Environment and Interdisciplinary Development

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Publication Ethics

Indexing and Abstracting

Related Links

FAQ

Peer Review Process

News

Guide for Authors

Forms and Format Template

Reviewers

Habitat Assessment of The Goitered Gazelle (Gazella Subgutturosa) By Maximum Entropy in Kalmand Bahadran Protected Area, Yazd, Iran

Document Type : Original Article

Authors

1 Department of Environmental Sciences & Engineering, Faculty of Agriculture & Natural Resources, Ardakan University, Ardakan, Iran

2 Department of Environmental Sciences, Faculty of Natural Resources, University of Zabol, Zabol, Iran

Abstract

Introduction: Habitat destruction is one of the main threats to biodiversity and species. Decomposition of the habitat and decrease of local populations to small habitats cause an increase in inbreeding, a decrease in genetic diversity, an increase in demographic events, and as a consequence, an increase in the risk of extinction. The Goitered gazelle (Gazella subgutturosa) with a vulnerable protection status is one of the key species of Iran's plain habitats, which is distributed in most regions of the country. But due to reasons such as indiscriminate hunting and habitat land use change, its population has decreased drastically and it needs stronger protection in the network of protected areas of Iran. Gazella subgutturosa is in the mammals' class, the order of Artiodactyla, the family of the Bovidae. In this study, the distribution of this species in the Kalmand Bahadran protected area of yazd has been investigated using the MaxEnt.
Materials and methods: Data presence points of the species were collected through field studies and direct observations, footprints and resting places for the species in the Kalmand Bahadran protected area during the four seasons of 2022 recorded and using GPS was registered. In this study, the variables of slope, aspect, dem, distance from the water sources, distance from the road, distance from the village, distance from the watering place and vegetation were used to model the habitat suitability. Modeling was done using MaxEnt model in MaxEnt software and finally, the species distribution map was obtained. To investigate the spatial distribution of the study species in the region, a total of 41 presence points were used.
Results: The results of the maximum entropy model showed that the greatest distribution potential in the central and northwestern regions of study area. Also, the results showed that the model has a high ability to predict the presence of Gazella subgutturosa in the study area and has a significant difference with the random model at all thresholds (AUC=0.812; P<0.0001). The results of the sensitivity analysis using the jackknife method showed that the variables of dem, distance from the water sources, and aspect. are of higher priority for the species in this area.
Discussion: Due to successive droughts, the number of deer breeding in Kalmand Bahadran protected area has decreased. Another factor in the decrease of its population is the road accidents, which are caused by the passing of Tehran-Bandar Abbas transit road and rural roads in the region. The presence of free-ranging dogs on the outskirts of villages, illegal hunters, being preyed upon by carnivorous and Felidae and birds of prey such as wolves, caracal and eagles are other factors that decrease the population in the study area. But since the Kalmand area of Bahadran is relatively a good habitat for this species and support a relatively high number of species population. In general, by considering the areas used by Goitered gazelle and the areas identified in the suitable model, it can be concluded that the extent of the optimal habitat for the species in the Kalmand Bahadran protected area is more than what is currently used. Correct management and planning of the suitable habitats in this area can protect more than the maximum number of Goitered gazelles that existed in this area until today and improve the level of necessary habitat in the area. The results of this study can be used in the implementation of protection and management procedures to increase appropriate habitats in Yazd province.

Keywords

Main Subjects

References
  1. Akbari, H., Habibi, A. and Zaree, R., Investigation on Population Characteristics, Association Patterns and Decreasing of Gazella Subgutturosa Population in Kalmand– Bahadoran Protected Area in Yazd province. Environmental Researches, 3(6), 75-81. (In Farsi).
  2. Akrim, F., Mahmood, T., Hussain, R., Qasim, S. and Zangi, I.D., 2017. Distribution pattern, population estimation and threats to the Indian Pangolin Manis crassicaudata (Mammalia: Pholidota: Manidae) in and around Pir Lasura National Park, Azad Jammu & Kashmir, Pakistan. Journal of Threatened Taxa, 9 (3), 9920– 9927.
  3. Ashouri Rad, A., Rahimi, R. and Shams Esfandabad, B., 2018. Modeling habitat suitability for Goitered Gazelle (Gazella subgutturosa) in Sorkheh Hesar national park. Journal of Environmental Sciences and Technology, 19 (4): 193- 207. (In Farsi).
  4. Banks-Leite, C., Ewers, R.M., Folkard-Tapp, H. and Fraser, A., Countering the effects of habitat loss, fragmentation, and degradation through habitat restoration. One Earth, 3, 672– 676.
  5. Brotons, L., 2014. Species Distribution Models and Impact Factor Growth in Environmental Journals: Methodological Fashion or the Attraction of Global Change Science. PLOS ONE, 9 (11): 1- 5.
  6. Environmental Protection Department of Mehriz city., 2023. census form. (In Farsi).
  7. Eslamloo, K., Ahmadi Nadoshan, M. and Chamani, A., 2022. Evaluation of habitat suitability and overlap of Larestan ram (Ovis orientalis laristanica) ecological nest in Hermoud protected area using Maxent model. Journal of Animal Environment, 14 (2): 17- 26 (In Farsi).
  8. Esmaeili, M., Shayesteh, K. and Karami, P. 2020. Investigation of Habitat Suitability and Connectivity Pathways of Persian Gazelle (Gazella subgutturusa subgutturosa) in the West of Kermanshah province and East of Iraq (Case Study: Qaraviz No-Hunting Area). Animal Environment, 12(1): 23-30. (In Farsi).
  9. Farashi, A., Sarbaz, M. and Khani, A., Predicting presence of marbled polecat (Vormela peregusna) in Khorasan Razavi province using MaxEnt. Experimental animal Biology, 7(1), 35-44. (In Farsi).
  10. Guisan, A., Tingley, R., Baumgartner, J., Naujokaitis-Lewis, I., Sutcliffe, P. and Tulloch, A.,2013. Predicting species distributions for conservation decisions. Ecology Letters, 16: 1424- 1435.
  11. Hosseini, G., Shams Sfandabab, B. and Alizadeh shabani, A., 2017. Habitat suitability evaluation for Persian Gazelle (Gazella subgutturosa) in Haftad Qolleh Protected Area, Markazi provincein central Iran. Journal of Natural Environment, 69(4), 965-979.           doi: 10.22059/jne. 2017.118573.884. (In Farsi).
  12. Kaky, E., Nolan, V., Khalil, M., Ameen Mohammed, A.M., Ahmed Jaf, A.A., Mohammed-Amin, S., Ali Mahmood, Y. and Gilbert, F., 2023. Conservation of the Goitered gazelle (Gazella subgutturosa) under climate changes in Iraq. Heliyon, 9 (2023): 1- 11.
  13. Karami, M., Ghadirian, T. and Faizolahi, K., 2015. The Atlas of the Mammals of Iran. Department of the Environment of Iran, Tehran, Iran.
  14. Karami, P., Kamangar, M. and Hosseini, M., 2016. Modelling of Habitat Suitability of Persian Gazella (Gazella Subgutturosa Subgutturosa) In Qaraviz No Hunting Area and Kermanshah Province by Using Artificial Neural Networks. Journal of Animal Research (Iranian Journal of Biology), 29(3), 340-352. (In Farsi).
  15. Khosravi, R., Hemami, M., Malekian, M., Flint, A. and Flint, L., 2016. Maxent modeling for predicting potential distribution of goitered gazelle in central Iran: the effect of extent and grain size on performance of the model. Turkish Journal of Zoology, 40:4 https://doi.org/10.3906/zoo-1505-38
  16. Kufa, C.A., Bekele, A. and Atickem, A., 2022. Impacts of climate change on predicted habitat suitability and distribution of Djaffa Mountains Guereza (Colobus guereza gallarum, Neumann 1902) using MaxEnt algorithm in Eastern Ethiopian Highland. Global Ecology and Conservation, 35: e02094.
  17. Liu, T., Jiang, Zh., Wang, W., Wang, G., Song, X., Xu, A. and Li, Ch., 2023. Changes in habitat suitability and population size of the endangered Przewalski's gazelle. Global Ecology and Conservation, 43:1- 13.
  18. Madadi, M., Akbar Nrjad., F. and Ghorbanzadeh, S., 2018. Habitat suitability modeling of Gazella (Gazella subgutturosa) in Golestan National Park. Animal Environment, 10(1): 9-18. (In Farsi).
  19. Mairota, P., Cafarelli, B., Boccaccio, L., Leronni, V., Labadessa, R., Kosmidou, V. and Nagendra, H., 2013. Using landscape structure to develop quantitative baselines for protected area monitoring. Ecological indicators, 33: 82- 95.
  20. Malekian, M., Azimi E. and Pourmanafi, S., 2021. Modeling of habitat suitability and prioritizing of destruction factors for the common crane (Grus grus) in aquatic ecosystems of Markazi Province. Journal of Animal Environment, 13 (1): 129- 138. (In Farsi).
  21. Merow, C., Smith, M.J. and Silander, J.A., 2013. A practical guide to MaxEnt for modeling species’ distributions: what it does, and why inputs and settings matter. Ecography, 36: 1058-1069.
  22. Mohammadi, S., Ebrahimi, E., Shahriari Moghadam, M. and Bosso, L., 2019. Modelling current and future potential distributions of two desert jerboas under climate change in Iran. Ecological Informatics, 52: 7-13.
  23. Morovati, M., Hoseini, Z. and Bahadori Amjaz, F., 2019. Assessment of the level of desirability of habitat Gazella subgutturosa with MCE model (Case study: Kalmand Bahadoran protected area in Yazd province). Quarterly Journal of Experimental Animal Biology, 8 (2): 83- 91. (In Farsi).
  24. Mouafo, A., Tedonzong, L., Ingram, D., Binda, V., Nfor Ngwayi, I. and Mayaka, Th., 2023. Maximum entropy modeling of giant pangolin Smutsia gigantea (Illiger, 1815) habitat suitability in a protected forest-savannah transition area of central Cameroon. Global Ecology and Conservation, 43: 1- 12.
  25. Naderi, G., Riazi, B., Aref, N., Khalatbari, M., Mohammadi, S., Lahoot, M. and Kamran, M., 2013. Habitat preferences of Bezoar wild goats (Capra aegagrus) in Agh-Dagh protected area, Iran. North-Western Journal of Zoology, 9: 99-102.
  26. Naqibzadeh, A., Sarhangzadeh, J., Sotodeh, A. and Jafari, M.J., 2022. Habitat suitability modeling of Goitered gazelle (Gazella subgutturosa): A Maximum Entropy approach from Samelghan plain, Iran. Scientific Reports in Life Sciences, 3(3): 11-28.
  27. Naqibzadeh, A., Sarhangzadeh, J. and Sayedi, N., 2021. Habitat suitability modeling of Goitered Gazelle (Gazella subgutturosa) by Ecological Niche Factor Analysis in the Bidouyeh protected area, Iran. Journal of Wildlife and Biodiversity, 5 (4): 15-27. DOI:10.22120/jwb.2021.528662.1223
  28. Phillips, S.J., Anderson, R.P. and Schapire, R.E., 2006. Maximum entropy modeling of species geographic distributions. Ecological Modelling, 190: 231–259.
    doi: 10.1016/j.ecolmodel.2005.03.026.
  29. Razghandi, A., Zebardast, L., Jafari, H. and Yavari, A., 2018. Quantifying the Changes in Persian Gazelle Habitat in Shirahmad Wildlife Refuge Using Landscape Ecological Metrics. Journal of Animal Environment, 10 (3): 9-16. (In Farsi).
  30. Sadegh Oghli, R., Jahani, A., Alizadeh Shabani, A. and Goshtasb, H., 2019. Quantifying the Fragmentation of Landscape as an Index for the Assessment of the Wildlife Habitat (Case Study: Protected Area of Jajroud). Journal of Animal Environment, 11 (1): 13- 20. (In Farsi).
  31. Warren, D.L., Glor, R.E. and Turelli, M., 2010. ENMTools: a toolbox for comparative studies of
    environmental niche models. Ecography, 33: 607-611.
  32. Yousefi, M., Mohammadi, S. and Kafash, A., 2023. Modeling global habitat suitability and environmental predictor of distribution of a Near Threatened avian scavenger at high spatial resolution. Frontiers in Ecology and Evolution, 11: 1112962.
  33. Zhuo, Y., Xu, W., Wang, M., Chen, Ch., Silva, A., Yang, W., Ruckstuhl, K. and Alves, J., 2022. The effect of mining and road development on habitat fragmentation and connectivity of khulan (Equus hemionus) in Northwestern China. Biological Conservation, 275: 1- 10.
  34. Ziaie, H., 2011. A field guide to the mammals of Iran, Iranian Wildlife Center, Tehran, Iran. Persian. (In Farsi).
Environment and Interdisciplinary Development
Volume 8, Issue 80 - Serial Number 80
July 2023
Pages 79-89
Files
Share
How to cite
Statistics