli rol almaktadır. Toprak ekosistemindeki eklembacaklıların miktarı, çeşitliliği ve komünite yapısı; yetişme ortamı özelliklerinin değişimine çok hızlı tepki vermektedir. Bu çalışmada, Toros Göknarı (Abies cilicica (Antoine & Kotschy) Carrière) ekosisteminde yaşayan toprak eklembacaklılarının farklı yükseltilerde mevsimsel değişimleri, çeşitlilikleri ve biyolojik toprak kalitesine olan etkilerinin ortaya konması amaçlanmıştır. Çalışma, Berçin Yaylası (Tomarza-Kayseri) saf göknar meşcerelerinde, 1600-1730 metre yükseltiler arasındaki (3 farklı yükseltide) yürütülmüştür. Ölü örtüden 10 cm çapında ve yüksekliğinde çelik silindir kullanılarak yapılan örnekleme kış, ilkbahar, yaz ve sonbahar mevsimlerinde yapılmıştır. Eklembacaklıların, mevsimsel ve farklı yükseltilerdeki miktarları, çeşitlilikleri, trofik yapıları ve toprak biyolojik kalitesi (QBS) değerleri belirlenmiştir. Toprak biyolojik kalitesi eklembacaklılar kullanılarak belirlenirse QBS-ar, Collembola taksonu kullanılarak belirlenirse QBS-C olarak adlandırılır. Çalışma sonucunda, eklembacaklıların mevsimlere göre dağılımında en fazla birey yaz mevsiminde, yükseltiye bağlı dağılımında ise en fazla birey 1613 m yükseltide bulunmuştur. Yükseltiler arasında çeşitlilik indeksi bakımından fark bulunamamıştır. Toprak biyolojik kalitesi hem QBS-ar hem de QBS-C değeri yükselti ile azalmaktadır. Teşhis edilen Collembola türleri Kayseri/ Berçin Yaylası için yeni kayıt iken Protaphorura microsellata türü Türkiye için yeni kayıttır.

Kaynakça

  • Akkaya, A., Uğurtaş, İ.H., 2006. The feeding biology of Ophisops elegans Menetries, 1832 (Reptilia: Lacertidae) populations of the Bursa region. Turkish Journal of Zoology, 30: 357-360.
  • Akkemik, Ü., 2018. Türkiye’nin Doğal-Egzotik Ağaç ve Çalıları. Orman Genel Müdürlüğü Yayınları, Ankara.
  • Aspetti, G.P., Boccelli, R., Ampollini, D., Del Re, A.A., Capri, E., 2010. Assessment of soil-quality index based on microarthropods in corn cultivation in Northern Italy. Ecological Indicators, 10: 129-135.
  • Bastida, F., Zsolnay, A., Hernández, T., García, C., 2008. Past, present and future of soil quality indices: a biological perspective. Geoderma, 147: 159-171.
  • Begum, F., Bajracharya, R.M., Sharma, S., Sitaula, B.K., 2011. Assessment of soil quality using microarthropod communities under different land system: A case study in the mid-hills of central Nepal. Journal of Life Sciences, 5: 66-73.
  • Begum, F., Bajracharya, R.M., Sitaula, B.K., Sharma, S., Ali, S., Ali, H., 2014. Seasonal dynamics and land use effect on soil microarthropod communities in the Mid-hills of Nepal. Int. J. Agron. Agri. Res, 5: 114-123.
  • Bei-Bienko, G.Y., Blagoveshchenskii, D.I., Chernova, O.A., Datsig, E.M., Emel'yanov, A.F., Kerzhner, I.M., Loginova, M.M., Martynova, E.F., 1967. Keys to Insects of the European USSR. Akademiya Nauk, USSR.
  • Bozkuş, H.F., 1989. Toros Göknarı (Abies cilicica Carr.)’nın Türkiye’deki Doğal Yayılış ve Silvikültürel Özellikleri, (Doktora Tezi). Tarım, Orman ve Köyişleri Bakanlığı, OGM Yayınları, Ankara.
  • Bretfeld, G., 1999. Symphypleona Synopses on Palaearctic Collembola. Staatliches Museum für Naturkunde, Görlitz.
  • Cakir, M., Makineci, E., 2013. Humus characteristics and seasonal changes of soil arthropod communities in a natural sessile oak (Quercus petraea L.) stand and adjacent Austrian pine (Pinus nigra Arnold) plantation. Environmental Monitoring and Assessment, 185: 8943-8955.
  • Christiansen, K., 1964. Bionomics of collembola. Annual Review of Entomology, 9: 147-178.
  • Clapperton, M.J., Kanashiro, D.A., Behan-Pelletier, V.M., 2002. Changes in abundance and diversity of microarthropods associated with Fescue Prairie grazing regimes. Pedobiologia, 46: 496-511.
  • Coleman, D.C., Callaham, M.A., Crossley Jr, D., 2018. Fundamentals of soil ecology, 3rd Edition. Academic press.
  • Coleman, D.C., Crossley, D.A., Hendrix, P.F., 2004. Fundamentals of soil ecology. Academic Press, USA.
  • Çakır, M., 2019a. Belgrad Ormanının Toprak Biyolojik Kalite İndeksinin Mikroeklembacaklılar ile Belirlenmesi. Anadolu Orman Araştırmaları Dergisi, 5: 38-45.
  • Çakır, M., 2019b. The negative effect of wood ants (Formica rufa) on microarthropod density and soil biological quality in a semi-arid pine forest. Pedobiologia, 77: 150593.
  • Çakır, M., Makineci, E., 2011. Toprak faunası: sınıflandırılması ve besin ağındaki yeri. İ.Ü. Orman Fakültesi Dergisi, 61: 43-55.
  • de Oliveira Filho, L.C.I., Klauberg Filho, O., Baretta, D., Tanaka, C.A.S., Sousa, J.P., 2016. Collembola community structure as a tool to assess land use effects on soil quality. Revista Brasileira de Ciência do Solo, 40: 1-18.
  • Dindal, D.L., 1990. Soil biology guide. Wiley, New York.
  • Fjellberg, A., 1998. The Collembola of Fennoscandia and Denmark. Part 1: Poduromorpha fauna, Brill.
  • Fjellberg, A., 2007. The Collembola of Fennoscandia and Denmark Part II: Entomobryomopha and Symphypleona, Brill.
  • Hooper, D.U., Bignell, D.E., Brown, V.K., Brussard, L., Mark Dangerfield, J., Wall, D.H., Wardle, D.A., Coleman, D.C., Giller, K.E., Lavelle, P., 2000. Interactions between aboveground and belowground biodiversity in terrestrial ecosystems: patterns, mechanisms, and feedbacks. BioScience, 50: 1049-1061.
  • Hopkin, S.P., 2007. A key to the Collembola (springtails) of Britain and Ireland. FSC publications, England.
  • Igor Kaprus, W.W., Paśnik, G., 2016. Collembola of the genus Protaphorura Absolon, 1901 (Onychiuridae) in the Eastern Palearctic: morphology, distribution, identification key. ZooKeys: 119.
  • Illig, J., Schatz, H., Scheu, S., Maraun, M., 2008. Decomposition and colonization by micro-arthropods of two litter types in a tropical montane rain forest in southern Ecuador. Journal of Tropical Ecology: 157-167.
  • Irmler, U., 2006. Climatic and litter fall effects on collembolan and oribatid mite species and communities in a beech wood based on a 7 years investigation. European Journal of Soil Biology, 42: 51-62.
  • Jiang, Y., Xiuqin, Y., Fubin, W., 2015. Composition and spatial distribution of soil mesofauna along an elevation gradient on the north slope of the Changbai Mountains, China. Pedosphere, 25: 811-824.
  • Joo, S.J., Yim, M.H., Nakane, K., 2006. Contribution of microarthropods to the decomposition of needle litter in a Japanese cedar (Cryptomeria japonica D. Don) plantation. Forest ecology and management, 234: 192-198.
  • Jordana, R., Arbea, J.I., 1989. Clave de identificación de los géneros de Colémbolos de España (lnsecta: Collembola). Publicaciones De Biologia De La Universidad De Navarra, Pamplona.
  • Kaprus, I.J., Weiner, W.M., 2009. The genus Pseudachorutes Tullberg, 1871 (Collembola, Neanuridae) in the Ukraine with descriptions of new species. Zootaxa, 2166: 1-23.
  • Karaöz, M.Ö., 1989. Toprakların bazı kimyasal özelliklerinin (pH, karbonat, tuzluluk, organik madde, total azot, yararlanılabilir fosfor) analiz yöntemleri. Journal of the Faculty of Forestry Istanbul University, 39: 64-82.
  • Krantz, G.W., 1978. A manual of acarology (2nd edition). Oregon St Univ Bookstores, Corvallis.
  • Lawton, J., MacGarvin, M., Heads, P., 1987. Effects of altitude on the abundance and species richness of insect herbivores on bracken. The Journal of Animal Ecology, 56: 147-160.
  • Liu, J.-L., Li, F.-R., Liu, C.-A., Liu, Q.-J., 2012. Influences of shrub vegetation on distribution and diversity of a ground beetle community in a Gobi desert ecosystem. Biodiversity and Conservation, 21: 2601-2619.
  • Mateos, E., 2011. New Lepidocyrtus Bourlet, 1839 taxa from Greece (Collembola: Entomobryidae). Zootaxa, 3108: 25-40.
  • Mateos, E., 2012. The European Lepidocyrtus lanuginosus group (Collembola: Entomobryidae), definition and description of a new species from Spain. Zootaxa, 3570: 69-81.
  • Meehan, T.D., Drumm, P.K., Schottland Farrar, R., Oral, K., Lanier, K.E., Pennington, E.A., Pennington, L.A., Stafurik, I.T., Valore, D.V., Wylie, A.D., 2006. Energetic equivalence in a soil arthropod community from an aspen–conifer forest. Pedobiologia, 50: 307-312.
  • Menta, C., Conti, F., Pinto, S., Leoni, A., Lozano-Fondón, C., 2014. Monitoring soil restoration in an open-pit mine in northern Italy. Applied Soil Ecology, 83: 22-29.
  • Menta, C., Tagliapietra, A., Caoduro, G., Zanetti, A., Pinto, S., 2015. Ibs-Bf and Qbs-Ar comparison: Two quantitative indices based on soil fauna community. EC Agriculture, 2: 427-439.
  • Olson, D.M., 1994. The distribution of leaf litter invertebrates along a Neotropical altitudinal gradient. Journal of Tropical Ecology, 10: 129-150.
  • Özata, M.A., 2015. Ordu ili Collembola (Hexapoda) faunasının belirlenmesi üzerine bir çalışma. Yüksek Lisans Tezi, Ordu Üniversitesi, Fen Bilimleri Enstitüsü, Ordu.
  • Özata, M.A., Sevgili, H., Kaprus, I., 2017a. New records of springtail fauna (Hexapoda: Collembola: Entomobryomorpha) from Ordu Province in Turkey. Turkish Journal of Zoology, 41: 24-32.
  • Özata, M.A., Sevgİlİ, H., Kaprus, I., 2017b. Contribution to the Collembola (Hexapoda) fauna of Turkey from Ordu and Rize provinces. Biharean Biologist, 11: 117-120.
  • Özata, M.A., Sevgİlİ, H., Kaprus, I.J., 2017c. Poduromorpha fauna of Ordu province in Turkey (Hexapoda: Collembola). Bitki Koruma Bülteni, 57: 231-250.
  • Özkan, K., 2016. Biyolojik çeşitlilik bileşenleri (α, β ve γ) nasıl ölçülür? SDÜ Basımevi, Isparta.
  • Palacios-Vargas, J., Castaño-Meneses, G., Estrada, D.A., 2011. Diversity and dynamics of microarthropods from different biotopes of Las Sardinas cave (Mexico). Subterranean biology, 9: 113.
  • Parisi, V., 2001. La qualità biologica del suolo. Un metodo basato sui microartropodi. Acta naturalia de l’Ateneo Parmense, 37: 105-114.
  • Parisi, V., Menta, C., 2008. Microarthropods of the soil: convergence phenomena and evaluation of soil quality using QBS-ar and QBS-c. Fresenius Environmental Bulletin, 17: 1170-1174.
  • Parisi, V., Menta, C., Gardi, C., Jacomini, C., 2003. Evaluation of soil quality and biodiversity in Italy: the biological quality of soil index (QBS) approach, Agricultural Impacts on Soil Erosion and Soil Biodiversity: Developing Indicators for Policy Analysis. Rome: Proceedings from an OECD Expert Meeting, pp. 1-12.
  • 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. Agriculture, Ecosystems & Environment, 105: 323-333.
  • Petersen, H., 2002. General aspects of collembolan ecology at the turn of the millennium. Pedobiologia, 46: 246-260.
  • Petersen, H., Luxton, M., 1982. A comparative analysis of soil fauna populations and their role in decomposition processes. Oikos, 39: 288-388.
  • Pomorski, R.J., Skarżyński, D., 1992. Collembola Polski: rysunkowy klucz do oznaczania. Biologica Silesiae, Wroclaw.
  • Potapov, M., 2001. Synopses on Palaearctic Collembola, Volume 3, Isotomidae. Senckenberg Museum of Natural History Görlitz.
  • Richardson, B.A., Richardson, M.J., Soto-Adames, F.N., 2005. Separating the effects of forest type and elevation on the diversity of litter invertebrate communities in a humid tropical forest in Puerto Rico. Journal of Animal Ecology, 74: 926-936.
  • Rusek, J., 1998. Biodiversity of Collembola and their functional role in the ecosystem. Biodiversity & Conservation, 7: 1207-1219.
  • Salmon, S., Mantel, J., Frizzera, L., Zanella, A., 2006. Changes in humus forms and soil animal communities in two developmental phases of Norway spruce on an acidic substrate. Forest ecology and management, 237: 47-56.
  • Santorufo, L., Van Gestel, C.A., Rocco, A., Maisto, G., 2012. Soil invertebrates as bioindicators of urban soil quality. Environmental Pollution, 161: 57-63.
  • Sevgili, H., Özata, M.A., 2014. Checklist of the springtails (Hexapoda: Collembola) of Turkey. Zoology in the Middle East, 60: 162-168.
  • Shachak, M., Boeken, B., Groner, E., Kadmon, R., Lubin, Y., Meron, E., Ne'Eman, G., Perevolotsky, A., Shkedy, Y., Ungar, E.D., 2008. Woody species as landscape modulators and their effect on biodiversity patterns. Bioscience, 58: 209-221.
  • Shannon, C., Weaver, W., 1949. The Mathematical Theory of Communication. University of Illinois Pres, Urbana.
  • SPSS, 2011. IBM SPSS statistics base 20. SPSS Incorporated, Chicago, IL.
  • Stach, J., 1960. The Apterygotan fauna of Poland in relation to the world-fauna of this group of insects Tribe: Orchesellini. Nakladem Polskiej Akademii Umiejetnosci, Krakow.
  • Swift, M.J., Heal, W., Anderson, J.M., 1979. Decomposition in Terrestrial Ecosystems. University of California Press, Berkeley.
  • Thibaud, J.M., Schulz, H.J., da Gama Assalino, M.M., 2004. Synopses on Palaearctic Collembola:, Vol. 4. Hypogastruridae. Staatliches Museum für Naturkunde Görlitz, Germany.
  • Venanzi, R., Picchio, R., Piovesan, G., 2016. Silvicultural and logging impact on soil characteristics in Chestnut (Castanea sativa Mill.) Mediterranean coppice. Ecological Engineering, 92: 82-89.
  • Wiwatwitaya, D., Takeda, H., 2005. Seasonal changes in soil arthropod abundance in the dry evergreen forest of north-east Thailand, with special reference to collembolan communities. Ecological Research, 20: 59-70.
Toplam 67 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Orijinal Araştırma Makalesi
Yazarlar

Meriç Çakır 0000-0001-8402-5114

Muhammet Ali Özata 0000-0002-5966-3787

Yayımlanma Tarihi 29 Aralık 2020
Kabul Tarihi 21 Aralık 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 21 Sayı: 4

Kaynak Göster

APA Çakır, M., & Özata, M. A. (2020). Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim. Turkish Journal of Forestry, 21(4), 388-395. https://doi.org/10.18182/tjf.816354
AMA Çakır M, Özata MA. Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim. Turkish Journal of Forestry. Aralık 2020;21(4):388-395. doi:10.18182/tjf.816354
Chicago Çakır, Meriç, ve Muhammet Ali Özata. “Toros Göknarı ormanında yükselti Boyunca Toprak Eklembacaklı komünitesindeki Ve Toprak Biyolojik Kalitesindeki değişim”. Turkish Journal of Forestry 21, sy. 4 (Aralık 2020): 388-95. https://doi.org/10.18182/tjf.816354.
EndNote Çakır M, Özata MA (01 Aralık 2020) Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim. Turkish Journal of Forestry 21 4 388–395.
IEEE M. Çakır ve M. A. Özata, “Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim”, Turkish Journal of Forestry, c. 21, sy. 4, ss. 388–395, 2020, doi: 10.18182/tjf.816354.
ISNAD Çakır, Meriç - Özata, Muhammet Ali. “Toros Göknarı ormanında yükselti Boyunca Toprak Eklembacaklı komünitesindeki Ve Toprak Biyolojik Kalitesindeki değişim”. Turkish Journal of Forestry 21/4 (Aralık 2020), 388-395. https://doi.org/10.18182/tjf.816354.
JAMA Çakır M, Özata MA. Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim. Turkish Journal of Forestry. 2020;21:388–395.
MLA Çakır, Meriç ve Muhammet Ali Özata. “Toros Göknarı ormanında yükselti Boyunca Toprak Eklembacaklı komünitesindeki Ve Toprak Biyolojik Kalitesindeki değişim”. Turkish Journal of Forestry, c. 21, sy. 4, 2020, ss. 388-95, doi:10.18182/tjf.816354.
Vancouver Çakır M, Özata MA. Toros Göknarı ormanında yükselti boyunca toprak eklembacaklı komünitesindeki ve toprak biyolojik kalitesindeki değişim. Turkish Journal of Forestry. 2020;21(4):388-95.