Abstract
Coastline mapping and coastline change detection are critical issues for safe navigation, coastal resource management, coastal environmental protection, and sustainable coastal development and planning. Changes in the shape of coastline may fundamentally affect the environment of the coastal zone. This may be caused by natural processes and/or human activities. Over the past 30 years, the coastal sites in Turkey have been under an intensive restraint associated with a population press due to the internal and external touristic demand. In addition, urbanization on the filled up areas, settlements, and the highways constructed to overcome the traffic problems and the other applications in the coastal region clearly confirm an intensive restraint. Aerial photos with medium spatial resolution and high resolution satellite imagery are ideal data sources for mapping coastal land use and monitoring their changes for a large area. This study introduces an efficient method to monitor coastline and coastal land use changes using time series aerial photos (1973 and 2002) and satellite imagery (2005) covering the same geographical area. Results show the effectiveness of the use of digital photogrammetry and remote sensing data on monitoring large area of coastal land use status. This study also showed that over 161 ha areas were filled up in the research area and along the coastal land 12.2 ha of coastal erosion is determined for the period of 1973 to 2005. Consequently, monitoring of coastal land use is thus necessary for coastal area planning in order to protecting the coastal areas from climate changes and other coastal processes.
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Alesheikh, A. A., Ghorbanali, A., & Talebzadeh, A. (2004). Generation the coastline change map for Urmia Lake by TM and ETM+ imagery. Map Asia Conference, Beijing, China.
Anker, H. T., Nellemann, V., & Sverdrup-Jensen, S. (2004). Coastal zone management in Denmark: Ways and means for further integration. Ocean and Coastal Management, 47, 495–513.
Atasoy, M., Karslı, F., Bıyık, C., & Demir, O. (2006). Determining land use changes with digital photogrammetric techniques. Environmental Engineering Science, 23(4), 712–721.
Ayad, Y. M. (2005). Remote sensing and GIS in modeling visual landscape change: A case study of the northwestern arid coast of Egypt. Landscape and Urban Planning, 73, 307–325.
Bailly, B., & Nowell, D. (1996). Techniques for monitoring coastal changes: A review and case study. Ocean and Coastal Management, 32, 85–95
Bedford, B. L. (1999). Cumulative effects on wetland landscapes: Links to wetland restoration in the United States and Southern Canada. Wetlands, 19, 775–788.
Burak, S., Doğan, E., & Gazioglu, C. (2004). Impact of urbanization and tourism on coastal environment. Ocean and Coastal Management, 47, 515–527.
Chen, Y. K., Jan, J. F., & Lai, H. Y. (1998). Mapping and establishing topographic layers for GIS in mountainous forest area by digital photogrammetric technique. Quarterly Journal of Experimental for National Taiwan University, 12(3), 139–156.
Chopra, R., Verma, V. K., & Sharma, P. K. (2001). Mapping, monitoring and conservation of Harike wetland ecosystem, Punjab, India, through remote sensing. International Journal of Remote Sensing, 1, 89–98.
Dellepiane, S., De Laurentiis, R., & Giordano, F. (2004). Coastline extraction from SAR images and a method for the evaluation of coastline precision. Pattern Recognition Letter, 25, 1461–1470.
Di, K., Wang, J., Ma, R., & Li, R. (2003). Automatic shoreline extraction from high-resolution Ikonos satellite imagery. ASPRS 2003 Annual Conference Proceedings, May 2003, Anchorage, Alaska.
Doygun, H., & Alphan, H. (2006). Monitoring urbanization of Iskenderun, Turkey, and its negative implications. Environmental Monitoring and Assessment, 114, 145–155.
Dowman, I. J., Ebner, H., Heipke, C. (1992). Overview of European developments in digital photogrammetric workstations. Photogrammetric Engineering and Remote Sensing, 58(1), 51–56.
Gerakis, A., Kalburtji, K. (1998). Agricultural activities affecting the functions and values of Ramsar wetland sites of Greece. Agricultural Ecosystem Environment, 70, 119–128.
Heipke, C. (1995). State-of-the-Art of digital photogrammetric workstations for topographic applications. Photogrammetric Engineering and Remote Sensing, 61(1), 49–56.
Ingham, A. E. (1992). Hydrography for surveyors and engineers. London: Blackwell Scientific (pp. 132).
Jackson, J. B. C., Kirby, M. X., Berger, W. H., Bjorndal, K. A., Botsford, L. W., & Bourque, B. J. (2001). Historical over fishing and the recent collapse of coastal ecosystems. Science, 293, 629–638.
Jensen, J. R., Rutchey, K., Koch, M. S., & Narumalani, S. (1995). Inland wetland change detection in the Everglades water conservation area using a time series of normalized remotely sensed data. Photogrammetric Engineering and Remote Sensing, 61, 199–209.
Ji, C. Y., Liu, Q., Sun, D., Wang, S., Lin, P., & Li, X. (2001). Monitoring urban expansion with remote sensing in China. International Journal of Remote Sensing, 22, 1441–1455.
Kaya, S., & Curran, P. J. (2006). Monitoring urban growth on the European side of the Istanbul metropolitan area: A case study. International Journal of Applied Earth Observation and Geoinformation, 8(1), 18–25.
Kraus, K. (1993). Photogrammetry (Vol. 1). Bonn: Ümmler.
Li, R., Di, K., & Ma, R. (2001). A comparative study of shoreline apping techniques. The 4th International symposium on computer mapping and GIS for coastal zone management. Halifax, Nova Scotia, Canada, 18–20 June.
Li, R., Di, K., & Ma, R. (2003). 3-D shoreline extraction from IKONOS satellite imagery. Marine Geodesy, 26, 107–115.
Li, R., Keong, C. W., Ramcharan, E., Kjerfve, B., & Willis, D. (1998). A coastal GIS for shoreline monitoring and management — case study in Malaysia. Surveying and Land Information Systems, 58(3), 157–166.
Lockwood, M. (1997). NSDI shoreline briefing to the FGDC coordination group. Washington, DC: NOAA/NOS.
Lunetta, R. S., Alvarez, R., Edmonds, C. M., Lyon, J. G., Elvidge, C. D., Bonifaz, R., et al. (2002a). An assessment of NALC/Mexico land cover mapping results: Implications for assessing landscape condition. International Journal of Remote Sensing, 23(16), 3129–3168.
Lunetta, R. S., Ediriwickrema, J., Johnson, D., Lyon, J. G., & McKerrow, A. (2002b). Impacts of vegetation dynamics on the identification of landcover change in a biologically complex community in North Carolina, USA. Remote Sensing of Environment, 82, 258–270.
Lunetta, R. L., Johnson, D. M., Lyon, J. G., & Crotwell, J. (2004). Impacts of imagery temporal frequency on land-cover change detection monitoring. Remote Sensing of Environment, 89(4), 444–454.
Mumby, P. J., Raines, P. S., Gray, D. A., & Gibson, J. P. (1995). Geographical information system: A tool for integrated coastal Zone management in Belize. Coastal Management, 23, 111–121.
Ongan, S. E. (1997). T. R. Prime ministry, state planning organization, national environmental action plan, land use and coastal zone management, Ankara.
Pajak, M. J., & Leatherman, S. (2002). The high water line as shoreline indicator. Journal of Coastal Research, 18(2), 329–337.
Ringrose, S., Matheson, W., & Boyle, T. (1988). Differentiation of ecological zones in the Okavango Delta, Bostwana, by classification and contextual analyses of Landsat MSS data. Photogrammetric Engineering and Remote Sensing, 54, 601–608.
Ruiz-Luna, A., & Berlanga-Robles, C. A. (2003). Land use, land cover changes and coastal lagoon surface reduction associated with urban growth in northwest Mexico. Landscape Ecology, 18, 159–171.
Sekhar, N. U. (2005). Integrated coastal zone management in Vietnam: Present potentials and future challenges. Ocean and Coastal Management, 48, 813–827.
Sesli, F. A., & Aydinoglu, A. C. (2003). Monitoring relations between coast line cover and land ownership via the web: an example from black sea. Coastal Zone 03 coastal zone management through time. Baltimore, USA.
Shi, Z., Wang, R., & Huang, M. X. (2002). Detection of coastal saline land uses with multi-temporal landsat images in Shangyu City, China. Environmental Management, 30(1), 142–150.
Skalet, C. D., Lee, Y. G., & Ladner, L. J. (1992). Implementation of softcopy photogrammetric workstations at the U.S. Geological Survey. Photogrammetric Engineering and Remote Sensing, 58(1), 57–64.
Sorensen, J. (1993). The international proliferation of integrated coastal zone management efforts. Ocean and Coastal Management, 21(1–3), 45–81.
Yüksel, İ., & Yüksek, Ö. (2003). Re-analyzing of erosions in East Blacksea Region using recent developments. Journal of Nature and Human, 37(2), 2–8.
Wang, Z., Zhang, B., Zhang, S., Li, X., Liu, D., Song, K., et al. (2006). Changes of land use and of ecosystem service values in Sanjiang Plain, Northeast China. Environmental Monitoring and Assessment, 112, 69–91.
Williams, T. H. L. (1990). Aerial photograph coverage of Antigua and Barbuda, West Indies (pp. 28)
Zhan, X., Sohlberg, R. A., Townshend, R. G., DiMiceli, C., Carroll, M. L., Eastman, J. C., et al. (2002). Detection of land cover changes using MODIS 250 m data. Remote Sensing of Environment, 83, 336–350.
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Sesli, F.A., Karsli, F., Colkesen, I. et al. Monitoring the changing position of coastlines using aerial and satellite image data: an example from the eastern coast of Trabzon, Turkey. Environ Monit Assess 153, 391–403 (2009). https://doi.org/10.1007/s10661-008-0366-7
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DOI: https://doi.org/10.1007/s10661-008-0366-7