Spatial–Temporal Monitoring of Ecotonal Belt Using Landscape Ecological Indices in the Central Elburz Region: Remote Sensing and GIS Analysis

Document Type : Original Research Paper

Authors

Graduate faculty of environment, University of Tehran, Iran

10.7508/pj.2015.02.010

Abstract

Iran has mountainous landscapes and half of its surface is occupied by highlands. Moreover, Iran is an arid country and deserts are located at lower altitudes. Most metropolitan areas are positioned in mid-altitudes between mountain and desert. Cities grow upwardly toward the highlands under pressures of urbanization and desertification. Foothill ecotones are a zone between upland mountains and midland plains. Upwardly sprawl of urban centers has transformed the structures and functions of these ecologically strategic belts. In this article, we analyzed the transformational trend of the ecotonal zone in the southern slopes of the central Elburz (Tehran-Karaj urban region). Landsat 7 ETM+ (2000) and 8 OLI (2013) are used to monitor spatial and temporal variability of landscape metrics. The land covers are grouped into four classes: vegetation cover, open space, built area, and water body. Seven landscape metrics are used including: NP, CAP, MPS, AW-MPS, MNND, PARA, and TE. Our results indicate that NP, AW-MPS, TE, and PARA increased whereas CAP and MPS decreased. These results are a sign of the fragmentation process across the ecotonal strip.

Keywords

References

Ahern, J. (2005). Theories, methods and strategies for sustainable landscape planning. (In: Tress, B. et al. (eds.) From landscape research to landscape planning: aspects of integration , educational application (pp. 119-131). Springer, Netherlands).
Ahmadi, H. (2008). Applied geomorphology; Desert-wind erosion. Vol. 2. (Tehran, Iran: Tehran University Press). (In Farsi).
Aithal, B. H., and Sanna, D. D. (2012). Insights to urban dynamics through landscape spatial pattern analysis. Int. J. Appl. Eart. Obs. Geoinf., 18, 329-343.
Alavipanah, S.K. (2010). Application of Remote Sensing in Earth Science. (Tehran, Iran: Tehran University Press). (In Farsi).
Alijani, B., O‘Brien, J., and Yarnal, B. (2008). Spatial analysis of precipitation intensity and concentration in Iran. Theor. Appl. Climatol., 94,107–124.
Becker, A., Körner, C., Brun, J. J., Guisan, A., and Tappeiner, U. (2007). Ecological and land use studies along elevational gradients. Mt. Res. Dev., 27(1), 58-65.
Bila, J., Jura, J., and Bukovsky, I. (2011). Qualitative modeling in the landscape development monitoring. Landscape., 27(29), 26-35.
Bogachev, V.P. (2004). Assessment of Central Asia Mountainous Ecosystems (ACAME): Features of Multi-scale Assessment Methodology. (In ―Bridging Scales and Epistemologies: Linking Local Knowledge and Global Science in Multi-Scale Assessments‖, Alexandria, Egypt. Retrieved July 15, 2012, from http://ma.caudillweb.com/documents/bridging/papers/Bogachev.vladimir.pdf).
Botequilha Lietão, A., and Ahern, J. (2002). Applying landscape ecological concepts and metrics in sustainable landscape planning.Landscape. Urban. Plan., 59(2), 65-93.
Burel, F., and Baudry, J. (2003). Landscape ecology: concepts, methods, and applications. (Science Publishers)
EPA, Environmental Protection Agency (USA). (1994). Landscape monitoring and assessment research plan (Contributions by: O‘Neill, R.V., et al.). U.S.EPA 620/R-94/009.
Farina, A. (2010). Ecology, cognition and landscape: linking natural and social systems. (Springer)
Firouz, E. (1974). Environment in Iran. (Tehran, Iran: Publication of National Council for Conservation of Natural Resources and Human Environment),(In Farsi).
Forman, R. T. T. (1995). Land Mosaics: The Ecology of Landscapes and Regions. (Cambridge, England: Cambridge University Press).
Forman, R. T.T., and Collinge, S. K. (1997). Nature conserved in changing landscapes with and without spatial planning. Landscape. Urban. Plan., 37(1), 129-135.
Forman, R.T.T., and Godron, M. (1986). Landscape Ecology. (New York : Wiley)
Geological Survey of Iran. Geological Map (Scale 1: 100000 and 1:200000).
Gluch, R.M. and Ridd, M.K. (2010). The V-I-S Model: Quantifying the Urban Environment. (In T. Rashed and C. Jürgens(Eds.) ―Remote Sensing of Urban and Suburban Areas, Remote Sensing and Digital Image Processing 10‖ (pp. 85-116). Springer Science+Business Media B.V.).
Hadisi, T. and Jafarpoor, E. (2002). Natural characteristics of southern slopes of central Elburz, focusing on climatic conditions. (Tehran, Iran: Ghalamestan Publications), (In Farsi).
Ingegnoli, V. (2002). Landscape ecology: a widening foundation. (Springer)
Jahani, H.R. and Reyhani, M. (2006). Role of groundwater in Tehran water crisis mitigation. International Workshop on Groundwater for Emergency Situations. Tehran: Regional Center on Urban Water Management/UNESCO-IHP, 2006.
Jensen, J. R. (1996). Introductory Digital Image Processing: A Remote Sensing Perspective (Second edition). (New Jersey, USA: Prentice Hall, Inc., Upper Saddle River).
Körner, C. (2007). The use of ‗altitude‘in ecological research.Trends. Ecol. Evol., 22(11), 569-574.
Körner, C., Ohsawa, M., and Spehn, E. (2006). Mountain Systems. (InHassan R, Scholes R, Ash N, (Eds.) Millennium Ecosystem Assessment. Current State and Trends: Ecosystems and Human Well-being, vol. 1.(pp 681–716) Washington, DC: Island Press).
Landgraf, A., Ballato, P., Strecker, M. R., Friedrich, A., Tabatabaei, S. H., and Shahpasandzadeh, M. (2009). Fault‐kinematic and geomorphic observations along the North Tehran Thrust and Mosha Fasham Fault, Elburz mountains Iran: Implications for fault‐system evolution and interaction in a changing tectonic regime. Geophys. J. Int., 177(2), 676-690.
Lausch, A., and Herzog, F. (2002). Applicability of landscape metrics for the monitoring of landscape change: issues of scale, resolution and interpretability. Ecol. Indic., 2(1), 3-15.
Lausch, A., Pause, M., Doktor, D., Preidl, S., and Schulz, K. (2013). Monitoring and assessing of landscape heterogeneity at different scales. Environ. Monit. Assess., 185(11), 9419-9434.
Mahmoodi, F. (1990). Natural Aspect of Tehran City. Journal of Geographical Researches, 26, 123-135. (In Farsi).
Naqinezhad, A., Jalili, A., et al. (2009). Floristic characteristics of the wetland sites on dry southern slopes of the Alborz Mts.,N. Iran: The role of altitude in floristic composition. Flora., 204: 254–269.
National Cartographic Center of Iran. Topographic Maps (Scale 1:20000 and 1:50000).
National Geographical Organization of Iran. Topographic Maps (Scale 1:50000) and Aerial Photos.
Naveh, Z. (2007). Transdisciplinary Challenges in Landscape Ecology and Restoration Ecology: An Anthology with Forewords by E. Laszlo and M. Antrop and Epilogue by E. Allen. (Springer Verlage)
Odermatt, S. (2004). Evaluation of Mountain Case Studies by Means of Sustainability Variables: A DPSIR Model as an Evaluation Tool in the Context of the North–South Discussion. Mt. Res. Dev., 24 (4), 336–341.
O'Neill, R. V., Hunsaker, C. T., Jones, K. B., Riitters, K. H., Wickham, J. D., Schwartz, P. M., and Baillargeon, W. S. (1997). Monitoring environmental quality at the landscape scale. Bioscience., 47(8), 513-519.
Paul, M. J. and Meyer, J. L. (2001). Streams in Urban Landscape. Annu. Rev. Ecol. Syst., 32: 333-65.
Plexida, S. G., Sfougaris, A. I., Ispikoudis, I. P., and Papanastasis, V. P. (2014). Selecting landscape 
metrics as indicators of spatial heterogeneity—A comparison among Greek landscapes. Int. J. App. Eart. Obs. Geoinf., 26, 26-35.
Saeednia, A. (1989). The place of Tehran. Journal of Environmental Study, 15, 1-10. (In Farsi).
Shahidi, A. and Nazari. (2011). Geo-tectonics of Elburz. (Tehran, Iran: Javan Publications.), (In Farsi).
Sharma, R., and Joshi, P. K. (2013). Monitoring urban landscape dynamics over Delhi (India) using remote sensing (1998–2011) inputs. J. Indi. Soc. Remo. Sens., 41(3), 641-650.
Soil and Water Institute of Iran. Land Suitability Map (Scale 1:50000).
Spellerberg, I. F. (2005). Monitoring ecological change. (Cambridge University Press).
Statistical Center of Iran. (2014). Retrieved August 13, 2014 from http://www.amar.org.ir/ Default.aspx? tabid=1604.
Syrbe, R. U., and Walz, U. (2012). Spatial indicators for the assessment of ecosystem services: providing, benefiting and connecting areas and landscape metrics. Ecol. Indic., 21, 80-88.
U.S. Geological Survey. (2013). Landsat 8: U.S. Geological Survey Fact Sheet 2013–3060, 4 p., Retrieved September 20, 2013, 
fromhttp://pubs.usgs.gov/fs/2013/3060/.
Uuemaa, E., Mander, Ü., and Marja, R. (2013). Trends in the use of landscape spatial metrics as landscape indicators: a review. Ecol. Indic., 28, 100-106.
Weng, Y. C. (2007). Spatiotemporal changes of landscape pattern in response to urbanization. Landscape.Urban. Plan., 81(4), 341-353.
Wristen, K. and O‘Reilly, K. (2002). Carrying Cpacity and Thresholds: Theory and Practices in Environmental Management.The Macleod Institute for Environmental Analysis at the University of Calgary.ES1040, 2500 University Drive NW, Calgary, AB T2N 1N4. Retrieved September 10, 2003, fromhttp://www.macleodinstitute.com/publications/pdf/report_final.pdf
Yavari, A. R., Sotoudeh, A., and Parivar, P. (2007). Urban Environmental Quality and Landscape Structure in Arid Mountain Environment. Int. J. Environ. Res., 1(4), 325-340.
Yavari, A.R., Darayi, L., Hahsemi, SM., and Zebardast, L. (2012). Iran: A Fusion of Mountains and Deserts. Yaran Press. Tehran. Iran. (In Farsi).
Zonneveld, I.S. (2005). The land unit as a black box: a Pandora‘s box. (In Wiens, J.A. and Moss M. (eds.) Issues and perspectives in landscape ecology. (pp. 331-345.) Cambridge University Press. UK. )
Pollution
Volume 1, Issue 2 - Serial Number 2
April 2015
Pages 231-246

Files

Share

How to cite

Statistics