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The biology of an Antarctic rhodophyte, Palmaria decipiens: recent advances

  • Susanne Becker (a1), María Liliana Quartino (a2), Gabriela Laura Campana (a2) (a3), Philip Bucolo (a4), Christian Wiencke (a5) and Kai Bischof (a1)...
Abstract

Palmaria decipiens (Reinsch) R.W. Ricker (1987) represents one of the dominant rhodophyte species in Antarctic coastal ecosystems. Due to its high abundance in the intertidal and upper subtidal it plays a key role in ecosystem structure and function, providing habitat, food and shelter for a multitude of associated organisms. The physiology, reproductive strategy and life cycle of P. decipiens is considered as being well adapted to the Antarctic environment, which is characterized by permanent low water temperatures and a strong seasonality in light climate. With its obvious ecological significance and adaptive strategies P. decipiens was frequently studied as a typical representative of an endemic Antarctic macroalga. Here we provide an overview of the recent literature, summarizing the knowledge gained about the alga during the last 25 years. This review focuses on the species life cycle and physiological responses, such as temperature requirements, photosynthetic characteristics, pigment content and protective mechanisms with regard to enhanced ultraviolet radiation (UV-B radiation, 280–315 nm and UV-A radiation, 315–400 nm). The ecology of P. decipiens is reviewed focussing on grazing activity and abundance patterns. Since most studies on P. decipiens have been conducted at King George Island off the western Antarctic Peninsula this overview serves as a summary of baseline data from an ecosystem particularly prone to environmental change.

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Corresponding author
susanne.becker25@gmail.com
References
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Amsler, C.D., ed. 2008. Algal chemical ecology. Berlin: Springer, 313 pp.
Amsler, C.D., Iken, K., McClintock, J.B. Baker, B.J. 2009. Defenses of polar macroalgae against herbivores and biofoulers. Botanica Marina, 52, 535545.
Amsler, C.D., Rowley, R.J., Laur, D.R., Quetin, L.B. Ross, R.M. 1995. Vertical-distribution of Antarctic peninsular macroalgae: cover, biomass and species composition. Phycologia, 34, 424430.
Amsler, C.D., Iken, K., McClintock, J.B., Amsler, M.O., Peters, K.J., Hubbard, J.M., Furrow, F.B. Baker, B.J. 2005. Comprehensive evaluation of the palatability and chemical defenses of subtidal macroalgae from the Antarctic Peninsula. Marine Ecology Progress Series, 294, 141159.
Aro, E.M., Virgin, I. Andersson, B. 1993. Photoinhibition of photosystem II: inactivation, protein damage and turnover. Biochimica Biophysica Acta, 1143, 113134.
Aro, E.M., Suorsa, M., Rokka, A., Allahverdiyeva, Y., Paakkarinen, V., Saleem, A., Battchikova, N. Rintamaki, E. 2005. Dynamics of photosystem II: a proteomic approach to thylakoid protein complexes. Journal of Experimental Botany, 56, 347356.
Aumack, C.F., Amsler, C.D., McClintock, J.B. Baker, B.J. 2010. Chemically mediated resistance to mesoherbivory in finely branched macroalgae along the western Antarctic Peninsula. European Journal of Phycology, 45, 1926.
Becker, S., Graeve, M. Bischof, K. 2010. Photosynthesis and lipid composition in the Antarctic rhodophyte Palmaria decipiens: effects of changing light and temperature levels. Polar Biology, 33, 945955.
Becker, S., Walter, B. Bischof, K. 2009. Freezing tolerance and photosynthetic performance of polar seaweeds at low temperatures. Botanica Marina, 52, 609616.
Bischoff-Bäsmann, B. Wiencke, C. 1996. Temperature requirements for growth and survival of Antarctic rhodophyta. Journal of Phycology, 32, 525535.
Braun, M. Gossmann, H. 2002. Glacial changes in the areas of Admiralty Bay and Potter Cove, King George Island, Maritime Antarctica. In Beyer, L. & Bölter, M., eds. Geoecology of Antarctic ice-free coastal landscapes. Berlin: Springer, 7590.
Bucolo, P., Amsler, C.D., McClintock, J.B. Baker, B.J. 2011. Palatability of the Antarctic rhodophyte Palmaria decipiens (Reinsch) RW Ricker and its endo/epiphyte Elachista antarctica Skottsberg to sympatric amphipods. Journal of Experimental Marine Biology and Ecology, 396, 202206.
Campana, G.L., Quartino, M.L., Yousif, A. Wulff, A. 2008. Impacts of UV radiation and grazing on the structure of a subtidal benthic diatom assemblage in Antarctica. Berichte zur Polarforschung, 571, 302310.
Campana, G.L., Zacher, K., Fricke, A., Molis, M., Wulff, A., Quartino, M.L. Wiencke, C. 2009. Drivers of colonization and succession in polar benthic macro- and microalgal communities. Botanica Marina, 52, 655667.
Chung, H., Oh, Y.S., Lee, I.K. Kim, D.Y. 1994. Macroalgal vegetation of Maxwell Bay in King George Island, Antarctica. Korean Journal of Phycology, 9, 4758.
DeLaca, T.E. Lipps, J.H. 1976. Shallow-water marine associations, Antarctic Peninsula. Antarctic Journal of the United States, 11(1), 1220.
Drew, E.A. 1977. Physiology of photosynthesis and respiration in some Antarctic marine algae. British Antarctic Survey Bulletin, No. 46, 5976.
Dunlap, W.C. Shick, J.M. 1998. Ultraviolet radiation-absorbing mycosporine-like amino acids in coral reef organisms: a biochemical and environmental perspective. Journal of Phycology, 34, 418430.
Eggert, A. Wiencke, C. 2000. Adaptation and acclimation of growth and photosynthesis of five Antarctic red algae to low temperatures. Polar Biology, 23, 609618.
Farman, J.C., Gardiner, B.G. Shanklin, J.D. 1985. Large losses of total ozone in Antarctica reveal seasonal ClNx/Nox interaction. Nature, 315, 207210.
Franklin, L.A. Forster, R.M. 1997. The changing irradiance environment: consequences for marine macrophyte physiology, productivity and ecology. European Journal of Phycology, 32, 207232.
Fredersdorf, J. Bischof, K. 2007. Irradiance of photosynthetically active radiation determines ultraviolet-susceptibility of photosynthesis in Ulva lactuca L. (Chlorophyta). Phycological Research, 55, 295301.
Fredersdorf, J., Müller, R., Becker, S., Wiencke, C. Bischof, K. 2009. Interactive effects of radiation, temperature and salinity on different life history stages of the Arctic kelp Alaria esculenta (Phaeophyceae). Oecologia, 160, 483492.
Graeve, M., Kattner, G., Wiencke, C. Karsten, U. 2002. Fatty acid composition of Arctic and Antarctic macroalgae: indicator of phylogenetic and trophic relationships. Marine Ecology Progress Series, 231, 6774.
Hanelt, D., Melchersmann, B., Wiencke, C. Nultsch, W. 1997. Effects of high light stress on photosynthesis of polar macroalgae in relation to depth distribution. Marine Ecology Progress Series, 149, 255266.
Hanelt, D., Jaramillo, M.J., Nultsch, W., Senger, S. Westermeier, R. 1994. Photoinhibition as a regulative mechanism of photosynthesis in marine algae of Antarctica. Serie Cientifico Instituto Antartico Chileno, 44, 6777.
Heywood, R.B. Whitaker, T.M. 1984. The Antarctic marine flora. In Laws, R.M., ed. Antarctic ecology, vol. 2. London: Academic Press, 373419.
Hommersand, M., Moe, R.L., Amsler, C.D. Fredericq, S. 2009. Notes on the systematics and biogeographical relationships of Antarctic and sub-Antarctic Rhodophyta with descriptions of four new genera and five new species. Botanica Marina, 52, 509534.
Hoyer, K., Karsten, U. Wiencke, C. 2002. Induction of sunscreen compounds in Antarctic macroalgae by different radiation conditions. Marine Biology, 141, 619627.
Hoyer, K., Karsten, U., Sawall, T. Wiencke, C. 2001. Photoprotective substances in Antarctic macroalgae and their variation with respect to depth distribution, different tissues and developmental stages. Marine Ecology Progress Series, 211, 117129.
Huang, Y.M., Amsler, M.O., McClintock, J.B., Amsler, C.D. Baker, B.J. 2007. Patterns of gammaridean amphipod abundance and species composition associated with dominant subtidal macroalgae from the western Antarctic Peninsula. Polar Biology, 30, 14171430.
Huang, Y.M., McClintock, J.B., Amsler, C.D., Peters, K.J. Baker, B.J. 2006. Feeding rates of common Antarctic gammarid amphipods on ecologically important sympatric macroalgae. Journal of Experimental Marine Biology and Ecology, 329, 5565.
Iken, K., Quartino, M.L. Wiencke, C. 1997. Grazing by the Antarctic fish Notothenia coriiceps: evidence for selective feeding on macroalgae. Antarctic Science, 9, 386391.
Kain, J.M. 1989. The seasons in the subtidal. British Phycological Journal, 24, 203215.
Karsten, U., Wiencke, C. Kirst, G.O. 1990. The ß-dimethylsulfoniumpropionate (DMSP) content of macroalgae from Antarctica and southern Chile. Botanica Marina, 33, 143146.
Kirst, G.O. Wiencke, C. 1995. Ecophysiology of polar algae. Journal of Phycology, 31, 181199.
Klöser, H., Quartino, M.L. Wiencke, C. 1996. Distribution of macroalgae and macroalgal communities in gradients of physical conditions in Potter Cove, King George Island, Antarctica. Hydrobiologia, 333, 117.
Klöser, H., Ferreyra, G., Schloss, I., Mercuri, G., Laturnus, F. Curtosi, A. 1993. Seasonal variation of algal growth conditions in sheltered Antarctic bays: the example of Potter Cove (King George Island, South Shetlands). Journal of Marine Systems, 4, 289301.
Lüder, U.H., Knoetzel, J. Wiencke, C. 2001a. Acclimation of photosynthesis and pigments to seasonally changing light conditions in the endemic Antarctic red macroalga Palmaria decipiens. Polar Biology, 24, 598603.
Lüder, U.H., Knoetzel, J. Wiencke, C. 2001b. Two forms of phycobilisomes in the Antarctic red macroalga Palmaria decipiens (Palmariales, Florideophyceae). Physiologia Plantarum, 112, 572581.
Lüder, U.H., Wiencke, C. Knoetzel, J. 2002. Acclimation of photosynthesis and pigments during and after six months of darkness in Palmaria decipiens (Rhodophyta): a study to simulate Antarctic winter sea ice cover. Journal of Phycology, 38, 904913.
Lüning, K. 1990. Antarctic region. In Lüning, K., ed. Seaweeds: their environment, biogeography and ecophysiology. New York: John Wiley, 245250.
Michler, T., Aguilera, J., Hanelt, D., Bischof, K. Wiencke, C. 2002. Long-term effects of ultraviolet radiation on growth and photosynthetic performance of polar and cold-temperate macroalgae. Marine Biology, 140, 11171127.
Müller, R., Laepple, T., Bartsch, I. Wiencke, C. 2009. Impact of oceanic warming on the distribution of seaweeds in polar and cold-temperate waters. Botanica Marina, 52, 617638.
Nedzarek, A. Rakusa-Suscezewski, S. 2004. Decomposition of macroalgae and the release of nutrient in Admiralty Bay, King George Island, Antarctica. Polar Bioscience, 17, 2635.
Oliveira, E.C., Absher, T.M., Pellizzari, F.M. Oliveira, M.C. 2009. The seaweed flora of Admiralty Bay, King George Island, Antarctic. Polar Biology, 32, 16391647.
Oren, A. Gunde-Cimerman, N. 2007. Mycosporines and mycosporine-like amino acids: UV protectants or multipurpose secondary metabolites? FEMS Microbiology Letters, 269, 110.
Peters, K.J., Amsler, C.D., Amsler, M.O., McClintock, J.B., Dunbar, R.B. Baker, B.J. 2005. A comparative analysis of the nutritional and elemental composition of macroalgae from the western Antarctic Peninsula. Phycologia, 44, 453463.
Poppe, F., Hanelt, D. Wiencke, C. 2002. Changes in ultrastructure, photosynthetic activity and pigments in the Antarctic red alga Palmaria decipiens during acclimation to UV radiation. Botanica Marina, 45, 253261.
Poppe, F., Schmidt, R.A., Hanelt, D. Wiencke, C. 2003. Effects of UV radiation on the ultrastructure of several red algae. Phycological Research, 51, 1119.
Post, A. Larkum, A.W.D. 1993. UV-absorbing pigments, photosynthesis and UV exposure in Antarctica: comparison of terrestrial and marine algae. Aquatic Botany, 45, 231243.
Quartino, M.L. de Zaixso, A.L.B. 2008. Summer macroalgal biomass in Potter Cove, South Shetland Islands, Antarctica: its production and flux to the ecosystem. Polar Biology, 31, 281294.
Quartino, M.L., Zaixso, H.E. de Zaixso, A.L.B. 2005. Biological and environmental characterization of marine macroalgal assemblages in Potter Cove, South Shetland Islands, Antarctica. Botanica Marina, 48, 187197.
Quartino, M.L., Klöser, H., Schloss, I.R. Wiencke, C. 2001. Biomass and associations of benthic marine macroalgae from the inner Potter Cove (King George Island, Antarctica) related to depth and substrate. Polar Biology, 24, 349355.
Ricker, R.W. 1987. Taxonomy and biogeography of Macquarie Island seaweeds. London: British Museum Press, 218225.
Rintoul, S.R., Hughes, C. Olbers, D. 2001. The Antarctic circumpolar current system. In Siedler, G., Church, J. & Gould, J., eds. Ocean circulation and climate-observing and modelling the global ocean. London: Academic Press, 271302.
Shick, J.M. Dunlap, W.C. 2002. Mycosporine-like amino acids and related gadusols: biosynthesis, accumulation, and UV-protective functions in aquatic organisms. Annual Review of Physiology, 64, 223262.
Schloss, I.R., Ferreyra, G.A., González, O., Atencio, A., Fuentes, V.L., Tosonotto, G., Mercuri, G., Sahade, R., Tatián, M. Abele, D. 2008. Long-term hydrographic conditions and climate trends in Potter Cove. Berichte zur Polarforschung, 571, 382390.
Thomas, D.N. Wiencke, C. 1991. Photosynthesis, dark respiration and light independent carbon fixation of endemic Antarctic macroalgae. Polar Biology, 11, 329337.
Turner, J., Colwell, S.R., Marshall, G.J., Lachlan-Cope, T.A., Carleton, A.M., Jones, P.D., Lagun, V., Reid, P.A. Iagovkina, S. 2005. Antarctic climate change during the last 50 years. International Journal of Climatology, 25, 279294.
Van den Hoek, C., Mann, D.G. Jahns, H.M. 1995. Algae: an introduction to phycology. Cambridge: Cambridge University Press, 79 pp.
Van der Meer, J.P. Todd, E.R. 1980. The life history of Palmaria palmata in culture: a new type for the Rhodophyta. Canadian Journal of Botany, 58, 12501256.
Weykam, G. Wiencke, C. 1996. Seasonal photosynthetic performance of the endemic Antarctic red alga Palmaria decipiens (Reinsch) Ricker. Polar Biology, 16, 357361.
Weykam, G., Thomas, D.N. Wiencke, C. 1997. Growth and photosynthesis of the Antarctic red algae Palmaria decipiens (Palmariales) and Iridea cordata (Gigartinales) during and following extended periods of darkness. Phycologia, 36, 395405.
Weykam, G., Gómez, I., Wiencke, C., Iken, K. Klöser, H. 1996. Photosynthetic characteristics and C:N ratios of macroalgae from King George Island (Antarctica). Journal of Experimental Marine Biology and Ecology, 204, 122.
Wiencke, C. 1990. Seasonality of red and green macroalgae from Antarctica - a long-term culture study under fluctuating Antarctic daylengths. Polar Biology, 10, 601607.
Wiencke, C. 1996. Recent advances in the investigation of Antarctic macroalgae. Polar Biology, 16, 231240.
Wiencke, C. Clayton, M.N. 2002. Antarctic seaweeds. Ruggell, Liechtenstein: Gantner Verlag KG, 239 pp.
Wiencke, C. Dieck, I.T. 1989. Temperature requirements for growth and temperature tolerance of macroalgae endemic to the Antarctic region. Marine Ecology Progress Series, 54, 189197.
Wiencke, C. Dieck, I.T. 1990. Temperature requirements for growth and survival of macroalgae from Antarctica and southern Chile. Marine Ecology Progress Series, 59, 157170.
Wiencke, C., Gómez, I. Dunton, K. 2009. Phenology and seasonal performance of polar seaweeds. Botanica Marina, 52, 585592.
Wiencke, C., Ferreyra, G.A., Abele, D. Marenssi, S. 2008. The Antarctic ecosystem of Potter Cove, King George Island (Isla 25 de Mayo). Synopsis of research performed 1999–2006 at the Dallmann Laboratory and Jubany Station. Berichte zur Polarforschung, 571, 406 pp.
Wiencke, C., Bartsch, I., Bischoff, B., Peters, A.F. Breeman, A.M. 1994. Temperature requirements and biogeography of Antarctic, Arctic and amphiequatorial seaweeds. Botanica Marina, 37, 247259.
Wiencke, C., Rahmel, J., Karsten, U., Weykam, G. Kirst, G.O. 1993. Photosynthesis of marine macroalgae from Antarctica: light and temperature requirements. Botanica Acta, 106, 7887.
Wiencke, C., Clayton, M.N., Gómez, I., Iken, K., Lüder, U.H., Amsler, C.D., Karsten, U., Hanelt, D., Bischof, K. Dunton, K. 2007. Life strategy, ecophysiology and ecology of seaweeds in polar waters. Reviews in Environmental Science and Biotechnology, 6, 95126.
Wulff, A., Iken, K., Quartino, M.L., Al-Handal, A., Wiencke, C. Clayton, M.N. 2009. Biodiversity, biogeography and zonation of marine benthic micro- and macroalgae in the Arctic and Antarctic. Botanica Marina, 52, 491509.
Zacher, K. Campana, G.L. 2008. UV and grazing effects on an intertidal and subtidal algal assemblage: a comparative study. Berichte zur Polarforschung, 571, 287295.
Zacher, K., Rautenberger, R., Hanelt, D., Wulff, A. Wiencke, C. 2009. The abiotic environment of polar marine benthic algae. Botanica Marina, 52, 483490.
Zacher, K., Wulff, A., Molis, M., Hanelt, D. Wiencke, C. 2007. Ultraviolet radiation and consumer effects on a field-grown intertidal macroalgal assemblage in Antarctica. Global Change Biology, 13, 12011215.
Zaneveld, J.S. 1966. Vertical zonation of Antarctic and sub-Antarctic benthic marine algae. Antarctic Journal of the United States, 1(5), 211213.
Zemke-White, W.L. Ohno, M. 1999. World seaweed utilization: an end-of-century summary. Journal of Applied Phycology, 11, 369376.
Zielinski, K. 1981. Benthic macroalgae of Admiralty Bay (King George Island, South Shetlands, Antarctica). Polish Polar Research, 2, 7194.
Zielinski, K. 1990. Bottom macroalgae of the Admiralty Bay (King George Island, South Shetlands, Antarctica). Polish Polar Research, 11, 95131.
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Antarctic Science
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