DAFTAR PUSTAKA
Basyuni, M., Baba, S., Kinjo, K., dan Oku, H. 2012. Salinity Increase The Triterpenoid Content of A Calt Secretor and A Non Salt Secretor Mangrove. Aquatic Botany. 97: 17-23.
Basyuni, M. L. A. P. Putri, B. Nainggolan, P. E. Sihaloho. 2014. Growth and biomass in response to salinity subsequent fresh water in mangrove seedlings Avecenia marina and Rhyzophora stylosa. Jurnal Manajement Hutan Tropika 20 : 17 25.
Basyuni, M., H. Sagami, S. Baba, H. Iwasaki, H. Oku. 2016. Diversity of Polyisoprenoid in The Okinawa Mangroves. Dendrobiology 75 : 167-175. Bintang, Maria. 2010. Biokimia : Teknik Penelitian. Erlangga. Jakarta .
Dahuri, R. 2003. Keanekaragaman Hayati Laut Aset Pembangunan Berkelanjutan Indonesia.PT. Gramedia Pustaka Utama, Jakarta.
Fofonoff, N. P. dan Lewis, E. L. 1979.A Practical Salinity Scale. Journal of Oceanography. 35. 63–64.
Ghufran, M. 2012. Ekosistem Mangrove Potensi, Fungsi, dan Pengelolaan.PT. Rineka Cipta. Jakarta.
Halidah dan Harwiyaddin, K. 2013.Penyebaran Alami Avicenia marina (Forsk) vierh dan Sonneratia alba smith pada Substrat Pasir (Distribution Pattern And Density Avicenia marina (Forsk) vierh and Sonneratia albasmith on Sand Substrate). Balai Penelitian Kehutanan Makassar. 1: 51-58.
Harjadi, S. S. dan S. Yahya. 1988. Fisiologi Stress Lingkungan. PAU – IPB. Bogor.
Hutching, P. dan P. Saenger., 1987. Ecology of Mangrove. University of Queensland Press, St. Lucia. Australia.
Kalesaran, P. 2011. Mangrove. Universitas Negeri Manado. Manado.
Krauss, K.W., C. E. Lovelock, K. L. Mc Kee, L. Lo´pez - Hoffman, S. M. L. Ewe, dan W. P. Sousa. 2008. Environmental drivers in mangrove establishment and early development: A review. Aquatic Botany 89: 105–127.
Lopez - Hoffman, L., N. P. R. Anten, M. Martı´nez - Ramos, and D. D. Ackerly. 2007. Salinity and light interactively affect neotropical mangrove seedlings at the leaf and whole plant levels. Oecologia 150 :545–556.
Mastuti, R. 2016. Modul 3 : Fisiologi Tumbuhan : Metabolit Sekunder Pertahanan Tumbuhan. FMIPA Universitas Brawijaya. Malang.
Noor, Y, R., M. Khazali dan I. N. N. Suryadiputra. 2006. Panduan Pengenalan Mangrove di Indonesia. Wetlands International. Bogor
Pie, N., N. F. Y. Tam., Y. Wu dan M. H. Wong. 2009. Root Anatomy and Spatial Pattern of Radial Oxygen Loss of Eight True Mangrove Species. Aquatic Botany (90) : 222-230.
Ramayani. 2012. Pengaruh Salinitas Terhadap Pertumbuhan Dan Biomassa Semai Dan Kandungan Lipida Pohon Non-Sekresi Ceriops tagal. Program Studi Kehutanan. Fakultas Pertanian. USU.
Sagami, H, A. Kurisaki, K. Ogura, dan T. Chojnacki. 1992. Separation of dolichol from dehydrodolichol by sample two – plate thin layer chromatography.
Journal of Lipid Research 33 : 1857-1861.
Salisbusry, F. B dan Cleon W. Ross. 1995. Fisiologi Tumbuhan. Jilid I. ITB. Bandung. Hal 67-72.
Simbolon, CRH. 2013. Pengaruh Intensitas Naungan Terhadap Pertumbuhan Bakau Putih (Bruguiera cylindrica) di Sicanang Medan Belawan. Skripsi. Universitas Sumatera Utara. Medan.
Sitnik, M. 2002. Mangrove Ecology:A Manual for A Field Course. Department of Systematic Biology.Smithsonian Institution.
Skorupinska, T. K., Jacek, W., dan Swiezewska, E. 2007. Polyisoprenoid Alcohols-Recent Results of Structural Studies.Journal of Chemical Record 8: 33–45.
Suga , T., S. Ohta, A. Nakai, K. Munesada. 1989. Glycinoprenols : Novel polyprenols possessing a phytyl residu from the leaves of Soybean. The Journal of Organic Chemistry 54 : 3390-3393.
Sumacz, L and E. Swiezewska. 2011. Polyisoprenoid – Secondary metabolite or physiologically import superlipids. Biochemical and Biophysical Research Communication 407 : 627-632.
Swiezewska, E. dan Witold, D. 2005.Polyisoprenoids: Structure. Biosynthesis and Function.Progress Lipid Research.4: 235–258.
Tateyama, S., Wititsunannakul, R, Wititsunannakul, D., Sagami, H., Ogura, K. 1999. Dolichol of rubber plant, ginkgo, and pine. Phytochemistry 51 : 11-15.
Wong,Yee-Yen., Ho, Chai-ling., Nguyen, Phuoc Dang., Teo, Swee-Sen., Harikrishna, Jennifer Ann., Rahim, Raha Abdul., Wong, Michael C.V.L. 2007. Isolation of salinity tolerant genes from the mangrove plant, Bruguiera cylindrica by using suppression subtractive hybridization (SSH) and bacterial functional screening. Aquatic Botany (86) : 117-122.
LAMPIRAN
(a)
(b)
(c) (d)
(e) (f)
Keterangan : Hasil panen semai B. cylindrical (a), semai B. cylindrica (b), tempat semai B. cylindrica yang sudah digerus (c), analisi kromatografi (d), proses pewarnaan (e), hasil analisis kromatografi (f).