Your search keyword '"Lowe CG"' showing total 10 results

1. Migration, aggregation, and philopatry of two nearshore elasmobranch species in the Southern California Bight

Author

Gong, AY, primary, Nosal, AP, additional, Cartamil, DP, additional, Anderson, JM, additional, Bellquist, LF, additional, Ben-Aderet, NJ, additional, Blincow, KM, additional, Burns, ES, additional, Freedman, RM, additional, Caldow, C, additional, Logan, RK, additional, Lowe, CG, additional, Semmens, BX, additional, Stirling, BS, additional, White, CF, additional, and Hastings, PA, additional

Published

2023

2. Emergent research and priorities for shark and ray conservation

Author

Jorgensen, SJ, primary, Micheli, F, additional, White, TD, additional, Van Houtan, KS, additional, Alfaro-Shigueto, J, additional, Andrzejaczek, S, additional, Arnoldi, NS, additional, Baum, JK, additional, Block, B, additional, Britten, GL, additional, Butner, C, additional, Caballero, S, additional, Cardeñosa, D, additional, Chapple, TK, additional, Clarke, S, additional, Cortés, E, additional, Dulvy, NK, additional, Fowler, S, additional, Gallagher, AJ, additional, Gilman, E, additional, Godley, BJ, additional, Graham, RT, additional, Hammerschlag, N, additional, Harry, AV, additional, Heithaus, MR, additional, Hutchinson, M, additional, Huveneers, C, additional, Lowe, CG, additional, Lucifora, LO, additional, MacKeracher, T, additional, Mangel, JC, additional, Barbosa Martins, AP, additional, McCauley, DJ, additional, McClenachan, L, additional, Mull, C, additional, Natanson, LJ, additional, Pauly, D, additional, Pazmiño, DA, additional, Pistevos, JCA, additional, Queiroz, N, additional, Roff, G, additional, Shea, BD, additional, Simpfendorfer, CA, additional, Sims, DW, additional, Ward-Paige, C, additional, Worm, B, additional, and Ferretti, F, additional

Published

2022

3. Ecological roles and importance of sharks in the Anthropocene Ocean.

Author

Dedman S, Moxley JH, Papastamatiou YP, Braccini M, Caselle JE, Chapman DD, Cinner JE, Dillon EM, Dulvy NK, Dunn RE, Espinoza M, Harborne AR, Harvey ES, Heupel MR, Huveneers C, Graham NAJ, Ketchum JT, Klinard NV, Kock AA, Lowe CG, MacNeil MA, Madin EMP, McCauley DJ, Meekan MG, Meier AC, Simpfendorfer CA, Tinker MT, Winton M, Wirsing AJ, and Heithaus MR

Subjects

Animals, Humans, Carbon Sequestration, Climate Change, Food Chain, Human Activities, Predatory Behavior, Ecosystem, Oceans and Seas, Sharks physiology, Anthropogenic Effects

Abstract

In ecosystems, sharks can be predators, competitors, facilitators, nutrient transporters, and food. However, overfishing and other threats have greatly reduced shark populations, altering their roles and effects on ecosystems. We review these changes and implications for ecosystem function and management. Macropredatory sharks are often disproportionately affected by humans but can influence prey and coastal ecosystems, including facilitating carbon sequestration. Like terrestrial predators, sharks may be crucial to ecosystem functioning under climate change. However, large ecosystem effects of sharks are not ubiquitous. Increasing human uses of oceans are changing shark roles, necessitating management consideration. Rebuilding key populations and incorporating shark ecological roles, including less obvious ones, into management efforts are critical for retaining sharks' functional value. Coupled social-ecological frameworks can facilitate these efforts.

Published

2024

4. Evidence of increasing juvenile white sharks' (Carcharodon carcharias) habitat use at the Northern Channel Islands.

Author

Freedman RM, Anderson JM, Caldow C, Stirling B, Rex P, Spurgeon E, McCullough S, Lyons K, May J 3rd, White CF, Logan RK, Meese E, Burns ES, Clevenstine AJ, O' Sullivan J, Winkler C, Duncan L, Cajandig M, and Lowe CG

Subjects

Animals, Population Density, Telemetry, Channel Islands, Ecosystem, Sharks physiology

Abstract

Juvenile white sharks (Carcharodon carcharias) typically aggregate along coastal beaches; however, high levels of recruitment and shifting oceanographic conditions may be causing habitat use expansions. Telemetry data indicate increased habitat use at the Northern Channel Islands (California, USA) by juvenile white shark that may be in response to increased population density at aggregation locations, or anomalous oceanographic events that impact habitat use or expand available habitat. Findings illustrate the need for long-term movement monitoring and understanding drivers of habitat use shifts and expansion to improve ecosystem management., (© 2023 Fisheries Society of the British Isles. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2023

5. Patterns of overlapping habitat use of juvenile white shark and human recreational water users along southern California beaches.

Author

Rex PT, May JH 3rd, Pierce EK, and Lowe CG

Subjects

Animals, Humans, Water, Swimming, California, Ecosystem, Sharks, Bites and Stings

Abstract

Juvenile white sharks (JWS) of the Northeastern Pacific population are present in nearshore southern California waters and form mixed size class (~1.5-3 m) aggregations for weeks to months, often within 500 m of shore. These nearshore beach habitats are heavily used for human recreation (e.g., surfing, swimming, body boarding, wading, and standup paddleboarding) and the amount of spatio-temporal overlap between JWS and humans is currently unknown. Increases in human population and the Northeastern Pacific population of white sharks have raised concern over human beach safety. To determine spatio-temporal JWS-human overlap at various spatial scales (e.g., across the entire southern California coastline, across different distances from shore, and within specific beach locations), 26 beach locations across southern California were surveyed monthly resulting in 1644 aerial drone surveys between January 2019 to March 2021. Thirteen environmental variables were assessed to predict when spatio-temporal overlap between JWS and water users was highest. Coast-wide distribution of JWS was clumped, limiting human-shark co-occurrence to specific locations, with 1096 of 1204 JWS observations occurring at Carpinteria and Del Mar Beach locations. Nearshore distribution indicated JWS are often close enough to the wave break to interact with some water users (median = 101 m, range = 2-702 m), although JWS had the most spatial overlap with stand-up paddlers. Daily human-shark co-occurrence was 97% at beaches where JWS aggregations had formed, and human activity showed high spatial overlap at shark aggregation sites. Although there is higher seasonal human-shark spatio-temporal overlap where aggregations form in southern California, the number of unprovoked shark bites across southern California is extremely low. This study provides evidence that high human-shark spatio-temporal overlap does not lead to an increased bite frequency in southern California, and there are a number of possible explanations as to why JWS are not biting water users despite daily encounters., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Rex et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

6. Quantifying thermal cues that initiate mass emigrations in juvenile white sharks.

Author

Spurgeon E, Anderson JM, Liu Y, Barajas VL, and Lowe CG

Subjects

Animals, Emigration and Immigration, Animal Migration, Water, Cues, Sharks

Abstract

While the function of migration varies among species, environmental temperature is known to be one of the most important abiotic variables that drive animal migration; however, quantifying the thresholds and timing of the cues that influence a mass emigration is difficult, often due to lack of monitoring resolution, particularly for large, highly mobile species. We used acoustic telemetry tracking and high-resolution water temperature data over a relatively large spatial scale (5.5 km 2 ) to identify and quantify a thermal threshold for mass emigration of juvenile white sharks. Sixteen tagged sharks were observed to initiate a search for warmer water within 10-12 hours of an upwelling event where water temperatures dropped below 14 °C. Eleven sharks traveled ~ 35 km away where they experienced similar cold temperatures before returning to the aggregation site within 24 hours. Five days following the upwelling event, most sharks emigrated from the site for the season. Quantifying movement patterns across different spatial and temporal scales is necessary to understand cues and thresholds influencing animal migration, which may be greatly affected by climate anomalies and climate change, resulting in potential impacts on the dynamics of local prey species, management, and conservation policy and practice., (© 2022. The Author(s).)

Published

2022

7. Carnobacterium maltaromaticum associated with meningoencephalitis and otitis in stranded common thresher sharks ( Alopias vulpinus ).

Author

Steele LM, Okihiro MS, Berlemont R, Dillon JG, Young KA, Hesami S, Sommeran SV, and Lowe CG

Subjects

Animals, Bacteria, Carnobacterium, Phylogeny, RNA, Ribosomal, 16S genetics, Meningoencephalitis veterinary, Otitis veterinary, Sharks

Abstract

Juvenile common thresher sharks ( Alopias vulpinus ) have been recently stranding along the California coastline. Using Illumina sequencing of the bacterial 16S rRNA gene along with necropsy, cytological, bacteriological, and histological techniques, we screened microbial communities and described lesions characterizing affected sharks with the purpose of identifying potential pathogen sources and pathologic processes. Histopathological assessment of moribund sharks revealed severe meningoencephalitis, as previously described in stranded salmon sharks ( Lamna ditropis ), along with inflammation of the inner ear and subcutaneous tissues surrounding the endolymphatic ducts. Furthermore, inflamed areas were characterized by the prevalence of Carnobacterium maltaromaticum , suggesting this bacterium as a potential pathogen that gains access to the inner ear through the endolymphatic ducts, with subsequent spread into the brain. The absence or low abundance of this bacterium in the spiral valve in both healthy and infected sharks suggests that Carnobacterium is not a commensal member of their digestive communities and the spiral valve is unlikely to be the source of the pathogen. Furthermore, phylogenetic analysis suggests that C. maltaromaticum strains isolated from diseased sharks have minimal genetic variation and differ from other strains originating from food or diseased teleosts. While a C. maltaromaticum- like organism has previously been associated with meningoencephalitis in salmon shark strandings, this is the first study to report common thresher shark strandings associated with C. maltaromaticum , involving the endolymphatic ducts as portals of entry to the brain.

Published

2022

8. High resolution acoustic telemetry reveals swim speeds and inferred field metabolic rates in juvenile white sharks (Carcharodon carcharias).

Author

Anderson JM, Spurgeon E, Stirling BS, May J 3rd, Rex PT, Hyla B, McCullough S, Thompson M, and Lowe CG

Subjects

Acoustics, Animals, Ecosystem, Telemetry, Sharks physiology, Swimming

Abstract

White sharks (Carcharodon carcharias) are the largest shark species to display regional endothermy. This capability likely facilitates exploitation of resources beyond thermal tolerance thresholds of potential sympatric competitors as well as sustained elevated swim speeds, but results in increased metabolic costs of adults, which has been documented in different studies. Little, however, is known of the metabolic requirements in free-swimming juveniles of the species, due to their large size at birth and challenges in measuring their oxygen consumption rates in captivity. We used trilateration of positional data from high resolution acoustic-telemetry to derive swim speeds from speed-over-ground calculations for eighteen free-swimming individual juvenile white sharks, and subsequently estimate associated mass-specific oxygen consumption rates as a proxy for field routine metabolic rates. Resulting estimates of mass-specific field routine metabolic rates (368 mg O2 kg-1 h-1 ± 27 mg O2 kg-1 h-1 [mean ± S.D.]) are markedly lower than those reported in sub-adult and adult white sharks by previous studies. We argue that median cruising speeds while aggregating at nearshore nursery habitats (0.6 m s-1 [mean ± S.E = 0.59 ± 0.001], 0.3 TL s-1) are likely a feature of behavioral strategies designed to optimize bioenergetic efficiency, by modulating activity rates in response to environmental temperature profiles to buffer heat loss and maintain homeostasis. Such behavioral strategies more closely resemble those exhibited in ectotherm sharks, than mature conspecifics., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

9. A biologging database of juvenile white sharks from the northeast Pacific.

Author

O'Sullivan J, Lowe CG, Sosa-Nishizaki O, Jorgensen SJ, Anderson JM, Farrugia TJ, García-Rodríguez E, Lyons K, McKinzie MK, Oñate-González EC, Weng K, White CF, Winkler C, and Van Houtan KS

Subjects

Animals, Databases, Factual, Telemetry, Ecosystem, Sharks

Abstract

Species occurrence records are vital data streams in marine conservation with a wide range of important applications. From 2001-2020, the Monterey Bay Aquarium led an international research collaboration to understand the life cycle, ecology, and behavior of white sharks (Carcharodon carcharias) in the southern California Current. The collaboration was devoted to tagging juveniles with animal-borne sensors, also known as biologging. Here we report the full data records from 59 pop-up archival (PAT) and 20 smart position and temperature transmitting (SPOT) tags that variously recorded pressure, temperature, and light-level data, and computed depth and geolocations for 63 individuals. Whether transmitted or from recovered devices, raw data files from successful deployments (n = 70) were auto-ingested from the manufacturer into the United States (US) Animal Telemetry Network's (ATN) Data Assembly Center (DAC). There they have attributed a full suite of metadata, visualized within their public-facing data portal, compiled for permanent archive under the DataONE Research Workspace member node, and are accessible for download from the ATN data portal., (© 2022. The Author(s).)

Published

2022

10. Global trends in aquatic animal tracking with acoustic telemetry.

Author

Matley JK, Klinard NV, Barbosa Martins AP, Aarestrup K, Aspillaga E, Cooke SJ, Cowley PD, Heupel MR, Lowe CG, Lowerre-Barbieri SK, Mitamura H, Moore JS, Simpfendorfer CA, Stokesbury MJW, Taylor MD, Thorstad EB, Vandergoot CS, and Fisk AT

Subjects

Acoustics, Animals, Conservation of Natural Resources methods, Telemetry methods, Ecosystem, Fisheries

Abstract

Acoustic telemetry (AT) is a rapidly evolving technique used to track the movements of aquatic animals. As the capacity of AT research expands it is important to optimize its relevance to management while still pursuing key ecological questions. A global review of AT literature revealed region-specific research priorities underscoring the breadth of how AT is applied, but collectively demonstrated a lack of management-driven objectives, particularly relating to fisheries, climate change, and protection of species. In addition to the need for more research with direct pertinence to management, AT research should prioritize ongoing efforts to create collaborative opportunities, establish long-term and ecosystem-based monitoring, and utilize technological advancements to bolster aquatic policy and ecological understanding worldwide., Competing Interests: Declaration of interests There are no interests to declare., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022