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2011 | 30 | 3 |

Tytuł artykułu

Impact of coastal inundation on ecology and agricultural land use case study in central Java, Indonesia

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN

Wydawca

-

Rocznik

Tom

30

Numer

3

Opis fizyczny

p.19-32,fig.,ref.

Twórcy

autor
  • Faculty of Geography, Gadjah Mada University, Yogyakarta 55281, Indonesia

Bibliografia

  • Bryan B., Harvey N., Belerio T. & Bourman B., 2001. Distributed Process Modeling for Regional Assessment of Coastal Vulnerability to Sea Level Rise. Environ Model Assess 6: 57-65.
  • Gatot I.S., Duchesne J., Forest F., Perez P., Cudennec C., Prasetyo T. & Karama S., 2001. Rainfall-runoff harvesting for controlling erosion and sustaining upland agriculture development. In: D.E. Stott, R.H. Mohtar, G.C. Steinhardt (eds.), Sustaining the global farm. Selected papers from the 10th international soil conservation organization meeting held, 24-29 May 1999 at Purdue University and the USDA-ARS National Soil Erosion Research Laboratory: 434-441.
  • Ilwis, 2000. Integrated Land and Water Information System, Geographic Information System, Version 3.1. International Institute for Geo-Information and Earth Observation, ITC, Enschede.
  • Irwani, Pribadi R. & Helmi M., 2010. Studi Erosi Pesisir Kota Semarang. Jurusan Ilmu Kelautan, FPIK UNDIP presented at Presented for Indonesian Delta Forum, Bakosurtanal, Semarang 21-22 October 2010.
  • Johannsen C.J., Engel B.A. & Pantaleoni E., 2007. Identifying agricultural flood damage using Landsat imagery. Precision Agric. 8: 27-36.
  • Kobayashi H., 2003. Vulnerability assessment and adaptation strategy to sea-level rise in Indonesian coastal urban area. National Institute for Land and Infrastructure Management, Ministry of Land, Infrastructure and Transport, Japan.
  • Kresch D.L., Mastin M.C. & Olsen T.D., 2002. Fifty-year flood- inundation maps for Olanchito, Honduras. US Geological Survey.
  • Kumar Dinesh P.K., 2006. Potential vulnerability implications of sea level rise for the coastal zones of Chocin, southwest coast of India. Environmental Monitoring and Assessment 123: 333-344.
  • Lebedeva I.P., Kocharyan A.G. & Istomina M.N., 2005. Floods: genesis, socioeconomic and environmental impacts. Water Resources 32(4): 349-358.
  • Marfai M.A., 2004. Tidal flood hazard assessment: modelling in raster GIS, case in western part of Semarang coastal area. Indonesian Journal of Geography 36(1): 25-38.
  • Marfai M.A., 2005. GIS Modelling Exercise Using ILWIS Software for Landslide Assessment. Journal of Scientific Development and Environmental Research 4, 1-2: 24-34.
  • Marfai M.A., King L., 2007. Monitoring land subsidence in Semarang, Indonesia. Environmental Geology 53: 651-659.
  • Marfai M.A. & King L., 2008a. Coastal flood management in Semarang. Environmental Geology 55: 1507-1518.
  • Marfai M.A. & King L., 2008b. Tidal inundation mapping under enhanced land subsidence in Semarang, Central Java Indonesia. Natural Hazards 44: 93-109.
  • Marfai M.A. & King L., 2008c. Potential vulnerability implication of coastal inundation due to sea level rise for the costal zone of Semarang City, Indonesia. Environmental Geology 54(6): 1235-1245.
  • Marfai M.A., Almohammad H., Dey S., Susanto B. & King L., 2008. Coastal dynamic and shoreline mapping: multi- sources spatial data analysis in Semarang Indonesia. Environmental Monitoring and Assessment 142: 297-308.
  • Maulina N., 2010. Shoreline Change Analysis and Prediction; an Application of Remote Sensing and GIS. M.Sc. thesis, Geography Faculty, Gadjah Mada University, Yogyakarta, Indonesia.
  • Michele C., 1999. On the integrated modeling of coastal changes. Journal of Coastal Conservation 5: 113-124.
  • Pasternack G.B., Hilgartner W.B. & Brush G.S., 2000. Biogeomorphology of an upper Chesapeake Bay river-mouth tidal freshwater marsh. Wetlands 20(3): 520-537.
  • Pinem F., 2002. The Use of Aerial Photographs for Susceptibility Mapping of Flood Hazard in Kali Garang, Semarang Central Java (in Indonesian). Undergraduate Thesis, Geography Faculty, Gadjah Mada University, Yogyakarta, Indonesia.
  • PWD (Public Works Department of Semarang), 2000. Semarang Urban Drainage Master Plan Project. Public Works Department, Semarang, Indonesia.
  • Schladow S.G., Fleenor W.E. & Hammersmark C.T., 2005. Simulation of food impact and habitat extent for a tidal freshwater marsh restoration. Ecological Engineering 25: 137-152.
  • Smith K. & Ward R., 1998. Floods: Physical Processes and Human Impacts. John Wiley and Sons, Chichester, USA.
  • Sudaryatno S., 2000. Remote Sensing and GIS for Estimation of Peak Discharge at garang River, Semarang Central java (in Indonesian). Master Thesis, Geography Faculty, Gadjah Mada University, Indonesia.
  • Urish D.W. & Mckenna T.E., 2004. Tidal Effects on Groundwater Discharge Through a Sandy marine Beach. Ground Water - Oceans Issue 42, 7: 971-982.
  • Ward P.J., Marfai M.A., Yulianto F., Hizbaron D.R. & Aerts J.C.J.H., 2011. Coastal Inundation and Damage Exposure Estimation: A Case Study for Jakarta. Natural Hazards 56: 899-916.
  • Yusup Y., 1999. Study of Flood Vulnerability and Hazard in Semarang Area (in Indonesian). Undergraduate Thesis, Geography Faculty, Gadjah Mada University, Yogyakarta, Indonesia.
  • Thumerer T., Jones A.P. & Brown D. 2000. A GIS based coastal management system for climate change associated flood risk assessment on the east coast of England. Int. J. Geogr. Inf. Sci. 14(3): 265-281.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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