Massive decline of invasive apple snail populations after blue crab invasion in the Ebro River, Spain

The negative interaction between multiple invasive species, when an invasive predator benefits from a previously introduced and abundant prey, poses unanticipated challenges for the joint management of invaders. To illustrate this question, we describe the surge and collapse of the invasive apple sn...

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Veröffentlicht in:	Biological invasions 2024-08, Vol.26 (8), p.2387-2395
Hauptverfasser:	Céspedes, Vanessa, Bernardo-Madrid, Rubén, Picazo, Félix, Vilà, Montserrat, Rubio, Cristóbal, García, María, Sanz, Ismael, Gallardo, Belinda
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Sprache:	eng
Schlagworte:	apples Aquatic ecosystems Biomedical and Life Sciences Blue crabs Callinectes sapidus Coexistence crabs Developmental Biology Ecology Eggs Environmental impact Environmental management Freshwater & Marine Ecology Fruits Geographical distribution Introduced species Invasion Note Invasive species Life Sciences Mollusks Nonnative species paddies Plant Sciences Pomacea maculata Population decline Populations Predation Predators Prey prey species Rice riparian areas Rivers Snails Spain temporal variation
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container_title	Biological invasions
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creator	Céspedes, Vanessa Bernardo-Madrid, Rubén Picazo, Félix Vilà, Montserrat Rubio, Cristóbal García, María Sanz, Ismael Gallardo, Belinda
description	The negative interaction between multiple invasive species, when an invasive predator benefits from a previously introduced and abundant prey, poses unanticipated challenges for the joint management of invaders. To illustrate this question, we describe the surge and collapse of the invasive apple snail Pomacea maculata population before and after the arrival of the invasive blue crab, Callinectes sapidus , in the Ebro River (NE Spain). These two invaders have coincided for the first time beyond their respective native and prior invasive ranges, and thus lack any previous shared eco-evolutionary history facilitating coexistence. We leverage data from a 9-year apple snail removal programme (2014–2022) conducted by authorities to evaluate the effectiveness of the management programme and describe the apple snail temporal dynamics in the Ebro River. Since its arrival in 2013, the apple snail population increased exponentially along the river and adjacent rice-fields despite labour-intensive eradication efforts. Unexpectedly, riverine populations of the apple snail declined by 90% in 2018 relative to the prior year without apparent association with previous management efforts. Simultaneously, the blue crab was first recorded in the Ebro River in 2018, and its distribution rapidly overlapped the whole area invaded by apple snails. We suggest that over-predation by the blue crab is the main cause of the decline observed in the apple snail, and discuss the implications of this new invader-invader interaction for management. This study underscores the unforeseen consequences of subsequent waves of invasion, and the importance of supporting management with a deeper understanding of ecological interactions among invasive predator and prey species.
doi_str_mv	10.1007/s10530-024-03334-1
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Simultaneously, the blue crab was first recorded in the Ebro River in 2018, and its distribution rapidly overlapped the whole area invaded by apple snails. We suggest that over-predation by the blue crab is the main cause of the decline observed in the apple snail, and discuss the implications of this new invader-invader interaction for management. 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Simultaneously, the blue crab was first recorded in the Ebro River in 2018, and its distribution rapidly overlapped the whole area invaded by apple snails. We suggest that over-predation by the blue crab is the main cause of the decline observed in the apple snail, and discuss the implications of this new invader-invader interaction for management. 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To illustrate this question, we describe the surge and collapse of the invasive apple snail Pomacea maculata population before and after the arrival of the invasive blue crab, Callinectes sapidus , in the Ebro River (NE Spain). These two invaders have coincided for the first time beyond their respective native and prior invasive ranges, and thus lack any previous shared eco-evolutionary history facilitating coexistence. We leverage data from a 9-year apple snail removal programme (2014–2022) conducted by authorities to evaluate the effectiveness of the management programme and describe the apple snail temporal dynamics in the Ebro River. Since its arrival in 2013, the apple snail population increased exponentially along the river and adjacent rice-fields despite labour-intensive eradication efforts. Unexpectedly, riverine populations of the apple snail declined by 90% in 2018 relative to the prior year without apparent association with previous management efforts. Simultaneously, the blue crab was first recorded in the Ebro River in 2018, and its distribution rapidly overlapped the whole area invaded by apple snails. We suggest that over-predation by the blue crab is the main cause of the decline observed in the apple snail, and discuss the implications of this new invader-invader interaction for management. 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subjects	apples Aquatic ecosystems Biomedical and Life Sciences Blue crabs Callinectes sapidus Coexistence crabs Developmental Biology Ecology Eggs Environmental impact Environmental management Freshwater & Marine Ecology Fruits Geographical distribution Introduced species Invasion Note Invasive species Life Sciences Mollusks Nonnative species paddies Plant Sciences Pomacea maculata Population decline Populations Predation Predators Prey prey species Rice riparian areas Rivers Snails Spain temporal variation
title	Massive decline of invasive apple snail populations after blue crab invasion in the Ebro River, Spain
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