Koehn, J. D., Hobday, A. J., Pratchett, M. S. & Gillanders, B. M. Climate change and Australian marine and freshwater environments, fishes and fisheries: synthesis and options for adaptation. Mar. Freshw. Res. 62(9), 1148–1164 (2011).
Munday, P. L., Warner, R. R., Monro, K., Pandolfi, J. M. & Marshall, D. J. Predicting evolutionary responses to climate change in the sea. Ecol. Lett. 16, 1488–1500 (2013).
Perry, A. L., Low, P. J., Ellis, J. R. & Reynolds, J. D. Climate change and distribution shifts in marine fishes. Science 308(5730), 1912–1915 (2005).
Wernberg, T. et al. Impacts of climate change in a global hotspot for temperate marine biodiversity and ocean warming. J. Exp. Mar. Biol. Ecol. 400(1–2), 7–16 (2011).
Poloczanska, E. S. et al. Global imprint of climate change on marine life. Nat. Clim. Change 3(10), 919 (2013).
Pecl, G. T. et al. Biodiversity redistribution under climate change: impacts on ecosystems and human well-being. Science 355(6332), eaai9214 (2017).
Harley, C. D. et al. Effects of climate change on global seaweed communities. J. Phycol. 48(5), 1064–1078 (2012).
Smale, D. A. et al. Threats and knowledge gaps for ecosystem services provided by kelp forests: a northeast Atlantic perspective. Ecol. Evol. 3(11), 4016–4038 (2013).
Cheminée, A. et al. Nursery value of Cystoseira forests for Mediterranean rocky reef fishes. J. Exp. Mar. Biol. Ecol. 442, 70–79 (2013).
Mineur, F. et al. European seaweeds under pressure: consequences for communities and ecosystem functioning. J. Sea. Res. 98, 91–108 (2015).
Wernberg, T. et al. Seaweed communities in retreat from ocean warming. Curr. Biol. 21(21), 1828–1832 (2011).
Wahl, M. et al. The responses of brown macroalgae to environmental change from local to global scales: direct versus ecologically mediated effects. PiP 2(1), 11–29 (2015).
Bates, A. E. et al. Defining and observing stages of climate-mediated range shifts in marine systems. Glob. Environ. Change 26, 27–38 (2014).
Orellana, S., Hernández, M. & Sansón, M. Diversity of Cystoseira sensu lato (Fucales, Phaeophyceae) in the eastern Atlantic and Mediterranean based on morphological and DNA evidence, including Carpodesmia gen. emend. and Treptacantha gen. emend. Eur. J. Phycol. 54(3), 447–465 (2019).
Blanfuné, A., Boudouresque, C. F., Verlaque, M. & Thibaut, T. The fate of Cystoseira crinita, a forest-forming Fucale (Phaeophyceae, Stramenopiles), in France (North Western Mediterranean Sea). Estuar. Coast. Shelf. Sci. 181, 196–208 (2016).
Thibaut, T., Pinedo, S., Torras, X. & Ballesteros, E. Long-term decline of the populations of Fucales (Cystoseira spp. and Sargassum spp.) in the Alberes coast (France, North-western Mediterranean). Mar. Pollut. Bull. 50(12), 1472–1489 (2005).
Mangialajo, L., Chiantore, M. & Cattaneo-Vietti, R. Loss of fucoid algae along a gradient of urbanization, and structure of benthic assemblages. Mar. Ecol. Progr. Ser. 358, 63–74 (2008).
Thibaut, T., Blanfuné, A., Boudouresque, C. F. & Verlaque, M. Decline and local extinction of Fucales in French Riviera: the harbinger of future extinctions?. Mediterr. Mar. Sci. 16(1), 206–224 (2015).
Gianni, F. et al. Conservation and restoration of marine forests in the Mediterranean Sea and the potential role of Marine Protected Areas. AIOL J. 4(2), 83–101 (2013).
Capdevila, P., Linares, C., Aspillaga, E., Riera, J. L. & Hereu, B. Effective dispersal and density-dependence in mesophotic macroalgal forests: insights from the Mediterranean species Cystoseira zosteroides. PLoS ONE 13(1), e0191346 (2018).
Mangialajo, L. et al. Zonation patterns and interspecific relationships of fucoids in microtidal environments. J. Exp. Mar. Biol. Ecol. 412, 72–80 (2012).
Buonomo, R. et al. Predicted extinction of unique genetic diversity in marine forests of Cystoseira spp. Mar. Environ. Res. 138, 119–128 (2018).
Mariani, S. et al. Past and present of Fucales from shallow and sheltered shores in Catalonia. Reg. Stud. Mar. Sci. 32, 100824 (2019).
Susini, M. L. Statut et biologie de Cystoseira amentacea var. stricta (Doctoral dissertation, 2006).
Thibaut, T. et al. Unexpected temporal stability of Cystoseira and Sargassum forests in Port-Cros, one of the oldest Mediterranean marine National Parks. Cryptogamie Algol. 37(1), 61–91 (2016).
Buonomo, R. et al. Habitat continuity and stepping-stone oceanographic distances explain population genetic connectivity of the brown alga Cystoseira amentacea. Mol. Ecol. 26(3), 766–780 (2017).
Thibaut, T. et al. Unexpected abundance and long-term relative stability of the brown alga Cystoseira amentacea, hitherto regarded as a threatened species, in the north-western Mediterranean Sea. Mar. Pollut. Bull. 89(1–2), 305–323 (2014).
Thibaut, T. et al. Connectivity of populations of the seaweed Cystoseira amentacea within the Bay of Marseille (Mediterranean Sea): genetic structure and hydrodynamic connections. Cryptogamie Algol. 37(4), 233–256 (2016).
Iveša, L., Djakovac, T. & Devescovi, M. Long-term fluctuations in Cystoseira populations along the west Istrian Coast (Croatia) related to eutrophication patterns in the northern Adriatic Sea. Mar. Pollut. Bull. 106(1–2), 162–173 (2016).
Ros, J. D., Romero, J., Ballesteros, E. & Gili, J. M. Diving in blue water. The benthos. In Western Mediterranean (ed. Margalef, R.) 233–295 (Pergamon Press, Oxford, 1985).
Sauvageau, C. A propos des Cystoseira de Banyuls et de Guéthary. Bulletin de la Station Biologique d’Arcachon (1912).
Feldmann, J. Les algues marines de la cote des Albères I–III: cyanophycées, chlorophycées phéophycées (1937).
Pascual, J., Bensoussan, N., Salat, J., & Garrabou, J. Clima i règim tèrmic de les aigües de les illes Medes i el Montgrí. El fons marí de les illes Medes i el Montgrí: quatre dècades de recerca per a la conservació. (ed. Càtedra d’Ecosistemes Litorals Mediterranis) 63 (2012).
Gómez-Garreta, A., et al. Flora phycologica iberica. I. Fucales. (ed. Servicio de Publicaciones, Universidad de Murcia) (2001).
Rodríguez-Prieto, C., Ballesteros, E., Boisset, F., & Afonso-Carrillo, J. Guía de las macroalgas y fanerógamas marinas del Mediterráneo occidental (ed. Omega) (2013).
Barceló, M.C., et al. Flora Phycologica Iberica Vol. 1 Fucales (ed. Servicio de Publicaciones, Universidad de Murcia) (2001).
Sala, E. The role of fishes in the organization of a Mediterranean sublittoral community (Doctoral dissertation, 1996).
Ballesteros, E. et al. A new methodology based on littoral community cartography dominated by macroalgae for the implementation of the European Water Framework Directive. Mar. Pollut. Bull. 55(1–6), 172–180 (2007).
Sala, E. et al. The structure of Mediterranean rocky reef ecosystems across environmental and human gradients, and conservation implications. PLoS ONE 7(2), e32742 (2012).
Medrano, A. et al. No-take marine reserves control the recovery of sea urchin populations after mass mortality events. Mar. Environ. Res. 145, 147–154 (2019).
Susini, M. L., Thibaut, T., Meinesz, A. & Forcioli, D. A preliminary study of genetic diversity in Cystoseira amentacea (C. Agardh) Bory var. stricta Montagne (Fucales, Phaeophyceae) using random amplified polymorphic DNA. Phycologia 46(6), 605–611 (2007).
Sales, M. & Ballesteros, E. Shallow Cystoseira (Fucales: Ochrophyta) assemblages thriving in sheltered areas from Menorca (NW Mediterranean): relationships with environmental factors and anthropogenic pressures. Estuar. Coast. Shelf. Sci. 84(4), 476–482 (2009).
Medrano, A. et al. From marine deserts to algal beds: Treptacantha elegans revegetation to reverse stable degraded ecosystems inside and outside a no-take marine reserve. Restor. Ecol. 28(3), 632–644 (2020).
Deysher, L. & Norton, T. A. Dispersal and colonization in Sargassum muticum (Yendo) Fensholt. J. Exp. Mar. Biol. Ecol. 56, 179–195 (1982).
Calvo, E. et al. Effects of climate change on Mediterranean marine ecosystems: the case of the Catalan Sea. Clim. Res. 50(1), 1–29 (2011).
André, G., Garreau, P., Garnier, V. & Fraunié, P. Modelled variability of the sea surface circulation in the North-western Mediterranean Sea and in the Gulf of Lions. Ocean Dyn. 55(3–4), 294–308 (2005).
Sales, M., Cebrian, E., Tomas, F. & Ballesteros, E. Pollution impacts and recovery potential in three species of the genus Cystoseira (Fucales, Heterokontophyta). Estuar. Coast. Shelf. Sci. 92(3), 347–357 (2011).
Pinedo, S., Zabala, M. & Ballesteros, E. Long-term changes in sublittoral macroalgal assemblages related to water quality improvement. Bot. Mar. 56(5–6), 461–469 (2013).
Ricart, A. M. et al. Long-term shifts in the north western Mediterranean coastal seascape: the habitat-forming seaweed Codium vermilara. Mar. Pollut. Bull. 127, 334–341 (2018).
Blanfuné, A., Boudouresque, C. F., Verlaque, M. & Thibaut, T. The ups and downs of a canopy-forming seaweed over a span of more than one century. Sci. Rep. 9(1), 1–10 (2019).
Nykjaer, L. Mediterranean Sea surface warming 1985–2006. Clim. Res. 39(1), 11–17 (2009).
Sicre, M. A. et al. Sea surface temperature variability in the North Western Mediterranean Sea (Gulf of Lion) during the Common Era. Earth Planet. Sci. Lett. 456, 124–133 (2016).
Gallon, R. K. et al. Twenty years of observed and predicted changes in subtidal red seaweed assemblages along a biogeographical transition zone: inferring potential causes from environmental data. J. Biogeogr. 41(12), 2293–2306 (2014).
Ballesteros, E. et al. Deep-water stands of Cystoseira zosteroides C. Agardh (Fucales, Ochrophyta) in the Northwestern Mediterranean: insights into assemblage structure and population dynamics. Estuar. Coast. Shelf. Sci. 82(3), 477–484 (2009).
Cormaci, M., Furnari, G., Catra, M., Alongi, G. & Giaccone, G. Flora marina bentonica del Mediterraneo: Phaeophyceae. Bollettino dell’accademia Gioenia di scienze naturali di Catania 45(375), 1–508 (2012).
Capdevila, P. et al. Recruitment patterns in the Mediterranean deep-water alga Cystoseira zosteroides. Mar. Biol. 162(6), 1165–1174 (2015).
Verdura, J., Sales, M., Ballesteros, E., Cefalì, M. E. & Cebrian, E. Restoration of a canopy-forming alga based on recruitment enhancement: methods and long-term success assessment. Front. Plant Sci. 9, 1832 (2018).
McCullagh, P. & Nelder, J. A. Generalized Linear Models 2nd edn, 532 (Chapman and Hall, London, 1989).
Venables, W. N. & Ripley, B. D. Modern Applied Statistics with S 4th edn. (Springer, Berlin, 2002).
Bates, D. et al. Package ‘lme4’. Convergence 12(1), 2 (2015).
R Core Team. R: a language and environment for statistical computing. R Foundation for Statistical Computing. https://www.R-project.org/ (2017).
Ballesteros, E., Pérez, M. & Zabala, M. Aproximación al conocimiento de las comunidades algales de la zona infralitoral superior de la costa catalana. Collect. Bot. 15, 69–100 (1984).
Ballesteros, E., Romero, J., Gili, J. M. & Ros, J. D. L’estatge infralitoral de les Illes Medes: les algues fotófiles. In Els Sistemes Naturals de les Illes Medes (eds Ros, J. et al.) (Institut d’Estudis Catalans, Barcelona, 1984).
Toonen, R. J. & Hughes, S. Increased throughput for fragment analysis on an ABI Prism 377 automated sequencer using a membrane comb and STRand software. Biotechniques 31(6), 1320–1325 (2001).
Van Oosterhout, C., Hutchinson, W. F., Wills, D. P. & Shipley, P. MICRO-CHECKER: software for identifying and correcting genotyping errors in microsatellite data. Mol. Ecol. Notes 4(3), 535–538 (2004).
Belkhir, K., Borsa, P., Chikhi, L., Raufaste, N., & Bonhomme, F. GENETIX 4.05, logiciel sous Windows TM pour la génétique des populations. https://www.genetix.univ-montp2.fr/genetix/genetix.htm (1996–2004).
Weir, B. S. & Cockerham, C. C. Estimating F-statistics for the analysis of population structure. Evolution 38, 1358–1370 (1984).
Excoffier, L., Laval, G. & Schneider, S. Arlequin an integrated software package for population genetics data analysis. Evol. Bioinform. https://doi.org/10.1177/117693430500100003 (2005).
Pritchard, J. K., Stephens, M. & Donnelly, P. Inference of population structure using multilocus genotype data. Genetics 155(2), 945–959 (2000).
Earl, D. A. STRUCTURE HARVESTER: a website and program for visualizing STRUCTURE output and implementing the Evanno method. Conserv. Genet. Resour. 4(2), 359–361 (2012).
Evanno, G., Regnaut, S. & Goudet, J. Detecting the number of clusters of individuals using the software STRUCTURE: a simulation study. Mol. Ecol 14(8), 2611–2620 (2005).
Hereu, B., Zabala, M. & Sala, E. Multiple controls of community structure and dynamics in a sublittoral marine environment. Ecology 89(12), 3423–3435 (2008).
Medrano, A. et al. Long-term monitoring of temperate macroalgal assemblages inside and outside a No take marine reserve. Mar. Environ. Res. 153, 104826 (2019).
Nei, M. Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89(3), 583–590 (1978).
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