RESPON FOTOSINTESIS MAKROALGA TERHADAP TEKANAN DESIKASI PADA ZONA INTERTIDAL BERBATU DI DENSHIN HAMA PERAIRAN MURORAN, JEPANG

Mohamad Gazali, Yun Kae Kiang, Masataka Hoashi

Abstract


Dessiccation factors is affecting to photosynthesis response in macroalgae leaf exposed to light of the environment. Hypothesis of this research is macroalgae species scattered in upper zone having high tolerance against dessiccation. This research aims to analyzing macroalgae spesies productivity with using PAM fluorometer. Some species of seaweed was collected like Ulva pertusa, Polyopes affinis, Gloiopeltis furcata, Sargassum thunbergiii and Saccharina japonica. Seawed sampling is based on it dominance in the rocky intertidal zone which includes upper, middle and lower zone. Result of the study show Ulva pertusa less tolerance to dessiccation stress and rarely it can growth in rocky intertidal zone. Nevertheless, species of Polyopes affinis, Gloipertis furcata, Sargassum thunbergii and Saccharina japonica have been gradually increased which it show ability to dessiccation stress from exposure to free air.


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References


Alpert, P. and Oliver, M.J. 2002. Drying without dying. In Black, M. dan Pritchard, H. [Eds.] Desiccation dan Survival in Plants. CAB International, Wallingford, UK, pp. 3–43.

Alpert, P . 2000. The discovery, scope, and puzzle of desiccation tolerance in plants. Plant Ecology. 151:5–17.

Boese, B.L., Alayan, K .E ., Gooch, E.F. , Robbins , B.D., 2003.

Desiccation index : a measure of damage caused by adverse aerial exposure on intertidal eelgrass (Zostera marina) in an Oregon (USA) estuary. Aquatic Botany. 76, 329–337.

Bjork, M., Uku, J., Weil, A., Beer, S., 1999. Photosynthetic tolerances to desiccation of tropical intertidal seagrasses. Marine Ecology Progress Serial 191, 121– 126.

Beer, S., Kautsky, L., 1992. The recovery o f net photosynthesis during rehydration of three Fucus species from the Swedish west coast following exposure to air. Botany Marine. 35, 487–491.

Brown, M.T., 1987. Effects of desiccation on photosynthesis on intertidal makroalgae from a Southern New Zealdan shore. Bot. Mar. 30, 121–127.

Beach, K.S . dan Smith, C. M. 1997. Ecophysiology of a tropical rhodophyte III: recovery from emersion stresses in Ahnfeltiopsis concinna (J. Ag.) Silva et DeCew. Journal Experiment. Marine Biology Ecology. 211:151– 67.

Crowe, J.H., Carpenter, J. F. dan Crowe, L. M. 1998. The role of vitrification in anhydrobiosis. Annual. Revision. Physiology. 60:73–103.

Crowe, J.H., Hoekstra, F. A. dan Crowe, L. M. 1992. Anhydrobiosis. Annu. Rev. Physiol. 54:579–599.

Dromgoole, F.I. 1980. Desiccation resistance in intertidal dan subtidal makroalgae. Botany Marine. 23:149–159.

Dring, M.J., Brown, M.T., 1982. Photosynthesis o f intertidal brown makroalgae during dan after periods of emersion: a renewed search for the causes of zonation. Marine. Ecology. Progress. Serial. 8 , 301–308.

Erftemeijer, P.L.A., Herman, P.M.J., 1994. Seasonal changes in environmental variables, biomass, production, dan nutrient contents in two contrasting tropical intertidal seagrass beds in South Sulawesi, Indonesia. Oecologia 99, 45–59.

Davison, I.R., Pearson, G.A., 1996. Stress tolerance in intertidal seaweeds. Journal of Phycology. 32, 197–211.

Genty, B., Briantais, J.M., Baker, N.R., 1989. The relationship between the quantum yield of photosynthetic electron transport dan quenching of chlorophyll fluorescence. Biochemistry Phycology Acta. 990, 87–92.

Gaff, J.L. 1997. Mechanisms of desiccation tolerance in resurrection vascular plants. In Basra, A. S. dan Basra, R. K. [Eds.] Mechanisms of Environmental Stress Resistance in Plants. Harwood Academic Publishers, London, pp. 43–58

Hodgson, L . M . 1981. Photosynthesis of the red makroalga Gastroclonium coulteri (Rhodophyta) in response to changes in temperature, light intensity and desiccation. Journal of Phycology. 17:37–42.

Lipkin, Y. , Beer, S., Eshel, A., 1993. The ability of Porphyra linearis (Rhodophyta) to tolerate prolonged periods of desiccation. Botany Marine. 36, 517– 523.

Matta, J.L . and Chapman, D.J . 1995. Effects of light, temperature dan desiccation on the net emersed productivity of the intertidal makroalga Colpomenia peregrina Sauv. (Hamel). Journal of Experiment. Marine. Biology. Ecology. 189:13–27.

McMichael, B.L., Jordan, W.R., Powell, R.D., 1973. Abscission processes in cotton: induction by plant water deficit. Agron. J. 65, 202–204.

Rothschild, L.J . and Mancinelli, R.L. 2001. Life in extreme environments. Nature. 409: 109–110.

Rascio, N . and La Rocca, N. 2005. Resurrection plants: the puzzle of surviving extreme vegetative desiccation. Critical Revision Plant Science. 24:209–25.

Saltmarsh, A., Mauchamp,A., Rambal, S., 2006. Contrasted effects of water limitation on leaf functions dan growth of two emergent co-occurring plant species, Cladium mariscus and Phragmites australis. Aquatic Botany. 84, 191–198.

Schoenbeck, M. and Norton, T.A. 1978. Factors controlling the upper limits of fucoid makroalgae on the shore. Journal of Experimen. Marine. Biology. Ecology. 31:303–14.

Slayter, R.D . 1967. Plant–Water Relationships. Academic Press, London, 366 pp.

Smith, C.M. dan Berry, J.A. 1986. Recovery of photosynthesis after exposure of intertidal makroalgae to osmotic dan temperature stresses: comparative studies of species with differing distributional limits. Oecologia 70:6–12.

Tanaka, Y., Nakaoka, M., 2004. Emergence stress and morphological constraints affect the species distribution dan growth of subtropical intertidal seagrasses. Marine Ecology. Progress Serial. 284, 117–131.

Williams , S. L. and Dethier, M. N. 2005. High dan dry: variation in net photosynthesis of the intertidal seaweed Fucus gardneri. Ecology 86:2373–9.

Wiltens, J., Schreiber, U., Vidaver, W., 1978. Chlorophyll fluorescence induction: an indicator of photosynthetic activity in marine makroalgae undergoing desiccation. Can. Journal of Botany. 56, 2787–2794.

Zaneveld, J.S., 1937. The littoral zonation of some Fucaceae in relation to desiccation. Journal of Ecology. 25, 431–468.




DOI: https://doi.org/10.35308/jpt.v2i2.21

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