Modeling of Artemisia sieberi Besser Habitat Distribution Using Maximum Entropy Method in Desert Rangelands
Subject Areas : Relationship between Animal and Rangeland
Hossein
Piri Sahragard
1
(Assistance Professor, Range and Watershed Department, University of Zabol)
Mohammad Ali
Zare Chahouki
2
(Professor, Department of Rehabilitation of Arid and Mountainous Regions, Natural Resources Faculty,
University of Tehran)
Keywords:
Abstract :
Anderson, R. P., Mart´ınez-Meyer, E., 2004. Modeling species’ geographic distributions for preliminary conservation assessments: an implementation with the spiny pocket mice (Heteromys) of Ecuador. Biol. Conser. 116: 167–179.
Buehler, E. C., and Ungar, L. H., 2001. Maximum Entropy Methods for Biological Sequence Modeling. BIOKDD, 60-64.
Bednarek, R., Dziadowiec, H., Pokojska, U., and Prusinkiewicz, Z., 2005. Badania ekologiczno-gleboznawcze (Soil–Ecological Research). PWN, Warszawa. 105p.
Cochran, W. G., 1977. Sampling Techniques. John Wiley and Sons, New York.
Elith, J., Graham, C. H., Anderson, R. P., 2006. Novel methods improve prediction of species distributions from occurrence data. Ecography, 29: 129–151.
Fielding, A. H., Bell, J. F., 1997. A review of methods for the assessment of prediction errors in conservation presence/absence models. Env. Conserv. 24: 38–49.
Graham, C. H., Ferrier, S., Huettman, F., Moritz, C., Peterson, A.T., 2004. New developments in museum-based informatics and applications in biodiversity analysis. Trends Ecol. Evol. 19(9): 497–503.
Guisan, A. and Zimmermann, N., 2000. Predictive habitat distribution models in ecology, Ecological modeling, 135: 147-186.
Hernandez, P. A., Graham, C. H., Master, L. L., Albert, D. L., 2006. The Effect of Sample Size and Species Characteristics on Performance of Different Species Distribution Modeling Methods. Ecography 29: 773-785.
Hosseini, S. Z., Kappas, M., Zare Chahouki, M. A., Gerold, G., Erasmi, S., Rafiei Emam, A., 2013., Modelling potential habitats for Artemisia sieberi and Artemisia aucheri in Poshtkouh area, central Iran using the maximum entropy model and geostatistics, Ecological Informatics, 18: 61-68.
Khalasi Ahvazi, L., Zare Chahouki, M. A., Ghorbannezhad, F., 2012. Comparing Discriminant Analysis, Ecological Niche Factor Analysis and Logistic Regression Methods for Geographic Distribution Modeling of Eurotia ceratoides (L.) C. A. Mey. Jour. Rangeland Sci., 3(1): 45-57.
Korrouri, S., and Khoshnevis, M., 2000. Ecological and environmental studies of Iranian Juniperus sites, Research Institute of Forests and Rangelands Press, 208p.
Negga, H. E., 2007. Predictive Modelling of Amphibian Distribution Using Ecological Survey Data: a case study of Central Portugal, Master thesis, International Institute for Geo-Information Science and Earth Observation, Enschede, The Netherlands.
Ng, A. Y., and Jordan, M. I., 2001. On discriminative versus generative classifiers: a comparison of logistic regression and naive Bayes. Adv. Neural Inform. Process. Syst. 14: 605–610.
Phillips, S. J., Anderson, R. P., Schapire, R. E., 2006. Maximum entropy modeling of species geographic distributions. Ecological Modelling, 190: 231–259.
Piri sahragard, H., and Zare Chahouki, M. A., 2015. An evaluation of predictive habitat models performance of plant species in Hoz-e-Soltan rangelands of Qom province. Ecological Modelling, 309-310, 64-71.
Sweet, J. A., 1988. Measuring the accuracy of a diagnostic systems. Science. 240: 1285-1293.
Verbyla, D. L., and Litvaitis, J. A., 1989. Resampling methods for evaluation of classification accuracy of wildlife habitat models. Environmental Management. 13:783-787.
Wisz, M. S., Hijmans, R. J., Li, J., Peterson, A. T., Graham, C.H., Guisan, A., 2008. Effects of sample size on the performance of species distribution models. Divers. Distrib. 14: 763-773.
Westhoff, V., and Maarel, E. V. D., 1978. The Braun-Blanquette approach. 2nd ed. In: R. H. Whittaker (ed). Classification of plant communities, 287-399.
Zare Chahouki, M. A., Azarnivand, H., Jafari, M., Tavili, A., 2010. Multivariate Statistical Methods as a Tool for Model Based Prediction of Vegetation Types. Russian Jour. Ecology, 41(1): 84–94.
Zare Chahouki, M. A., 2011. Multivariate Analysis Techniques in Environmental Science, Erath and Environmental Sciences, 1(1): 68-75.
Zare Chahouki, M. A., Khalasi Ahvazi, L., 2012a. Predicting potential distributions of Zygophyllum eurypterum by three modeling techniques (ENFA ANN and logistic in North East of Semnan Iran, Range Management and Agroforestry, 33(2): 68-82.
Zare Chahouki, M. A., Khalasi Ahvazi, L., Azarnivand, H., 2012b. Comparison of three modeling approaches for predicting plant species distribution in mountainous scrub vegetation (Semnan rangelands, Iran), Polish Jour. Ecology, 60(2): 105-117.
Zare Chahouki, M. A., and Esfanjani, J., 2015. Predicting potential distribution of plant species by modeling techniques in southern rangelands of Golestan, Iran, Range Management and Agroforestry Jour., 36(1): 66-71.
