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References

  • Abbas, F., Merlet, J., Morellet, N., Verheyden, H., Hewison, A.J.M., Cargnelutti, B. et al. (2012) Roe deer may markedly alter forest nitrogen and phosphorus budgets across Europe. Oikos, 121, 12711278.
  • Andren, H. & Angelstam, P. (1988) Elevated predation rates as an edge effect in habitat Islands: experimental evidence. Ecology, 69, 544547.
  • Black, J.M., Carbone, C., Wells, R.L. & Owen, M. (1992) Foraging dynamics in goose flocks: the cost of living on the edge. Animal Behaviour, 44, 4150.
  • Brotons, L., Mönkkönen, M. & Martin, J.L. (2003) Are fragments islands? Landscape context and density-area relationships in boreal forest birds. American Naturalist, 162, 343357.
  • Brown, J.S. & Kotler, B.P. (2004) Hazardous duty pay and the foraging cost of predation. Ecology Letters, 7, 9991014.
  • Burkepile, D.E. (2013) Comparing aquatic and terrestrial grazing ecosystems: is the grass really greener? Oikos, 122, 306312.
  • Cebrian, J., Duarte, C.M., Marba, N., Enriquez, S., Gallegos, M. & Olesen, B. (1996) Herbivory on Posidonia oceanica: Magnitude and variability in the Spanish Mediterranean Marine Ecology-Progress Series, 130, 147155.
  • Ceccherelli, G., Pais, A., Pinna, S., Serra, S. & Sechi, N. (2009) On the movement of the sea urchin Paracentrotus lividus towards Posidonia oceanica seagrass patches. Journal of Shellfish Research, 28, 397403.
  • Cronin, J.T. (2003) Matrix heterogeneity and host-parasitoid interactions in space. Ecology, 84, 15061516.
  • Dance, C. (1987) Patterns of activity of the sea urchin Paracentrotus lividus in the bay of Port-Cros (Var, France, Mediterranean). Marine Ecology-Pubblicazioni Della Stazione Zoologica Di Napoli I, 8, 131142.
  • Diekötter, T., Haynes, K.J., Mazeffa, D. & Crist, T.O. (2007) Direct and indirect effects of habitat area and matrix composition on species interactions among flower-visiting insects. Oikos, 116, 15881598.
  • Dunning, J.B., Danielson, B.J. & Pulliam, H.R. (1992) Ecological processes that affect populations in complex landscapes. Oikos, 65, 169175.
  • Farina, S., Arthur, R., Pagès, J.F., Prado, P., Romero, P., Vergés, A. et al. (in press) Differences in predator composition alter the direction of strucure-mediated predation risk in macrophyte communities. Oikos. doi: 10.1111/oik.01382.
  • Francour, P. (1997) Fish assemblages of Posidonia oceanica beds at Port Cros (France, NW Mediterranean): assessment of composition and long-term fluctuations by visual census. Marine Ecology-Pubblicazioni Della Stazione Zoologica Di Napoli I, 18, 157173.
  • Gera, A., Pagès, J.F., Romero, J. & Alcoverro, T. (2013) Combined effects of fragmentation and herbivory on Posidonia oceanica seagrass ecosystems. Journal of Ecology, 101, 10531061.
  • Goodsell, P.J., Chapman, M.G. & Underwood, A.J. (2007) Differences between biota in anthropogenically fragmented habitats and in naturally patchy habitats. Marine Ecology Progress Series, 351, 1523.
  • Haynes, K.J. & Crist, T.O. (2009) Insect herbivory in an experimental agroecosystem: the relative importance of habitat area, fragmentation, and the matrix. Oikos, 118, 14771486.
  • Haynes, K.J. & Cronin, J.T. (2003) Matrix composition affects the spatial ecology of a prairie planthopper. Ecology, 84, 28562866.
  • Haynes, K.J. & Cronin, J.T. (2004) Confounding of patch quality and matrix effects in herbivore movement studies. Landscape Ecology, 19, 119124.
  • Haynes, K.J. & Cronin, J.T. (2006) Interpatch movement and edge effects: the role of behavioral responses to the landscape matrix. Oikos, 113, 4354.
  • Haynes, K.J., Diekotter, T. & Crist, T.O. (2007) Resource complementation and the response of an insect herbivore to habitat area and fragmentation. Oecologia, 153, 511520.
  • Hereu, B. (2005) Movement patterns of the sea urchin Paracentrotus lividus in a marine reserve and an unprotected area in the NW Mediterranean. Marine Ecology-an Evolutionary Perspective, 26, 5462.
  • Irlandi, E.A. (1994) Large- and small-scale effects of habitat structure on rates of predation: how percent coverage of seagrass affects rates of predation and siphon nipping on an infaunal bivalve. Oecologia, 98, 176183.
  • Jadot, C., Donnay, A., Acolas, M.L., Cornet, Y. & Anras, M.L.B. (2006) Activity patterns, home-range size, and habitat utilization of Sarpa salpa (Teleostei : Sparidae) in the Mediterranean Sea. ICES Journal of Marine Science, 63, 128139.
  • Knapp, A.K., Blair, J.M., Briggs, J.M., Collins, S.L., Hartnett, D.C., Johnson, L.C. et al. (1999) The keystone role of bison in north American tallgrass prairie - Bison increase habitat heterogeneity and alter a broad array of plant, community, and ecosystem processes. BioScience, 49, 3950.
  • Krebs, J.R. & Davies, N.B. (1993) An Introduction to Behavioural Ecology. Blackwell Science, Oxford.
  • MacArthur, R.H. & Pianka, E.R. (1966) On optimal use of a patchy environment. American Naturalist, 100, 603609.
  • Macreadie, P.I., Geraldi, N.R. & Peterson, C.H. (2012) Preference for feeding at habitat edges declines among juvenile blue crabs as oyster reef patchiness increases and predation risk grows. Marine Ecology Progress Series, 466, 145153.
  • MacReadie, P.I., Hindell, J.S., Jenkins, G.P., Connolly, R.M. & Keough, M.J. (2009) Fish responses to experimental fragmentation of seagrass habitat. Conservation Biology, 23, 644652.
  • McNaughton, S.J. (1984) Grazing lawns: animals in herds, plant form, and coevolution. American Naturalist, 124, 863886.
  • Öckinger, E., Lindborg, R., Sjödin, N.E. & Bommarco, R. (2012) Landscape matrix modifies richness of plants and insects in grassland fragments. Ecography, 35, 259267.
  • Pagès, J.F., Farina, S., Gera, A., Arthur, R., Romero, J. & Alcoverro, T. (2012) Indirect interactions in seagrasses: fish herbivores increase predation risk to sea urchins by modifying plant traits. Functional Ecology, 26, 10151023.
  • Pagès, J.F., Bartumeus, F., Hereu, B., López-Sanz, A., Romero, J. & Alcoverro, T. (2013) Evaluating a key herbivorous fish as a mobile link: a Brownian bridge approach. Marine Ecology Progress Series, 492, 199210.
  • Pagès, J.F., Gera, A., Romero, J. & Alcoverro, T. (2014) Data from: matrix composition and patch edges influence plant-herbivore interactions in marine landscapes. Dryad Digital Repository. http://doi.org/10.5061/dryad.hr348
  • Pérez, M. & Romero, J. (1994) Growth dynamics, production and nutrient status of the seagrass Cymodocea nodosa in a Mediterranean semi-estuarine environment. Marine Ecology-Pubblicazioni Della Stazione Zoologica Di Napoli I, 15, 5164.
  • Pickett, S.T.A. & Cadenasso, M.L. (1995) Landscape ecology: spatial heterogeneity in ecological systems. Science, 269, 331334.
  • Pinheiro, J., Bates, D., DebRoy, S. & Sarkar, D. & R Development Core Team (2011) NLME: Linear and Nonlinear Mixed Effects Models. R package version 3.1-98.
  • Planes, S., Raventos, N., Ferrari, B. & Alcoverro, T. (2011) Fish herbivory leads to shifts in seagrass Posidonia oceanica investments in sexual reproduction. Marine Ecology Progress Series, 431, 205213.
  • Prado, P., Tomas, F., Alcoverro, T. & Romero, J. (2007) Extensive direct measurements of Posidonia oceanica defoliation confirm the importance of herbivory in temperate seagrass meadows. Marine Ecology Progress Series, 340, 6371.
  • Prado, P., Farina, S., Tomas, F., Romero, J. & Alcoverro, T. (2008) Marine protection and meadow size alter fish herbivory in seagrass ecosystems. Marine Ecology Progress Series, 371, 1121.
  • Prado, P., Tomas, F., Pinna, S., Farina, S., Roca, G., Ceccherelli, G. et al. (2012) Habitat and scale shape the demographic fate of the keystone sea urchin paracentrotus lividus in Mediterranean macrophyte communities. PLoS ONE, 7, e35170.
  • Pringle, R.M., Young, T.P., Rubenstein, D.I. & McCauley, D.J. (2007) Herbivore-initiated interaction cascades and their modulation by productivity in an African savanna. Proceedings of the National Academy of Sciences of the United States of America, 104, 193197.
  • R Development Core Team (2012) R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna. Available: http://www.R-project.org (accessed 26 Oct 2012).
  • Ricketts, T.H. (2001) The matrix matters: effective isolation in fragmented landscapes. American Naturalist, 158, 8799.
  • Sala, E. (1997) Fish predators and scavengers of the sea urchin Paracentrotus lividus in protected areas of the north-west Mediterranean Sea. Marine Biology, 129, 531539.
  • Smith, T.M., Hindell, J.S., Jenkins, G.P. & Connolly, R.M. (2010) Seagrass patch size affects fish responses to edges. Journal of Animal Ecology, 79, 275281.
  • Stamps, J.A., Buechner, M. & Krishnan, V.V. (1987) The effects of edge permeability and habitat geometry on emigration from patches of habitat. American Naturalist, 129, 533552.
  • Steffan-Dewenter, I. (2003) Importance of habitat area and landscape context for species richness of bees and wasps in fragmented orchard meadows. Conservation Biology, 17, 10361044.
  • Tanner, J.E. (2006) Landscape ecology of interactions between seagrass and mobile epifauna: the matrix matters. Estuarine Coastal and Shelf Science, 68, 404412.
  • Thies, C., Steffan-Dewenter, I. & Tscharntke, T. (2003) Effects of landscape context on herbivory and parasitism at different spatial scales. Oikos, 101, 1825.
  • Tomas, F., Turon, X. & Romero, J. (2005) Seasonal and small-scale spatial variability of herbivory pressure on the temperate seagrass Posidonia oceanica. Marine Ecology Progress Series, 301, 95107.
  • Valentine, J.F., Heck, K.L. Jr, Blackmon, D., Goecker, M.E., Christian, J., Kroutil, R.M. et al. (2007) Food web interactions along seagrass-coral reef boundaries: effects of piscivore reductions on cross-habitat energy exchange. Marine Ecology Progress Series, 333, 3750.
  • Valladares, G., Salvo, A. & Cagnolo, L. (2006) Habitat fragmentation effects on trophic processes of insect-plant food webs. Conservation Biology, 20, 212217.
  • Vergés, A., Perez, M., Alcoverro, T. & Romero, J. (2008) Compensation and resistance to herbivory in seagrasses: induced responses to simulated consumption by fish. Oecologia, 155, 751760.
  • Vergés, A., Vanderklift, M.A., Doropoulos, C. & Hyndes, G.A. (2011) Spatial patterns in herbivory on a coral reef are influenced by structural complexity but not by algal traits. PLoS ONE, 6, e17115.
  • Verlaque, M. (1990) Relationships between Sarpa salpa (L.) (Teleosteen, Sparidae), other browser fishes, and the Mediterranean algal phytobenthos. Oceanologica Acta, 13, 373388.
  • Zieman, J.C. (1974) Methods for the study of the growth and production of turtle grass, Thalassia testudinum Kônig. Aquaculture, 4, 139143.
  • Zuur, A.F., Ieno, E.N., Walker, N.J., Saveliev, A.A. & Smith, G.H. (2009) Mixed Effects Models and Extensions in Ecology with R. Springer Science+Business Media, New York.