Advanced search
Publication Cover
Polar Research Volume 35, 2016 - Issue 1
Journal homepage
656
Views
0
CrossRef citations to date
0
Altmetric
Research/review articles

Adjustment of pigment composition in Desmarestia (Desmarestiaceae) species along a sub-Antarctic to Antarctic latitudinal gradient

Andrés MansillaLaboratory of Antarctic and Sub-Antarctic Marine EcosystemsUniversity of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile;Institute of Ecology and Biodiversity Las Palmeras St. 3425, Ñuñoa, Santiago 8320000, Chile
,
Fabio MéndezLaboratory of Antarctic and Sub-Antarctic Marine EcosystemsUniversity of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile;Institute of Ecology and Biodiversity Las Palmeras St. 3425, Ñuñoa, Santiago 8320000, Chile;Conservation and Management of Natural Resourcesin Sub-Antarctic Environments MS Program, University of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile
,
Silvia MurciaLaboratory of Antarctic and Sub-Antarctic Marine EcosystemsUniversity of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, ChileCorrespondence[email protected]
,
Juan Pablo RodríguezLaboratory of Antarctic and Sub-Antarctic Marine EcosystemsUniversity of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile;Institute of Ecology and Biodiversity Las Palmeras St. 3425, Ñuñoa, Santiago 8320000, Chile;Conservation and Management of Natural Resourcesin Sub-Antarctic Environments MS Program, University of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile
,
Johanna MarambioLaboratory of Antarctic and Sub-Antarctic Marine EcosystemsUniversity of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile;Institute of Ecology and Biodiversity Las Palmeras St. 3425, Ñuñoa, Santiago 8320000, Chile;Conservation and Management of Natural Resourcesin Sub-Antarctic Environments MS Program, University of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile
,
Sebastián RosenfeldLaboratory of Antarctic and Sub-Antarctic Marine EcosystemsUniversity of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile;Institute of Ecology and Biodiversity Las Palmeras St. 3425, Ñuñoa, Santiago 8320000, Chile;Conservation and Management of Natural Resourcesin Sub-Antarctic Environments MS Program, University of Magallanes, 01855 Bulnes Ave., Punta Arenas 6200000, Chile
,
Nair YokoyaInstitute of Botany São Paulo State Department of the Environment, 3687 Miguel Estéfano Ave., São Paulo 04301-012, SP, Brazil
&
Kai BischofMarine Botany Department University of Bremen, NW2 Leobener St., Bremen DE-28359, Germany
 show all
Article: 29383 | Published online: 04 Aug 2016

References

  • Aguilera J., Bischof K., Karsten U., Hanelt D., Wiencke C. Seasonal variation in ecophysiological patterns in macroalgae from an Arctic fjord. II. Pigment accumulation and biochemical defence systems against high light stress. Marine Biology. 2002; 140: 1087–1095.
  • Amsler C., Rowley R., Laur D., Quetin L., Ross R. Vertical distribution of Antarctic peninsular macroalgae: cover, biomass and species composition. Phycologia. 1995; 34: 424–430.
  • Aravena J., Luckman B. Spatio-temporal rainfall patterns in southern South America. International Journal of Climatology. 2009; 29: 2106–2120.
  • Barko J.W., Smart R.M. Comparative influences of light and temperature on the growth and metabolism of selected submersed freshwater macrophytes. Ecological Monographs. 1981; 51: 219–236.
  • Bischof K., Rautenberger R., Brey L., Pérez-Lloréns J.L. Physiological acclimation to gradients of solar irradiance within mats of the filamentous green macroalga Chaetomorpha linum from southern Spain. Marine Ecology Progress Series. 2006; 306: 165–175.
  • Breeman A. Relative importance of temperatures and other factors in determining geographic boundaries of seaweeds: experimental and phenological evidence. Helgoländer Meeresunters. 1988; 42: 199–241.
  • Brouwer P. Decomposition in situ of the sublittoral Antarctic macroalga Desmarestia anceps Montagne. Polar Biology. 1996; 16: 129–137.
  • CEAZA-MET (Center for Advanced Studies in Arid Zones, Meteorology Section). Red Meteorológica de Sensores, Chile. (Network of Meteo–Sensors, Chile). 2010. Accessed on the internet at http://www.ceazamet.cl on February 2013..
  • Clarke A., Meredith M.P., Wallace M.I., Brandon M.A., Thomas D.N. Seasonal and interannual variability in temperature, chlorophyll and macronutrients in northern Marguerite Bay, Antarctica. Deep Sea Research Part II. 2008; 55: 1988–2006.
  • Dayton P. Ecology of kelp communities. Annual Review of Ecology and Systematics. 1985; 16: 215–245.
  • Deregibus D., Quartino M.L., Campana G.L., Momo F.R., Wiencke C., Zacher K. Photosynthetic light requirements and vertical distribution of macroalgae in newly ice-free areas in Potter Cove, South Shetland Islands, Antarctica. Polar Biology. 2015; 39: 153–166.
  • Dhargalkar V. Effect of different temperature regimes on the chlorophyll a concentration in four species of Antarctic macroalgae. Seaweed Research and Utilization. 2004; 26: 237–243.
  • Dring M.J. Chromatic adaptation of photosynthesis in benthic marine algae: an examination of its ecological significance using a theoretical model. Limnology and Oceanography. 1981; 26: 271–284.
  • Eggert A., Visser R.J.W., Van Hasselt P.R., Breeman A.M. Differences in acclimation potential of photosynthesis in seven isolates of the tropical to warm temperate macrophyte Valonia utricularis (Chlorophyta). Phycologia. 2006; 45: 546–556.
  • Falkowski P.G., LaRoche J. Acclimation to spectral irradiance in algae. Journal of Phycology. 1991; 27: 8–14.
  • Gómez I. Ecophysiology of Antarctic macroalgae: effects of environmental light conditions on photosynthetic metabolism. Revista Chilena Historia Natural. 2001; 74: 251–271.
  • Gómez I., Wiencke C. Photosynthesis, dark respiration and pigment contents of gametophytes and sporophytes of the Antarctic brown alga Desmarestia menziesii . Botanica Marina. 1996; 39: 149–158.
  • Gómez I., Wiencke C. Seasonal growth and photosynthetic performance of the Antarctic macroalga Desmarestia menziesii (Phaeophyceae) cultivated under fluctuating Antarctic daylengths. Botanica Acta. 1997; 110: 25–31.
  • Gómez I., Weykam G., Klöser H., Wiencke C. Photosynthetic light requirements, metabolic carbon balance and zonation of sublittoral macroalgae from King George Island (Antarctica). Marine Ecology Progress Series. 1997; 148: 281–293.
  • Guiry M., Guiry G. AlgaeBase. 2014. Accessed on the internet at http://www.algaebase.org on 22 December 2014..
  • Häder D.P., Häder M. Effects of solar UV-B irradiation on photomovement and motility in photosynthetic and colourless flagellates. Environmental and Experimental Botany. 1989; 29: 273–282.
  • Huovinen P., Gómez I., Lovengreen C. A five-year study of solar ultraviolet radiation in southern Chile (39° S): potential impact on physiology of coastal marine algae?. Photochemistry and Photobiology. 2006; 82: 515–522. [PubMed Abstract].
  • Johansson G., Snoeijs P. Macroalgal photosynthetic responses to light in relation to thallus morphology and depth zonation. Marine Ecology Progress Series. 2002; 244: 63–72.
  • Kirst G., Wiencke C. Ecophysiology of polar algae. Journal of Phycology. 1995; 31: 181–199.
  • Lamb I., Zimmerman M.H. Benthic marine algae of the Antarctic Peninsula. 1977; Washington, DC: American Geophysical Union.
  • Lamouroux J.V.F. Essai sur les genres de la famille des thalassiophytes non articulées. (Essay on the genera of the non-articulated thalassiophytes family.). 1813. Annales du Muséum d'Histoire Naturelle, Paris 20, 21–47, 115–139, 267–293, pls 7–13.
  • Machale K.M., Davison I.R., Falkowski P.G. Thermal acclimation and photoacclimation of photosynthesis in the brown alga Laminaria saccharina. Plant, Cell & Environment. 1996; 19: 1005–1016. [PubMed Abstract] [PubMed CentralFull Text].
  • Mansilla A., Alveal K. Werlinger C. Generalidades sobre las macroalgas. (Overview of macroalgae.). Biología marina y oceanografía: conceptos y procesos. (Marine biology and oceanography: concepts and processes.). 2004; Concepción: Trama Impresores S.A. 349–362.
  • Moe R.L., Silva P.C. Desmarestia antarctica (Desmarestiales, Phaeophyceae), a new ligulate Antarctic species with an endophytic gametophyte. Plant Systematics and Evolution. 1989; 164: 273–283.
  • Motten A.F. Goldman C.A. Diversity of photosynthetic pigments. Tested studies for laboratory teaching. Proceedings of the workshop/conference of the Association for Biology Laboratory Education (ABLE). Vol. 16 . 1995; New Haven, CT: Association for Biology Laboratory Education. 81–98.
  • Navarro N.P., Mansilla A., Plastino E. Iridaea cordata (Gigartinales, Rhodophyta): responses to artificial UVB radiation. Journal of Applied Phycology. 2009; 22: 385–394.
  • Nygård C., Dring M.J. Influence of salinity, temperature, dissolved inorganic carbon and nutrient concentration on the photosynthesis and growth of Fucus vesiculosus from the Baltic and Irish Seas. European Journal of Phycology. 2008; 43: 253–262.
  • Palma E.D., Matano R.P., Piola A.R. A numerical study of the southwestern Atlantic shelf circulation: stratified ocean response to local and offshore forcing. Journal of Geophysical Research—Oceans. 2008; 113: C11010.
  • Peckol P., Ramus J. Abundances and physiological properties of deep-water seaweeds from Carolina outer continental shelf. Journal of Experimental Marine Biology and Ecology. 1988; 115: 25–39.
  • Peters A.F., Oppen M.J., Wiencke C., Stam W.T., Olsen J.L. Phylogeny and historical ecology of the Desmarestiaceae (Phaeophyceae) support a Southern Hemisphere origin. Journal of Phycology. 1997; 33: 294–309.
  • Plastino E., Mansilla A. Werlinger C. Luz y fotosíntesis. (Light and photosynthesis.). Biología marina y oceanografía: conceptos y procesos. (Marine biology and oceanography: concepts and processes.). 2004; Concepción: Trama Impresores S.A. 229–252.
  • Quartino M., Kloeser H., Schloss I., Wiencke C. Biomass and associations of benthic marine macroalgae from the inner Potter Cove (King George Island, Antarctica) related to depth and substrate. Polar Biology. 2001; 24: 349–355.
  • Quartino M., Zaixso H.E., Boraso de Zaixso A.L. Biological and environmental characterization of marine macroalgal assemblages in Potter Cove, South Shetland Islands, Antarctica. Botanica Marina. 2005; 48: 187–197.
  • Ramus J. Seaweed anatomy and photosynthetic performance: the ecological significance of light guides, heterogenous absorption and multiple scatter. Journal of Phycology. 1978; 14: 352–362.
  • Ramus J. Lobban C.S., Wynne M.J. The capture and transduction of light energy. The biology of seaweeds. 1981; Berkely, CA: University of California Press. 458–492.
  • Ramus J. A physiological test of the theory of complementary chromatic adaptation. II. Brown, green and red seaweeds. Journal of Phycology. 1983; 19: 173–178.
  • Rautenberger R., Mansilla A., Gómez I., Wiencke C., Bischof K. Photosynthetic responses to UV-radiation of intertidal macroalgae from the Strait of Magellan (Chile). Revista Chilena de Historia Natural. 2009; 82: 43–61.
  • Rautenberger R., Wiencke C., Bischof K. Acclimation to UV radiation and antioxidative defence in the endemic Antarctic brown macroalga Desmarestia anceps along a depth gradient. Polar Biology. 2013; 36: 1779–1789.
  • Reid J.L. On the total geostrophic circulation of the South Atlantic Ocean: flow patterns, tracers, and transports. Progress in Oceanography. 1989; 23: 149–244.
  • Santana A., Porter C., Butorovic N., Olave C. Primeros antecedentes climatológicos de estaciones automáticas (AWS) en el canal Beagle, Magallanes, Chile. (First climatic registry by automatic weather stations [AWS] in Beagle Channel, Magallanes, Chile.). Anales del Instituto de la Patagonia. 2006; 34: 5–20.
  • Seely G.R., Duncan M.J., Vidiver W.E. Preparative and analytical extraction of pigments from brown algae with dimethyl sulfoxide. Marine Biology. 1972; 12: 184–188.
  • Setchell W.A., Gardner N.L. The marine algae of the Pacific coast of North America. University of California Publications in Botany. 1925; 8: 383–898.
  • Silva N., Calvete C. Características oceanográficas físicas y químicas de canales australes chilenos entre el golfo de Penas y el estrecho de Magallanes. CIMAR Dos Fiordos. (Physical and chemical oceanographic characteristics of southern Chilean channels between the Gulf of Penas and the Strait of Magellan. CIMAR Two Fjords.). Ciencia y Tecnologia del Mar. 2002; 25: 23–88.
  • Smith W.O. Jr. , Comiso J.C. The influence of sea ice on primary production in the Southern Ocean: a satellite perspective. Journal of Geophysical Research. 2008; 113: C05S93.
  • StatSoft. Inc.2004. STATISTICA (data analysis software system) version 7.1. Accessed on the internet at www.statsoft.com/Products/STATISTICA/ in June–November 2014..
  • Torres R., Silva N., Reid B., Frangopulos M. Silicic acid enrichment of Subantarctic surface water from continental inputs along the Patagonian Archipelago interior sea (41–56 S). Progress in Oceanography. 2014; 129: 50–61.
  • Valdenegro A., Silva N. Caracterización oceanográfica física y química de la zona de canales y fiordos australes de chile entre el Estrecho de Magellan y Cabo de Hornos. CIMAR Tres Fiordos. (Oceanographic physical and chemical characterization of the area of channels and fjords of Chile between the Strait of Magellan and Cape Horn. CIMAR Three Fjords.). Ciencia y Tecnología Marina. 2003; 26: 19–60.
  • Van den Hoek V.D.C. The distribution of benthic marine algae in relation to the temperature regulation of their life histories. Biological Journal of the Linnean Society. 1982; 18: 81–144.
  • Wiencke C. Seasonality of brown macroalgae from Antarctica—a long-term culture study under fluctuating Antarctic daylengths. Polar Biology. 1990; 10: 589–600.
  • Wiencke C., Clayton M.N., Gómez I., Iken K., Lüder U.H., Amsler C.D., Karsten U., Hanelt D., Bischof K., Dunton K. Life strategy, ecophysiology and ecology of seaweeds in polar waters. Reviews in Environmental Science and Biotechnology. 2006; 6: 95–126.
  • Wiencke C., Clayton M.N., Schulz D. Life history, reproductive morphology and development of the Antarctic brown alga Desmarestia menziesii J. Agardh. Botanica Acta. 1995; 108: 201–208.
  • Wiencke C., Roleda M.Y., Gruber A., Clayton M.N., Bischof K. Susceptibility of zoospores to UV radiation determines upper depth distribution limit of Arctic kelps: evidence through field experiments. Journal of Ecology. 2006; 94: 455–463.
  • Wiencke C., Stolpe U., Lehmann H. Morphogenesis of the brown alga Desmarestia antarctica cultivated under seasonally fluctuating Antarctic daylengths. Serie Scientifica Chilean Antarctic Institute (INACH). 1991; 41: 65–78.
  • Wu H., Jiang H., Liu C., Deng Y. Growth, pigment composition, chlorophyll fluorescence and antioxidant defenses in the red alga Gracilaria lemaneiformis (Gracilariales, Rhodophyta) under light stress. South African Journal of Botany. 2015; 100: 27–32.
  • Yang E.C., Peters A.F., Kawai H., Stern R., Hanyuda T., Bárbara I., Müller D.G., Strittmatter M., Prud'homme van Reine W.F., Küpper F.C. Ligulate Desmarestia (Desmarestiales, Phaeophyceae) revisited: D. japonica sp. nov. and D. dudresnayi differ from D. ligulata. Journal of Phycology. 2014; 50: 149–166. [PubMed Abstract].
  • Yokoya N.S., Necchi O., Martins A.P., Gonzalez S.F., Plastino E.M. Growth responses and photosynthetic characteristics of wild and phycoerythrin-deficient strains of Hypnea musciformis (Rhodophyta). Journal of Applied Phycology. 2007; 19: 197–205.
  • Zacher K., Roleda M.Y., Wulff A., Hanelt D., Wiencke C. Responses of Antarctic Iridaea cordata (Rhodophyta) tetraspores exposed to ultraviolet radiation. Psychological Research. 2009; 57: 186–193.
  • Zinova A.D. O dvukh burykh vodoroslyakh iz Antarktiki: Phyllogigas i Himantothallus. (On two brown algae from Antarctica: Phyllogigas and Himantothallus.). Botanicheski Zhurnal (Botanical Journal). 1959; 44: 372–379.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.