Determination of Effective Factors on Distribution of Medicinal Species of Vaccinium arctostaphylos L. Using MaxEnt Model (Case Study: Namin Rangelands, Ardabil, Iran)
Subject Areas : Ecology, Autecology and Synecology
Mehdi Moameri
1
,
Mina Azizi Kalesar
2
,
Ardavan Ghorbani
3
,
Leila Khalasi Ahvazi
4
,
Masoomeh Abbasi khalaki
5
1 - University of Mohaghegh Ardabili
2 - Department of Range and Watershed Management, University of Mohaghegh Ardabili, Ardabil, Iran
3 - Department of Range and Watershed Management, University of Mohaghegh Ardabili, Ardabil, Iran
4 - Desertification expert of Natural Resources Department, Khuzestan, Iran
5 - Department of Range and Watershed Management, University of Mohaghegh Ardabili, Ardabil, Iran
Keywords:
Abstract :
Anderson, R.P., Lew, D. and Peterson, A.T., 2003. Evaluating predictive models of species distributions: criteria for selecting optimal models. Journal of Ecological Modelling, 162: 211–232.
Azimi Motem, F., Talai, R., Asiabizadeh, F. and Houshyar, M., 2011. A survey on flora, life forms and geographical distribution of plant species in the protected forests of Fandoghlu (Ardabil province). Iranian journal of Taxonomy and Biosystematics, 9: 75-88. (In Persian).
Bagheri, H., Ghorbani, A., Zare Chahouki, M.A., Jafari, A.A. and Sefidi, K., 2017. Halophyte species distribution modeling with MaxEnt model in the surrounding rangelands of Meighan playa, Iran. Applied Ecology and Environmental Research, 30(2): 15-29. (In Persian).
Bedia, J., Busque, J. and Gutierrez, J. M., 2011. Predicting plant species distribution across an alpine rangeland in northern Spain. A comparison of probabilistic methods. Journal of Applied Vegetation Science, 14: 415-432.
Borna, F., Tamartash, R., Tatian, M.R. and Gholami, V., 2020. Habitat suitability modeling of Onobrychis cornuta using Ecological Niche Factor Analysis in Rangeland of Baladeh, Nour. Plant Research, 27(1): 98-111. (In Persian).
Dadjou, F., Ghorbani, A., Moameri, M. and Bidarlord, M., 2018. Effects of temperature and rainfall on the aboveground net primary production of Hir and Neur rangelands in Ardabil province. Iranian journal of Range and Desert Research, 25(3): 577-593.
Diaz-Zorita, M., J. H. and Groveand, E., 2007. Sieving duration and sieve loading impacts on dry soil fragment size distributions. Soil and Tillage Research, 94(1): 15-20.
Emad, M., Gheibi, F., Rasouli, S.M., Khanjanzadeh, R. and Mohammadi Jozani, S., 2012. Book of Ghareghat industrial medicinal plant. Pooneh Publication, Tehran, Iran. 40p. (In Persian).
Esfanjani, J., Ghorbani, A. Moameri, M., ZareChahouki, M. A., Esmali Ouri, A. and Mirzaei Mossivand, A., 2020. Prediction of distribution of Prangos uloptera DC. Using Two Modeling techniques in southern rangelands of Ardabil province, Iran. Journal of Rangeland Science, 10(2): 137-148.
Esfanjani, J., Ghorbani, A., Moameri, M., Chahouki, M.A. and EsmaliOuri, A., 2021. Application of modeling techniques for the identification the relationship between environmental factors and plant species in rangelands of Iran. Ecological Informatics, 61: 101229.
Esfanjani, J., Ghorbani, A., Moameri, M., Zare Chahouki, M.A., Esmaili Ouri, A. and Mirzaei Mossivand, A., 2019. Comparison of maximum entropy and logistic regression for distribution modeling of Prangos pabularia lindl. in southern rangelands of Ardabil province, Iran. Range Management & Agroforestry, 40(2): 202-206.
Gaston, A. and Garcia-Vinas, J. I., 2011. Modeling species distributions with penalised logistic regressions: A comparison with maximum entropy models. Journal of Ecological Modelling, 222: 2037-2041.
Ghafari, S., Ghorbani, A., Moameri, M., Mostafazadeh, R., Bidarlord, M. and Kakehmami, A., 2019. Determining the effective factors in Festuca ovina species distribution using maximum entropy method (Case study: Altitude gradient of Moghan-Sabalanestan rangelands of Ardabil). Iranian journal of Range and Desert Research, 27(3): 433-462. (In Persian).
Ghorbani, A., Abbasi Khalaki, M., Asghari, A., Omidi A. and Zare Hesari, B., 2015. Comparing environmental factors on distribution of Artemisia fragrans and Artemisia austriaca in southeastern rangelands of Sabalan. Rangeland, 9(2): 129-141.
Giovanelli, J.G.R.., Siqueira, M.F.D., Haddad, C.F.B. and Alexandrina, J., 2010. Modeling a spatially restricted distribution in the Neotropics: how the size of calibration area affects the performance of five presence-only methods. Ecological Modeling; 221: 215-224.
Graham, C.H., Ferrier, S., Huettman, F., Moritz C. and Peterson, A.T., 2004. New developments in museum based informatics and applications in biodiversity analysis. Journal of Trends in Ecology and Evolution, 19(9): 497–503.
Hasanlou, T., Jafarkhani Kermani, M., Dalvand, Y. and Rezazadeh, SH., 2019. A complete review on genus Vaccinium and Iranian Ghareghat. Iranian journal of Medicinal Plants, 18(72): 46-65. (In Persian).
Hoffman, D.J., Narumalani, S., Mishra, D.R., Merani, P. and Wilson, R.J., 2008. Predicting potential occurrence and spread of invasive plant species along the North Platte River, Nebraska. Invasive Plant Science and Management, 1: 359-367.
Hosseini. S.Z., Kappas, M., Zare Chahouki, M.A., Gerold, G., Erasni D. and Rafiei Emem, A., 2013. Modeling potential habitats for Artemisia sieberi and Artemisia aucheri in Poshtkouh area, central Iran using the maximum entropy model and Geostatistics. Journal of Ecological Informatics, 18: 61-68.
Jafari Haghighi, M., 2003. Soil analysis Methods: sampling and important physical and chemical analyses. Publisher Nedaye Zoha, Iran. 240p. (In Persian).
Khalasi Ahwazi, L., Zare Chahouki, M.A. and Hosseini, S.Z., 2015. Modeling geographic distribution of Artemisia sieberi and A. aucheri using presence-only modeling methods (Maxent & ENFA). Iranian journal of Renewable Natural Resources Research, 6(1): 57-73. (In Persian).
Khosravi, Y. and Abbasi, E., 2014. Spatial Analysis of environmental data using geostatistical. Publisher Zanjan Azarkolk, Iran 282p. (In Persian).
Latimer, A.M., Wu, S.S., Gelfand, A.E. and Silander, J.A., 2006. Building statistical models to analyze species distributions. Ecological Applications, 16: 33-50.
Ma, B. and Sun, J., 2018. Predicting the distribution of Stipa purpurea across the Tibetan Plateau via the MaxEnt model. BMC Ecology, 18(10): 61-68.
Molaei, M., 2015. Investigation of the effect of some ecological factors on spatial changes of Artemisia aucheri and A. melanolepis species in the southeastern slopes of Sabalan. MSc Thesis in Rangeland Management, Mohaghegh Ardabili University, Ardabil, Iran. 130 p. (In Persian).
Negga, H., 2007. Predictive modeling of amphibian distribution using ecological survey data: a case study of central Portugal. M.Sc. Thesis. ITC, the Netherlands. 74p.
Nikavar, B. and Amin, Gh.R., 2004. Anthocyanins from Vaccinium arctostaphylos Berries. Pharmaceutical Biology, 42(4-5): 289–291. (In Persian).
Ostrolucka, M.G., Libiakova, G. and Ondruskova, E.G., 2004. In vitro propagation of vaccinium species. Acta Universitatis, Biology, 676: 207-212.
Palashi, F., Piri sahragard, H. and Ajorlo, M., 2019. Determination of potential habitat of range plant species using maximum entropy method. Journal of Rangeland Science, 10(1): 16-27.
Phillips, S.J., Anderson, R.P. and Schapire, R.E., 2006. Maximum entropy modeling of species geographic distributions. Ecological Modeling, 190: 231–259.
Phillips, S.J., Dudık, M. and Schapire, R.E., 2004. A maximum entropy approach to species distribution modeling. In: Proceedings of the 21st International Conference on Machine Learning, ACM Press, New York. 655–662.
Promnikorn, K., Jutamanee, K. and Kraichak, E., 2019. MaxEnt model for predicting potential distribution of Vitex glabrata R.Br. in Thailand. Agriculture and Natural Resources, 53: 44-48.
Robinson, L. and Fordyce, J.A., 2017. Species-free species distribution models describe macro ecological properties of protected area networks. Plus One, 12: 1-19.
Sweet, J.A., 1988. Measuring the accuracy of diagnostic systems. Science, 240: 1285-1293.
Teimourzadeh, A., Gorbani, A. and Kavianpour, A.H., 2015. Study on the flora, life forms and chorology of south eastern of Namin forests (Asi-Gheran, Fandoghloo, Hasani and Bobini), Ardabil Province. Plant research (Iranian Journal of Biology), 28(2): 264-275. (In Persian).
Zarabi, M., Haghdadi, R. and Yousefi, H., 2017. Habitat utility modeling of organic (wild) pistachios (Pistacia Vera) using maximum entropy method (MaxEnt) in Sarakhs Forest Area (Gonbadli in khorasan Province). Ecohydrology, 4(3): 817-824. (In Persian).
Zare Chahooki, M.A., Piri Sahragard, H. and Azanivand, H., 2013. Habitat distribution modeling of some halophyte plant species using maximum entropy method (Maxent) in Hoze Soltan rangelands of Qum Province. Journal of Rangeland Science, 7(3): 212-221. (In Persian).
Zare Chahooki, M.A., Jafari, M., Azanivand, H., Moghadam, M.R., Farahpour, M. and Shafizadeh Nasrabadi, M., 2007. Application of logistic regression to study the relationship between presence of plant species and environmental factors. Watershed Management Resources (Journal of Pajouhesh va Sazandegi), 3(20): 136-143. (In Persian).
Zare Chahouki, M.A., Abbasi, M. and Azarnivand, H., 2018. Prediction of potential habitat for Stipa barbata species using maximum entropy model (Case Study: Taleghan Miany rangelands). Journal of Rangeland Science, 12(1): 35-47. (In Persian).
Zhang, L., Jing, Z., Li, Z., Liu, Y. and Fang, S., 2019. Predictive modeling of suitable habitats for Cinnamomum camphora L. presl using MaxEnt model under climate change in China. International Environmental Research and Public Health, 16(17): 31-85.
