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Ĭhase AL, Dijkstra JA, Harris LG (2016) The influence of substrate material on ascidian larval settlement. In: CCME EPC-98EĬhan FT, Briski E (2017) An overview of recent research in marine biological invasions. ĬCME (1999) Protocol for the derivation of canadian sediment quality guidelines for the protection of aquatic life. Ĭarrasco LR, Chan J, McGrath FL, Nghiem LTP (2017) Biodiversity conservation in a telecoupled world. J Mar Biol Assoc United Kingdom 33:329–334. Ĭarlisle DB (1954) Styela mammiculata n.sp., a new species of ascidian from the plymouth area. (2004)0022.0.CO 2Ĭappuccino N, Carpenter D (2005) Invasive exotic plants suffer less herbivory than non-invasive exotic plants. Taylor & Francis Group, New YorkĬallaway RM, Ridenour WM (2004) Novel weapons: invasive success and the evolution of increased competitive ability. īretz P, Hothorn T, Westfall P (2011) Multiple comparisons using R. īouchemousse S, Bishop JDD, Viard F (2016) Contrasting global genetic patterns in two biologically similar, widespread and invasive Ciona species (Tunicata, Ascidiacea). īlackburn TM, Pyšek P, Bacher S, Carlton JT, Duncan RP, Jarošík V, Wilson JRU, Richardson DM (2011) A proposed unified framework for biological invasions. īenton MJ (2009) The Red Queen and the Court Jester: Species diversity and the role of biotic and abiotic factors through time. īattini N, Giachetti CB, Castro KL, Bortolus A, Schwindt E (2021) Predator–prey interactions as key drivers for the invasion success of a potentially neurotoxic sea slug. Our results suggest that generalist fish predation may play a crucial role in the success of non-indigenous species due to facilitation through competitive release.Īstudillo JC, Leung KMY, Bonebrake TC (2016) Seasonal heterogeneity provides a niche opportunity for ascidian invasion in subtropical marine communities. intestinalis showed higher biomass when caged and may have competed with lab-grown S. The non-indigenous Styela clava had significant higher survival and biomass when uncaged, suggesting a positive effect of predation for this species. intestinalis survival, whereas none of the measured contaminants accounted for site variability of survival. We were able to identify a link between predation intensity exerted by mobile generalist macropredators and C. The survival of the native Ciona intestinalis was conjointly highly influenced by location and caging. We also monitored the in situ survival of lab-grown ascidians at three locations within the marina, half with predator cage exclusion. A feeding experiment allowed us to monitor microscale variation of generalist fish predation, which varied significantly within a marina. We ran two experiments aiming to disentangle the effects of abiotic factors like contaminants and the effect of predation on recruits’ survival of one native and one alien ascidian species. Drivers of successful introduction of exotic species remain a major headline in marine invasion biology.