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This study was addressed to environmental factors significantly influencing the habitat preferences of endemic species and to obtain a model of their common habitat preferences in the Aglasun district. The district, covering an area of 55,000 hectares, is located in the lakeland subregion of the Mediterrranean region, Turkey. Data were collected from 199 sample plots (20 x 20 m ) and in total 40 endemic taxa was recorded in 124 plots which include minimum one endemic species. Wilcoxon rank-sum statistic and Pearson chisquared tests were used for continuous and categorical explanatory variables, respectively. The factors playing important roles in habitat preferences of endemic species were following: altitude, radiation index, soil texture, landscape position and landform. Generalized additive model was used for modelling the habitat preferences of endemic taxa. To obtain the best model, all significant environmental factors were evaluated by selecting stepwise option. Finally, the best model was obtained (training AUC = 0.816, and crossvalidation AUC = 0.800) by using altitude and landform variables.
Czasopismo
Rocznik
Tom
Strony
291--30
Opis fizyczny
Bibliogr. 31 poz.,Rys., tab.,
Twórcy
autor
- Suleyman Demirel University, Faculty of Forestry, Department of Forest Engineering, Division of Soil Science and Ecology, 32260, Isparta, Turkey, kursadozkan@gmail.com
Bibliografia
- 1. Allison L.E. 1965 – Organic carbon: Walkley-Black method, Agronomy Monographs 9, Part Methods of Analysis – American Society of Agronomy, Inc. Publisher Madison, Wisconsin, USA, 1367–1378.
- 2. Allison L.E., Moodie C.D. 1965 – Volumetric Calsimeter Methots of Soil Analysis, Part 2. Chemical and Microbiological Properties. - Black C.A., American Society of Agronomy, Inc. Publisher Madison, Wisconsin, USA, 1389–1392.
- 3. Atalay I. 1987 – The ecological conditions of the natural occurrence areas of cedar (Cedrus libani A. Rich.) and regioning of seed transfer of cedar in Turkey – Forest Ministry Press, Ankara, Turkey, 167 pp.
- 4. Austin M.P. 2002 – Spatial prediction of species distribution: an interface between ecological theory and statistical modelling – Ecol. Model. 157: 101–118.
- 5. Avcı M. 2005 – Çeşitlilik ve endemizm açisindan Türkiye’nin bitki örtüsü [Diversity and Endemizm in Turkey’s Vegetation] – Istanbul University Faculty of Arts and Sciences, Geography Journal, 13: 27–55 (in Turkish).
- 6. Brooks T.M., Mittermeier R.A., Mittermeier C.G., da Fonseca G.A.B., Rylands A.B., Konstant W.R., Flick P., Pilgrim J., Oldfield S., Magin G., Hilton-Taylor C. 2002 – Habitat loss and extinction in the hotspots of biodiversity – Conserv. Biol. 16: 909–923.
- 7. Bouyoucos G.J. 1962 – Hydrometer method improved for making particle size analysis of soils – Argon. J. 54: 464–465.
- 8. Carpenter G., Gillison A.N., Winter J. 1993 – DOMAIN: a flexible modelling procedure for mapping potential distributions of plants and animals – Biodiv. Conservat. 2: 667–680.
- 9. Ekim T., Koyuncu M., Vural M., Duman H., Aytac Z., Adiguzel N. 2000 – Turkiye Bitkileri Kirmizi Kitabi [Turkish Red Data Book of Plants Turkey] – Nature Protect Institution, Van 100th Year University Press, Turkey (in Turkish).
- 10. Eriksson C.P., Holmgren P. 1996 – Estimating stone and boulder content in forest soilsevaluating the potential of surface penetration methods – Catena, 28: 121–134.
- 11. FAO, IRIC, ISSS 1998 – World reference base for soil resources – Food and Agriculture Organisation of the United Nations, Rome.
- 12. Fontaine M., Aerts R., Özkan K., Mert A., Gulsoy S., Süel H., Waelkens M., Muys B. 2007 – Elevation and exposition rather than soil types determine communities and site suitability in Mediterranean mountain forests of southern Anatolia, Turkey – Forest Ecol. Manag. 247: 18–25.
- 13. Fielding A.H., Bell J.F. 1997 – A review of methods for the assessment of prediction errors in conservation presence/absence models - Environ. Conservat. 24: 8–49.
- 14. Gentry A.H. 1986 – Endemism in tropical versus temperate communities (In: Conservation biology: the science of scarcity and diversity, Ed: M.E. Soule) – MA, Sunderland, pp. 153–181.
- 15. Guisan A., Zimmermann N.E. 2000 – Predictive habitat distribution models in ecology - Ecol. Model. 135: 147–186.
- 16. Guisan A., Edwards Jr T.C., Hastie T. 2002 – Generalized linear and generalized additive models in studies of species distributions: setting the scene – Ecol. Model. 157: 89–100.
- 17. Hacısalihoğlu S., Mert A., Negiz M.G., Muys B. 2010 – Soil loss prediction using universal soil loss equation (USLE) simulation model in a mountainous area in Ağlasun district, Turkey – Afr. J. Biotechnol. 24: 3589–3594.
- 18. Kantarci M.D. 1991 – Akdeniz Bolgesi’nin Yetisme Ortami Bolgesel Siniflandirilmasi [The site classification of Mediterranean region, Turkey] – Forest Ministry Press, Ankara, Turkey, 150 pp. (in Turkish).
- 19. Kaya Y. 2005 – Endemik Bitkilerin Dünya ve Türkiye’deki Dağılımı [Distribution of endemic plants in the World and Turkey] – Erzincan University, J. Educ. Sci. 7: 85–99 (in Turkish).
- 20. Lehmann A., Leathwick J.R., O verton J.M. 2002a – Assesing New Zealand fern diversity from spatial predictions of species assemblages – Biodiv. Conservat. 11: 2217–2238.
- 21. Lehmann A., Overton J.M., Leathwik J.R. 2002b – GRASP: generalized regression analysis and spatial predictions – Ecol. Model. 157: 187–205.
- 22. López-López P., Garcíe-Ripollés C., Soutullo Á., Cadahía L., Urios V 2007 – Identifying potentially suitable nesting habitat for golden eagles applied to ‘important bird areas’ design – Anim. Conservat. 10: 208–218.
- 23. Moisen G.G., Freeman E.A., Blackard J.A., Frescino T.S., Zimmermann N.E., Edwards T.C. 2006 – Predicting tree species presence and basal area in Utah: a comparison of stochastic gradient boosting generalized additive models, and tree-based methods – Ecol. Model. 199: 176–187.
- 24. Moisen G.G., Frescino T.S. 2002 – Comparing five modelling techniques for predicting forest characteristics – Ecol. Model. 157: 209–225.
- 25. Özkan K., Gulsoy S., Mert A., Ozturk M., Muys B. 2010 – Plant distribution-altitude and landform relationships in karstic sinkholes of Mediterranean region of Turkey - J. Environ. Biol. 31: 51–60.
- 26. Özkan K. 2009 – Environmental factors as influencing vegetation communities in Acipayam district of Turkey – J. Environ. Biol. 30: 741–746.
- 27. Özkan K., Süel H. 2008 – Endemic plant species in a karstic canyon (Mediterranean Region, Turkey): relation to relief and vegetation diversity – Pol. J. Ecol. 56: 709–715.
- 28. Paulissen E., Poesen J., Govers G., De Ploey J. 1993 – The physical environment at Sagalassos (Western Taurus, Turkey): A reconnaissance survey (In: Sagalassos II. Report of the Third Excavation Campaign of 1992, Eds: M. Waelkens, J. Poblome) – Leuven, pp. 229–247.
- 29. Skov F. 2000 – Potential plant distribution mapping based on climatic similarity – Taxon, 49: 503–515.
- 30. Vargas J.H., Consiglio T., Jørgensen P., Croat T.B. 2004 – Modelling distribution patterns in a species-rich plant genus, Anthurium (Araceae), in Ecuador – Diversity and Distribution, 10: 211–216.
- 31. Velmoere M., Vaecke L., Waelkens M., Smets E. 2003 – Modern and ancient olive stands Sagalassos (South-west Turkey) and reconstruction of the ancient agricultural landscape in two valleys – Global. Ecol. Biogeogr. 12: 217–235.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3624-3957