• ankare

    • Referenser

    1. Bergström L. 2005. Macroalgae in the Baltic Sea – responses to low salinity and nutrient enrichment. PhD thesis. Department of Ecology and Envirnomental Science Umeå University, Sweden.
    2. Åberg P. 1992a. A demographic study of two populations of the seaweed Ascophyllum nodosum. Ecology 73: 1473-1487.
    3. Åberg P. 1992b. Size based demography of the seaweed Ascophyllum nodosum in stochastic environments. Ecology 73: 1488-1501.
    4. Kautsky L, unpubl.
    5. Malm T. & L. Kautsky. 2004. Are Bladderwrack (Fucus vesiculosus L.) holdfasts that support several fronds composed of one or several genetic individuals? Aquatic Bot. 80:221-226.
    6. Bergström  L., Tatarenkov A.,  Johannesson K., Berger-Jönsson, R. Kautsky, L. 2005. Genetic and morphological identification of Fucus radicans (spec. nov., Fucales, Phaeophyceae) in the brackish Baltic Sea.J. Phycol. 41:1025-1038.
    7. Kautsky, L, & Dahlgren, S. 2003. Förslag till indikatorer för biologisk mångfald i vatten. Del 2: ”Förslag till indikatorer för biologisk mångfald i kustmiljöer i Östersjön”, sid 23-46. Rapport Naturvårdsverket.
    8. Råberg, S. 2004. Competition from filamentous algae on Fucus vesiculosus - negative effects and the implications on biodiversity of associated flora and fauna. Lic. Thesis. Plant ecology, Department of Botany. Stockholm university. 2004:4.
    9. Malm. T., Engkvist, R. & Kautsky L. 1999. Grazing effects by two fresh-water snails on juvenile Fucus vesiculosus L. in the Baltic Sea. Mar. Ecol. Prog. Ser. 188: 63-71.
    10. Wikström, S.A., Kautsky, L. and Eriksson O. Canopy-forming seaweed promote strong ecosystem resilience to disturbance. in manus 2006.
    11. Plinski, M & Florczyke, I. 1984. Changes in the phytobenthos resulting from eutrophication of the Puck Bay. Limnologica 15 : 325-327.
    12. Pedersen, M. 1983. Tänk framåt – odla alger. Vattenbrukets primärproducenter. Forskningsrådsnämnden och Havsresursdelegationen. Rapport 83:4.
    13. Malm, T., Råberg, S. Fell, S. & P. Carlsson. 2004. Effects of beach cast cleaning on beach quality, microbial food web, and littoral macrofaunal biodiversity. Est. Coast. Shelf Science. 60: 339-347.
    14. Hasselström, L. Söderqvist T och Malm T. Welfare consequences of a relilientecological state: the case of filamentous red algae on beaches in Öland, Sweden. in manus 2006.
    15. Karlsson, J., & L-O Loo. 1999. On the distribution and continuous expansion of the Japanese seaweed – Sargassum muticum - in Sweden. Botanica Marina 42: 285-294.
    16. Nielsen, R., Kristiansen, Aa, Mathiesen L & H. Mathiesen. Eds. 1995. Distributional index of the benthic macroalgae of the Baltic Sea area. The Baltic Marine Biologists Publication No. 18. Acta Botanica Fennica 155: 1-51.
    17. Pearsson, G, Kautsky L. and Serrao, E. 2000. Recent evolution in Baltic Fucus vesiculosus: reduced tolernace to emersion stresses compared to intertidal (North Sea) populations. MEPS 202: 67-79.
    18. Nygård, 2005.
    19. Beer S. and Kautsky L. 1992. The recovery of net photosynthesis during rehydration of 3 Fucus species from the Swedish west-coast following exposure to air. Bot. Mar. 35: 487-491.
    20. Coleman RA, Underwood AJ, Benedetti-Cecchi L, Åberg P, Arenas F, Arrontes J, Castro J, Hartnoll RG, Jenkins SR, Paula J, Della Santina P, Hawkins SJ. 2006. A continental scale evaluation of the role of limpet grazing on rocky shores. Oecologia 147: 556-564.
    21. Cervin G, Åberg P. 1997. Do Littorinids affect the survival of Ascophyllum nodosum germlings? Journal of Experimental Marine Biology and Ecology 218: 35-47.
    22. Viejo R, Åberg P, Cervin G, & Lindegarth M. 1999. The combined effect of density, adult canopy and grazing on germling survival of a common brown seaweed. Marine Ecology Progress Series 187:113-120.
    23. Lindegarth M, Åberg P, Cervin G, Nilsson P. 2001. Effects of grazing on the structure of mid-shore, intertidal assemblages in moderately exposed rocky shores of the Swedish west coast. Marine Ecology Progress Series 212: 29-38.
    24. Cervin G, Lindegarth M, Viejo RM, Åberg P. 2004. Effects of small-scale disturbances of canopy and grazing on intertidal assemblages on the Swedish west coast. Journal of Experimental Marine Biology and Ecology 302: 35-49.
    25. Pavia H, Carr H, Åberg P. 1999a. Feeding preferences and habatat selection of three crustacean mesoherbivores inhabiting the brown seaweed Ascophyllum nodosum and its epiphytes. Journal of Experimental Marine Biology and Ecology 236: 15-32.
    26. Viejo R, & Åberg ,P 2003. Temporal and spatial variation in the density of mobile epifauna and grazing damage on the seaweed Ascophyllum nodosum. Marine Biology 142: 1229-1241.
    27. Malm, T., Kautsky, L. & Engkvist, R. 2001. Reproduction, recruitment and geographical distribution of Fucus serratus L. in the Baltic Sea. Botanica Marina 44(2):101-108.
    28. Kautsky, H. 1991. Influence of Eutrophication on the Distribution of Phytobenthic Plant and Animal Communities. Hydrobiol. 76 (3):423-432.
    29. Kautsky, H. 2000. Små förändringar i växternas djuputbredning. sid 62-63. Miljötillståndet i Egentliga Östersjön, årsrapport.
    30. Kautsky, H. 2005. Den förlorade biodiversiteten. sid 45-47. Miljötillståndet i Egentliga Östersjön, årsrapport.
    31. Kautsky, N., Kautsky, H., Kautsky, U. & Waern, M. 1986. Decreased depth penetration of Fucus vesiculosus (L.) since the 1940s indicate eutrophication of the Baltic Sea. - Mar. Ecol. Prog. Ser. 28: 1-8.
    32. Kangas, P. Autio, H. Hällfors, G. Luther, H. Niemi, Å. & Salemaa H. 1982. A general model of the decline of Fucus vesiculosus at Tvärminne, south coast of Finland in 1977-81. Acta Bot. Fennica 118:1-27.
    33. Engkvist., R., Malm, T. & Tobiasson, S. 2001. Density dependent grazing effects of Idotea baltica (Pallas) on Fucus vesiculosus L. in the Baltic Sea. Aquatic Ecology 34(3):253-260.
    34. Eriksson, BK, Johansson G and Snoeijs P. 1998. Long-term changes in the subtidal zonation of brown algae in the southern Bothnian Sea. Eur. J Phycol. 33:241-249.
    35. Kautsky, H., Kautsky, U. & Nellbring, S. 1988. Distribution of flora and fauna in an area receiving pulp mill effluents in the Baltic Sea. Ophelia, Vol. 28:139-155.
    36. Bergström, L. & Bergström, U. 1999. Species diversity and distribution of aquatic macrophytes in the Northern Quark, Baltic Sea. Nordic Journal of Botany, 19 (3):375-384.
    37. Foberg, M. 1994. Växter och djur i Bottniska viken. Nordstedts tryckeri AB i samverkan med Stockholms Marina Forskningscentrum. ISBN 91-972304-0-5.
    38. Snoeijs, P. 1999. Marine and brackish waters. Acta Phytogoegr. Suec. 84:187-212.
    39. Tolstoy, A & Österlund K. 2003. Alger vid Sveriges östersjökust – en fotoflora. ArtDatabanken. SLU, Uppsala.
    40. Dahlgren, S. & Kautsky, L. 2002. Distribution and recent changes in benthic macrovegetation in the Baltic Sea basins – a literature review. Växtekologi 2002:1, Botaniska institutionen, Stockholms Universitet.
    41. Vahteri, P. Mäkinen, A. Salvonius, S. & Vuorinen, I. 2000. Are drifitng algal mats conquring the bottom of the Archipelago Sea, SW Finland? Ambio 29:338-343.
    42. Andersson. L. 2002. Has water quality improved in the Stockholm archipelago? A study in the distribution of Fucus vesiculosus and its epiphytic cover over the last 30 years. Examensarbete, Institutionen för Systemekologi, Stockholms universitet.
    43. Kautsky, H. 1988. Factors structuring phytobenthic communities in the Baltic Sea. Ph. D. thesis, Department of Zoology, University of Stockholm.
    44. Engkvist., R., Malm, T, & Nilsson , J. 2004. Interaction between isopod grazing and wave action: a structuring force in macroalgal communities in the southern Baltic Sea. Aquatic Ecology 38:403-413.
    45. Rönnberg,, O & Mathiesn L. 1998. Long-term changes in the marine macroalge of Lågskär (n. Baltic). Nord. J. Bot. 18:379-384.
    46. Tatarenkov, A. J.R., Kautsky, L. Johannesson, K., Hierarchical genetic structure in the marine alga Fucus vesiculosus L. over spatial scales from 10 m to 800 km. Manuscript 2006.
    48. Berger, R. Bergström L. Graneli E and Kautsky L: 2004. How does eutrophication affect different life stages of Fucus vesiculosus in the Baltic Sea? A conceptual model Hydrobiologia 514: 243-248.
    49. Andersson, S. Kautsky L. 1996. Copper effects on reproductive stages of Baltic Sea Fucus vesiculosus. Mar. biol. 125: 171-176.
    50. Tatarenkov A, Bergström L. Jönsson B R Serrao E.A. Kautsky L. and Johannesson K. 2005. Intriguing asexual life in marginal populations of the brown seaweed Fucus vesiculosus. Mol. Ecol. 14:647-651.
    51. Coyer, J.A., P.A., Stam, W.T., Olsen, J.L. 2003. Post-ice age recolonization and differentiation of Fucus serratus L. (Phaeophyceae; Fucaceae) populations in Northern Europe. Molecular Ecology. 12: p. 1817-1829.
    52. Malm T, pers.obs.
    53. Gabrielsen TM, B.C., Rueness J, 2003. Phylogeny and interfertility of North Atlantic populations of 'Ceramium strictum' (Ceramiales, Rhodophyta): how many species? European Journal of Phycology, 2003. 38: p. 1-13.
    54. Bergström, L. Berger  R and Kautsky L. 2003. Negative direct effects of nutrient enrichment on the establishment of Fucus vesiculosus in the Baltic Sea. Eur. J Phycol. 38: 41-46.
    55. Janson K, Allozyme and shell variation in two marine snails (Littorina, Prosobranchia) with different dispersal abilities. Biol. J. Linn. Soc., 1987. 30: p. 245-256.
    56. Pavia H, Toth G, Åberg P. 1999b. Trade-offs between growth and phlorotannin production in the brown seaweed Ascophyllum nodosum. Journal of Ecology 87: 761-771.
    57. Åberg P, unpubl.
    58. Wikström, S.A., von Wachenfeldt, T., Kautsky, L. 2002. Estblishemnt of the exotic species Fucus evanescens C. Ag. (Phaeophyceae) in Öregrund, Southern Sweden. Botanica Marina, 45: p. 510-517.
    59. Råberg, S. m.fl, unpubl.
    60. Kraufvelin, P. Salvonius, S. Christie, H. Moy, F. E. Karez, R. & Pedersen, M. F. 2006. Eutrophication-induced changes in benthic algae affect the behaviour and fitness of the marine amphipod Gammarus locusta. Aquatic Botany 84:199-209.
    61. Berger, R., Malm, T. and Kautsky L. 2001. Two reproductive strategies in Baltic Fucus vesiculosus L. Eur. J Phycol. 36: 265-273.
    62. Råberg, S. Berger-Jönsson R, Björn A. Graneli E and Kautsky L. 2004. Effects of Pilayella littoralis on Fucus vesiculosus recruitment. Implications for community composition. MEPS 289: 131-139.
    63. Pavia H, Toth GB, 2000. Inducible chemical restistance to herbivory in the brown seaweed Ascophyllum nodosum. Ecology 81: 3212-3225.
    64. Pavia H, Cervin G, Lindgren A, Åberg P. 1997. The effect of UV-B radiation and herbivory on the production of phlorotannins in the brown seaweed Ascophyllum nodosum. Marine Ecology Progress Series 157: 139-146.
    65. Svensson, CJ., Pavia, H., Åberg, P. unpubl.
    66. Pavia, H. Toth, G., Åberg, P. 2002. Optimal defense theory: elasticity analysis as a tool to predict intraplant variation in defenses. Ecology 83: 891-897.
    67. Andersson, S. Kautsky L. 1996. Copper effects on reproductive stages of Baltic Sea Fucus vesiculosus. Mar. biol. 125: 171-176.
    68. Kautsky, H., Kautsky, L., Kautsky, N., Kautsky, U. & Lindblad, C. 1992. Studies on Fucus vesiculosus community in the Baltic Sea. In Sjögren, E. (ed.): Phycological studies of Nordic coastal waters - a festschrift dedicated to Prof. Mats Waern on his 80th birthday - Acta Phytogeogr. Suec., 78. Opulus Press AB, Uppsala. Sweden.
    69. Andersson, S., Kautsky, L and N. Kautsky. 1992. Effects of salinity and bromine on zygotes and embryos of Fucus vesiculosus from the Baltic Sea. Marine Biology 114: 661- 665.
    70. Andersson, S. Kautsky L. 1996. Copper effects on reproductive stages of Baltic Sea Fucus vesiculosus. Mar. biol. 125: 171-176.
    71. Eklund B. and Kautsky L. 2003. Review on toxicity testing with marine macroalgae and the need for method standardization – examplified with copper and phenol. Mar Poll Bull 46: 171-181.
    72. Wikström, S.A., Kautsky, L. and Eriksson O. Canopy-forming seaweed promote strong ecosystem resilience to disturbance. in manus 2006 
    73. Wikström, S.A., Kautsky, L. & Malm, T. 2000. The effects of chlorine-free pulp mill effluents on reproduction and grazing interactions in the Baltic Sea Fucus vesiculosus. Ophelia 53(3):173-179.
    74. Malm, T. 1999. Distribution patterns and ecology of Fucus serratus L. and Fucus vesiculosus L. In the Baltic Sea. Ph. D. thesis, Department of Botany, University of Stockholm, Sweden.
    75. Kautsky, L. Wibjörn, C. & Kautsky, H. 2006. Förslag till och vidareutveckling av bedömningsgrunder för kust och hav enligt ramdirektivets krav – Makroalger och några gömfröiga vattenväxter. Rapport till Naturvårdsverket, Botaniska institutionen och Systemekologiska institutionen, Stockholms unviersitet.
    76. Blomqvist, S. 1982. Ekologisk bedömningsgrund för muddring och muddertippning. Statens Naturvårdsverk. Rapport 1613.
    77. Schramm, W. & Nienhius, P. H. 1996. Marine benthic vegetation - recent changes and the effects of eutrophication. Ecological Studies, Vol. 123:131-159. Springer. Berlin.
    78. Roos, 2004.
    79. Johannesson, K. & Tatarenkov, A. 1997. Allozyme variation in a snail (Littorina saxatilis) - deconfounding the effects of microhabitat and gene flow. Evolution, 1997. 51: p. 402-409.
    80. Reusch T B H, E.A., Hämmerli A, Worm B, 2005. Ecosystem recovery after climatic extremes enhanced by genotype diversity. Proceedings of the Natural Academy of Sciences, USA, 2005. 102: p. 2826-2831.
    Sök i MARBIPP