%0 Journal Article %A Boada, Jordi %A Arthur, Rohan %A Alonso, David %A F. Pagès, Jordi %A Pessarrodona, Albert %A Oliva, Silvia %A Ceccherelli, Giulia %A Piazzi, Luigi %A Romero, Javier %A Alcoverro, Teresa %D 2017 %T Feeding response and nutrient mediated growth from Immanent conditions determine imminent collapses: nutrient regimes define the resilience of macroalgal communities %U https://rs.figshare.com/articles/journal_contribution/Feeding_response_and_nutrient_mediated_growth_from_Immanent_conditions_determine_imminent_collapses_nutrient_regimes_define_the_resilience_of_macroalgal_communities/4714267 %R 10.6084/m9.figshare.4714267.v1 %2 https://rs.figshare.com/ndownloader/files/7694515 %K alternative stable states %K catastrophic shifts %K buffer capacity %K tipping points %K sea urchin barrens %K compensatory feeding %X Mean percentage macroalgal cover + SE in plots of four different treatments in the low nutrient region (nutrient-enriched, without urchins: N+U0, nutrient-enriched, with urchins: N+U+, not enriched, with urchins N0U+, and not enriched, without urchins: N0U0). The percentage difference between N0U0 and N+U0 plots shows the effect of nutrient mediated growth (35.5% blue shadowed area). Additionally, the percentage difference between the N+U0 and the N+U+ shows the effect of both compensatory feeding and nutrient mediated growth together (71% green shadowed area). %I The Royal Society