Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934): another small stowaway overlooked?

José Manuel Guerra-García; Triana Revanales; Pablo Saenz-Arias; Carlos Navarro-Barranco; Sofía Ruiz-Velasco; María Pastor-Montero; Juan Sempere-Valverde; Sahar Chebaane; Alberto Vélez-Ruiz; Gemma Martínez-Laiz; Mar Santos-Simón; Jasmine Ferrario; Agnese Marchini; Ola Mohamed Nour; Benoit Gouillieux; Andrew Mark Hosie; Vasilis Gerovasileiou; Susana Carvalho; Paolo Balistreri; Benedetto Sirchia; Vincenzo Ruvolo; Emanuele Mancini; Andrea Bonifazi; Jonathan Tempesti; Francesco Tiralongo; Sara Ignoto; Victoria Fernandez-Gonzalez; Maite Vázquez-Luis; María Del Pilar Cabezas; Macarena Ros

doi:10.12681/MMS.35817

Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934): another small stowaway overlooked?

José Manuel Guerra-García^*, Triana Revanales, Pablo Saenz-Arias, Carlos Navarro-Barranco, Sofía Ruiz-Velasco, María Pastor-Montero, Juan Sempere-Valverde, Sahar Chebaane, Alberto Vélez-Ruiz, Gemma Martínez-Laiz, Mar Santos-Simón, Jasmine Ferrario, Agnese Marchini, Ola Mohamed Nour, Benoit Gouillieux, Andrew Mark Hosie, Vasilis Gerovasileiou, Susana Carvalho, Paolo Balistreri, Benedetto SirchiaVincenzo Ruvolo, Emanuele Mancini, Andrea Bonifazi, Jonathan Tempesti, Francesco Tiralongo, Sara Ignoto, Victoria Fernandez-Gonzalez, Maite Vázquez-Luis, María Del Pilar Cabezas, Macarena Ros

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Studies of non-indigenous species (NIS) often tend to focus on medium and large-sized taxa with potential for remarkable ecological and/or economic impact, whereas the early detection of small invertebrates is often delayed due to taxonomic chal-lenge, lack of consistent, standardised monitoring efforts and limited funding. This study represents the first records of the marine amphipod Laticorophium baconi (Shoemaker, 1934) in Morocco, Tunisia, Corsica (France), Italy, Greece, Egypt, Saudi Arabia and New Caledonia (France). Furthermore, it reports an expansion of its known distribution in Portugal (earliest and northernmost record for the country and first record for Macaronesia), Spain (earliest record for Atlantic and Mediterranean European waters), and Australia (first record for Indian Ocean). Recreational boating and commercial shipping, mainly through hull fouling and sec-ondarily ballast waters, are proposed as vectors for introduction and secondary spread of L. baconi. The following traits, analysed during the present study, could contribute to its invasive potential: (i) quick and extensive spread of the species worldwide, (ii) high densities in marinas, harbours, hull fouling and other artificial habitats, including aquaculture facilities and floating debris, (iii) high ability for short-term colonisation of empty artificial niches, (iv) diet based on detritus suggesting an opportunistic feed-ing behaviour, and (v) population survival during seasonal fluctuations in different regions. Taxonomic expertise and scientific collaboration, based on multidisciplinary networks of experts, are crucial for the early detection, distribution updates, and risk assessment of small and overlooked stowaways in marine environments.

Original language	English (US)
Pages (from-to)	644-665
Number of pages	22
Journal	Mediterranean Marine Science
Volume	24
Issue number	3
DOIs	https://doi.org/10.12681/MMS.35817
State	Published - 2023

Bibliographical note

Publisher Copyright:
© (2023), (Hellenic Centre for Marine Research). All Rights Reserved.

Keywords

Amphipoda
anthropogenic dispersal
early detection
non-indigenous
scientific collaboration
taxonomic expertise

ASJC Scopus subject areas

Oceanography
Environmental Engineering
Ecology, Evolution, Behavior and Systematics
Aquatic Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.12681/MMS.35817

Cite this

Guerra-García, J. M., Revanales, T., Saenz-Arias, P., Navarro-Barranco, C., Ruiz-Velasco, S., Pastor-Montero, M., Sempere-Valverde, J., Chebaane, S., Vélez-Ruiz, A., Martínez-Laiz, G., Santos-Simón, M., Ferrario, J., Marchini, A., Nour, O. M., Gouillieux, B., Hosie, A. M., Gerovasileiou, V., Carvalho, S., Balistreri, P., ... Ros, M. (2023). Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934): another small stowaway overlooked? Mediterranean Marine Science, 24(3), 644-665. https://doi.org/10.12681/MMS.35817

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title = "Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934): another small stowaway overlooked?",

abstract = "Studies of non-indigenous species (NIS) often tend to focus on medium and large-sized taxa with potential for remarkable ecological and/or economic impact, whereas the early detection of small invertebrates is often delayed due to taxonomic chal-lenge, lack of consistent, standardised monitoring efforts and limited funding. This study represents the first records of the marine amphipod Laticorophium baconi (Shoemaker, 1934) in Morocco, Tunisia, Corsica (France), Italy, Greece, Egypt, Saudi Arabia and New Caledonia (France). Furthermore, it reports an expansion of its known distribution in Portugal (earliest and northernmost record for the country and first record for Macaronesia), Spain (earliest record for Atlantic and Mediterranean European waters), and Australia (first record for Indian Ocean). Recreational boating and commercial shipping, mainly through hull fouling and sec-ondarily ballast waters, are proposed as vectors for introduction and secondary spread of L. baconi. The following traits, analysed during the present study, could contribute to its invasive potential: (i) quick and extensive spread of the species worldwide, (ii) high densities in marinas, harbours, hull fouling and other artificial habitats, including aquaculture facilities and floating debris, (iii) high ability for short-term colonisation of empty artificial niches, (iv) diet based on detritus suggesting an opportunistic feed-ing behaviour, and (v) population survival during seasonal fluctuations in different regions. Taxonomic expertise and scientific collaboration, based on multidisciplinary networks of experts, are crucial for the early detection, distribution updates, and risk assessment of small and overlooked stowaways in marine environments.",

keywords = "Amphipoda, anthropogenic dispersal, early detection, non-indigenous, scientific collaboration, taxonomic expertise",

author = "Guerra-Garc{\'i}a, \{Jos{\'e} Manuel\} and Triana Revanales and Pablo Saenz-Arias and Carlos Navarro-Barranco and Sof{\'i}a Ruiz-Velasco and Mar{\'i}a Pastor-Montero and Juan Sempere-Valverde and Sahar Chebaane and Alberto V{\'e}lez-Ruiz and Gemma Mart{\'i}nez-Laiz and Mar Santos-Sim{\'o}n and Jasmine Ferrario and Agnese Marchini and Nour, \{Ola Mohamed\} and Benoit Gouillieux and Hosie, \{Andrew Mark\} and Vasilis Gerovasileiou and Susana Carvalho and Paolo Balistreri and Benedetto Sirchia and Vincenzo Ruvolo and Emanuele Mancini and Andrea Bonifazi and Jonathan Tempesti and Francesco Tiralongo and Sara Ignoto and Victoria Fernandez-Gonzalez and Maite V{\'a}zquez-Luis and Cabezas, \{Mar{\'i}a Del Pilar\} and Macarena Ros",

year = "2023",

doi = "10.12681/MMS.35817",

language = "English (US)",

volume = "24",

pages = "644--665",

journal = "Mediterranean Marine Science",

issn = "1108-393X",

publisher = "Hellenic Centre for Marine Research",

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Guerra-García, JM, Revanales, T, Saenz-Arias, P, Navarro-Barranco, C, Ruiz-Velasco, S, Pastor-Montero, M, Sempere-Valverde, J, Chebaane, S, Vélez-Ruiz, A, Martínez-Laiz, G, Santos-Simón, M, Ferrario, J, Marchini, A, Nour, OM, Gouillieux, B, Hosie, AM, Gerovasileiou, V, Carvalho, S, Balistreri, P, Sirchia, B, Ruvolo, V, Mancini, E, Bonifazi, A, Tempesti, J, Tiralongo, F, Ignoto, S, Fernandez-Gonzalez, V, Vázquez-Luis, M, Cabezas, MDP & Ros, M 2023, 'Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934): another small stowaway overlooked?', Mediterranean Marine Science, vol. 24, no. 3, pp. 644-665. https://doi.org/10.12681/MMS.35817

TY - JOUR

T1 - Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934)

T2 - another small stowaway overlooked?

AU - Guerra-García, José Manuel

AU - Revanales, Triana

AU - Saenz-Arias, Pablo

AU - Navarro-Barranco, Carlos

AU - Ruiz-Velasco, Sofía

AU - Pastor-Montero, María

AU - Sempere-Valverde, Juan

AU - Chebaane, Sahar

AU - Vélez-Ruiz, Alberto

AU - Martínez-Laiz, Gemma

AU - Santos-Simón, Mar

AU - Ferrario, Jasmine

AU - Marchini, Agnese

AU - Nour, Ola Mohamed

AU - Gouillieux, Benoit

AU - Hosie, Andrew Mark

AU - Gerovasileiou, Vasilis

AU - Carvalho, Susana

AU - Balistreri, Paolo

AU - Sirchia, Benedetto

AU - Ruvolo, Vincenzo

AU - Mancini, Emanuele

AU - Bonifazi, Andrea

AU - Tempesti, Jonathan

AU - Tiralongo, Francesco

AU - Ignoto, Sara

AU - Fernandez-Gonzalez, Victoria

AU - Vázquez-Luis, Maite

AU - Cabezas, María Del Pilar

AU - Ros, Macarena

PY - 2023

Y1 - 2023

N2 - Studies of non-indigenous species (NIS) often tend to focus on medium and large-sized taxa with potential for remarkable ecological and/or economic impact, whereas the early detection of small invertebrates is often delayed due to taxonomic chal-lenge, lack of consistent, standardised monitoring efforts and limited funding. This study represents the first records of the marine amphipod Laticorophium baconi (Shoemaker, 1934) in Morocco, Tunisia, Corsica (France), Italy, Greece, Egypt, Saudi Arabia and New Caledonia (France). Furthermore, it reports an expansion of its known distribution in Portugal (earliest and northernmost record for the country and first record for Macaronesia), Spain (earliest record for Atlantic and Mediterranean European waters), and Australia (first record for Indian Ocean). Recreational boating and commercial shipping, mainly through hull fouling and sec-ondarily ballast waters, are proposed as vectors for introduction and secondary spread of L. baconi. The following traits, analysed during the present study, could contribute to its invasive potential: (i) quick and extensive spread of the species worldwide, (ii) high densities in marinas, harbours, hull fouling and other artificial habitats, including aquaculture facilities and floating debris, (iii) high ability for short-term colonisation of empty artificial niches, (iv) diet based on detritus suggesting an opportunistic feed-ing behaviour, and (v) population survival during seasonal fluctuations in different regions. Taxonomic expertise and scientific collaboration, based on multidisciplinary networks of experts, are crucial for the early detection, distribution updates, and risk assessment of small and overlooked stowaways in marine environments.

AB - Studies of non-indigenous species (NIS) often tend to focus on medium and large-sized taxa with potential for remarkable ecological and/or economic impact, whereas the early detection of small invertebrates is often delayed due to taxonomic chal-lenge, lack of consistent, standardised monitoring efforts and limited funding. This study represents the first records of the marine amphipod Laticorophium baconi (Shoemaker, 1934) in Morocco, Tunisia, Corsica (France), Italy, Greece, Egypt, Saudi Arabia and New Caledonia (France). Furthermore, it reports an expansion of its known distribution in Portugal (earliest and northernmost record for the country and first record for Macaronesia), Spain (earliest record for Atlantic and Mediterranean European waters), and Australia (first record for Indian Ocean). Recreational boating and commercial shipping, mainly through hull fouling and sec-ondarily ballast waters, are proposed as vectors for introduction and secondary spread of L. baconi. The following traits, analysed during the present study, could contribute to its invasive potential: (i) quick and extensive spread of the species worldwide, (ii) high densities in marinas, harbours, hull fouling and other artificial habitats, including aquaculture facilities and floating debris, (iii) high ability for short-term colonisation of empty artificial niches, (iv) diet based on detritus suggesting an opportunistic feed-ing behaviour, and (v) population survival during seasonal fluctuations in different regions. Taxonomic expertise and scientific collaboration, based on multidisciplinary networks of experts, are crucial for the early detection, distribution updates, and risk assessment of small and overlooked stowaways in marine environments.

KW - Amphipoda

KW - anthropogenic dispersal

KW - early detection

KW - non-indigenous

KW - scientific collaboration

KW - taxonomic expertise

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EP - 665

JO - Mediterranean Marine Science

JF - Mediterranean Marine Science

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ER -

Quick spreading of the exotic amphipod Laticorophium baconi (Shoemaker, 1934): another small stowaway overlooked?

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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