The role of Marine Protected Areas in influencing the invasion success of the alien crab Percnon gibbesi

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Abstract

The biotic resistance hypothesis states that pristine communities, with high species richness and functional diversity, are less prone to biological invasions than species-poor areas either this is natural or it is a result of human activities. Complex communities with high levels of biodiversity, such as those hosted by Marine Protected Areas, should offer fewer niche opportunities (e.g. resources and space) to invasive species thereby reducing both their establishment possibilities and success (i.e. settlement and/or expansion).The present study aimed to evaluate the capacity of marine protected communities to provide a buffer against the establishment of one of the most invasive species in the Mediterranean Sea: the Percnidae crab Percnon gibbesi (H. Milne Edwards, 1853). Here, it was tested if predation provides a higher resistance to the invasion by P. gibbesi in protected native communities than in exploited ones. Specifically, this study aimed to compare (a) the abundance and diversity of predator assemblages of P. gibbesi, (b) the predation pressure on P. gibbesi and (c) the density of this species in protected and unprotected areas in the Mediterranean Sea. Tethering experiments were conducted in the field to assess the relative predation rate on two size classes of P. gibbesi, using long and short tethers, at two protected and two unprotected sites randomly chosen on the northern coast of Sicily (Southern Tyrrhenian Sea).The abundance and diversity of predators of P. gibbesi and the relative predation rate on tethered crabs were higher at protected than unprotected sites, independent of crab size and tether length; the density of P. gibbesi was significantly lower in protected than unprotected areas.The findings of this study, although restricted to a small spatial scale, support the existence of mechanisms for biotic resistance in Mediterranean protected native communities and provide experimental evidence that the restoration of predator assemblages confers better invasion resistance to marine protected areas against P. gibbesi invasion. More generally, the present study confirms that marine protected areas are an effective tool for ameliorating the impact of some biological invasions in the Mediterranean Sea.
Lingua originaleEnglish
Pagine142-142
Numero di pagine1
Stato di pubblicazionePublished - 2018

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crab
predation
biological invasion
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invasive species
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human activity
species richness
biodiversity
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Mediterranean Sea
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title = "The role of Marine Protected Areas in influencing the invasion success of the alien crab Percnon gibbesi",
abstract = "The biotic resistance hypothesis states that pristine communities, with high species richness and functional diversity, are less prone to biological invasions than species-poor areas either this is natural or it is a result of human activities. Complex communities with high levels of biodiversity, such as those hosted by Marine Protected Areas, should offer fewer niche opportunities (e.g. resources and space) to invasive species thereby reducing both their establishment possibilities and success (i.e. settlement and/or expansion).The present study aimed to evaluate the capacity of marine protected communities to provide a buffer against the establishment of one of the most invasive species in the Mediterranean Sea: the Percnidae crab Percnon gibbesi (H. Milne Edwards, 1853). Here, it was tested if predation provides a higher resistance to the invasion by P. gibbesi in protected native communities than in exploited ones. Specifically, this study aimed to compare (a) the abundance and diversity of predator assemblages of P. gibbesi, (b) the predation pressure on P. gibbesi and (c) the density of this species in protected and unprotected areas in the Mediterranean Sea. Tethering experiments were conducted in the field to assess the relative predation rate on two size classes of P. gibbesi, using long and short tethers, at two protected and two unprotected sites randomly chosen on the northern coast of Sicily (Southern Tyrrhenian Sea).The abundance and diversity of predators of P. gibbesi and the relative predation rate on tethered crabs were higher at protected than unprotected sites, independent of crab size and tether length; the density of P. gibbesi was significantly lower in protected than unprotected areas.The findings of this study, although restricted to a small spatial scale, support the existence of mechanisms for biotic resistance in Mediterranean protected native communities and provide experimental evidence that the restoration of predator assemblages confers better invasion resistance to marine protected areas against P. gibbesi invasion. More generally, the present study confirms that marine protected areas are an effective tool for ameliorating the impact of some biological invasions in the Mediterranean Sea.",
author = "Salvatrice Vizzini and Chiara Bonaviri and Paola Gianguzza and Simona No{\`e} and Fabio Badalamenti",
year = "2018",
language = "English",
pages = "142--142",

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T1 - The role of Marine Protected Areas in influencing the invasion success of the alien crab Percnon gibbesi

AU - Vizzini, Salvatrice

AU - Bonaviri, Chiara

AU - Gianguzza, Paola

AU - Noè, Simona

AU - Badalamenti, Fabio

PY - 2018

Y1 - 2018

N2 - The biotic resistance hypothesis states that pristine communities, with high species richness and functional diversity, are less prone to biological invasions than species-poor areas either this is natural or it is a result of human activities. Complex communities with high levels of biodiversity, such as those hosted by Marine Protected Areas, should offer fewer niche opportunities (e.g. resources and space) to invasive species thereby reducing both their establishment possibilities and success (i.e. settlement and/or expansion).The present study aimed to evaluate the capacity of marine protected communities to provide a buffer against the establishment of one of the most invasive species in the Mediterranean Sea: the Percnidae crab Percnon gibbesi (H. Milne Edwards, 1853). Here, it was tested if predation provides a higher resistance to the invasion by P. gibbesi in protected native communities than in exploited ones. Specifically, this study aimed to compare (a) the abundance and diversity of predator assemblages of P. gibbesi, (b) the predation pressure on P. gibbesi and (c) the density of this species in protected and unprotected areas in the Mediterranean Sea. Tethering experiments were conducted in the field to assess the relative predation rate on two size classes of P. gibbesi, using long and short tethers, at two protected and two unprotected sites randomly chosen on the northern coast of Sicily (Southern Tyrrhenian Sea).The abundance and diversity of predators of P. gibbesi and the relative predation rate on tethered crabs were higher at protected than unprotected sites, independent of crab size and tether length; the density of P. gibbesi was significantly lower in protected than unprotected areas.The findings of this study, although restricted to a small spatial scale, support the existence of mechanisms for biotic resistance in Mediterranean protected native communities and provide experimental evidence that the restoration of predator assemblages confers better invasion resistance to marine protected areas against P. gibbesi invasion. More generally, the present study confirms that marine protected areas are an effective tool for ameliorating the impact of some biological invasions in the Mediterranean Sea.

AB - The biotic resistance hypothesis states that pristine communities, with high species richness and functional diversity, are less prone to biological invasions than species-poor areas either this is natural or it is a result of human activities. Complex communities with high levels of biodiversity, such as those hosted by Marine Protected Areas, should offer fewer niche opportunities (e.g. resources and space) to invasive species thereby reducing both their establishment possibilities and success (i.e. settlement and/or expansion).The present study aimed to evaluate the capacity of marine protected communities to provide a buffer against the establishment of one of the most invasive species in the Mediterranean Sea: the Percnidae crab Percnon gibbesi (H. Milne Edwards, 1853). Here, it was tested if predation provides a higher resistance to the invasion by P. gibbesi in protected native communities than in exploited ones. Specifically, this study aimed to compare (a) the abundance and diversity of predator assemblages of P. gibbesi, (b) the predation pressure on P. gibbesi and (c) the density of this species in protected and unprotected areas in the Mediterranean Sea. Tethering experiments were conducted in the field to assess the relative predation rate on two size classes of P. gibbesi, using long and short tethers, at two protected and two unprotected sites randomly chosen on the northern coast of Sicily (Southern Tyrrhenian Sea).The abundance and diversity of predators of P. gibbesi and the relative predation rate on tethered crabs were higher at protected than unprotected sites, independent of crab size and tether length; the density of P. gibbesi was significantly lower in protected than unprotected areas.The findings of this study, although restricted to a small spatial scale, support the existence of mechanisms for biotic resistance in Mediterranean protected native communities and provide experimental evidence that the restoration of predator assemblages confers better invasion resistance to marine protected areas against P. gibbesi invasion. More generally, the present study confirms that marine protected areas are an effective tool for ameliorating the impact of some biological invasions in the Mediterranean Sea.

UR - http://hdl.handle.net/10447/334139

UR - http://www.embs53.org/#section37

M3 - Other

SP - 142

EP - 142

ER -