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References

  • Aguilera J, Karsten U, Lippert H, Vogele B, Philipp E, Hanelt D, Wiencke C. 1999. Effects of solar radiation on growth, photosynthesis and respiration of marine macroalgae from the Arctic. Marine Ecology-Progress Series 191: 109119.
  • Altamirano M, Flores-Moya A, Conde F, Figueroa FL. 2000. Growth seasonality, photosynthetic pigments, and carbon and nitrogen content in relation to environmental factors: a field study of Ulva olivascens (Ulvales, Chlorophyta). Phycologia 39: 5058.
  • Arrontes J, Arenas F, Fernandez C, Rico JM, Oliveros J, Martinez B, Viejo RM, Alvarez D. 2004. Effect of grazing by limpets on mid-shore species assemblages in northern Spain. Marine Ecology-Progress Series 277: 117133.
  • Austin MP, Van Niel KP. 2011. Improving species distribution models for climate change studies: variable selection and scale. Journal of Biogeography 38: 18.
  • Baker SM. 1909. On the causes of the zoning of brown seaweeds on the seashore. New Phytologist 8: 196202.
  • Baker SM. 1910. On the causes of the zoning of brown seaweeds on the seashore II. – The effect of periodic exposure on the expulsion of gametes and on the germination of the oospore. New Phytologist 9: 5467.
  • Baker N. 2008. Chlorophyll fluorescence: a probe of photosynthesis in vivo. Annual Review of Plant Biology 59: 89113.
  • Baker NR, Oxborough K. 2004. Chlorophyll fluorescence as a probe of photosynthetic productivity. In: Govindjee GP, ed. Chlorophyll a fluorescence: a signature of photosynthesis. Dordrecht, the Netherlands: Springer, 6679.
  • Ballantine WJ. 1961. A biologically defined exposure scale for the comparative description of rocky shores. Field Studies 1: 119.
  • Benhissoune S, Boudouresque CF, Verlaque M. 2002. A checklist of the seaweeds of the Mediterranean and Atlantic coasts of Morocco. II. Phaeophyceae. Botanica Marina 45: 217230.
  • Berger F, Taylor A, Brownlee C. 1994. Cell fate determination by the cell wall in early Fucus development. Science 263: 14211423.
  • Bergmann N, Winters G, Rauch G, Eizaguirre C, Gu J, Nelle P, Fricke B, Reusch TBH. 2010. Population-specificity of heat stress gene induction in northern and southern eelgrass Zostera marina populations under simulated global warming. Molecular Ecology 19: 28702883.
  • Billard E, Daguin C, Pearson G, Serrao E, Engel C, Valero M. 2005. Genetic isolation between three closely related taxa: Fucus vesiculosus, F. spiralis, and F. ceranoides (Phaophyceae). Journal of Phycology 41: 900905.
  • Blanchette CA. 1997. Size and survival of intertidal plants in response to wave action: a case study with Fucus gardneri. Ecology 78: 15631578.
  • Brownlee C. 1994. Tansley review No. 70 – Signal transduction during fertilization in algae and vascular plants. New Phytologist 127: 399423.
  • Butler W. 1978. Energy distribution in photochemical apparatus of photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology 29: 345378.
  • Calbo J, Sanchez-Lorenzo A. 2009. Cloudiness climatology in the Iberian Peninsula from three global gridded datasets (ISCCP, CRU TS 2.1, ERA-40). Theoretical and Applied Climatology 96: 105115.
  • Canovas F, Mota C, Ferreira-Costa J, Serrao E, Coyer J, Olsen J, Pearson G. 2011. Development and characterization of 35 single nucleotide polymorphism markers for the brown alga Fucus vesiculosus. European Journal of Phycology 46: 342351.
  • Chapman ARO. 1995. Functional ecology of fucoid algae: twenty-three years of progress. Phycologia 34: 132.
  • Chen S-Y, Pan L-Y, Hong M-J, Lee A-C. 2012. The effects of temperature on the growth of and ammonia uptake by marine microalgae. Botanical Studies 53: 125133.
  • Cochran WG. 1951. Testing a linear relation among variances. Biometrics 7: 1732.
  • Coelho S, Rijstenbil J, Sousa-Pinto I, Brown M. 2001. Cellular responses to elevated light levels in Fucus spiralis embryos during the first days after fertilization. Plant, Cell & Environment 24: 801810.
  • Coleman RA, Underwood AJ, Benedetti-Cecchi L, Aberg P, Arenas F, Arrontes J, Castro J, Hartnoll RG, Jenkins SR, Paula J et al. 2006. A continental scale evaluation of the role of limpet grazing on rocky shores. Oecologia 147: 556564.
  • Collen J, Davison IR. 2001. Seasonality and thermal acclimation of reactive oxygen metabolism in Fucus vesiculosus (Phaeophyceae). Journal of Phycology 37: 474481.
  • Connell JH. 1972. Community interactions on marine rocky intertidal shores. Annual Review of Ecology and Systematics 3: 169192.
  • Connell SD, Irving AD. 2008. Integrating ecology with biogeography using landscape characteristics: a case study of subtidal habitat across continental Australia. Journal of Biogeography 35: 16081621.
  • Dangeard P. 1949. Les algues marines de la côte occidentale du Maroc. Le Botaniste 34: 89189.
  • Darling ES, Cote IM. 2008. Quantifying the evidence for ecological synergies. Ecology Letters 11: 12781286.
  • Davison IR, Pearson GA. 1996. Stress tolerance in intertidal seaweeds. Journal of Phycology 32: 197211.
  • Denny MW, Wethey DS. 2001. Physical processes that generate patterns in marine communities. In: Bertness MD, Gaines SD, Hay ME, eds. Marine community ecology. Sunderland, MA, USA: Sinauer Associates Inc., 337.
  • Dethier MN, Williams SL, Freeman A. 2005. Seaweeds under stress: manipulated stress and herbivory affect critical life-history functions. Ecological Monographs 75: 403418.
  • Doty MS. 1946. Critical tide factors that are correlated with the vertical distribution of marine algae and other organisms along the Pacific coast. Ecology 27: 315328.
  • Dring MJ, Brown FA. 1982. Photosynthesis of intertidal brown algae during and after periods of emersion: a renewed search for physiological causes of zonation. Marine Ecology-Progress Series 8: 301308.
  • Dromgoole FI. 1980. Desiccation resistance of intertidal and subtidal algae. Botanica Marina 23: 149159.
  • Evans RG. 1948. The lethal temperatures of some common British littoral Molluscs. Journal of Animal Ecology 17: 165173.
  • Fernandez C, Anadon R. 2008. La cornisa cantabrica: un escenario de cambios de distribución de comunidades intermareales. Algas 39: 3032.
  • Ferreira JG. 2012. Latitudinal and climatic driven changes in local patterns of intertidal macroalgae: implications for biodiversity and ecosystem functioning, PhD thesis. Bangor University Bangor, UK.
  • Figueroa FL, Conde-Alvarez R, Gomez I. 2003. Relations between electron transport rates determined by pulse amplitude modulated chlorophyll fluorescence and oxygen evolution in macroalgae under different light conditions. Photosynthesis Research 75: 259275.
  • Figueroa FL, Viñegla B. 2001. Effects of solar UV radiation on photosynthesis and enzyme activities (carbonic anhydrase and nitrate reductase) in marine macroalgae from southern Spain. Revista Chilena De Historia Natural 74: 237249.
  • Flores-Moya A, Gomez I, Vinegla B, Altamirano M, Perez-Rodriguez E, Maestre C, Caballero RM, Figueroa FL. 1998. Effects of solar radiation on the endemic Mediterranean red alga Rissoella verruculosa: photosynthetic performance, pigment content and the activities of enzymes related to nutrient uptake. New Phytologist 139: 673683.
  • Gomez I, Lopez-Figueroa F, Ulloa N, Morales V, Lovengreen C, Huovinen P, Hess S. 2004. Patterns of photosynthesis in 18 species of intertidal macroalgae from southern Chile. Marine Ecology Progress Series 270: 103116.
  • Gylle AM, Nygard CA, Ekelund NGA. 2009. Desiccation and salinity effects on marine and brackish Fucus vesiculosus L. (Phaeophyceae). Phycologia 48: 156164.
  • Hader DP, Figueroa FL. 1997. Photoecophysiology of marine macroalgae. Photochemistry and Photobiology 66: 114.
  • Harley CDG, Anderson KM, Demes KW, Jorve JP, Kordas RL, Coyle TA, Graham MH. 2012. Effects of climate change on global seaweed communities. Journal of Phycology 48: 10641078.
  • Hawkins SJ, Hartnoll RG. 1983. Grazing of intertidal algae by marine invertebrates. Oceanography and Marine Biology 21: 195282.
  • Hawkins SJ, Hartnoll RG. 1985. Factors determining the upper limits of intertidal canopy-forming algae. Marine Ecology-Progress Series 20: 265271.
  • Hawkins SJ, Moore PJ, Burrows MT, Poloczanska E, Mieszkowska N, Herbert RJH, Jenkins SR, Thompson RC, Genner MJ, Southward AJ. 2008. Complex interactions in a rapidly changing world: responses of rocky shore communities to recent climate change. Climate Research 37: 123133.
  • Hawkins SJ, Sugden HE, Mieszkowska N, Moore PJ, Poloczanska E, Leaper R, Herbert RJH, Genner MJ, Moschella PS, Thompson RC et al. 2009. Consequences of climate-driven biodiversity changes for ecosystem functioning of North European rocky shores. Marine Ecology-Progress Series 396: 245259.
  • Helmuth B, Harley CDG, Halpin PM, O'Donnell M, Hofmann GE, Blanchette CA. 2002. Climate change and latitudinal patterns of intertidal thermal stress. Science 298: 10151017.
  • Helmuth B, Mieszkowska N, Moore P, Hawkins SJ. 2006. Living on the edge of two changing worlds: forecasting the responses of rocky intertidal ecosystems to climate change. Annual Review of Ecology Evolution and Systematics 37: 373404.
  • IPCC. 2007. Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M, Miller HL, eds. Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press.
  • Jenkins SR, Coleman RA, Della Santina P, Hawkins SJ, Burrows MT, Hartnoll RG. 2005. Regional scale differences in the determinism of grazing effects in the rocky intertidal. Marine Ecology-Progress Series 287: 7786.
  • Jenkins SR, Hawkins SJ, Norton TA. 1999a. Direct and indirect effects of a macroalgal canopy and limpet grazing in structuring a sheltered intertidal community. Marine Ecology-Progress Series 188: 8192.
  • Jenkins SR, Hawkins SJ, Norton TA. 1999b. Interaction between a fucoid canopy and limpet grazing in structuring a low shore intertidal community. Journal of Experimental Marine Biology and Ecology 233: 4163.
  • Jenkins SR, Moore P, Burrows MT, Garbary DJ, Hawkins SJ, Ingolfsson A, Sebens KP, Snelgrove PVR, Wethey DS, Woodin SA. 2008. Comparative ecology of North Atlantic shores: do differences in players matter for process? Ecology 89: S3S23.
  • Ji Y, Gao KS, Tanaka J. 2005. Photosynthetic recovery of desiccated intertidal seaweeds after rehydration. Progress in Natural Science 15: 689693.
  • Jones CG, Lawton JH, Shachak M. 1994. Organisms as ecosystem engineers. Oikos 69: 373386.
  • Jones WE, Demetropoulos A. 1968. Exposure to wave action: measurements of an important ecological parameter on rocky shores in Anglesey. Journal of Experimental Marine Biology and Ecology 2: 4663.
  • Konar B, Iken K, Cruz-Motta JJ, Benedetti-Cecchi L, Knowlton A, Pohle G, Miloslavich P, Edwards M, Trott T, Kimani E et al. 2010. Current patterns of macroalgal diversity and biomass in northern hemisphere rocky shores. PLoS ONE 5: e13195.
  • Krause G, Weis E. 1991. Chlorophyll fluorescence and photosynthesis: the basics. Annual Review of Plant Physiology and Plant Molecular Biology 42: 313349.
  • Lamela-Silvarrey C, Fernandez C, Anadon R, Arrontes J. 2012. Fucoid assemblages on the north coast of Spain: past and present (1977–2007). Botanica Marina 55: 199207.
  • Lima FP, Ribeiro PA, Queiroz N, Hawkins SJ, Santos AM. 2007. Do distributional shifts of northern and southern species of algae match the warming pattern? Global Change Biology 13: 25922604.
  • Littler MM, Murray SN. 1974. The primary productivity of marine macrophytes from a rocky intertidal community. Marine Biology 27: 131135.
  • Lobban CS, Harrison PJ. 1997. Seaweed Ecology and Physiology. Cambridge, UK: Cambridge University Press.
  • Long S, Humphries S, Falkowski P. 1994. Photoinhibition of photosynthesis in nature. Annual Review of Plant Physiology and Plant Molecular Biology 45: 633662.
  • Lubchenco J. 1980. Algal zonation in the New England rocky intertidal community: an experimental-analysis. Ecology 61: 333344.
  • Lüning K. 1990. Seaweeds: their environment, biogeography, and ecophysiology. New York, NY, USA: John Wiley & Sons Inc.
  • Magnusson G. 1997. Diurnal measurements of Fv/Fm used to improve productivity estimates in macroalgae. Marine Biology 130: 203208.
  • Malm T, Kautsky L. 2003. Differences in life-history characteristics are consistent with the vertical distribution pattern of Fucus serratus and Fucus vesiculosus (Fucales, Phaeophyceae) in the central Baltic Sea. Journal of Phycology 39: 880887.
  • Martinez B, Arenas F, Rubal M, Burgues S, Esteban R, Garcia-Plazaola I, Figueroa FL, Pereira R, Saldana L, Sousa-Pinto I et al. 2012. Physical factors driving intertidal macroalgae distribution: physiological stress of a dominant fucoid at its southern limit. Oecologia 170: 341353.
  • Maxwell K, Johnson GN. 2000. Chlorophyll fluorescence – a practical guide. Journal of Experimental Botany 51: 659668.
  • Menge BA. 2000. Top-down and bottom-up community regulation in marine rocky intertidal habitats. Journal of Experimental Marine Biology and Ecology 250: 257289.
  • Mieszkowska N, Kendall MA, Hawkins SJ, Leaper R, Williamson P, Hardman-Mountford NJ, Southward AJ. 2006. Changes in the range of some common rocky shore species in Britain - a response to climate change? Hydrobiologia 555: 241251.
  • Nicastro KR, Zardi GI, Teixeira S, Neiva J, Serrao EA, Pearson GA. 2013. Shift happens: trailing edge contraction associated with recent warming trends threatens a distinct genetic lineage in the marine macroalga Fucus vesiculosus. BMC Biology 11: 6.
  • Nishiyama Y, Allakhverdiev SI, Murata N. 2011. Protein synthesis is the primary target of reactive oxygen species in the photoinhibition of photosystem II. Physiologia Plantarum 142: 3546.
  • Pearson G, Kautsky L, Serrao E. 2000. Recent evolution in Baltic Fucus vesiculosus: reduced tolerance to emersion stresses compared to intertidal (North Sea) populations. Marine Ecology-Progress Series 202: 6779.
  • Pearson GA, Lago-Leston A, Mota C. 2009. Frayed at the edges: selective pressure and adaptive response to abiotic stressors are mismatched in low diversity edge populations. Journal of Ecology 97: 450462.
  • Poloczanska ES, Hawkins SJ, Southward AJ, Burrows MT. 2008. Modeling the response of populations of competing species to climate change. Ecology 89: 31383149.
  • Ribera MA, Garreta AG, Gallardo T, Cormaci M, Furnari G, Giaccone G. 1992. Checklist of Mediterranean seaweeds. 1. Fucophyceae (Warming, 1884). Botanica Marina 35: 109130.
  • Rohde S, Hiebenthal C, Wahl M, Karez R, Bischof K. 2008. Decreased depth distribution of Fucus vesiculosus (Phaeophyceae) in the Western Baltic: effects of light deficiency and epibionts on growth and photosynthesis. European Journal of Phycology 43: 143150.
  • Rutter MT, Fenster CB. 2007. Testing for adaptation to climate in Arabidopsis thaliana: a calibrated common garden approach. Annals of Botany 99: 529536.
  • Sanchez-Lorenzo A, Calbo J, Brunetti M, Deser C. 2009. Dimming/brightening over the Iberian Peninsula: trends in sunshine duration and cloud cover and their relations with atmospheric circulation. Journal of Geophysical Research-Atmospheres 114: D00D09, doi:10.1029/2008JD011394.
  • Sanchez-Lorenzo A, Wild M, Trentmann J. 2013. Validation and stability assessment of the monthly mean CM SAF surface solar radiation dataset over Europe against a homogenized surface dataset (1983–2005). Remote Sensing of Environment 134: 355366.
  • Scheiner SM. 1993. Genetics and evolution of phenotypic plasticity. Annual Review of Ecology and Systematics 24: 3568.
  • Schonbeck M, Norton TA. 1978. Factors controlling upper limits of fucoid algae on shore. Journal of Experimental Marine Biology and Ecology 31: 303313.
  • Skene KR. 2004. Key differences in photosynthetic characteristics of nine species of intertidal macroalgae are related to their position on the shore. Canadian Journal of Botany-Revue Canadienne De Botanique 82: 177184.
  • Southward AJ, Hawkins SJ, Burrows MT. 1995. Seventy years observations of changes in distribution and abundance of zooplankton and intertidal organisms in the Western English channel in relation to rising sea temperature. Journal of Thermal Biology 20: 127155.
  • Takahashi S, Badger MR. 2011. Photoprotection in plants: a new light on photosystem II damage. Trends in Plant Science 16: 5360.
  • Todd CD, Lewis JR. 1984. Effects of low air temperature on Laminaria digitata in southwestern Scotland. Marine Ecology-Progress Series 16: 199201.
  • Tuya F, Cacabelos E, Duarte P, Jacinto D, Castro JJ, Silva T, Bertocci I, Franco JN, Arenas F, Coca J et al. 2012. Patterns of landscape and assemblage structure along a latitudinal gradient in ocean climate. Marine Ecology Progress Series 466: 919.
  • Underwood AJ. 1997. Experiments in ecology. Their logical design and interpretation using analysis of variance. Cambridge, UK: Cambridge University Press.
  • Viejo RM. 2009. Resilience in intertidal rocky shore assemblages across the stress gradient created by emersion times. Marine Ecology-Progress Series 390: 5565.
  • Viejo RM, Martinez B, Arrontes J, Astudillo C, Hernandez L. 2011. Reproductive patterns in central and marginal populations of a large brown seaweed: drastic changes at the southern range limit. Ecography 34: 7584.
  • Wahl M, Jormalainen V, Eriksson BK, Coyer JA, Molis M, Schubert H, Dethier M, Karez R, Kruse I, Lenz M et al. 2011. Stress ecology in Fucus: abiotic, biotic and genetic interactions. Advances in Marine Biology 59: 37105.
  • Wernberg T, Thomsen MS, Tuya F, Kendrick GA, Staehr PA, Toohey BD. 2010. Decreasing resilience of kelp beds along a latitudinal temperature gradient: potential implications for a warmer future. Ecology Letters 13: 685694.
  • Zardi GI, Nicastro KR, Canovas F, Costa JF, Serrao EA, Pearson GA. 2011. Adaptive traits are maintained on steep selective gradients despite gene flow and hybridization in the intertidal zone. PLoS ONE 6: 13.
  • Zardi GI, Nicastro KR, Ferreira Costa J, Serrao EA, Pearson GA. 2013. Broad scale agreement between intertidal habitats and adaptive traits on a basis of contrasting population genetic structure. Estuarine Coastal and Shelf Science 131: 140148.