Open Access
Issue
E3S Web Conf.
Volume 324, 2021
Maritime Continent Fulcrum International Conference (MaCiFIC 2021)
Article Number 03007
Number of page(s) 9
Section Sustainable Maritime Resources
DOI https://doi.org/10.1051/e3sconf/202132403007
Published online 16 November 2021
  1. Bakus, G. J., (1990) Quantitative Ecology and Marine Biology. Department of Biological Science University of Southern California. Los Angeles. C. A. 90089-0371. A-A. Balkeman/Roterdam. 164 pp. [Google Scholar]
  2. Burke, L., E. Selig &M. Spalding, 2002. Terumbu Karang Yang Terancam Di Asia Tenggara. World Resource Institute. Washington, DC, USA. 44 pp. [Google Scholar]
  3. Dahuri, R., J. Rais, S. P. Ginting & M. J. Sitepu. 1996. Pengelolaan Sumber Daya Wilayah Pesisir dan Lautan Secara Terpadu. Jakarta: Pradnya Paramita. [Google Scholar]
  4. Edmund P. Green, Peter J. Mumby, Alasdair J. Edwards & C. D. Clark. 2000. Remote Sensing Handbook for Tropical Coastal Management. The United Nations Educational, Scientific and Cultural Organization. [Google Scholar]
  5. English, S., C. Wilkinson & V. Baker. 1997. Survey Manual for Tropical Marine Resources. AIMS. Townsville. 368 pp. [Google Scholar]
  6. Fonseca, M.S. 1987. The management of seagrass system. Trop, Coast, Area. Manag. ICLARM. Newsletter 2 (2): 5-7. [Google Scholar]
  7. Giyanto, Manuputty A.E.W, Abrar M, Siringoringo R.M., Suharti S.R, Wibowo K, Edrus I.N, Arbi U.Y, Cappenberg H.A.W, Sihaloho H.F, Tuti Y. & Zulfianita D. 2014. Panduan Monitoring Kesehatan Terumbu Karang CRITC COREMAP CTI LIPI: Jakarta. [Google Scholar]
  8. Giyanto, Winardi, Edi. K.., Edward, K., Soeroyo, Anna, E.W.M., Sasanti, R.S., Raden, S. 2006. Studi Baseline Ekologi Nias. Coral Reef Information and Training Center (CRITC) Coral Rehabilitation and Management Programe (COREMAP) LIPI. Jakarta. 92 hal. [Google Scholar]
  9. Giyanto. 2012a. Kajian Tentang Panjang Transek Dan Jarak Antar Pemotretan Pada Penggunaan Metode Transek Foto Bawah Air. Oseanologi dan Limnologi di Indonesia 38 (1): 1-18. [Google Scholar]
  10. Giyanto. 2012b. Penilaian Kondisi Terumbu Karang Dengan Metode Transek Foto Bawah Air. Oseanologi dan Limnologi di Indonesia 38 (3):377-389. [Google Scholar]
  11. Giyanto; B.H. Iskandar; D. Soedharma & Suharsono. 2010. Efisiensi Dan Akurasi Pada Proses Analisis Foto Bawah Air Untuk Menilai Kondisi Terumbu Karang. Oseanologi dan Limnologi di Indonesia 36 (1): 111-130. [Google Scholar]
  12. Harvey, J.T. 2008. Abundance Encyclopedia Of Ecology (ed. By S.E.J. Fath and D. Brian), pp. 4-10. Academic Press. Oxford. [CrossRef] [Google Scholar]
  13. Indonesia, K. S. N. R. 2007. Pengelolaan Wilayah Pesisir dan Pulau-Pulau Kecil. ed. K. S. N. R. Indonesia. [Google Scholar]
  14. Jenning, S.B., N.D. Brown & D. Sheil. 1999. Assessing Forest Canopies And Understorey Illumination: Canopy Closure, Canopy Cover And Other Measures. Forestry 72(1): 59–74. [CrossRef] [Google Scholar]
  15. Jompa, D. (editor) 2015. Monitoring Ekosistem Terumbu Karang dan Ekosistem Terkait Kota Makassar. Unhas Coremap-CTI LIPI, Makassar, 51 hal. [Google Scholar]
  16. Jompa, D. dan Suharsono (editors) 2016. Monitoring Ekosistem Terumbu Karang dan Ekosistem Terkait Kota Makassar. Unhas Coremap-CTI LIPI, Makassar, 113 hal. [Google Scholar]
  17. Keppel, T.L. & M. Abrar. 2013. Kondisi Terumbu Karang Di Kabupaten Nias Dan Kabupaten Simeulue Pasca Satu Tahun Mega Tsunami 2004. Jurnal Segara 9 (1): 13-21. [Google Scholar]
  18. Kohler, K.E. & M. Gill. 2006. Coral Point Count With Excel Extensions (Cpce): A Visual Basic Program For The Determination Of Coral And Substrate Coverage Using Random Point Count Methodology. Comput Geosci 32(9):1259-1269. [CrossRef] [Google Scholar]
  19. Krebs, Ch. J., 1989. Ecological Methodology. Harper & Row Publ. New York. 678 p [Google Scholar]
  20. Loya Y. 1978. Plotless And Transect Methods. In: Coral Reefs: Research Methods. Stoddart DR, Johannes RE, eds. pP. 197-217. UNESCO, Paris. [Google Scholar]
  21. Mumby, P.J., C. D. Clark, E. P. Green, & A. J. Edwards. 1998. Benefits of Water Column Correction and Contextual Editing for Mapping Coral Reefs. International Journal of Remote Sensing, Vol. 19, No. 1, pP. 203-210. [CrossRef] [Google Scholar]
  22. Obura, D.O. & Grimsdith, G. (2009). Resilience Assessment Of Coral Reefs – Assessment Protocol For Coral Reefs, Focusing On Coral Bleaching And Thermal Stress. IUCN Working Group On Climate Change And Coral Reefs. IUCN, Gland, Switzerland. 70 pp. [Google Scholar]
  23. Odum, E.P., 1971. Fundamental of Ecology. W.B. Saunders co., Philadelphia : 574 pp. [Google Scholar]
  24. Phinn, S. R., C. M. Roelfsema & P. J. Mumby (2012) Multi-Scale, Object-Based Image Analysis For Mapping Geomorphic And Ecological Zones On Coral Reefs. International Journal of Remote Sensing, 33, 3768-3797. [CrossRef] [Google Scholar]
  25. Sari, N.W.P. Rikoh, M.S. Muhammad A., Petrus M., Ucu Y., Alvi., Muhammad H. A. 2017. Monitoring Ekosistem Terumbu Karang dan Ekosistem Terkait Kota Makassar. Unhas Coremap-CTI LIPI, Makassar, 101 hal. [Google Scholar]
  26. Suharsono. 2004. Jenis – Jenis Karang Batu di Indonesia. Pusat Penelitian Oseanografi, Lembaga Ilmu Pengetahuan Indonesia. COREMAP Proyek. 344 hal. [Google Scholar]
  27. Supriharyono. 2002. Pelestarian dan Pengelolaan Sumber Daya Alam di Wilayah Pesisir Tropis. Jakarta: PT Gramedia Pustaka Utama. [Google Scholar]
  28. Susanto, H. A. 2010. Assesment of the Sedimentation Effects on Coral Reefs Using Stable Carbon and Nitrogen Isotopes in Berau, East Kalimantan, Indonesia. Thesis. Graduate School of Social and Cultural Studies Kyushu University. Japan. 139 pp. [Google Scholar]
  29. Xiubao L., H. huang., J. Yang. and F. You. 2012. Surface Sediment Composition as an Indicator of Sedimentation stress and Nutrient Level in Coral reefs. Proc.12th Int. Coral Reefs. Symp. Cairns, Quensland, Australia [Google Scholar]

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