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NEWSLETTER 08/2024 30.08.2024
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Please acknowledge use of the database www.shark-references.com in your publications, and cite:
Pollerspöck, J. & Straube, N. 2024, Bibliography database of living/fossil sharks, rays and chimaeras (Chondrichthyes: Elasmobranchii, Holocephali), www.shark-references.com, World Wide Web electronic publication, Version 2024 |
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Shark reference custom search tool and maintenance
Update!
We are currently in talks with a programmer. We will hope to be able to integrate the full-text search into our database by the end of the year.
Our sincere thanks to all donors!!!
Fins up,
Jürgen & Nico
Some changes in the web-page organisation: We added a new ‚TOOLS‘ menu item- all available tools will be available here from now, for example a guide how to download species specific literature lists. Please check it out!  ------------------------------------------------------------------------------------------------------------------------ Reorganisation of the species lists! update - - - finished! Several extant taxa are also documented in the fossil record. We are in the process of creating species lists of extant taxa, which include such records. Extant taxa occurring in the fossil record are now marked with the suffix "-f" (e.g., Dalatias sp. -> Dalatias sp-f, Dalatias licha -> Dalatias licha-f) to indicate that the reference refers to a fossil record. The fossil records of the extant taxa are listed in the "Extinct - All" and "Extinct - Valid" lists. A complete list of taxa that have been marked with ‚-f’ can be found here. Example list "Extinct - valid species"  ------------------------------------------------------------------------------------------------------------------------
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Since we were asked several times, if we could help distributing chondrichthyan-related job opportunities, we would like to try this out as a new category in the newsletter besides postings on our Facebook page. This category definitely depends on the community sharing job openings, so please do not hesitate and send us vacancies or similar.
Right now, we have four interesting job openings. We will keep it simple and just crosslink: |
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NEW PARTNERS OF SHARK-REFERENCES
Name: ElasmOcean e.V. Affiliation: Independent NGO The association ElasmOcean was founded in order to communicate the protection of the ocean across generations as part of educational projects, primarily school projects. Species extinction, climate change and marine pollution are having an incredible impact on our oceans. Obviously, many people are not aware of some of the things that science knows. This is where we come in: ElasmOcean translates science. Our mission statement is to communicate knowledge in a serious manner in order to find ways to reach those people who need to change their behavior.
Would you like to become a shark-reference partner? Please contact us per E-mail!
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Upcoming Meetings:
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The 68th Annual Meeting of the Palaeontological Association will be held at Friedrich-Alexander-Universität (FAU) Erlangen-Nürnberg, in the city of Erlangen in northern Bavaria, Germany, 9th–13th December 2024. This will be the first time that the Annual Meeting will take place in Germany.
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95th PalGes in Warsaw 2024 - Joint Meeting of the Polish Paleobiologists and the annual meeting of the Paläontologische Gesellschaft (Palges)
More than extinct species: the importance of fossils for ecology, evolution and conservation across borders
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20. Tagung der Gesellschaft für Ichthyologie (GfI) e.V. vom 7. bis 10. November 2024 an der Humboldt Universität zu Berlin
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Symposium Overview:
Public aquariums showcase aquatic life while raising awareness and educating the public on biodiversity and the need for conservation. Recently, aquaria have followed in the footsteps of zoos by taking more directed approaches in species conservation as well as leveraging animals in their collections to fill biological knowledge gaps through research. Aquaria possess some unique qualities that can be applied to elasmobranch research and conservation efforts. In addition to the increasing number of institutions that now support dedicated research departments or staff, aquaria have considerable public audiences (both physical and virtual), ambassador animals to foster deeper connections and empathy for species, dedicated education departments typically focused from the preschool to high school level, comprehensive communication departments with media connections, and extensive animal care and specialized veterinarian teams. Through these expertise aquaria are able to house animals that are often not feasible to care for in traditional academic settings, and for long durations often throughout entire life cycles, allowing important life history information to be investigated.
There has been a longstanding involvement of aquarium professionals in the American Elasmobranch Society, best highlighted by the career and research accomplishments of the late Alan Henningsen. However, the number of AES members who represent aquaria has dwindled over the past few decades. We hope that this symposium will highlight these past connections, including Alan’s legacy, encouraging more aquaria personnel who attend to sustain their memberships and take more active roles moving forward to engage with other members of AES from different sectors (e.g. academia, nonprofits, etc). Equally, we anticipate that this will further highlight and promote collaborative opportunities between aquaria and AES members to the broader benefit of the elasmobranch research field in general.
Symposium organizers:
Jennifer Wyffels, wyffels@ripleys.com
Steve Kessel, skessel@sheddaquarium.org
Kady Lyons, klyons@georgiaaquarium.org
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IMPORTANT DATES
This year’s annual EEA conference will be held in Thessaloniki, Greece, from 22nd to 24th of October, by the Environmental Organisation iSea, with the aim to bring together the scientific community and other stakeholders working with sharks, rays and chimaeras around Europe and the Mediterranean.
The EEA 2024 Conference topic is “Stronger collaboration for better conservation” focusing to bring together not only an increased number of experienced scientists and other stakeholders from different fields of shark and ray research and conservation, but also give an advanced role to younger researchers that will have the opportunity to better meet the EEA community and the most recent results of their work. This year’s aim is also focused on increasing the participation and the scientific input from data-poor areas and countries that are not highly represented within the EEA community and thus researchers from the Balkans, Eastern Europe, North Africa and the Middle East will be invited and encouraged to participate.
EEA 2024 and its overall content; panels, workshops and keynote speakers, were built on the common values of diversity, equity and community, that EEA members share.
We look forward to hosting you during the 3-day conference for which the agenda and events aim to scale up elasmobranch conservation through the establishment of stronger collaborations!
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The annual meeting of the Asian Society of Ichthyologists and the Indo-Pacific Fish Conference will return to their regular schedule post-COVID-19. The most recent meetings were successfully held at Universiti Sains Malaysia in Penang, Malaysia, on May 28-29, 2024, and at the University of Auckland, New Zealand, on November 20-24, 2023. We are pleased to inform you that the upcoming joint conference, combining these two prestigious ichthyological events, will take place in Taipei, Taiwan, from June 9-13, 2025.
On behalf of the organizing committee, we welcome ichthyologists from around the world who are interested in sharing research about the systematics and ecology of Asian and Indo-Pacific fishes, including topics such as evolution, biogeography, taxonomy, ecology, biology, sustainable fisheries, and conservation. We look forward to the opportunity for the ASI to meet with the IPFC and are especially happy to do so in Taipei. The conference will provide an excellent opportunity to share the latest research results, develop collaborations, and promote research.
more information
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If you would like us to post information about your newly published work, please send us a picture and the paper as a pdf to nicolas.straube@shark-references.com or juergen.pollerspoeck@shark-references.com.
Nr. 1 (268 Likes/Emojis, 523 Shares):
Highlights
• Cocaine (COC) and benzoylecgonine (BE) were detected in Brazilian Sharpnose sharks.
• Muscle tissue contained higher COC concentrations compared to liver.
• COC exhibited greater bioaccumulation potential compared to BE.
• Muscle COC and BE differed significantly among pregnant and non-pregnant females.
• This is the first COC and BE report for free-ranging sharks worldwide.
de Farias Araujo, G. & Alves de Oliveira, L.V. & Hoff, R.B. & Wosnick, N. & Vianna, M. & Verruck, S. & Hauser-Davis, R.A. & Saggioro, E.M. 2024 “Cocaine Shark”: First report on cocaine and benzoylecgonine detection in sharks. Science of The Total Environment, 948, Article 174798
https://www.sciencedirect.com/.../pii/S0048969724049477...
Nr. 2 (64 Likes/Emojis, 32 Shares):
The olfactory system of sharks and rays in numbers.
Aicardi, S. & Bozzo, M. & Guallart, J. & Garibaldi, F. & Lanteri, L. & Terzibasi, E. & Bagnoli, S. & Dionigi, F. & Steffensen, J.F. & Poulsen, A.B. & Domenici, P. & Candiani, S. & Amaroli, A. & Němec, P. & Ferrando, S. (2024), The Anatomical Record, in press
https://anatomypubs.onlinelibrary.wiley.com/.../ar.25537
Cartilaginous fishes have large and elaborate olfactory organs, but only a small repertoire of olfactory receptor genes. Here, we quantitatively analyze the olfactory system of 21 species of sharks and rays, assessing many features of the olfactory organ (OOR) (number of primary lamellae, branches of the secondary folds, sensory surface area, and density and number of sensory neurons) and the olfactory bulb (OB) (number of neurons and non-neuronal cells), and estimate the ratio between the number of neurons in the two structures. We show that the number of lamellae in the OOR does not correlate with the sensory surface area, while the complexity of the lamellar shape does. The total number of olfactory receptor neurons ranges from 30.5 million to 4.3 billion and the total number of OB neurons from 1.5 to 90 million. The number of neurons in the olfactory epithelium is 16 to 158 times higher (median ratio is 46) than the number of neurons in the OB. These ratios considerably exceed those reported in mammals. High convergence from receptor neurons to neurons processing olfactory information, together with the remarkably small olfactory receptor repertoire, strongly suggests that the olfactory system of sharks and rays is well adapted to detect a limited number of odorants with high sensitivity.
Thanks to Javier Guallart, Stefano Aicardi and Sara Ferrando for this new paper and the permission to use the images for the post.
Nr. 3 (38 Likes/Emojis, 16 Shares):
Neotrygon yakkoei (Dasyatidae), a new species of bluespotted maskray from Japan, previously confused with Neotrygon kuhlii (Müller and Henle 1841) or Neotrygon orientalis Last, White and Séret 2016, is described on the basis of 35 specimens [146.4–425.2 mm disc width (DW)] from Japan. The new species is characterized by the following characteristics: greenish brown body in fresh with a single dark mask-like marking between eyes (often indistinct); fewer spots (mean 20.4 spots); small pale blue spots [its diameter 1.2–3.4% (mean 2.6%) of DW] surrounded by dark brown outer rings when fresh; and longer head length 35.9–43.4% (mean 39.1%) of DW. Molecular analysis based on 576 bp of partial COI mitochondrial gene also supports that N. yakkoei is a distinct species from all other congeners, except for Neotrygon vali Borsa 2017, which lacked genetic data. The new species is currently known only from Japan: Hokkaido (Japan Sea and Pacific sides), Wakasa Bay (Japan Sea), the Izu and Ogasawara islands, the Pacific coast of Japan from Sagami Bay to southern Kyushu, and the Osumi, Amami, Okinawa, and Yaeyama islands.
Hata, E., Motomura, H. Neotrygon yakkoei, a new bluespotted maskray (Dasyatidae) from Japan. Ichthyol Res (2024). https://doi.org/10.1007/s10228-024-00989-7
https://shark-references.com/species/view/Neotrygon-yakkoei
Many thanks to Hiroyuki Motomura for sharing!
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New Images
Many thanks to the following people for providing images:
Javier Guallart, Universitat de València for images of denticles of
Heptranchias perlo (Bonnaterre, 1788)
Cetorhinus maximus (Gunnerus, 1765)
Alopias vulpinus (Bonnaterre, 1788)
Dalatias licha (Bonnaterre, 1788)
Pascal Deynat, Odontobase project for images of denticles of Etmopterus spinax (Linnaeus, 1758) and Carcharias taurus Rafinesque, 1810
Friederike Kremer-Obrock for images of
Galeocerdo cuvier, Negaprion brevirostris, Carcharhinus leucas, Sphyrna mokarran and Prionace glauca
Robert Kaniewski for images of Aetomylaeus vespertilio (Bleeker, 1852)
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Missing papers:
Many thanks to all friends of shark-references, who sent us some missing papers last month!
Shark-References would kindly like to ask you for your contribution to this project.
At the moment we are looking for some of the following papers:
Extinct Chondrichthyes:
new entry: Silva, E.M. & Gallo, V. (2002): New occurrence of Myliobatiformes (Chondrichthyes: Batoidea) in the Maria Farinha Formation, Paleocene of the Pernambuoc-Paraiba Basin, Northeastern Brazil. Boletim do Museu Nacional, 65, 1–11
new entry: Stringer, G.L. & Henry, M. (1996) First report of the Cretaceous shark Squalicorax from Louisiana. Mississippi Geology, 17(2), 40–43
new entry: Lucas, S.G. & Reser, P.K. & Wolberg, D.L. (1985) Shark vertebra from the Upper Cretaceous Pierre Shale, northeastern New Mexico. New Mexico Bureau of Mines and Mineral Resources, Circular, 195, 21–23
Extant Chondrichthyes:
new entry: Pokapunt, W,J. & Tantivala, A. & Munprasit & Samrankitdamrong, P. (1983) Some deep-sea fishes in the Andaman Sea. Exploratory Fishing Division, Department of Fisheries, Bangkok, 70 pp.
new entry: Shcherbachev, Y.N. & Levitsky, V.N. & Portsev, P.D. (1978) On records of the rare species of deep-sea fishes from off Southern Africa. Tr.Inst.OkeanoI./Trans. P.P.Shirshov Inst.Oceanol., 111: 185–194
new entry: Yano, K. & Tanaka, Sho (1987) Reproductive organs of deep sea sharks, Centroscymnus owstoni and C. coelolepis. Journal of the Faculty of Marine Science and Technology, Tokai University, 25, 57–67
Please support www.shark-references.com and send missing papers (not listed papers or papers without the info-symbol) to juergen.pollerspoeck@shark-references.com or nicolas.straube@shark-references.com
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TAXONOMIC NEWS/ NEW SPECIES
Extant Chondrichthyes:
Hata, E. & Motomura, H. (2024) Neotrygon yakkoei, a new bluespotted maskray (Dasyatidae) from Japan. Ichthyological Research, in press
New species: Neotrygon yakkoei
Abstract: Neotrygon yakkoei (Dasyatidae), a new species of bluespotted maskray from Japan, previously confused with Neotrygon kuhlii (Müller and Henle 1841) or Neotrygon orientalis Last, White and Séret 2016, is described on the basis of 35 specimens [146.4–425.2 mm disc width (DW)] from Japan. The new species is characterized by the following characteristics: greenish brown body in fresh with a single dark mask-like marking between eyes (often indistinct); fewer spots (mean 20.4 spots); small pale blue spots [its diameter 1.2–3.4% (mean 2.6%) of DW] surrounded by dark brown outer rings when fresh; and longer head length 35.9–43.4% (mean 39.1%) of DW. Molecular analysis based on 576 bp of partial COI mitochondrial gene also supports that N. yakkoei is a distinct species from all other congeners, except for Neotrygon vali Borsa 2017, which lacked genetic data. The new species is currently known only from Japan: Hokkaido (Japan Sea and Pacific sides), Wakasa Bay (Japan Sea), the Izu and Ogasawara islands, the Pacific coast of Japan from Sagami Bay to southern Kyushu, and the Osumi, Amami, Okinawa, and Yaeyama islands.
Finucci, B. & Didier, D. & Ebert, D.A. & Green, M.E. & Kemper, J.M. (2024) Harriotta avia sp. nov. – a new rhinochimaerid (Chimaeriformes: Rhinochimaeridae) described from the Southwest Pacific. Environmental Biology of Fishes, in press
New species: Harriotta avia
Abstract: Harriotta avia sp. nov., a new species of long-nose chimaera (Holocephali: Chimaeriformes: Rhinochimaeridae), is described from specimens collected off New Zealand in the Southwest Pacific Ocean. The species is distinguished from its congeners by a combination of the following characters: elongated, narrow and depressed snout up to 56% BDL; long, slender trunk; beak-like vomerine tooth plate; large eye, length 8–12% BDL and height 5–7% BDL; long dorsal spine reaching slightly beyond apex of the dorsal fin; and slender rod-like pelvic claspers. The skin is deciduous, and uniform chocolate brown when intact. Harriotta avia sp. nov. is also distinguished from other Harriotta species based on DNA sequence divergence of the NADH2 gene. Harriotta avia sp. nov. is reported from the New Zealand-Australian region. Conclusions here show that Harriotta raleighana, a presumed globally distributed species, likely comprises several species and the genus Harriotta warrants a revision with specimens representing all ocean basins.n.
Extinct Chondrichthyes:
no news!
Parasites:
no news!
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Latest Research Articles
Extant Chondrichthyes:
Aicardi, S. & Bozzo, M. & Guallart, J. & Garibaldi, F. & Lanteri, L. & Terzibasi, E. & Bagnoli, S. & Dionigi, F. & Steffensen, J.F. & Poulsen, A.B. & Domenici, P. & Candiani, S. & Amaroli, A. & Němec, P. & Ferrando, S. (2024) The olfactory system of sharks and rays in numbers. The Anatomical Record, in press https://dx.doi.org/10.1002/ar.25537
Araújo, P.R.V. & Postaire, B.D. & Feldheim, K.A. & Bassos Hull, K. & Lessa, R. & Ajemian, M.J. (2024) Population Structure of Aetobatus narinari (Myliobatiformes) Caught by the Artisanal Fishery in Northeast Brazil. Diversity Basel, 16(7), Article 377 https://dx.doi.org/10.3390/d16070377
Azrieli, B. & Cohen, E. & Livne, L. & Ramon, D. & Tsemel, A. & Bigal, E. & Shemesh, E. & Zemah Shamir, Z. & Barash, A. & Tchernov, D. & Scheinin, A. (2024) Characterising a potential nearshore nursery ground for the blackchin guitarfish (Glaucostegus cemiculus) in Ma'agan Michael, Israel. Frontiers in Marine Science, 11, Article 1391752 https://dx.doi.org/10.3389/fmars.2024.1391752
Barreto, P.P. & Mendoza Portillo, V. & Adams, D.H. & Cruz, V.P. & Foresti, F. & Díaz Jaimes, P. (2024) Genetic variability and population structure of two sympatric cownose rays Rhinoptera (Myliobatiformes, Rhinopteridae) in the Western Atlantic Ocean. PeerJ, 12, Article e17700 https://dx.doi.org/10.7717/peerj.17700
Barrueto, K.N.D. & González, K.K. & Malpica, Z.G.C. & Aguilar, A.E.T. & Urbina, B.V. (2024) Landings of Sphyrna zygaena (Linnaeus, 1758) in northern Peru indicate a lack of adult specimens. Latin American Journal of Aquatic Research, 52(2), 233–241 https://dx.doi.org/10.3856/vol52 issue2 fulltext 3121
Bonadie, K.L. & Lynch, A.M. & Ruterbories, L.K. & Christiansen, E.F. & Harms, C.A. (2024) Developing a thromboelastography assay in elasmobranchs. Journal of Zoo and Wildlife Medicine, 55(2), 404–411 https://dx.doi.org/10.1638/2023 0061
Carbajal, A. & Hua Monclús, J. & Serres Corral, P. & Lobató, I. & Muñoz Baquero, M. & López Béjar, M. (2024) Toward the validation of an alternative method for endocrine monitoring in sharks: insights from testosterone analyses in the skin of bycatch individuals. Integrative Zoology, in press https://dx.doi.org/10.1111/1749 4877.12873
Carbonara, P. & Prato, G. & Alfonso, S. & Bottaro, M. & Hinrichs, T. & Krumme, U. & Neglia, C. & Niedermüller, S. & Toomey, L. & Zupa, W. (2024) Blue shark vertical movement patterns in the Central Mediterranean: bycatch mitigation windows revealed from pop up satellite archival tag data. Reviews in Fish Biology and Fisheries, in press https://dx.doi.org/10.1007/s11160 024 09879 7
Cerutti Pereyra, F. & Drenkard, E.J. & Espinoza, M. & Finucci, B. & Galván Magaña, F. & Hacohen Domené, A. & Hearn, A. & Hoyos Padilla, M.E. & Ketchum, J.T. & Mejia Falla, P.A. & Moya Serrano, A.V. & Navia, A.F. & Pazmiño, D.A. & Ramírez Macías, D. & Rummer, J.L. & Salinas de León, P. & Sosa Nishizaki, O. & Stock, C. & Chin, A. (2024) Vulnerability of Eastern Tropical Pacific chondrichthyan fish to climate change. Global Change Biology, 30(7), Article e17373 https://dx.doi.org/10.1111/gcb.17373
Chávez Ambriz, J.C. & Bernal, J. & Weber, B. & Ortega Obregón, C. & Corona Martínez, L. & Carranza Castañeda, O. (2024) Accuracy Improvement in the LA MC ICP MS Measurement of 87Sr/86Sr in Bioapatite Using Dentin of Carcharinus leucas (Bull shark) to Estimate 87Rb/85Rb Instrument Induced Fractionation. Geostandards and Geoanalytical Research, in press https://dx.doi.org/10.1111/ggr.12576
Clarke, L.J. & Holding, P.N. & McCarthy, I.D. (2024) An assessment of post capture condition and survival of Rajidae caught in fixed nets. Fisheries Research, 276, Article 107041 https://dx.doi.org/10.1016/j.fishres.2024.107041
Clarke, T.M. & Barnett, A. & Fitzpatrick, R. & Ryan, L.A. & Hart, N.S. & Gauthier, A.R.G. & Scott Holland, T.B. & Huveneers, C. (2024) Personal electric deterrents can reduce shark bites from the three species responsible for the most fatal interactions. Scientific Reports, 14(1), Article 16307 https://dx.doi.org/10.1038/s41598 024 66679 6
Curtis, T.H. & Robinson, J. & Pratt, H.L. & Jr. & Skomal, G.B. & Whitney, N.M. (2024) Novel pre copulatory behavior in basking sharks observed by drone. Journal of Fish Biology, in press https://dx.doi.org/10.1111/jfb.15858
D'Antonio, B. & Barry, C. & Beck, A. (2024) Whale shark (Rhincodon typus) observed gulping on the seafloor at Ningaloo reef aggregation site. Marine and Freshwater Behaviour and Physiology, in press https://dx.doi.org/10.1080/10236244.2024.2379975
Daye, D. & de la Parra, R. & Vaudo, J. & Harvey, J. & Harvey, G. & Shivji, M. & Wetherbee, B. (2024) Tracking 4 years in the life of a female whale shark shows consistent migrations in the Gulf of Mexico and Caribbean. Marine and Freshwater Research, 75(10), Article Mf23147 https://dx.doi.org/10.1071/mf23147
de Araújo, C.B.B. & de Mendonça, S.A. & Viana, D.D. & Martins, M.D. & Costa, P.G. & Bianchini, A. & de Oliveira, P.G.V. & Torres, R.A. & Hazin, F.H.V. & Adam, M.L. (2024) Effects of blood metal(loid) concentrations on genomic damages in sharks. Environmental Pollution, 359, Article 124569 https://dx.doi.org/10.1016/j.envpol.2024.124569
de Farias Araujo, G. & Alves de Oliveira, L.V. & Hoff, R.B. & Wosnick, N. & Vianna, M. & Verruck, S. & Hauser Davis, R.A. & Saggioro, E.M. (2024) “Cocaine Shark”: First report on cocaine and benzoylecgonine detection in sharks. Science of The Total Environment, 948, Article 174798 https://dx.doi.org/10.1016/j.scitotenv.2024.174798
de los Rosales Melgar, M. & Santana Morales, O. & Rodríguez Fuentes, M. & Zepeda Domínguez, J.A. & Pérez Jiménez, J.C. & Areano Barillas, E. (2024) Elasmobranchs small scale fishery in Guatemala: Socioeconomic aspects and value chain structure. Social Sciences & Humanities Open, 10, Article 100970 https://dx.doi.org/10.1016/j.ssaho.2024.100970
Debaere, S.F. & Weideli, O.C. & Bouyoucos, I.A. & Planes, S. & De Boeck, G. & Rummer, J.L. (2024) The lunar cycle does not influence catch rates or foraging success of neonatal reef sharks in an amphidromic nursery system. Coral Reefs, in press https://dx.doi.org/10.1007/s00338 024 02534 4
Ehemann, N.R. & Siccha Ramirez, R. & Miranda Romero, J. & García Rodríguez, F.J. & De La Cruz Agüero, J. (2024) Barcode Reveals Hidden Diversity and Cryptic Speciation among Butterfly Rays Distributed in the Americas. Taxonomy, 4(3), 561–573 https://dx.doi.org/10.3390/taxonomy4030027
Elzerman, S. & Campbell, S. & Wouters, W. & Langeveld, B. (2024) Een verdachte hondshaai in de Crezéepolder. Straatgras, 36(1), 7–9
Espinoza, M. & Quesada Perez, F. & Madrigal Mora, S. & Naranjo Elizondo, B. & Clarke, T.M. & Cortés, J. (2024) A decade of submersible observations revealed temporal trends in elasmobranchs in a remote island of the Eastern Tropical Pacific Ocean. Scientific Reports, 14, Article 13786 https://dx.doi.org/10.1038/s41598 024 64157 7
Finucci, B. & Didier, D. & Ebert, D.A. & Green, M.E. & Kemper, J.M. (2024) Harriotta avia sp. nov. – a new rhinochimaerid (Chimaeriformes: Rhinochimaeridae) described from the Southwest Pacific. Environmental Biology of Fishes, in press https://dx.doi.org/10.1007/s10641 024 01577 4
Finucci, B. & Pacoureau, N. & Rigby, C.L. & Matsushiba, J.H. & Faure Beaulieu, N. & Sherman, C.S. & Vanderwright, W.J. & Jabado, R.W. & Charvet, P. & Mejia Falla, P.A. & Navia, A.F. & Derrick, D.H. & Kyne, P.M. & Pollom, R.A. & Walls, R.H.L. & Herman, K.B. & Kinattumkara, B. & Cotton, C.F. & Cuevas, J.M. & Daley, R.K. & Dharmadi, Ebert, D.A. & Fernando, D. & Fernando, S.M.C. & Francis, M.P. & Huveneers, C. & Ishihara, H. & Kulka, D.W. & Leslie, R.W. & Neat, F. & Orlov, A.M. & Rincon, G. & Sant, G.J. & Volvenko, I.V. & Walker, T.I. & Simpfendorfer, C.A. & Dulvy, N.K. (2024) Fishing for oil and meat drives irreversible defaunation of deepwater sharks and rays. Science, 383(6687), 1135–1141 https://dx.doi.org/10.1126/science.ade9121
Gajic, A.A. & Karalic, E. (2024) Rediscovery and urgent conservation needs of the critically endangered spiny butterfly ray (Gymnura altavela) in the Adriatic Sea. Animal Conservation, in press https://dx.doi.org/10.1111/acv.12964
Gallimore, C.G. & Walton, C. & Nugent, R. & Fradkin, M. & Poppell, L. & Schreiber, C. & Coco, C. & Grober, M. & Carlson, B. & Dove, A.D.M. & Black, M.P. (2024) A longitudinal behavioral analysis of aquarium whale sharks (Rhincodon typus): insights into anticipatory cues, individual variation, and social interaction. Frontiers in Marine Science, 11, Article 1418002 https://dx.doi.org/10.3389/fmars.2024.1418002
Gao, P.C. & Tian, X.S. & Huang, Q.G. & Pan, G. & Chu, Y. (2024) Hydrodynamic performance of manta rays swimming in staggered arranged group. Acta Physica Sinica, 73(13), Article 134702 https://dx.doi.org/10.7498/aps.73.20240399
Garcia Baciero, A. & Osten, J.R.V. & Perez Maturino, V. & Ramírez Macías, D. (2024) Whale shark Rhyncodon typus exposure to organochlorine pesticides in the Southern Gulf of California, Mexico. Marine Pollution Bulletin, 206, Article 116748 https://dx.doi.org/10.1016/j.marpolbul.2024.116748
Gayford, J.H. & Sternes, P.C. (2024) Sharks Violate Rensch's Rule for Sexual Size Dimorphism. Integrative Organismal Biology, 6(1), Article obae025 https://dx.doi.org/10.1093/iob/obae025
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Graybill, M.T. & Xu, N.W. (2024) Experimental Studies of Bioinspired Shark Denticles for Drag Reduction. Integrative and Comparative Biology, in press https://dx.doi.org/10.1093/icb/icae086
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Lee, C.S. & Shipley, O.N. & Ye, X.Y. & Fisher, N.S. & Gallagher, A.J. & Frisk, M.G. & Talwar, B.S. & Schneider, E.V.C. & Venkatesan, A.K. (2024) Accumulation of Per and Polyfluoroalkyl Substances (PFAS) in Coastal Sharks from Contrasting Marine Environments: The New York Bight and The Bahamas. Environmental Science & Technology, 58(29), 13087–13098 https://dx.doi.org/10.1021/acs.est.4c02044
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Extinct Chondrichthyes:
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Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Otodus (Otodus) version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(8), 1–6 https://dx.doi.org/10.69737/KUCO9965
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Hypotodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(13), 1–5 https://dx.doi.org/10.69737/KXCZ3591
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Tethylamna version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(18), 1–5 https://dx.doi.org/10.69737/LHDY3377
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Ischyodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(2), 1–4 https://dx.doi.org/10.69737/LQXG8930
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Brachyrhizodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(38), 1–6 https://dx.doi.org/10.69737/MJQX9394
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Mennerotodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(15), 1–6 https://dx.doi.org/10.69737/MPJL5651
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Ischyodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(2), 1–5 https://dx.doi.org/10.69737/MUOX4925
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Hybodontiformes indet. version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(6), 1–5 https://dx.doi.org/10.69737/MZAY9849
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, “Myliobatis” version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(46), 1–5 https://dx.doi.org/10.69737/NWVV4877
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Polyrhizodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(16), 1–4 https://dx.doi.org/10.69737/OFIH5920
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Archaeolamna version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(16), 1–5 https://dx.doi.org/10.69737/OIVT4716
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Petalodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(11), 1–4 https://dx.doi.org/10.69737/OIYJ2353
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Edaphodon version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(3), 1–7 https://dx.doi.org/10.69737/OTKK4714
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Psephodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(23), 1–4 https://dx.doi.org/10.69737/OZCV6284
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Brachycarcharias version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(12), 1–8 https://dx.doi.org/10.69737/QQGJ1332
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Propristis version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(38), 1–4 https://dx.doi.org/10.69737/QRSZ7870
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Ctenoptychius version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(17), 1–4 https://dx.doi.org/10.69737/QUED1716
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Deltodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(25), 1–4 https://dx.doi.org/10.69737/RFDF3666
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Rhizoprionodon version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(29), 1–5 https://dx.doi.org/10.69737/RJVF5052
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Anoxypristis version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(36), 1–5 https://dx.doi.org/10.69737/RTLA7131
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Palaeohypotodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(17), 1–5 https://dx.doi.org/10.69737/SCIS6533
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Helodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(18), 1–4 https://dx.doi.org/10.69737/SJWW3698
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Jaekelotodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(14), 1–5 https://dx.doi.org/10.69737/SMVT8063
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Nebrius version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(7), 1–5 https://dx.doi.org/10.69737/TKSL3807
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Cochliodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(24), 1–5 https://dx.doi.org/10.69737/ULID8773
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Stenoscyllium version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(18), 1–5 https://dx.doi.org/10.69737/UNTQ8596
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Scapanorhynchus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(21), 1–7 https://dx.doi.org/10.69737/UWVR1275
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Orectolobus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(5), 1–4 https://dx.doi.org/10.69737/VCMX5091
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, “Aetomylaeus” version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(45), 1–6 https://dx.doi.org/10.69737/VJDP6566
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Hemipristis version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(26), 1–5 https://dx.doi.org/10.69737/VQAA1943
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Arcuodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(29), 1–4 https://dx.doi.org/10.69737/WNWZ1965
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Rhombodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(37), 1–6 https://dx.doi.org/10.69737/WTEV7021
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Deltoptychius version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(21), 1–4 https://dx.doi.org/10.69737/YAQR9380
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Cretoxyrhina version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(15), 1–5 https://dx.doi.org/10.69737/YAZC4575
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Cretodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(26), 1–5 https://dx.doi.org/10.69737/YGWM2024
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Heterodontus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(8), 1–5 https://dx.doi.org/10.69737/YJIE6008
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Orodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(8), 1–4 https://dx.doi.org/10.69737/YJNJ3972
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Chiloscyllium version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(10), 1–4 https://dx.doi.org/10.69737/YQPK1523
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Ischyrhiza version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(31), 1–7 https://dx.doi.org/10.69737/YUCR4706
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Carboniferous Fishes of Alabama, Lisgodus version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 2(12), 1–4 https://dx.doi.org/10.69737/ZBDR9305
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Paleogene Fishes of Alabama, Scoliodon version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 4(30), 1–4 https://dx.doi.org/10.69737/ZGYB1467
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Pseudocorax version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(20), 1–5 https://dx.doi.org/10.69737/ZHBP1993
Ebersole, J.A. & Cicimurri, D.J. & Stringer, G.L. & Jacquemin, S.J. & Ciampaglio, C.N. (2024) Cretaceous Fishes of Alabama, Paranomotodon version 1. In J.A. Ebersole (ed.), Fossil Fishes of Alabama. McWane Science Center, Birmingham, Alabama 3(25), 1–5 https://dx.doi.org/10.69737/ZNOZ9002
Freschi, A. & Cau, S. (2024) Tooth marks of the Great White Shark from a Pliocene outcrop of the Northern Apennines (Castell'Arquato, Italy). Carnets De Geologie, 24(8), 135–141 https://dx.doi.org/10.2110/carnets.2024.2408
Johnson, D.D. & Barnes, T.C. & Candy, S.G. (2024) Optimising fisheries monitoring for rare and protected species: A south eastern Australian case study shows low levels of interaction with a critically endangered species. Regional Studies in Marine Science, 77, Article 103669 https://dx.doi.org/10.1016/j.rsma.2024.103669
Müller, A. & Wimmer, R. (2024) Historischer Rückblick, Entwicklung des Kenntnisstandes und aktueller Stand der Forschung zum Tertiär Mitteldeutschlands. Zeitschrift Der Deutschen Gesellschaft Fur Geowissenschaften, in press https://dx.doi.org/10.1127/zdgg/2024/0354
Neves, G.S. & Medeiros, M.A. & Dutheil, D.B. & Brito, P.M. (2024) First record of Aegyptobatus (Hybodontiformes: Distobatidae) in the Cretaceous Alcântara formation (?Albian Cenomanian) of Maranhão, Northeastern Brazil. Historical Biology, in press https://dx.doi.org/10.1080/08912963.2024.2379031
Parasites:
Quadros, A.L. (2024) Two new American species of Aberrapex (Eucestoda: Lecanicephalidea: Aberrapecidae) from myliobatid stingrays (Batoidea: Myliobatidae). Zootaxa, 5448(1), 85–101 https://dx.doi.org/10.11646/zootaxa.5448.1.5
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MISCELLANEOUS:
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White sharks and extinct giant megalodons may swim at similar speeds
- Date: August 5, 2024
- Source: Tokyo Institute of Technology
- Summary: New findings on how sharks achieve drag reduction could inspire the design of riblets for more efficient aircraft and boats. In their investigation of great white shark denticles, researchers found that ridge height and spacing play crucial roles in drag reduction at different swimming speeds. Higher middle ridges aid sharks in efficient cruising at slower speeds, while the lower side ridges become more critical for drag reduction during high-speed hunting bursts. The analysis also suggests that the speeds of an extinct giant shark, megalodon, may not much differ from those of the white shark.
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- Date: July 26, 2024
- Source: Oregon State University
- Summary: Researchers have made the first scientific confirmation in Puget Sound of two distinct shark species, one of them critically endangered.
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- Date: July 24, 2024
- Source: Oregon State University
- Summary: Researchers have captured what they believe is the first ever video of a shark or any large marine animal being struck by a boat.
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Rio Lady's movements, migration allow researchers to 'investigate whale sharks at a unprecedented degree'
- Date: July 24, 2024
- Source: University of Rhode Island
- Summary: Researchers have been tracking a 26-foot endangered whale shark -- named 'Rio Lady' -- with a satellite transmitter for more than four years -- a record for whale sharks and one of the longest tracking endeavors for any species of shark.
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- Date: June 14, 2024
- Source: Swansea University
- Summary: New research has found that sharks retained high levels of functional diversity for most of the last 66 million years, before steadily declining over the last 10 million years to its lowest value in the present day.
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4-AUG-2024 - Onderzoekers van aanspoelsel zijn uitermate enthousiast. Recente cijfers bevestigen wat begin 2020 al werd gezien: een significante, alsmaar toenemende trend van op het strand aangespoelde eikapsels van de Stekelrog. Dat is echt goed nieuws.
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New IUCN Shark News Newsletter is out!
Download: https://www.iucnssg.org/shark-news.html
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