Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies

Jacopo Aguzzi; Damianos Chatzievangelou; Nathan J. Robinson; Nixon Bahamon; Alan Berry; Marc Carreras; Joan Batista Company; Corrado Costa; Joaquin del Rio Fernandez; Ahmad Falahzadeh; Spyros Fifas; Sascha Flögel; Jordi Grinyó; Jonas Pall Jónasson; Patrik Jonsson; Colm Lordan; Mathieu Lundy; Simone Marini; Michela Martinelli; Ivan Masmitja; Luca Mirimin; Atif Naseer; Joan Navarro; Narcis Palomeras; Giacomo Picardi; Cristina Silva; Sergio Stefanni; Maria Vigo; Yolanda Vila; Adrian Weetman; Jennifer Doyle

doi:10.3389/fmars.2022.969071

Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies

Jacopo Aguzzi
, Damianos Chatzievangelou
, Nathan J. Robinson
, Nixon Bahamon
, Alan Berry
, Marc Carreras
, Joan Batista Company
, Corrado Costa
, Joaquin del Rio Fernandez
, Ahmad Falahzadeh
, Spyros Fifas
, Sascha Flögel
, Jordi Grinyó
, Jonas Pall Jónasson
, Patrik Jonsson
, Colm Lordan
, Mathieu Lundy
, Simone Marini
, Michela Martinelli
, Ivan Masmitja

Luca Mirimin, Atif Naseer, Joan Navarro, Narcis Palomeras, Giacomo Picardi, Cristina Silva, Sergio Stefanni, Maria Vigo, Yolanda Vila, Adrian Weetman, Jennifer Doyle

Department of Natural Resources & The Environment

Institut de Ciencias del Mar (ICM-CSIC)
Stazione Zoologica Anton Dohrn
Marine Institute
University of Girona
Council for Agricultural Research and Economics
Polytechnic University of Catalonia
Institut français de recherche pour l'exploitation de la mer
Helmholtz Centre for Ocean Research Kiel
Royal Netherlands Institute for Sea Research - NIOZ
Marine and Freshwater Research Institute
Swedish University of Agricultural Sciences
Agri-Food and Biosciences Institute, Belfast
National Research Council of Italy
Alantic Technological University
Umm Al-Qura University
University of Málaga
BioRobotics Institute-Scuola Superiore Sant'Anna (SSAA)
Portuguese Institute for Sea and Atmosphere (IPMA)
Spanish Institute of Oceanography (IEO)
Marine Scotland

Research output: Contribution to journal › Review article › peer-review

23 Citations (Scopus)

Abstract

The Norway lobster, Nephrops norvegicus, supports a key European fishery. Stock assessments for this species are mostly based on trawling and UnderWater TeleVision (UWTV) surveys. However, N. norvegicus are burrowing organisms and these survey methods are unable to sample or observe individuals in their burrows. To account for this, UWTV surveys generally assume that “1 burrow system = 1 animal”, due to the territorial behavior of N. norvegicus. Nevertheless, this assumption still requires in-situ validation. Here, we outline how to improve the accuracy of current stock assessments for N. norvegicus with novel ecological monitoring technologies, including: robotic fixed and mobile camera-platforms, telemetry, environmental DNA (eDNA), and Artificial Intelligence (AI). First, we outline the present status and threat for overexploitation in N. norvegicus stocks. Then, we discuss how the burrowing behavior of N. norvegicus biases current stock assessment methods. We propose that state-of-the-art stationary and mobile robotic platforms endowed with innovative sensors and complemented with AI tools could be used to count both animals and burrows systems in-situ, as well as to provide key insights into burrowing behavior. Next, we illustrate how multiparametric monitoring can be incorporated into assessments of physiology and burrowing behavior. Finally, we develop a flowchart for the appropriate treatment of multiparametric biological and environmental data required to improve current stock assessment methods.

Original language	English
Article number	969071
Journal	Frontiers in Marine Science
Volume	9
DOIs	https://doi.org/10.3389/fmars.2022.969071
Publication status	Published - 9 Sep 2022

Keywords

Nephrops norvegicus
UWTV
autonomous networks
biomimicking platforms
eDNA
geo-sonars
optoacoustic imaging
stocks monitoring

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10.3389/fmars.2022.969071

Cite this

Aguzzi, J., Chatzievangelou, D., Robinson, N. J., Bahamon, N., Berry, A., Carreras, M., Company, J. B., Costa, C., del Rio Fernandez, J., Falahzadeh, A., Fifas, S., Flögel, S., Grinyó, J., Jónasson, J. P., Jonsson, P., Lordan, C., Lundy, M., Marini, S., Martinelli, M., ... Doyle, J. (2022). Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies. Frontiers in Marine Science, 9, Article 969071. https://doi.org/10.3389/fmars.2022.969071

@article{ff84a89c4cf149bbacefce80b79191e3,

title = "Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies",

abstract = "The Norway lobster, Nephrops norvegicus, supports a key European fishery. Stock assessments for this species are mostly based on trawling and UnderWater TeleVision (UWTV) surveys. However, N. norvegicus are burrowing organisms and these survey methods are unable to sample or observe individuals in their burrows. To account for this, UWTV surveys generally assume that “1 burrow system = 1 animal”, due to the territorial behavior of N. norvegicus. Nevertheless, this assumption still requires in-situ validation. Here, we outline how to improve the accuracy of current stock assessments for N. norvegicus with novel ecological monitoring technologies, including: robotic fixed and mobile camera-platforms, telemetry, environmental DNA (eDNA), and Artificial Intelligence (AI). First, we outline the present status and threat for overexploitation in N. norvegicus stocks. Then, we discuss how the burrowing behavior of N. norvegicus biases current stock assessment methods. We propose that state-of-the-art stationary and mobile robotic platforms endowed with innovative sensors and complemented with AI tools could be used to count both animals and burrows systems in-situ, as well as to provide key insights into burrowing behavior. Next, we illustrate how multiparametric monitoring can be incorporated into assessments of physiology and burrowing behavior. Finally, we develop a flowchart for the appropriate treatment of multiparametric biological and environmental data required to improve current stock assessment methods.",

keywords = "Nephrops norvegicus, UWTV, autonomous networks, biomimicking platforms, eDNA, geo-sonars, optoacoustic imaging, stocks monitoring",

author = "Jacopo Aguzzi and Damianos Chatzievangelou and Robinson, \{Nathan J.\} and Nixon Bahamon and Alan Berry and Marc Carreras and Company, \{Joan Batista\} and Corrado Costa and \{del Rio Fernandez\}, Joaquin and Ahmad Falahzadeh and Spyros Fifas and Sascha Fl{\"o}gel and Jordi Griny{\'o} and J{\'o}nasson, \{Jonas Pall\} and Patrik Jonsson and Colm Lordan and Mathieu Lundy and Simone Marini and Michela Martinelli and Ivan Masmitja and Luca Mirimin and Atif Naseer and Joan Navarro and Narcis Palomeras and Giacomo Picardi and Cristina Silva and Sergio Stefanni and Maria Vigo and Yolanda Vila and Adrian Weetman and Jennifer Doyle",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 Aguzzi, Chatzievangelou, Robinson, Bahamon, Berry, Carreras, Company, Costa, del Rio Fernandez, Falahzadeh, Fifas, Fl{\"o}gel, Griny{\'o}, J{\'o}nasson, Jonsson, Lordan, Lundy, Marini, Martinelli, Masmitja, Mirimin, Naseer, Navarro, Palomeras, Picardi, Silva, Stefanni, Vigo, Vila, Weetman and Doyle.",

year = "2022",

month = sep,

day = "9",

doi = "10.3389/fmars.2022.969071",

language = "English",

volume = "9",

journal = "Frontiers in Marine Science",

issn = "2296-7745",

}

Aguzzi, J, Chatzievangelou, D, Robinson, NJ, Bahamon, N, Berry, A, Carreras, M, Company, JB, Costa, C, del Rio Fernandez, J, Falahzadeh, A, Fifas, S, Flögel, S, Grinyó, J, Jónasson, JP, Jonsson, P, Lordan, C, Lundy, M, Marini, S, Martinelli, M, Masmitja, I, Mirimin, L, Naseer, A, Navarro, J, Palomeras, N, Picardi, G, Silva, C, Stefanni, S, Vigo, M, Vila, Y, Weetman, A & Doyle, J 2022, 'Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies', Frontiers in Marine Science, vol. 9, 969071. https://doi.org/10.3389/fmars.2022.969071

TY - JOUR

T1 - Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies

AU - Aguzzi, Jacopo

AU - Chatzievangelou, Damianos

AU - Robinson, Nathan J.

AU - Bahamon, Nixon

AU - Berry, Alan

AU - Carreras, Marc

AU - Company, Joan Batista

AU - Costa, Corrado

AU - del Rio Fernandez, Joaquin

AU - Falahzadeh, Ahmad

AU - Fifas, Spyros

AU - Flögel, Sascha

AU - Grinyó, Jordi

AU - Jónasson, Jonas Pall

AU - Jonsson, Patrik

AU - Lordan, Colm

AU - Lundy, Mathieu

AU - Marini, Simone

AU - Martinelli, Michela

AU - Masmitja, Ivan

AU - Mirimin, Luca

AU - Naseer, Atif

AU - Navarro, Joan

AU - Palomeras, Narcis

AU - Picardi, Giacomo

AU - Silva, Cristina

AU - Stefanni, Sergio

AU - Vigo, Maria

AU - Vila, Yolanda

AU - Weetman, Adrian

AU - Doyle, Jennifer

N1 - Publisher Copyright: Copyright © 2022 Aguzzi, Chatzievangelou, Robinson, Bahamon, Berry, Carreras, Company, Costa, del Rio Fernandez, Falahzadeh, Fifas, Flögel, Grinyó, Jónasson, Jonsson, Lordan, Lundy, Marini, Martinelli, Masmitja, Mirimin, Naseer, Navarro, Palomeras, Picardi, Silva, Stefanni, Vigo, Vila, Weetman and Doyle.

PY - 2022/9/9

Y1 - 2022/9/9

N2 - The Norway lobster, Nephrops norvegicus, supports a key European fishery. Stock assessments for this species are mostly based on trawling and UnderWater TeleVision (UWTV) surveys. However, N. norvegicus are burrowing organisms and these survey methods are unable to sample or observe individuals in their burrows. To account for this, UWTV surveys generally assume that “1 burrow system = 1 animal”, due to the territorial behavior of N. norvegicus. Nevertheless, this assumption still requires in-situ validation. Here, we outline how to improve the accuracy of current stock assessments for N. norvegicus with novel ecological monitoring technologies, including: robotic fixed and mobile camera-platforms, telemetry, environmental DNA (eDNA), and Artificial Intelligence (AI). First, we outline the present status and threat for overexploitation in N. norvegicus stocks. Then, we discuss how the burrowing behavior of N. norvegicus biases current stock assessment methods. We propose that state-of-the-art stationary and mobile robotic platforms endowed with innovative sensors and complemented with AI tools could be used to count both animals and burrows systems in-situ, as well as to provide key insights into burrowing behavior. Next, we illustrate how multiparametric monitoring can be incorporated into assessments of physiology and burrowing behavior. Finally, we develop a flowchart for the appropriate treatment of multiparametric biological and environmental data required to improve current stock assessment methods.

AB - The Norway lobster, Nephrops norvegicus, supports a key European fishery. Stock assessments for this species are mostly based on trawling and UnderWater TeleVision (UWTV) surveys. However, N. norvegicus are burrowing organisms and these survey methods are unable to sample or observe individuals in their burrows. To account for this, UWTV surveys generally assume that “1 burrow system = 1 animal”, due to the territorial behavior of N. norvegicus. Nevertheless, this assumption still requires in-situ validation. Here, we outline how to improve the accuracy of current stock assessments for N. norvegicus with novel ecological monitoring technologies, including: robotic fixed and mobile camera-platforms, telemetry, environmental DNA (eDNA), and Artificial Intelligence (AI). First, we outline the present status and threat for overexploitation in N. norvegicus stocks. Then, we discuss how the burrowing behavior of N. norvegicus biases current stock assessment methods. We propose that state-of-the-art stationary and mobile robotic platforms endowed with innovative sensors and complemented with AI tools could be used to count both animals and burrows systems in-situ, as well as to provide key insights into burrowing behavior. Next, we illustrate how multiparametric monitoring can be incorporated into assessments of physiology and burrowing behavior. Finally, we develop a flowchart for the appropriate treatment of multiparametric biological and environmental data required to improve current stock assessment methods.

KW - Nephrops norvegicus

KW - UWTV

KW - autonomous networks

KW - biomimicking platforms

KW - eDNA

KW - geo-sonars

KW - optoacoustic imaging

KW - stocks monitoring

UR - https://www.scopus.com/pages/publications/85138797063

U2 - 10.3389/fmars.2022.969071

DO - 10.3389/fmars.2022.969071

M3 - Review article

AN - SCOPUS:85138797063

SN - 2296-7745

VL - 9

JO - Frontiers in Marine Science

JF - Frontiers in Marine Science

M1 - 969071

ER -

Advancing fishery-independent stock assessments for the Norway lobster (Nephrops norvegicus) with new monitoring technologies

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Keywords

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