Pengaruh Variasi Salinitas dan Adaptasi Air Tawar Terhadap Pertumbuhan dan Biomassa Serta Distribusi Senyawa Polyisoprenoid Pada Semai Rhizophora apiculata BI
DAFTAR PUSTAKA
Alongi, D. M. 2002. Present state and future of the world's mangrove forests.
Environmental Conservation 29 (3): 331-349.
Basyuni, M., S. Baba, M. Inafuku, H. Iwasaki, K. Kinjo, and H. Oku. 2009.
Expression of terpenoid synthase mRNA and terpenoid content in salt
stressed mangrove. Journal of Plant Physiology 166 (16): 1786-1800.
Basyuni, M., Y. Kinjo, S. Baba, N. Shinzato, H. Iwasaki, E. B. M. Siregar, and H.
Oku. 2011. Isolation of salt stress tolerance genes from roots of mangrove
plant, Rhizophora stylosa griff., using PCR-based suppression subtractive
hybridization. Plant Molecular Biology Reporter 29: 533–543.
Basyuni M, Baba S, Kinjo Y, Putri LAP, Hakim L, and Oku H. 2012. Saltdependent increase in triterpenoids is reversible upon transfer to fresh water
in mangrove palnts Kandelia candel and Brugueira gymnorrhiza. Plant
Physiology 169: 1903-1908.
Basyuni, M., L. A. P. Putri, B. Nainggolan, and P. E. Sihaloho. 2014. Growth and
biomass in response to salinity and subsequent fresh water in mangrove
seedlings Avicennia marina and Rhizophora stylosa. JMHT 20 (1): 17-25.
Basyuni M, Sagami H, Baba S, Iwasaki H, and Oku H. 2016. Diversity of
polyisoprenoid in ten Okinawan mangroves. Dendrobiology 75: 167-175.
Basyuni, M. 2016. Keanekaragaman Senyawa Isoprenoid di Hutan Mangrove.
USU Press. Medan.
Basyuni M, Sagami H, Baba S, and Oku H. 2017. Distribution, occurrence, dan
cluster analysis of new polyprenyl acetones and other polyisoprenoids from
North Sumateran mangroves. Dendrobiology 78: 18-31.
Biber, P. D. 2006. Measuring the effects of salinity stress in the red mangrove,
Rhizophora mangle L. African Journal of Agricultural Research 1(1): 1-4.
Bizzarri, R., Cerbai, B., Signori, F., Solaro, R., Bergamini, E., Tamburini, I., and
Chiellini, E. 2003. New perspectives for (S)- dolichol and (S)-nor dolichol
synthesis and biological functions. Biogerontology 4: 353–363.
Chojnacki, T., and Dallner, G. 1988. The biological role of dolichol. Biochemistry
251: 1–9.
Chouda, M., and W. Jankowski. 2005. The occurrence of polyprenols in seeds and
leaves of woody plants. Acta Biochemica Polinica 52 (1): 243–253.
Clough, B.F. 1984. Growth and salt balance in the mangroves Avicennia marina
(Forsk.)Vierh. and Rhizophora stylosa Griff. in relation to salinity.
Australian Journal of Plant Physiology 11: 419‐430.
Universitas Sumatera Utara
Dissanayake, N. P., and K. M. C. Amarasena. 2009. Assessment and comparison
of salt content in mangrove plants in Sri Lanka. Ruhuna Journal of Science
4: 21-27.
Flowers, T. J. dan Colmer, T. D. 2015. Plant salt tolerance: adaptation in
halophytes. Annals of Botany 115: 327–331.
Flowers TJ, Munns R, and Colmer TD. 2015. Sodium chloride toxicity and the
cellular basis of salt tolerance in halophytes. Annals of Botany
115: 419–431.
Giri, C., E. Ochieng, L. L. Tieszen, Z. Zhu, A. Singh, T. Loveland, J. Masek, and
N. Duke. 2011. Status and distribution of mangrove forests of the world
using earth observation satellite data. Global Ecology Biogeography
20: 154–159.
Kathiresan, K. and Thangam, T.S. 1990. A note on the effects of salinity and pH
on growth of Rhizophora seedlings. The Indian Forester 116 (3): 243‐ 244.
Kathiresan, K., Moorthy, P. and Ravikumar, S. 1996. A note on the influence of
salinity and pH on rooting of Rhizophora mucronata Lamk. seedlings. The
Indian Forester 122 (8) : 763‐764.
Kathiresan K, Rajendran N. 2002. Growth of a mangrove (Rhizophora apiculata)
seedlings as influenced by GA3, light, and salinity. Revista de Biologla
Tropical 50: 525-530.
Kathiresan, K., and B. L. Bingham. 2001. Biology of mangroves and mangrove
ecosystems. Advancces in Marine Biology 40: 81-251.
Kurisaki, A., H. Sagami, and K. Ogura. 1997. Distribution of polyprenols and
dolichols in soybean plant. Phytochemistry 44 (1): 45-50.
Koiwa, H., Li, F., McCully, M.G., Mendoza, I., Koizumi, N., Manabe, Y.,
Nakagawa, Y., Zhu, J., Rus, A., Pardo, J.M., Bressan, R.A., and
Hasegawa, P.M. 2003. The STT3a subunit isoform of the Arabidopsis
oligosaccharyltransferase controls adaptive responses to salt/osmotic stress.
Plant Cell 15: 2273–2284.
Lin, G.H. and Sternberg, L.D.S.L. 1993. Effects of salinity fluctuation on
photosynthetic gas exchange and plant growth of the red mangrove
(Rhizophora mangle L.). Journal of Experimental Botany 44 (258) : 9‐16.
Noor, Y. R., M. Khazali, and I. N. N. Suryadiputra. 2006. Panduan Pengenalan
Mangrove di Indonesia. Bogor: PHKA/WI-IP.
Oku, H., S. Baba, H. Koga, K. Takara, and H. Iwasaki. 2003. Lipid composition
of mangrove and its relevance to salt tolerance. Journal of Plant Research
116: 37–45.
Universitas Sumatera Utara
Parida, A. K dan Das, A. B. 2005. Parida, A. K and Das, A. B. 2005. Salt
tolerance and salinity effects on plants: a review. Ecotoxicology and
Environmental Safety 60: 324 – 349.
Pattison, R.J dan Amtmann, A. 2009. N-glycan production in the endoplasmic
reticulum of plants. Trends in Plant Science 14: 92-99.
Sagami, H., A. Kurisaki, K. Ogura, and T. Chojnacki. 1992. Separation of
dolichol from dehydrodolichol by a simple two-plate thin layer
chromatography. Journal of Lipid Research 33: 1857-1861.
Salisbury, F. B., and C. W. Ross. 1992. Plant physiology. Wadsworth Publishing.
Schneider, C. A., W. S. Rasband, and K. W. Eliceiri. 2012. NIH Image to ImageJ:
25 years of image analysis. Nature Methods 9 (7): 671-675.
Scholander, P. F., H. T. Hammel, E. Hemmingsen, and W. Garey. 1962. Salt
balance in mangroves. Plant Physiology 722-729.
Skorupinska-Tudek K, Bienkowski T, Olszowska O, Furnamowa M, Chojnacki T,
Danikiewicz W, and Swiezewska E. 2003. Divergent pattern of
polyisoprenoid alcohols in the tissues of Coluria geoides: a new
electrospray ionization MS approach. Lipids 38: 981- 990.
Sudha, G. and Ravishankar. 2002. Involvement and interaction of various
signaling compounds on the plant metabolic events during defense response,
resistance to stress factors, formation of secondary metabolites and their
molecular aspects. Plant Cell, Tissue, and Organ Culture 71: 181-212.
Surmacz, L dan Swiezewska, E. 2011. Poyisoprenoids-secondary metabolites or
physiologically important superlipids. Biochemical and Biophysical
Research Communications 407: 627-632.
Swiezewska, E. and Danikiewicz, W. 2005. Polyisoprenoids: structure,
biosynthesis, and function. Progress in Lipid Research 44: 235-258.
Tateyama, S. Wititsuwannakul, R. Wititsuwannakul, D. Sagami, H. and Ogura, K.
1999. Dolichols of rubber plant, ginkgo, and pine. Phytochemistry
51: 11-15.
Zhong, J. J. 2011. Plant secondary metabolites. Plant Cell Culture 6: 3883-3819.
Universitas Sumatera Utara
Alongi, D. M. 2002. Present state and future of the world's mangrove forests.
Environmental Conservation 29 (3): 331-349.
Basyuni, M., S. Baba, M. Inafuku, H. Iwasaki, K. Kinjo, and H. Oku. 2009.
Expression of terpenoid synthase mRNA and terpenoid content in salt
stressed mangrove. Journal of Plant Physiology 166 (16): 1786-1800.
Basyuni, M., Y. Kinjo, S. Baba, N. Shinzato, H. Iwasaki, E. B. M. Siregar, and H.
Oku. 2011. Isolation of salt stress tolerance genes from roots of mangrove
plant, Rhizophora stylosa griff., using PCR-based suppression subtractive
hybridization. Plant Molecular Biology Reporter 29: 533–543.
Basyuni M, Baba S, Kinjo Y, Putri LAP, Hakim L, and Oku H. 2012. Saltdependent increase in triterpenoids is reversible upon transfer to fresh water
in mangrove palnts Kandelia candel and Brugueira gymnorrhiza. Plant
Physiology 169: 1903-1908.
Basyuni, M., L. A. P. Putri, B. Nainggolan, and P. E. Sihaloho. 2014. Growth and
biomass in response to salinity and subsequent fresh water in mangrove
seedlings Avicennia marina and Rhizophora stylosa. JMHT 20 (1): 17-25.
Basyuni M, Sagami H, Baba S, Iwasaki H, and Oku H. 2016. Diversity of
polyisoprenoid in ten Okinawan mangroves. Dendrobiology 75: 167-175.
Basyuni, M. 2016. Keanekaragaman Senyawa Isoprenoid di Hutan Mangrove.
USU Press. Medan.
Basyuni M, Sagami H, Baba S, and Oku H. 2017. Distribution, occurrence, dan
cluster analysis of new polyprenyl acetones and other polyisoprenoids from
North Sumateran mangroves. Dendrobiology 78: 18-31.
Biber, P. D. 2006. Measuring the effects of salinity stress in the red mangrove,
Rhizophora mangle L. African Journal of Agricultural Research 1(1): 1-4.
Bizzarri, R., Cerbai, B., Signori, F., Solaro, R., Bergamini, E., Tamburini, I., and
Chiellini, E. 2003. New perspectives for (S)- dolichol and (S)-nor dolichol
synthesis and biological functions. Biogerontology 4: 353–363.
Chojnacki, T., and Dallner, G. 1988. The biological role of dolichol. Biochemistry
251: 1–9.
Chouda, M., and W. Jankowski. 2005. The occurrence of polyprenols in seeds and
leaves of woody plants. Acta Biochemica Polinica 52 (1): 243–253.
Clough, B.F. 1984. Growth and salt balance in the mangroves Avicennia marina
(Forsk.)Vierh. and Rhizophora stylosa Griff. in relation to salinity.
Australian Journal of Plant Physiology 11: 419‐430.
Universitas Sumatera Utara
Dissanayake, N. P., and K. M. C. Amarasena. 2009. Assessment and comparison
of salt content in mangrove plants in Sri Lanka. Ruhuna Journal of Science
4: 21-27.
Flowers, T. J. dan Colmer, T. D. 2015. Plant salt tolerance: adaptation in
halophytes. Annals of Botany 115: 327–331.
Flowers TJ, Munns R, and Colmer TD. 2015. Sodium chloride toxicity and the
cellular basis of salt tolerance in halophytes. Annals of Botany
115: 419–431.
Giri, C., E. Ochieng, L. L. Tieszen, Z. Zhu, A. Singh, T. Loveland, J. Masek, and
N. Duke. 2011. Status and distribution of mangrove forests of the world
using earth observation satellite data. Global Ecology Biogeography
20: 154–159.
Kathiresan, K. and Thangam, T.S. 1990. A note on the effects of salinity and pH
on growth of Rhizophora seedlings. The Indian Forester 116 (3): 243‐ 244.
Kathiresan, K., Moorthy, P. and Ravikumar, S. 1996. A note on the influence of
salinity and pH on rooting of Rhizophora mucronata Lamk. seedlings. The
Indian Forester 122 (8) : 763‐764.
Kathiresan K, Rajendran N. 2002. Growth of a mangrove (Rhizophora apiculata)
seedlings as influenced by GA3, light, and salinity. Revista de Biologla
Tropical 50: 525-530.
Kathiresan, K., and B. L. Bingham. 2001. Biology of mangroves and mangrove
ecosystems. Advancces in Marine Biology 40: 81-251.
Kurisaki, A., H. Sagami, and K. Ogura. 1997. Distribution of polyprenols and
dolichols in soybean plant. Phytochemistry 44 (1): 45-50.
Koiwa, H., Li, F., McCully, M.G., Mendoza, I., Koizumi, N., Manabe, Y.,
Nakagawa, Y., Zhu, J., Rus, A., Pardo, J.M., Bressan, R.A., and
Hasegawa, P.M. 2003. The STT3a subunit isoform of the Arabidopsis
oligosaccharyltransferase controls adaptive responses to salt/osmotic stress.
Plant Cell 15: 2273–2284.
Lin, G.H. and Sternberg, L.D.S.L. 1993. Effects of salinity fluctuation on
photosynthetic gas exchange and plant growth of the red mangrove
(Rhizophora mangle L.). Journal of Experimental Botany 44 (258) : 9‐16.
Noor, Y. R., M. Khazali, and I. N. N. Suryadiputra. 2006. Panduan Pengenalan
Mangrove di Indonesia. Bogor: PHKA/WI-IP.
Oku, H., S. Baba, H. Koga, K. Takara, and H. Iwasaki. 2003. Lipid composition
of mangrove and its relevance to salt tolerance. Journal of Plant Research
116: 37–45.
Universitas Sumatera Utara
Parida, A. K dan Das, A. B. 2005. Parida, A. K and Das, A. B. 2005. Salt
tolerance and salinity effects on plants: a review. Ecotoxicology and
Environmental Safety 60: 324 – 349.
Pattison, R.J dan Amtmann, A. 2009. N-glycan production in the endoplasmic
reticulum of plants. Trends in Plant Science 14: 92-99.
Sagami, H., A. Kurisaki, K. Ogura, and T. Chojnacki. 1992. Separation of
dolichol from dehydrodolichol by a simple two-plate thin layer
chromatography. Journal of Lipid Research 33: 1857-1861.
Salisbury, F. B., and C. W. Ross. 1992. Plant physiology. Wadsworth Publishing.
Schneider, C. A., W. S. Rasband, and K. W. Eliceiri. 2012. NIH Image to ImageJ:
25 years of image analysis. Nature Methods 9 (7): 671-675.
Scholander, P. F., H. T. Hammel, E. Hemmingsen, and W. Garey. 1962. Salt
balance in mangroves. Plant Physiology 722-729.
Skorupinska-Tudek K, Bienkowski T, Olszowska O, Furnamowa M, Chojnacki T,
Danikiewicz W, and Swiezewska E. 2003. Divergent pattern of
polyisoprenoid alcohols in the tissues of Coluria geoides: a new
electrospray ionization MS approach. Lipids 38: 981- 990.
Sudha, G. and Ravishankar. 2002. Involvement and interaction of various
signaling compounds on the plant metabolic events during defense response,
resistance to stress factors, formation of secondary metabolites and their
molecular aspects. Plant Cell, Tissue, and Organ Culture 71: 181-212.
Surmacz, L dan Swiezewska, E. 2011. Poyisoprenoids-secondary metabolites or
physiologically important superlipids. Biochemical and Biophysical
Research Communications 407: 627-632.
Swiezewska, E. and Danikiewicz, W. 2005. Polyisoprenoids: structure,
biosynthesis, and function. Progress in Lipid Research 44: 235-258.
Tateyama, S. Wititsuwannakul, R. Wititsuwannakul, D. Sagami, H. and Ogura, K.
1999. Dolichols of rubber plant, ginkgo, and pine. Phytochemistry
51: 11-15.
Zhong, J. J. 2011. Plant secondary metabolites. Plant Cell Culture 6: 3883-3819.
Universitas Sumatera Utara