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2. Ancient DNA SNP-panel data suggests stability in bluefin tuna genetic diversity despite centuries of fluctuating catches in the eastern Atlantic and Mediterranean

Author

Andrews, Adam J., Puncher, Gregory N., Bernal-Casasola, Darío, Di Natale, Antonio, Massari, Francesco, Onar, Vedat, Toker, Nezir Yaşar, Hanke, Alex, Pavey, Scott A., Savojardo, Castrense, Martelli, Pier Luigi, Casadio, Rita, Cilli, Elisabetta, Morales-Muñiz, Arturo, Mantovani, Barbara, Tinti, Fausto, and Cariani, Alessia

Published
2021
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3. Isotopic life‐history signatures are retained in modern and ancient <scp>Atlantic</scp> bluefin tuna vertebrae

Author

Andrews, Adam J., Orton, David, Onar, Vedat, Addis, Piero, Tinti, Fausto, Alexander, Michelle, Andrews, Adam J., Orton, David, Onar, Vedat, Addis, Piero, Tinti, Fausto, and Alexander, Michelle

Subjects
serial sectioning, stable isotope analysis, fish bone turnover, life histories of fishes, historical ecology, Aquatic Science, Ecology, Evolution, Behavior and Systematics
Abstract

Isotopic, tagging and diet studies of modern-day teleosts lack the ability to contextualise life-histories and trophic dynamics with a historical perspective, when exploitation rates were lower and climatic conditions differed. Isotopic analysis of vertebrae, the most plentiful hard-part in archaeological and museum collections, can potentially fill this data-gap. Chemical signatures of habitat and diet use during growth are retained by vertebrae during bone formation. However, to fulfil their potential to reveal life-history and trophic dynamics, we need a better understanding of the time-frame recorded by vertebrae, currently lacking due to a poor understanding of fish bone remodelling. To address this issue, we serially-sectioned four vertebral centra of the highly migratory Atlantic bluefin tuna (Thunnus thynnus; BFT) captured off Sardinia (Italy) and analysed their isotopic composition. We show how carbon (δ13C), nitrogen (δ15N) and sulfur (δ34S) isotope values can vary significantly across BFT vertebrae growth-axes, revealing patterning in dietary life-histories. Further, we find similar patterns are revealed through incremental isotopic analysis of inner and outer vertebrae centra samples from thirteen archaeological BFT vertebrae dating between the 9th-13th century CE. Our results indicate that multi-year foraging signatures are retained in vertebrae and allow for the study of life-histories in both modern and paleo-environments. These novel methods can be extended across teleost taxa owing to their potential to inform management and conservation on how teleost trophic dynamics change over time and what their long-term environmental, ecological, and anthropological drivers are.

Published
2023
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4. Exploitation shifted trophic ecology and habitat preferences of Mediterranean and Black Sea bluefin tuna over centuries

Author

Andrews, Adam J., primary, Pampoulie, Christophe, additional, Di Natale, Antonio, additional, Addis, Piero, additional, Bernal‐Casasola, Darío, additional, Aniceti, Veronica, additional, Carenti, Gabriele, additional, Gómez‐Fernández, Verónica, additional, Chosson, Valerie, additional, Ughi, Alice, additional, Von Tersch, Matt, additional, Fontanals‐Coll, Maria, additional, Cilli, Elisabetta, additional, Onar, Vedat, additional, Tinti, Fausto, additional, and Alexander, Michelle, additional

Published
2023
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7. Vertebrae reveal industrial-era increases in Atlantic bluefin tuna catch-at-size and juvenile growth

Author

Andrews, Adam J, primary, Di Natale, Antonio, additional, Addis, Piero, additional, Piattoni, Federica, additional, Onar, Vedat, additional, Bernal-Casasola, Darío, additional, Aniceti, Veronica, additional, Carenti, Gabriele, additional, Gómez-Fernández, Verónica, additional, Garibaldi, Fulvio, additional, Morales-Muñiz, Arturo, additional, and Tinti, Fausto, additional

Published
2023
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9. Length estimation of Atlantic bluefin tuna (Thunnus thynnus) using vertebrae

Author

European Commission, Andrews, Adam J., Mylona, Dimitra, Rivera-Charún, Lucía, Winter, Rachel, Onar, Vedat, Siddiq, Abu B., Tinti, Fausto, Morales-Muñiz, Arturo, European Commission, Andrews, Adam J., Mylona, Dimitra, Rivera-Charún, Lucía, Winter, Rachel, Onar, Vedat, Siddiq, Abu B., Tinti, Fausto, and Morales-Muñiz, Arturo

Abstract

Atlantic bluefin tuna (Thunnus thynnus; BFT) is a large (up to 3.3 m in length) pelagic predator which has been exploited throughout the eastern Atlantic and Mediterranean since prehistoric times, as attested by its archeological remains. One key insight derivable from these remains is body size, which can indicate past fishing abilities, the impact of fishing, and past migration behavior. Despite this, there exists no reliable method to estimate the size of BFT found in archeological sites. Here, 13 modern Thunnus spp. skeletons were studied to provide power regression equations that estimate body length from vertebra dimensions. In modern specimens, the majority of BFT vertebrae can be differentiated by their morphological features, and thus, individual regression equations can be applied for each rank (position in vertebral column). In an archeological context, poor preservation may limit one's ability to identify rank; hence, “types” of vertebrae were defined, which enable length estimates when rank cannot be determined. At least one vertebra dimension, height, width, or length correlated highly with body length when vertebrae were ranked (R2 > 0.97) or identified to types (R2 > 0.98). Whether using rank or type, length estimates appear accurate to approximately ±10%. Finally, the method was applied to a sample of Roman-era BFT vertebrae to demonstrate its potential. It is acknowledged that further studies with larger sample sizes would provide more precision in BFT length estimates

Published
2022

12. Population Dynamics in Italian Canids between the Late Pleistocene and Bronze Age

Author

Koupadi, Kyriaki, Fontani, Francesco, Ciucani, Marta Maria, Maini, Elena, De Fanti, Sara, Cattani, Maurizio, Curci, Antonio, Nenzioni, Gabriele, Reggiani, Paolo, Andrews, Adam J., Sarno, Stefania, Bini, Carla, Pelotti, Susi, Caniglia, Romolo, Luiselli, Donata, Cilli, Elisabetta, Koupadi, Kyriaki, Fontani, Francesco, Ciucani, Marta Maria, Maini, Elena, De Fanti, Sara, Cattani, Maurizio, Curci, Antonio, Nenzioni, Gabriele, Reggiani, Paolo, Andrews, Adam J., Sarno, Stefania, Bini, Carla, Pelotti, Susi, Caniglia, Romolo, Luiselli, Donata, and Cilli, Elisabetta

Abstract

Dog domestication is still largely unresolved due to time-gaps in the sampling of regions. Ancient Italian canids are particularly understudied, currently represented by only a few specimens. In the present study, we sampled 27 canid remains from Northern Italy dated between the Late Pleistocene and Bronze Age to assess their genetic variability, and thus add context to dog domestication dynamics. They were targeted at four DNA fragments of the hypervariable region 1 of mitochondrial DNA. A total of 11 samples had good DNA preservation and were used for phylogenetic analyses. The dog samples were assigned to dog haplogroups A, C and D, and a Late Pleistocene wolf was set into wolf haplogroup 2. We present our data in the landscape of ancient and modern dog genetic variability, with a particular focus on the ancient Italian samples published thus far. Our results suggest there is high genetic variability within ancient Italian canids, where close relationships were evident between both a similar to 24,700 years old Italian canid, and Iberian and Bulgarian ancient dogs. These findings emphasize that disentangling dog domestication dynamics benefits from the analysis of specimens from Southern European regions.

Published
2020

13. Population Dynamics in Italian Canids between the Late Pleistocene and Bronze Age

Author

Koupadi, Kyriaki, primary, Fontani, Francesco, additional, Ciucani, Marta Maria, additional, Maini, Elena, additional, De Fanti, Sara, additional, Cattani, Maurizio, additional, Curci, Antonio, additional, Nenzioni, Gabriele, additional, Reggiani, Paolo, additional, Andrews, Adam J., additional, Sarno, Stefania, additional, Bini, Carla, additional, Pelotti, Susi, additional, Caniglia, Romolo, additional, Luiselli, Donata, additional, and Cilli, Elisabetta, additional

Published
2020
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17. Intermodal | Multimodal

Author

Andrews, Adam J

Subjects
architecture, Architecture
Abstract

The intent is to confront waste on both a global and local level using architecture to engage and educate the public. Global waste, in this case, is defined as intermodal containers and local waste is defined as municipally collected solid waste. I intend to show through my designs that architecture need not be the source of yet more energy use and material waste. Instead, design can be the vehicle through which we begin to lessen our impact on Planet Earth by reusing the materials already at hand to create architecture and energy. A waste to energy approach [both architectural and functional] provides a closed loop system in which waste can be reused in a way that is both locally beneficial and ecologically responsible. By creating a Waste-to-Energy Power Plant using recycled building materials the public can begin to understand and manage waste in ways that enhance their own everyday life. The proposed facility located at the Bluffs Road Landfill in Lincoln, NE will actually invite the public to be a part of the disposal/generation process by allowing people to bring their waste, literally ‘throw it on the pile’ and then witness the step by step process of their waste being converted into electricity. The intermodal containers are an added layer of education; what was once industrial waste will be used to create the architectural experience. Architecturally, intermodal containers embody a potential “energy” that is easily transferable to a kinetic “energy” by taking the containers from their inactive positions in container yards and giving them purpose through human use and programmatic function. Likewise, solid waste can easily be changed from a potential to a kinetic energy through the process of burning its combustible elements to generate clean electricity. These layers of engaging and education will begin to teach people about waste and its effects on the landscape, environment, economy, etc. This idea of reuse is key to engaging and enlightening the public. It invites people to reformulate their preconceptions about unwanted materials and view those materials as purposeful instead of useless. Traditional recycling may be a part of the solution, but it cannot be the answer alone. In order to overcome the indoctrinated practice of disposal without consequence, reuse and repurposement need to be brought to the forefront of people’s minds, in this case through architecture and the function it provides.

Published
2011

18. Vertebrae reveal industrial-era increases in Atlantic bluefin tuna catch-at-size and juvenile growth

Author

Adam J Andrews, Antonio Di Natale, Piero Addis, Federica Piattoni, Vedat Onar, Darío Bernal-Casasola, Veronica Aniceti, Gabriele Carenti, Verónica Gómez-Fernández, Fulvio Garibaldi, Arturo Morales-Muñiz, Fausto Tinti, Andrews, Adam J, Di_Natale, Antonio, Addis, Piero, Piattoni, Federica, Onar, Vedat, Bernal-Casasola, Darío, Aniceti, Veronica, Carenti, Gabriele, Gómez-Fernández, Verónica, Garibaldi, Fulvio, Morales-Muñiz, Arturo, and Tinti, Fausto

Subjects
Bluefin tuna, fishery-induced evolution, human impact, Ecology, Aquatic Science, Oceanography, Ecology, Evolution, Behavior and Systematics
Abstract

Climate change and size-selective overexploitation can alter fish size and growth, yet our understanding of how and to what extent is limited due to a lack of long-term biological data from wild populations. This precludes our ability to effectively forecast population dynamics and support sustainable fisheries management. Using modern, archived, and archaeological vertebrae dimensions and growth rings of one of the most intensely exploited populations, the eastern Atlantic and Mediterranean bluefin tuna (Thunnus thynnus, BFT), we estimated catch-at-size and early-life growth patterns from the 3rd century bce to the 21st century ce to understand responses to changes in its environment. We provide novel evidence that BFT juvenile growth increased between the 16th–18th, 20th, and 21st centuries, and is correlated with a warming climate and likely a decrease in stock biomass. We found it equally plausible that fisheries-induced evolution has acted to increase juvenile BFT growth, driving earlier maturation as a result of size-selective exploitation. Coincidently, we found limited evidence to suggest a long history of large ( >200 cm FL) BFT capture. Instead, we found that the catch-at-size of archaeological BFT was relatively small in comparison with more intensive, 20th and 21st century tuna trap fisheries which operated further from shore. This complex issue would benefit from studies using fine-scale biochronological analyses of otoliths and adaptation genomics, throughout the last century especially, to determine evolutionary responses to exploitation, and further disentangle the influence of temperature and biomass on fish growth.

Published
2023
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19. Length estimation of Atlantic bluefin tuna (Thunnus thynnus) using vertebrae

Author

Adam J. Andrews, Dimitra Mylona, Lucia Rivera‐Charún, Rachel Winter, Vedat Onar, Abu B. Siddiq, Fausto Tinti, Arturo Morales‐Muniz, European Commission, Andrews, Adam J., Mylona, Dimitra, Rivera-Chárun, Lucia, Winter, Rachel, Onar, Vedat, Siddiq, Abu B., Tinti, Fausto, Morales‐Muniz, Arturo, Archaeology of Northwestern Europe, and Edebiyat Fakültesi

Subjects
Archeology, Vertebrae, Size estimation, Atlantic bluefin tuna, osteometry, size estimation, vertebrae, zooarcheology, Atlantic bluefin tuna, Osteometry, Anthropology, zooarchaeology, Atlantic bluefin tuna, size estimation, osteometry, vertebrae, zooarchaeology, Zooarcheology, 14. Life underwater, osteometry, VERTEBRAE, SIZE ESTIMATION
Abstract

9 pages, 3 figures, 1 table.-- Open Access, Atlantic bluefin tuna (Thunnus thynnus; BFT) is a large (up to 3.3 m in length) pelagic predator which has been exploited throughout the eastern Atlantic and Mediterranean since prehistoric times, as attested by its archeological remains. One key insight derivable from these remains is body size, which can indicate past fishing abilities, the impact of fishing, and past migration behavior. Despite this, there exists no reliable method to estimate the size of BFT found in archeological sites. Here, 13 modern Thunnus spp. skeletons were studied to provide power regression equations that estimate body length from vertebra dimensions. In modern specimens, the majority of BFT vertebrae can be differentiated by their morphological features, and thus, individual regression equations can be applied for each rank (position in vertebral column). In an archeological context, poor preservation may limit one's ability to identify rank; hence, “types” of vertebrae were defined, which enable length estimates when rank cannot be determined. At least one vertebra dimension, height, width, or length correlated highly with body length when vertebrae were ranked (R2 > 0.97) or identified to types (R2 > 0.98). Whether using rank or type, length estimates appear accurate to approximately ±10%. Finally, the method was applied to a sample of Roman-era BFT vertebrae to demonstrate its potential. It is acknowledged that further studies with larger sample sizes would provide more precision in BFT length estimates, This work is a contribution to the MSCA SeaChanges ITN and was funded by EU Horizon 2020 (H2020 Marie Skłodowska-Curie Actions, Grant Number: 813383). Open Access Funding provided by Universita degli Studi di Bologna within the CRUI-CARE Agreement

Published
2022

20. Exploitation history of Atlantic bluefin tuna in the eastern Atlantic and Mediterranean—insights from ancient bones

Author

Adam J Andrews, Antonio Di Natale, Darío Bernal-Casasola, Veronica Aniceti, Vedat Onar, Tarek Oueslati, Tatiana Theodropoulou, Arturo Morales-Muñiz, Elisabetta Cilli, Fausto Tinti, Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Universidad de Cádiz (UCA), Università degli Studi di Roma Tor Vergata [Roma], Istanbul University, Histoire, Archéologie et Littérature des Mondes Anciens - UMR 8164 (HALMA), Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Ministère de la Culture (MC), Culture et Environnements, Préhistoire, Antiquité, Moyen-Age (CEPAM), Université Nice Sophia Antipolis (1965 - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), Universidad Autónoma de Madrid (UAM), Andrews, Adam J., Di Natale Antonio, Bernal-Casasola, Darío, Aniceti, Veronica, Onar, Vedat, Oueslati, Tarek, Theodropoulou, Tatiana, Morales-Muñiz, Arturo, Cilli, Elisabetta, and Tinti, Fausto

Subjects
0106 biological sciences, Ecology, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, 010604 marine biology & hydrobiology, biomolecular analyses, 04 agricultural and veterinary sciences, Aquatic Science, Oceanography, 01 natural sciences, fish remains, zooarchaeology, [SDV.BA.ZV]Life Sciences [q-bio]/Animal biology/Vertebrate Zoology, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Thunnus thynnus, 14. Life underwater, historical marine ecology, historical baselines, biomolecular analyses, fish remains, historical baselines, historical marine ecology, Thunnus thynnus, zooarchaeology, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS
Abstract

Overexploitation has directly, negatively affected marine fish populations in the past half-century, modifying not only their abundance but their behaviour and life-history traits. The recovery and resilience of such populations is dependent upon their exploitation history, which often extends back millennia. Hence, data on when exploitation intensified and how populations were composed in historical periods, have the potential to reveal long-term population dynamics and provide context on the baselines currently used in fisheries management and conservation. Here, we setup a framework for investigations on the exploitation history of Atlantic bluefin tuna (Thunnus thynnus; BFT) in the eastern Atlantic and Mediterranean by collating records of their zooarchaeological remains and critically reviewing these alongside the literature. Then, we outline how novel multidisciplinary applications on BFT remains may be used to document long-term population dynamics. Our review of literature provides clear evidence of BFT overexploitation during the mid-20th century ce. Furthermore, a strong case could be made that the intensification of BFT exploitation extends back further to at least the 19th century ce, if not the 13th–16th century ce, in the eastern Atlantic and Mediterranean. However, a host of archaeological evidence would suggest that BFT exploitation may have been intensive since antiquity. Altogether, this indicates that by the currently used management baselines of the 1970s, population abundance and complexity was already likely to have declined from historical levels, and we identify how biomolecular and morphometric analyses of BFT remains have the potential to further investigate this.

Published
2022
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21. Canning Processes Reduce the DNA-Based Traceability of Commercial Tropical Tunas

Author

Adam J. Andrews, Alessia Cariani, Valentina Crobe, Federica Piattoni, Fausto Tinti, Alice Ferrari, Carlo Pecoraro, Anna Sandionigi, Pecoraro, Carlo, Crobe, Valentina, Ferrari, Alice, Piattoni, Federica, Sandionigi, Anna, Andrews, Adam J., Cariani, Alessia, and Tinti, Fausto

Subjects
0106 biological sciences, Skipjack tuna, Health (social science), Traceability, Plant Science, lcsh:Chemical technology, 010603 evolutionary biology, 01 natural sciences, Health Professions (miscellaneous), Microbiology, DNA barcoding, Seafood mislabelling, Article, 03 medical and health sciences, chemistry.chemical_compound, Brining, species substitution, lcsh:TP1-1185, Skipjack, 030304 developmental biology, 0303 health sciences, biology, food and beverages, biology.organism_classification, tropical tuna, seafood mislabelling, Fishery, tropical tunas, traceability, chemistry, Tuna, human activities, DNA, Food Science
Abstract

Canned tuna is one of the most widely traded seafood products internationally and is of growing demand. There is an increasing concern over the vulnerability of canned tuna supply chains to species mislabelling and fraud. Extensive processing conditions in canning operations can lead to the degradation and fragmentation of DNA, complicating product traceability. We here employed a forensically validated DNA barcoding tool (cytochrome b partial sequences) to assess the effects of canning processes on DNA degradation and the identification of four tropical tuna species (yellowfin, bigeye, skipjack and longtail tuna) collected on a global scale, along their commercial chains. Each species was studied under five different canning processes i.e., freezing, defrosting, cooking, and canning in oil and brine, in order to investigate how these affect DNA-based species identification and traceability. The highest percentage of nucleotide substitutions were observed after brine-canning operations and were greatest for yellowfin and skipjack tuna. Overall, we found that DNA degradation significantly increased along the tuna canning process for most specimens. Consequently, most of the specimens canned in oil or brine were misidentified due to the high rate of nucleotide substitution in diagnostic sequences.

Published
2020

22. Population Dynamics in Italian Canids between the Late Pleistocene and Bronze Age

Author

Gabriele Nenzioni, Elena Maini, Kyriaki Koupadi, Carla Bini, Elisabetta Cilli, Romolo Caniglia, Stefania Sarno, Paolo Reggiani, Marta Maria Ciucani, Donata Luiselli, Francesco Fontani, Antonio Curci, Maurizio Cattani, Adam J. Andrews, Susi Pelotti, Sara De Fanti, Koupadi, Kyriaki, Fontani, Francesco, Ciucani, Marta Maria, Maini, Elena, De Fanti, Sara, Cattani, Maurizio, Curci, Antonio, Nenzioni, Gabriele, Reggiani, Paolo, Andrews, Adam J, Sarno, Stefania, Bini, Carla, Pelotti, Susi, Caniglia, Romolo, Luiselli, Donata, and Cilli, Elisabetta

Subjects
0106 biological sciences, 0301 basic medicine, dogs, MITOCHONDRIAL-DNA, Population Dynamics, mitochondrial DNA, 01 natural sciences, Haplogroup, Domestication, Phylogeny, Genetics (clinical), ANCESTORS, WOLF, education.field_of_study, ORIGIN, Fossils, ANCIENT DNA EVIDENCE, humanities, CONTAMINATION, ADMIXTURE, Geography, Italy, dog, lcsh:QH426-470, Pleistocene, Population, Context (language use), DNA Fragmentation, DNA, Mitochondrial, 010603 evolutionary biology, Article, Evolution, Molecular, domestication, 03 medical and health sciences, ancient DNA, archaeology, population genetics, Bronze Age, Genetics, Animals, Genetic variability, education, Canidae, GRAVETTIAN PREDMOSTI SITE, Wolves, Genetic Variation, PALEOLITHIC DOGS, lcsh:Genetics, 030104 developmental biology, Ancient DNA, Evolutionary biology
Abstract

Dog domestication is still largely unresolved due to time-gaps in the sampling of regions. Ancient Italian canids are particularly understudied, currently represented by only a few specimens. In the present study, we sampled 27 canid remains from Northern Italy dated between the Late Pleistocene and Bronze Age to assess their genetic variability, and thus add context to dog domestication dynamics. They were targeted at four DNA fragments of the hypervariable region 1 of mitochondrial DNA. A total of 11 samples had good DNA preservation and were used for phylogenetic analyses. The dog samples were assigned to dog haplogroups A, C and D, and a Late Pleistocene wolf was set into wolf haplogroup 2. We present our data in the landscape of ancient and modern dog genetic variability, with a particular focus on the ancient Italian samples published thus far. Our results suggest there is high genetic variability within ancient Italian canids, where close relationships were evident between both a similar to 24,700 years old Italian canid, and Iberian and Bulgarian ancient dogs. These findings emphasize that disentangling dog domestication dynamics benefits from the analysis of specimens from Southern European regions.

Published
2020
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