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2016 | 25 | 5 |

Tytuł artykułu

Investigating environmental factors for locating mangrove ex-situ conservation zones using GIS spatial techniques and the logistic regression algorithm in mangrove forests in Iran

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Along the coastal strip of tropical and subtropical regions, mangrove forests extend as one of the most productive coastal ecosystems. Iran is considered one of the most western coastal habitats of these communities in Asia. Unfortunately, in recent years, despite their economic and ecological importance, these forests have been threatened mainly due to human activities, which necessitate the need for protecting and developing these ecosystems. Ex-situ conservation, which aims to transfer a species to right place for preservation and development, is one of the most effective ways of protecting these forests. It is obvious that the successful transfer of a species in order to protect it as ex-situ conservation requires a comprehensive environmental assessment. The present paper employs a spatio-statistical methodology to delineate areas enriched with environmental parameters and weather factors necessary to support a mangrove ex-situ conservation plan in Hormozgan Province, Iran. With extensive effort in reviewing the related studies in the literature, we elicted a collection of 14 environmental and weather indicators critical to maintaining mangrove stands in a sustainable ecological environment. For screening the number of indicators to environmental variables with highest importance in our research, we used the Delphi method to quantify expert attitudes in order to develop a suitability index collection. Accordingly, an integrated application of GIS spatial analysis and a logistic regression algorithm were used to build an explicit spatial predictive model that evaluates the targeted area in terms of identified factors, thereby quantifying the potential of suitable zones for locating mangrove ex-situ conservation sites. Predictive performance of the developed model was evaluated based on Kappa index and omission error rate. According to our results, land proneness to a mangrove plantation has a high positive correlation with environmental attributes such as temperature fluctuation, land form, and mean tidal level, and has a negative correlation with slope and wave height. Our results should be considered advantageous for decision makers and planners in the field of mangrove ecosystems.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

25

Numer

5

Opis fizyczny

p.2097-2106,fig.,ref.

Twórcy

autor
  • Department of the Environment, Faculty of Natural Resources, University of Tehran, Iran
autor
  • Department of the Environment, Faculty of Natural Resources, University of Tehran, Iran
autor
  • Department of the Environment, Faculty of Natural Resources, University of Tehran, Iran
autor
  • Department of Forestry, Faculty of Natural Resources, University of Tehran, Iran

Bibliografia

  • 1. WALTERS B.B., RONNBACK P., KOVACS J.M., CRONA B., HUSSAIN S.A., BADOLA R., PRIMAVERA J.H., BARBIERF E., DAHDOUH-GUEBAS F. Ethnobiology, socio-economics and management of mangrove forests: A review. Aquatic Botany, 89, 220, 2008.
  • 2. ALONGI M. Present state and future of the world’s mangrove forests. Environ Conserv, 29 (3), 331, 2002.
  • 3. PETROSIAN H., ASHRAFI S., DANEHKAR A., FEGHHI J. The use of logistic regression to identify climate factors affecting the distribution of mangrove forest of Hormozgan province, Iran. Journal of Natural Environment, 67 (2), 135, 2014.
  • 4. ZAHED M.A., RUHAN F., MOHAJERI S. An over view of Iranian mangrove ecosystem, northern part of the Persian Gulf and Oman Sea. Acta Ecologica Sinica, 30 (4), 240, 2010.
  • 5. MONSEF H., AYMAN S., SCOT E.S. Locating suitable mangrove plantation sites along the Saudi Arabia Red Sea Coast. Journal of African Earth Sciences, 83, 1, 2013.
  • 6. ELSEBAIE I.H., ALGUIB A., GARNI D. The Role of Remote Sensing and GIS for Locating Suitable Mangrove Plantation Sites along the Southern Saudi Arabian Red Sea Coast. International Journal of Geosciences, 4, 471-479, 2013.
  • 7. COLEMAN J.M., HUH O.K, BRAUD D.W. Wetland loss in world deltas. Journal of Coastal Research, 24, 1, 2008.
  • 8. PEARCE J., FERRIER S. Evaluating the predictive performance of habitat models developed using logistic regression. Ecological Modelling, 133, 225, 2010.
  • 9. SAFAVIAN A., AMANI M. Multi-criteria analysis, a good way to end the value of ecosystem services in the environmental assessment process. Science Road Journal, 3 (8), 13, 2015.
  • 10. CHEN F.W., CHEN-WUING L. Estimation of the spatial rainfall distribution using inverse distance weighting (IDW) in the middle of Taiwan. Paddy Water Environment Journal, 10, 209, 2012.
  • 11. KAMYAB H.R., MAHINY A., HOSEINI S.M., GHOLAMALIFARD M. Modeling urban growth effects on landscape structure in Gorgan city area. Spring, 1 (2), 99, 2013.
  • 12. SARHANGZADEH J., YAVARI A.R. HEMAMI M.R., JAFARI H.R., ESFANDABAD B. Habitat suitability modeling for wild goat (Capra aegagrus) in a mountainous arid area, central Iran. Caspian J. Env. Sci, 11 (1), 41, 2013.
  • 13. OMO-IRABOR O.O., OLOBANIYI S. B., AKUNNA J., VENUS V., MAINA J.M., PARADZAY C. Mangrove mulnerability modeling in parts of western Niger delta, Nigeria using satellite images, GIS techniques and spatial multi-criteria analysis (SMCA). Environmental Monitoring Assessment, 178, 39, 2011.
  • 14. QUISTHOUDT K., SCHMITZ N., DAHDOUH-GUEBAS F., ROBERT E., KOEDAM N. Temperature variation among mangrove latitudinal range limits worldwide, Trees, 26, 1919, 2012.
  • 15. HESHAM A.M., AYMA S., SCOT S. Locating suitable mangrove plantation sites along the Saudi Arabia Red Sea Coast. Journal of African Earth Sciences, 83, 1, 2013.
  • 16. KAMALI B., HASHIM R. Mangrove restoration without planting. Ecological Engineering, 37 (2), 387-391, 2010.
  • 17. LEWIS R.R. Ecological engineering for successful management and restoration of mangrove forests. Ecological Engineering, 24, 403, 2005.
  • 18. KATHIRESA K., RAJENDRAN N. Coastal Mangrove Forests Mitigated Tsunami. Estuarine Coastal and Shelf Science, 65, 601, 2005.
  • 19. PERERA K., AMARASINGHE M., SOMARATNA, S. Vegetation structure and species distribution of mangroves along a soil salinity gradient in a micro tidal estuary on the north-western coast of Sri Lanka. American Journal of Marine Science, 1 (1), 7, 2013.
  • 20. GILMAN E., ELLISON J. Efficacy of alternative low-cost approaches to mangrove restoration, American Samoa. Estuaries and Coasts, 30 (4), 641, 2007.
  • 21. NEINAVAZ E., BARATI A., BROWN J., ETEZADIFAR F., EMAMI B. Effects of nest characteristics and black rat Rattus rattus predation on daily survival rates of great egret Ardea alba nests in mangrove forest in the Hara Biosphere Reserve, the Persian Gulf . Wildl. Biol., 19 (3), 240-, 2013.
  • 22. MORRISEY D.J., SWALES A., DITTMAN S., MORRISON M.A., LOVELOCK C.E., and Marine Biology, 48, 43, 2010.
  • 23. KRAUSS K.W., LOVELOCK C.E., MCKEE K.L., HOFFMAN L., EWE S.M.L., SOUSA M.P. Environmental drivers in mangrove establishment and early development: A Review. Aquatic Botany, 89, 105, 2008.
  • 24. BALACHANDRAN N., KICHENAMOURTHY S., MUTHUKUMARA, J., JAYAKANTHAN M., CHANDRASEKAR S., PUNETHA A., SUNDAR D. Diversity of true mangroves and their associates in the Pondicherry region of South India and development of a mangrove knowledgebase. Journal of Ecology and the Natural Environment, 1 (5), 99, 2009.
  • 25. ANGELELL P., SAFFACHE P. Some remarks on Mangroves in the Lesser Antilles. Journal of Integrated Coastal Zone Management 13 (4), 473, 2013.
  • 26. ZALDIVAR- JIMENEZ M.A., HERRERA-SILVERIA J.A., TEUTLI-HERNANDEZ C., FRANCISCO A. Conceptual Framework for Mangrove Restoration in the Yucatán Peninsula. Ecological Restoration, 28 (3), 333, 2010.
  • 27. WANGONDU V.W., KAIRO J.G., KINYAMARIO J.A., MWAURA F.B., BOSIRE J.O., DAHDOUH-GUEBAS F., KOEDAM N. Phenology of Avicennia marina (Forsk.) Vierh in a disjunctly-zoned mangrove stand in Kenya. Journal of Marine Science, 9 (2), 135, 2010.
  • 28. RAKOTOMAVO A., FROMARD F. Dynamics of mangrove forests in the Mangoky river delta, Madagascar, under the influence of natural and human factors. Forest Ecology and Management, 259 (6), 1161, 2010.
  • 29. HE B., LAI T., FAN H., WANG W., ZHENG H. Comparison of flooding-tolerance in four mangrove species in a diurnal tidal zone in the Beibu gulf. Estuar. Estuarine Coastal and Shelf Science, 74, 254, 2007.
  • 30. ERFANI M., NOURI G.R., DANEHKAR A., MARVIMOHAJER M.R., MAHMOUDI B. Vegetative parameters of mangrove forest on the Govater bay in southeast of Iran. Journal of Taxonomy Biosystematics. 1 (1), 33, 2009.
  • 31. SAIFULLAH S., GUL S., RASSOL F. Anomalous aerial roots in Grey mangroves of an arid. Pakistan J Bot, 36 (2), 463, 2004.
  • 32. SAFA H., DANEHKAR A., KAMRANI E. Study on the mangrove forest structure at the Koolaghan, Tiyab and Kolahi regions in the strait of Hormoz (north part of Persian Gulf). Envromental Sciences, 11, 1, 2006.
  • 33. ROBERT M.R.E., KOEDAM N., BEEKMAN H., SCHMITZ N. A safe hydraulic architecture as wood anatomical explanation for the difference in distribution of the mangroves Avicennia and Rhizophora. Functional Ecology, 23, 649, 2010.
  • 34. LUO Zh., SUN O.J., Xu H. A comparison of Species Composition and Stand Structure between Planted and Natural Mangrove Forests in Shenzhen Bay, South China. Journal of Plant Ecology, 3 (3), 165, 2011.
  • 35. HEZAGY A.K., Ali A.A., KHADR F.G., AZAB E.M. Sitedependent variation in populations of Avicennia marina (Forssk.) Vierh in Southern Sinai, Egypt, 2002.
  • 36. BERGER U., RIVERA-MONRO V.H., DOYLE T.W., DAHDOUH-GUEBAS F., DUKE N.C., FONTALVOHERAZO M.L., HILDENBRANDT H., KOEDAM N., MEHLIG U., PIOU C., TWILLEY R.R. Advances and limitations of individual-based models to analyze and predict dynamics of mangrove forests: A Review. Aquatic Botany, 89, 260, 2008.
  • 37. NAZIM K., AHMED M., UZAIR-KHAN M., KHAN N., WAHAB M., FAHEEM M.An assessment of the use of Avicennia marina Forsk Vierh, to reclaim water logged and saline agricultural land. Pakistan Journal of Botany, 42 (4), 2423, 2010.
  • 38. SAID W.M., EHSAN N.O.M. Morphological and molecular evidences among four hetero forms of Avicennia marina (Forssk) Vierh. J. Am. Sci, 6, 843, 2010.
  • 39. AKRAM A., ALFARHAN A., ROBINSON E., Aldjain I.Pattern of survival and mortality of mangrove populations grown at Al-Jubail Area (Saudi Arabia) of the Persian Gulf. Am. J. Agri. & Biol. Sci. 3 (3), 610, 2008v
  • 40. AHMED E., ABDEL-HAMID K.A. Zonation pattern of Avicennia marina and Rhizophora mucronata along the Red Sea Coast, Egypt. WASJ, 2 (4), 283, 2007.
  • 41. DISSANAYAKE N., CHANDRASEKARA U. Effects of Mangrove Zonation and the Physicochemical Parameters of Soil on the Distribution of Macro benthic Fauna in Kadolkele Mangrove Forest, a Tropical Mangrove Forest in Sri Lanka. Advances in Ecology. Volume 2014, Article ID 564056, 13, 2014.
  • 42. ALMULL L. Soil Site Suitability Evaluation for Mangrove Plantation in Kuwait. 20 Applied Sciences Journal, 22 (11), 1644, 2013.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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