Search

Your search keyword '"Lucy A. Hawkes"' showing total 41 results
Start Over Author "Lucy A. Hawkes" Topic geography
41 results on '"Lucy A. Hawkes"'

1. Post release monitoring of rehabilitated gray seal pups over large temporal and spatial scales

Author

Paul Oaten, Natalie Dyer, Sue Sayer, Lucy A. Hawkes, Rebecca Allen, Kate Hockley, Marion Beaulieu, Grace Jones, Dan Jarvis, Natalie Waddington, Matthew J. Witt, Katie Bellman, Tamara Cooper, and Kirsten Hockin

Subjects
Post release, Hydrology, Geography, Aquatic Science, Seal (mechanical), Gray (horse), Ecology, Evolution, Behavior and Systematics
Published
2021

2. The high-altitude bird chronicles: lessons from field work with Frapps

Author

Beverley Chua, William K. Milsom, and Lucy A. Hawkes

Subjects
0106 biological sciences, 0303 health sciences, Plateau, geography.geographical_feature_category, Physiology, 030310 physiology, Wildlife, 15. Life on land, Effects of high altitude on humans, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Archaeology, Eastern india, 03 medical and health sciences, Endocrinology, Altitude, Geography, Work (electrical), Field research, Wildlife refuge, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics
Abstract

Over the past decade, Peter Frappell, aka Frapps, has been an integral part of an international group studying birds that migrate or reside at altitude. This research has taken the extended group from Terkhiin Tsagaan Lake on the Mongolian plateau to Chilika Lake in eastern India, Koonthankulum bird sanctuary in southern India, Lake Qinghai in Chinese Tibet, Summer Lake Wildlife and Malheur National Wildlife Refuge in Oregon, and San Pedro a Marca, Vichaycocha and Lake Titicaca National Reserve in Peru. It has been a productive project producing over 30 manuscripts, 15 of which were based on research in the field. What has not been published are the stories behind the research and the critical lessons learned along the way. Some of these are chronicled here.

Published
2021

3. Evidence of increased occurrence of Atlantic bluefin tuna in territorial waters of the United Kingdom and Ireland

Author

Matthew J. Witt, Dave Wall, Barbara A. Block, Keith Leeves, David Righton, Rachel Davies, Jeroen van der Kooij, Niall Ó Maoiléidigh, Lucy A. Hawkes, D. R. Jones, Thomas W Horton, and Hannah Jones

Subjects
0106 biological sciences, Ecology, business.industry, 010604 marine biology & hydrobiology, Distribution (economics), Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Fishery, Bycatch, Geography, Territorial waters, Tuna, business, Ecology, Evolution, Behavior and Systematics
Abstract

Atlantic bluefin tuna (ABT, Thunnus thynnus; Linneaus, 1758) is an ecologically important apex-predator with high commercial value. They were once common off the coast of the United Kingdom (UK), before disappearing in the 1960s. In regions lacking commercial fisheries for ABT, such as the UK and Ireland, spatial data can be scarce. In these cases, sightings and bycatch databases can offset information shortfalls. Here, we document the reappearance of ABT into territorial waters of the UK from 2014 onwards, and increased occurrence off Ireland. We analyse a novel, multi-source dataset comprising occurrence data (2008–2019; 989 sightings and 114 tonnes of bycatch) compiled from a range of sources (scientific surveys, ecotours and fisheries). We show an increasing trend in effort-corrected ABT occurrence in (i) the pelagic ecosystem survey in the western English Channel and Celtic Sea (PELTIC), (ii) an ecotour operator, and (iii) the Irish albacore fishery in on-shelf and off-shelf waters. Sightings of ABT by the PELTIC correlated with modelled abundance estimates of ABT and the Atlantic multidecadal oscillation. These data demonstrate that sightings of ABT have increased off the UK and Ireland since 2014, following the same increasing trend (2010 onwards) as the eastern ABT population.

Published
2021

4. Climate change and marine turtles: recent advances and future directions

Author

Mariana M. P. B. Fuentes, Brendan J. Godley, Lucy A. Hawkes, Ana R. Patrício, and Jonathan Monsinjon

Subjects
0106 biological sciences, Marine turtles, Climate change, 010603 evolutionary biology, 01 natural sciences, Sea level rise, 14. Life underwater, Resilience (network), Nature and Landscape Conservation, Resilience, Ecology, business.industry, Phenology, 010604 marine biology & hydrobiology, Environmental resource management, Botany, 15. Life on land, Impact mitigation, Geography, QL1-991, 13. Climate action, QK1-989, business, Zoology, Sea turtles, Sex ratio
Abstract

Climate change is a threat to marine turtles that is expected to affect all of their life stages. To guide future research, we conducted a review of the most recent literature on this topic, highlighting knowledge gains and research gaps since a similar previous review in 2009. Most research has been focussed on the terrestrial life history phase, where expected impacts will range from habitat loss and decreased reproductive success to feminization of populations, but changes in reproductive periodicity, shifts in latitudinal ranges, and changes in foraging success are all expected in the marine life history phase. Models have been proposed to improve estimates of primary sex ratios, while technological advances promise a better understanding of how climate can influence different life stages and habitats. We suggest a number of research priorities for an improved understanding of how climate change may impact marine turtles, including: improved estimates of primary sex ratios, assessments of the implications of female-biased sex ratios and reduced male production, assessments of the variability in upper thermal limits of clutches, models of beach sediment movement under sea level rise, and assessments of impacts on foraging grounds. Lastly, we suggest that it is not yet possible to recommend manipulating aspects of turtle nesting ecology, as the evidence base with which to understand the results of such interventions is not robust enough, but that strategies for mitigation of stressors should be helpful, providing they consider the synergistic effects of climate change and other anthropogenic-induced threats to marine turtles, and focus on increasing resilience. Fundação para a Ciência e Tecnologia - FCT info:eu-repo/semantics/publishedVersion

Published
2021

6. Tracking Atlantic bluefin tuna from foraging grounds off the west coast of Ireland

Author

Michael J. W. Stokesbury, Thomas W Horton, Barbara A. Block, Niall Ó Maoiléidigh, Lucy A. Hawkes, Matthew J. Witt, Macdara O’Cuaig, Ross O'Neill, A. Drumm, and Robert J. Schallert

Subjects
0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, 010604 marine biology & hydrobiology, Foraging, Aquatic Science, Oceanography, 01 natural sciences, Fishery, Geography, West coast, Tracking (education), Tuna, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences
Abstract

Pop-up archival tags (n = 16) were deployed on Atlantic bluefin tuna (ABT) off the west coast of Ireland in October and November 2016 (199–246 cm curved fork length), yielding 2799 d of location data and 990 and 989 d of depth and temperature time-series data, respectively. Most daily locations (96%, n = 2651) occurred east of 45°W, the current stock management boundary for ABT. Key habitats occupied were the Bay of Biscay and the Central North Atlantic, with two migratory patterns evident: an east-west group and an eastern resident group. Five out of six tags that remained attached until July 2017 returned to the northeast Atlantic after having migrated as far as the Canary Islands, the Mediterranean Sea (MEDI) and the Central North Atlantic. Tracked bluefin tuna exhibited a diel depth-use pattern occupying shallower depths at night and deeper depths during the day. Four bluefin tuna visited known spawning grounds in the central and western MEDI, and one may have spawned, based on the recovered data showing oscillatory dives transecting the thermocline on 15 nights. These findings demonstrate the complexity of the aggregation of ABT off Ireland and, more broadly in the northeast Atlantic, highlighting the need for dedicated future research to conserve this important aggregation.

Published
2020

7. Assessing the importance of Isle of Man waters for the basking shark Cetorhinus maximus

Author

Graham L. Hall, Haley R. Dolton, Fiona R. Gell, Matthew J. Witt, Lucy A. Hawkes, and Jackie Hall

Subjects
0106 biological sciences, Final version, Ecology, biology, 010604 marine biology & hydrobiology, Satellite tracking, Irish sea, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Basking shark, lcsh:QK1-989, Fishery, Geography, lcsh:Botany, lcsh:Zoology, Spatial ecology, lcsh:QL1-991, Nature and Landscape Conservation
Abstract

Satellite tracking of endangered or threatened animals can facilitate informed conservation by revealing priority areas for their protection. Basking sharks Cetorhinus maximus (n = 11) were tagged during the summers of 2013, 2015, 2016 and 2017 in the Isle of Man (IoM; median tracking duration 378 d, range: 89-804 d; median minimum straight-line distance travelled 541 km, range: 170-10406 km). Tracking revealed 3 movement patterns: (1) coastal movements within IoM and Irish waters, (2) summer northward movements to Scotland and (3) international movements to Morocco and Norway. One tagged shark was bycaught and released alive in the Celtic Sea. Basking sharks displayed inter-annual site fidelity to the Irish Sea (n = 3), a Marine Nature Reserve (MNR) in IoM waters (n = 1), and Moroccan waters (n = 1). Core distribution areas (50% kernel density estimation) of 5 satellite tracked sharks in IoM waters were compared with 3902 public sightings between 2005 and 2017, highlighting west and south coast hotspots. Location data gathered from satellite tagging broadly correspond to the current boundaries of MNRs in IoM waters. However, minor modifications of some MNR boundaries would incorporate ~20% more satellite tracking location data from this study, and protective measures for basking sharks in IoM waters could further aid conservation of the species at local, regional and international scales. We also show the first documented movement of a basking shark from the British Isles to Norway, and the longest ever track for a tagged basking shark (2 yr and 2 mo, 804 d).

Published
2020

8. Basking shark sub-surface behaviour revealed by animal-towed cameras

Author

Owen M. Exeter, Haley R. Dolton, Marcus Shirley, Lucy A. Hawkes, Tiago Bartolomeu, Jessica L. Rudd, Christopher Kerry, S. M. Henderson, and Matthew J. Witt

Subjects
0106 biological sciences, Male, Animal sexual behaviour, Physiology, Video Recording, Social Sciences, Marine and Aquatic Sciences, 01 natural sciences, Basking shark, Water column, Psychology, Marine Fish, Foraging, Chondrichthyes, Multidisciplinary, biology, Animal Behavior, Behavior, Animal, Satellite telemetry, Marine fish, Eukaryota, Plants, Cameras, Satellite Communications, Geography, Optical Equipment, Vertebrates, Medicine, Engineering and Technology, Female, Research Article, Science, Equipment, Context (language use), Marine Biology, Animal Sexual Behavior, 010603 evolutionary biology, Animals, Swimming, Behavior, Courtship display, Biological Locomotion, 010604 marine biology & hydrobiology, Organisms, Biology and Life Sciences, Feeding Behavior, biology.organism_classification, Seaweed, Fishery, Fish, Scotland, Sharks, Earth Sciences, human activities, Zoology, Elasmobranchii
Abstract

While biologging tags have answered a wealth of ecological questions, the drivers and consequences of movement and activity often remain difficult to ascertain, particularly marine vertebrates which are difficult to observe directly. Basking sharks, the second largest shark species in the world, aggregate in the summer in key foraging sites but despite advances in biologging technologies, little is known about their breeding ecology and sub-surface behaviour. Advances in camera technologies holds potential for filling in these knowledge gaps by providing environmental context and validating behaviours recorded with conventional telemetry. Six basking sharks were tagged at their feeding site in the Sea of Hebrides, Scotland, with towed cameras combined with time-depth recorders and satellite telemetry. Cameras recorded a cumulative 123 hours of video data over an average 64-hour deployment and confirmed the position of the sharks within the water column. Feeding events only occurred within a metre depth and made up ¾ of the time spent swimming near the surface. Sharks maintained similar tail beat frequencies regardless of whether feeding, swimming near the surface or the seabed, where they spent surprisingly up to 88% of daylight hours. This study reported the first complete breaching event and the first sub-surface putative courtship display, with nose-to-tail chasing, parallel swimming as well as the first observation of grouping behaviour near the seabed. Social groups of sharks are thought to be very short term and sporadic, and may play a role in finding breeding partners, particularly in solitary sharks which may use aggregations as an opportunity to breed. In situ observation of basking sharks at their seasonal aggregation site through animal borne cameras revealed unprecedented insight into the social and environmental context of basking shark behaviour which were previously limited to surface observations.

Published
2021

10. Highly feminised sex-ratio estimations for the world’s third-largest nesting aggregation of loggerhead sea turtles

Author

Claire E. Tanner, Samir Martins, Elena Abella-Perez, Adolfo Marco, and Lucy A. Hawkes

Subjects
0106 biological sciences, Cape verde, Final version, Fishery, Geography, Ecology, 010604 marine biology & hydrobiology, Nesting (computing), Climate change, Aquatic Science, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, Sex ratio
Abstract

This is the author accepted manuscript. The final version is available from Inter Research via the DOI in this record.

Published
2019

11. Pinnipeds, people and photo identification: the implications of grey seal movements for effective management of the species

Author

Sue Sayer, Kate Hockley, Dan Jarvis, Rebecca Allen, Matthew J. Witt, and Lucy A. Hawkes

Subjects
0106 biological sciences, Seal (emblem), 010604 marine biology & hydrobiology, Effective management, Aquatic Science, Functional linkage, 010603 evolutionary biology, 01 natural sciences, Marine species, Fishery, Geography, Reproductive period, Habitat, Photo identification, Marine protected area
Abstract

Grey seals (Halichoerus grypus) of the North-east Atlantic are protected at designated European Marine Sites (Special Areas of Conservation, SACs) typically during their reproductive periods and in the UK at Sites of Special Scientific Interest (SSSI). As a mobile marine species, grey seals spend other parts of their annual life cycle in non-designated habitat. There is limited information on individual grey seal movements in south-west England. Citizen science photo identification (PID) revealed the movements of 477 grey seals at a regional scale (54 haul-outs up to 230 km apart) for over a decade. Reconstructed movements showed considerable individual variability. Four SACs were linked to up to 18 non-designated sites and two SSSIs in Cornwall were linked to a maximum of 41 non-designated sites. Observations support the value of existing SSSIs at both the well-connected West and North Cornwall sites. Thirteen Marine Protected Areas (MPAs) were visited by grey seals from four SACs and two SSSIs in Cornwall. As a mobile species, grey seals could be included in English MPA management plans. The application of functional linkage from SACs and SSSIs, informed by the movements evidenced in this research, could aid management efforts. This analysis reveals grey seal movements occur across a complex network of interconnected designated and non-designated sites that need to be managed holistically for this species for which the UK has a special responsibility.

Published
2019

12. Climate change resilience of a globally important sea turtle nesting population

Author

Brendan J. Godley, Aissa Regalla, Miguel R. Varela, Ana R. Patrício, Castro Barbosa, Annette C. Broderick, Paulo Catry, and Lucy A. Hawkes

Subjects
Male, 0106 biological sciences, 010504 meteorology & atmospheric sciences, Climate Change, Population, Climate change, Global Warming, 010603 evolutionary biology, 01 natural sciences, Animals, Environmental Chemistry, Population growth, Guinea-Bissau, Sex Ratio, education, Nesting season, 0105 earth and related environmental sciences, General Environmental Science, Green sea turtle, Global and Planetary Change, Rookery, education.field_of_study, Ecology, biology, Resistance (ecology), Temperature, biology.organism_classification, Turtles, Sea turtle, Geography, Female, Seasons
Abstract

Few studies have looked into climate change resilience of populations of wild animals. We use a model higher vertebrate, the green sea turtle, as its life history is fundamentally affected by climatic conditions, including temperature-dependent sex determination and obligate use of beaches subject to sea level rise (SLR). We use empirical data from a globally important population in West Africa to assess resistance to climate change within a quantitative framework. We project 200 years of primary sex ratios (1900-2100) and create a digital elevation model of the nesting beach to estimate impacts of projected SLR. Primary sex ratio is currently almost balanced, with 52% of hatchlings produced being female. Under IPCC models, we predict: (a) an increase in the proportion of females by 2100 to 76%-93%, but cooler temperatures, both at the end of the nesting season and in shaded areas, will guarantee male hatchling production; (b) IPCC SLR scenarios will lead to 33.4%-43.0% loss of the current nesting area; (c) climate change will contribute to population growth through population feminization, with 32%-64% more nesting females expected by 2120; (d) as incubation temperatures approach lethal levels, however, the population will cease growing and start to decline. Taken together with other factors (degree of foraging plasticity, rookery size and trajectory, and prevailing threats), this nesting population should resist climate change until 2100, and the availability of spatial and temporal microrefugia indicates potential for resilience to predicted impacts, through the evolution of nest site selection or changes in nesting phenology. This represents the most comprehensive assessment to date of climate change resilience of a marine reptile using the most up-to-date IPCC models, appraising the impacts of temperature and SLR, integrated with additional ecological and demographic parameters. We suggest this as a framework for other populations, species and taxa.

Published
2018

13. Assessing climate change associated sea‐level rise impacts on sea turtle nesting beaches using drones, photogrammetry and a novel GPS system

Author

Miguel R. Varela, Lucy A. Hawkes, Ana R. Patrício, Leon DeBell, Karen Anderson, Brendan J. Godley, Robin T. E. Snape, Annette C. Broderick, Dominic Tilley, and Matthew J. Westoby

Subjects
0106 biological sciences, Aircraft, 010504 meteorology & atmospheric sciences, Climate Change, UAV, Climate change, F800, 010603 evolutionary biology, 01 natural sciences, Sea level rise, Nesting Behavior, law.invention, law, Animals, Environmental Chemistry, Piksi, Turtle (robot), Ecosystem, Drones, 0105 earth and related environmental sciences, General Environmental Science, Global and Planetary Change, Ecology, biology, business.industry, Remote sensing, biology.organism_classification, Drone, Turtles, Fishery, Sea turtle, Geography, Photogrammetry, Remote sensing (archaeology), Geographic Information Systems, Global Positioning System, Nesting (computing), business, Sea turtles, Environmental Monitoring
Abstract

Climate change associated sea level rise (SLR) is expected to have profound impacts on coastal areas, affecting many species including sea turtles which depend on these habitats for egg incubation. Being able to accurately model beach topography using digital terrain models (DTMs) is therefore crucial to project SLR impacts and develop effective conservation strategies. Traditional survey methods are typically low-cost with low accuracy or high-cost with high accuracy. We present a novel combination of drone-based photogrammetry and a low-cost and portable real-time kinematic (RTK) GPS to create DTMs which are highly accurate (

Published
2018

14. Nation-wide assessment of the distribution and population size of the data-deficient nurse shark (Ginglymostoma cirratum)

Author

Ivy E. Baremore, Rachel T. Graham, Lucy A. Hawkes, Zeddy Seymour, Dan Castellanos, Francesco Garzon, Cynthia Xiu, Matthew J. Witt, and Hilmar Salazar

Subjects
Topography, Range (biology), Health Care Providers, Nurses, Marine and Aquatic Sciences, Reef Ecosystems, Geographical locations, Medicine and Health Sciences, Medical Personnel, Chondrichthyes, Conservation Science, Data deficient, education.field_of_study, Multidisciplinary, geography.geographical_feature_category, Distance sampling, biology, Ecology, Population size, Eukaryota, Belize, Professions, Habitat, Vertebrates, Medicine, Research Article, Lagoons, Conservation of Natural Resources, Science, Population, Ecosystems, Animals, Atolls, education, Reef, Ecosystem, Population Density, geography, Landforms, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Central America, Geomorphology, Bodies of Water, biology.organism_classification, Fishery, Health Care, Fish, People and Places, North America, Sharks, Earth Sciences, Reefs, Population Groupings, Nurse shark, Zoology, Elasmobranchii
Abstract

The study presents the first national assessment of a nurse shark (Ginglymostoma cirratum) population, conducted using a combination of transect surveys and baited remote underwater videos (BRUVs). Density of nurse sharks in Belize was found to be higher in reefs than in lagoons, and in the atolls furthest away from the mainland and human settlements. Only large and old protected areas were found to have a positive impact on nurse shark abundance. Absolute abundance of nurse sharks was estimated using distance sampling analysis, giving a total nurse shark population in the range of 3,858 to 14,375 sharks. Thanks to a vast area of suitable habitat for nurse sharks in the country and legislation already in place for the safeguard of the species, Belize could represent an important hotspot for nurse sharks in the Western Atlantic. The data presented here hence offers a baseline for the long-term monitoring of the Belizean nurse shark population and improves our understanding of nurse shark abundance and distribution in the wider Caribbean basin.

Published
2021

15. Autonomous underwater videography and tracking of basking sharks

Author

Christopher Kerry, S. M. Henderson, N. Yoder, S.P. Whelan, Jessica L. Rudd, Matthew J. Witt, A. Kukulya, Owen M. Exeter, and Lucy A. Hawkes

Subjects
0106 biological sciences, Computer Networks and Communications, Biologging, lcsh:Animal biochemistry, Underwater videography, Tracking (particle physics), 010603 evolutionary biology, 01 natural sciences, Transponder (aeronautics), Basking shark, Water clarity, lcsh:QH540-549.5, Videography, Underwater, AUV, lcsh:QP501-801, Instrumentation, biology, 010604 marine biology & hydrobiology, SharkCam, biology.organism_classification, Drone, Fishery, Geography, Signal Processing, Animal Science and Zoology, lcsh:Ecology
Abstract

Background Biologging studies have revealed a wealth of information about the spatio-temporal movements of a wide range of vertebrates large enough to carry electronic tracking tags. Advances in autonomous underwater vehicles (AUVs or UAVs) and unmanned aerial vehicles (commonly known as drones), which can carry far larger payloads of sensor technologies, have revealed insights into the environment through which animals travel. Some AUVs have been used to film target animals, but are generally limited to periods as long as a drone operator can actively follow an animal. In the present study, we use an AUV, the REMUS-100 SharkCam, paired with a custom transponder tag attached to the shark, to autonomously follow three basking sharks for a cumulative total of 10.9 h to collect video and environmental data on their sub-surface behaviour. The basking shark is the second largest fish in the world and is endangered globally, but despite being subject to various biologging studies, little is known of this species breeding ecology and their mating grounds remain unknown. Results We detail the first successful autonomous tracking of basking sharks, comprising three missions that filmed basking sharks in mid-water and close to benthic habitats. Sharks spent very little time feeding, and travelled relatively close to sandy, rocky and algae-covered benthos. One basking shark was observed defecating. Conspecifics were not observed in the three missions, nor were courtship or breeding behaviours. AUV offset distances for videography were determined iteratively through tracking. These offsets varied depending on the trade-off of between water clarity and proximity of the AUV for obtaining useful video data and directly influencing shark behaviour. Conclusions The present study is the first successful use of an AUV to gain insight into the sub-surface behaviour of basking sharks.

Published
2020

16. High resolution biologging of breaching by the world's second largest shark species

Author

Graham L. Hall, S. M. Henderson, Matthew J. Witt, Owen M. Exeter, Jessica L. Rudd, Christopher Kerry, Jackie Hall, and Lucy A. Hawkes

Subjects
0106 biological sciences, Behavioural ecology, Science, Endangered species, High resolution, Ecological succession, 010603 evolutionary biology, 01 natural sciences, Article, Animals, Biomechanics, Atlantic Ocean, Multidisciplinary, Behavior, Animal, Conservation biology, 010604 marine biology & hydrobiology, Energetics, Logging, Endangered Species, Plankton, Biooceanography, Fishery, Geography, Seafood, Sharks, %22">Fish , Medicine
Abstract

Basking sharks, the world’s second largest fish, are endangered globally following two centuries of large-scale exploitation for their oily livers. In the northeast Atlantic, they seasonally gather in key sites, including the western Scottish Isles, where they feed on plankton, but their breeding grounds are currently completely unknown. Using high-resolution three-axis accelerometry and depth logging, we present the first direct records of breaching by basking sharks over 41 days. We show that basking sharks breach both during the night and day, starting at approximately 20 m depth and can breach multiple times in short succession. We also present early evidence of potential lateralisation in basking sharks. Given the energetic nature of breaching, it should have an important biological function, but this remains unclear.

Published
2020

17. Spatio-temporal genetic tagging of a cosmopolitan planktivorous shark provides insight to gene flow, temporal variation and site-specific re-encounters

Author

Philip D. Doherty, Emmett M. Johnston, David W. Sims, Leslie R. Noble, Graham L. Hall, Sabine P. Wintner, Deborah A. Dawson, Eleonora de Sabata, Brendan J. Godley, Lilian Lieber, Malcolm P. Francis, Catherine S. Jones, Jackie Hall, Clinton A. J. Duffy, Chrysoula Gubili, S. M. Henderson, Matthew J. Witt, Lucy A. Hawkes, Mahmood S. Shivji, Simon Berrow, Jane Sarginson, School of Biological Sciences, University of Aberdeen, Manx Basking Shark Watch and Manx Wildlife Trust, Irish Basking Shark Study Group, Marine and Freshwater Research Centre, GMIT, Hellenic Agricultural Organisation, Fisheries Research Institute, National Institute of Water and Atmospheric Research, New Zealand, Department of Conservation, New Zealand, KwaZulu-Natal Sharks Board, School of Life Sciences, University of KwaZulu-Natal, Centre for Ecology and Conservation, University of Exeter, Environment and Sustainability Institute, University of Exeter, Scottish Natural Heritage Great Glen House, MedSharks, Save Our Seas Shark Research Center and Guy Harvey Research Institute, Nova Southeastern University, and School of Biological Sciences, Queen´s University Belfast

Subjects
0106 biological sciences, 0301 basic medicine, Gene Flow, Male, Conservation of Natural Resources, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Marinbiologi: 497 [VDP], Population, Foraging, lcsh:Medicine, 010603 evolutionary biology, 01 natural sciences, Population density, Article, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Zoogeografi: 486 [VDP], Gene flow, Molecular ecology, 03 medical and health sciences, Spatio-Temporal Analysis, Effective population size, Marine and Freshwater Research Centre, Genetic variation, Animals, SDG 14 - Life Below Water, lcsh:Science, education, Atlantic Ocean, Population Density, education.field_of_study, Multidisciplinary, Ecology, lcsh:R, Genetic Variation, Animal behaviour, 030104 developmental biology, Geography, Genetics, Population, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Genetikk og genomikk: 474 [VDP], Sharks, lcsh:Q, Animal Migration, Female, Seasons, Ireland, Genetic monitoring, Microsatellite Repeats
Abstract

Migratory movements in response to seasonal resources often influence population structure and dynamics. Yet in mobile marine predators, population genetic consequences of such repetitious behaviour remain inaccessible without comprehensive sampling strategies. Temporal genetic sampling of seasonally recurring aggregations of planktivorous basking sharks, Cetorhinus maximus, in the Northeast Atlantic (NEA) affords an opportunity to resolve individual re-encounters at key sites with population connectivity and patterns of relatedness. Genetic tagging (19 microsatellites) revealed 18% of re-sampled individuals in the NEA demonstrated inter/multi-annual site-specific re-encounters. High genetic connectivity and migration between aggregation sites indicate the Irish Sea as an important movement corridor, with a contemporary effective population estimate (Ne) of 382 (CI = 241–830). We contrast the prevailing view of high gene flow across oceanic regions with evidence of population structure within the NEA, with early-season sharks off southwest Ireland possibly representing genetically distinct migrants. Finally, we found basking sharks surfacing together in the NEA are on average more related than expected by chance, suggesting a genetic consequence of, or a potential mechanism maintaining, site-specific re-encounters. Long-term temporal genetic monitoring is paramount in determining future viability of cosmopolitan marine species, identifying genetic units for conservation management, and for understanding aggregation structure and dynamics.

Published
2020

18. Seasonal changes in basking shark vertical space use in the north-east Atlantic

Author

Philip D. Doherty, L. Johnson, C. Speedie, J. M. Baxter, Graham L. Hall, Matthew J. Witt, Rachel T. Graham, Lucy A. Hawkes, S. M. Henderson, Brendan J. Godley, and J. Hall

Subjects
geography, geography.geographical_feature_category, Ecology, Occupancy, biology, Range (biology), Continental shelf, Space use, North east, Aquatic Science, Seasonality, medicine.disease, biology.organism_classification, Basking shark, Oceanography, medicine, Diel vertical migration, Ecology, Evolution, Behavior and Systematics
Abstract

Mobile marine species can exhibit vast movements both horizontally and vertically. Spatial analysis of vertical movements may help improve an understanding of the processes that influence space use. Previously, vertical space use of basking sharks (Cetorhinus maximus) in the north-east Atlantic described movements largely within waters of the continental shelf during summer and autumn months, with few records of detailed vertical behaviour during winter. We use archival satellite telemetry data from 32 basking sharks (12 females, 6 males, and 14 of unknown sex measuring 4–5 m (n = 6), 5–6 m (n = 10), 6–7 m (n = 7), 7–8 m (n = 8), and 8–9 m (n = 1) estimated total length) tracked over 4 years (2012–2015). The satellite tags provided depth and temperature data for a cumulative 4489 days (mean 140 ± 97 days per shark, range 10–292 days) to describe vertical space use and thermal range of basking sharks in the north-east Atlantic. Basking sharks exhibit seasonality in vertical space use, revealing repeated ‘yo-yo’ movement behaviour with periods of occupancy at depths greater than 1000 m in late winter/early spring. Describing seasonal vertical space use in marine megavertebrates can increase knowledge of movements throughout their environment including physiological and morphological constraints to movement, nutrient transfer, and overlap with anthropogenic threats to inform future conservation strategies.

Published
2019

19. Tackling the Tibetan Plateau in a down suit: insights into thermoregulation by bar-headed geese during migration

Author

Patrick J. Butler, Lucy A. Hawkes, Beverly Chua, Charles M. Bishop, Nicole Parr, Graham R. Scott, Nyambayar Batbayar, and William K. Milsom

Subjects
0106 biological sciences, Physiology, Zoology, Anser indicus, Aquatic Science, Tibet, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Altitude, Heart Rate, Geese, Narrow range, Animals, Circadian rhythm, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Morning, 0303 health sciences, geography, Plateau, geography.geographical_feature_category, biology, Thermoregulation, Effects of high altitude on humans, biology.organism_classification, Circadian Rhythm, Insect Science, Flight, Animal, Environmental science, Animal Science and Zoology, Animal Migration, Seasons, Body Temperature Regulation
Abstract

Birds migrating through extreme environments can experience a range of challenges while meeting the demands of flight, including highly variable ambient temperatures, humidity and oxygen levels. However, there has been limited research into avian thermoregulation during migration in extreme environments. This study aimed to investigate the effect of flight performance and high altitude on body temperature (Tb) of free-flying bar-headed geese (Anser indicus), a species that completes a high-altitude trans-Himalayan migration through very cold, hypoxic environments. We measured abdominal Tb, along with altitude (via changes in barometric pressure), heart rate and body acceleration of bar-headed geese during their migration across the Tibetan Plateau. Bar-headed geese vary the circadian rhythm of Tb in response to migration, with peak daily Tb during daytime hours outside of migration but early in the morning or overnight during migration, reflecting changes in body acceleration. However, during flight, changes in Tb were not consistent with changes in flight performance (as measured by heart rate or rate of ascent) or altitude. Overall, our results suggest that bar-headed geese are able to thermoregulate during high-altitude migration, maintaining Tb within a relatively narrow range despite appreciable variation in flight intensity and environmental conditions.

Published
2019

20. New findings about the spatial and temporal use of the Eastern Atlantic Ocean by large juvenile loggerhead turtles

Author

Juan A. Bermejo, Lucy A. Hawkes, Luis Felipe López-Jurado, Matthew J. Witt, Daniel Cejudo, Nuria Varo-Cruz, Stephen K. Pikesley, Pascual Calabuig, and Brendan J. Godley

Subjects
0106 biological sciences, Ecological niche, Ecology, 010604 marine biology & hydrobiology, Endangered species, 010603 evolutionary biology, 01 natural sciences, Fishery, Sea surface temperature, Geography, Habitat, Marine vertebrate, Threatened species, Spatial ecology, Juvenile, Ecology, Evolution, Behavior and Systematics
Abstract

AIMS: Effective conservation of threatened or endangered species requires a robust understanding of their spatio‐temporal distribution. Although a huge amount is known about the movements of Atlantic adult sea turtles, much less is known about juvenile turtles, and much of the life history model is therefore inferred. We set out to describe the spatio‐temporal distribution of juvenile loggerheads turtles found around the Canary Islands. LOCATION: Eastern North Atlantic Ocean. METHODS: Between 1999 and 2012, we satellite‐tracked 24 healthy large juvenile loggerhead turtles (mean straight carapace length = 47.4 cm, range = 34.6–54.5 cm) captured in the waters around the Canary Islands. We describe their regional distribution, identify high‐use areas and create a model for habitat suitability using minimum convex polygons, density rasters and ensemble ecological niche modelling, integrated with physical and biological environmental data. RESULTS: Turtles used a huge oceanic area (2.5 million km²) with particularly high usage around the Canary Islands, Spain, Portugal, Morocco and Western Sahara. In spring and summer, turtles generally moved further north towards the Iberian Peninsula. Ecological niche modelling identified sea surface temperature as the most important contributory variable to the habitat models. We also recorded three juvenile turtles making westward migrations away from the eastern Atlantic Ocean, presumably back towards their original natal beaches near sexual maturity. MAIN CONCLUSIONS: The results of the present study provide insight into a significant knowledge gap on the spatio‐temporal distribution of large juvenile loggerhead turtles in the eastern Atlantic Ocean. The data highlight that turtles occupy a vast open oceanic area, which hampers the ability of static conservation approaches to afford effective protection. However, ensemble ecological niche modelling highlights key suitable habitat for juvenile loggerhead turtles, which could be used in dynamic conservation protection.

Published
2016

21. Is this what a climate change-resilient population of marine turtles looks like?

Author

Adolfo Marco, Lucy A. Hawkes, E. Abella Perez, Samir Martins, Junta de Andalucía, Bangor University, Gobierno de Canarias, and Cabildo de Fuerteventura

Subjects
0106 biological sciences, education.field_of_study, Rookery, Resilience, Ecology, 010604 marine biology & hydrobiology, Population, Global warming, Foraging, Biodiversity, Climate change, 010603 evolutionary biology, 01 natural sciences, Cape verde, Geography, Habitat, Qualitative framework, Adaptation, education, Marine turtle, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

The future persistence of biodiversity is likely to be affected by global climate change. We propose a qualitative framework for assessing the resilience of coastal species to climate change, incorporating current and likely future breeding success, the availability of temporal and spatial climate refugia, the effect of future sea-level rise, behavioural plasticity and the level of other specific threats.We test this framework using one of theworld's largest nesting rookeries of loggerhead sea turtles (Caretta caretta) in the island of Boa Vista (Republic of Cape Verde, West Africa). We measured air, sand and nest temperatures across more than 50 km of nesting habitat and four years to model the likely sex ratios produced and predicted what future sex ratios might be under one conservative future climate change scenario (RCP 2.6). We assessed the relative threat of sea-level rise, and other threats including beachfront construction, pollution and human harvest as well as to estimate the level of foraging behaviour plasticity observed for this population. Estimated sex ratio over the study period was 79.15% female and while an increase of 2 °C air temperature would lead to 99.86% female production, incubation temperature is unlikely to be lethal even in the hottest part of the year. Only half the total suitable length of coastline is currently used for nesting and there is a size-linked dichotomy in foraging strategies of loggerhead turtles of both sexes. Under our qualitative framework,we make the surprising observation that this population of conservation concern should have remarkable resilience to climate change due to some unique features of their habitat use and preferences. This may be compromised by high levels of human harvest and planned and on-going coastal development. The framework may be of utility in assessing the threat of climate change to other climate-sensitive, coastal and mobile species such as migratory seabirds, coastal fish and butterflies., This work was carried out with funding from the Ministry of the Environment of the Regional Government of Andalusia, the Regional Government of the Canary Islands and the Fuerteventura Inter-Island Council (Cabildo de Fuerteventura). LAH was supported by a BBSRC post-doctoral award at Bangor University during the study.

Published
2016

22. A Global Analysis of Anthropogenic Development of Marine Turtle Nesting Beaches

Author

Sarah J. Biddiscombe, Elliott A. Smith, and Lucy A. Hawkes

Subjects
0106 biological sciences, 010504 meteorology & atmospheric sciences, Range (biology), habitat loss, Population, Climate change, 01 natural sciences, coastal management, law.invention, remote sensing, law, Turtle (robot), lcsh:Science, education, Sea level, 0105 earth and related environmental sciences, Shore, education.field_of_study, geography.geographical_feature_category, anthropogenic development, 010604 marine biology & hydrobiology, Google Earth, Fishery, climate change, Habitat destruction, Geography, General Earth and Planetary Sciences, lcsh:Q, Coastal management
Abstract

The Intergovernmental Panel on Climate Change predicts that sea levels will rise by up to 0.82 m in the next 100 years. In natural systems, coastlines would migrate landwards, but because most of the world’s human population occupies the coast, anthropogenic structures (such as sea walls or buildings) have been constructed to defend the shore and prevent loss of property. This can result in a net reduction in beach area, a phenomenon known as “coastal squeeze”, which will reduce beach availability for species such as marine turtles. As of yet, no global assessment of potential future coastal squeeze risk at marine turtle nesting beaches has been conducted. We used Google Earth satellite imagery to enumerate the proportion of beaches over the global nesting range of marine turtles that are backed by hard anthropogenic coastal development (HACD). Mediterranean and North American nesting beaches had the most HACD, while the Australian and African beaches had the least. Loggerhead and Kemp’s ridley turtle nesting beaches had the most HACD, and flatback and green turtles the least. Future management approaches should prioritise the conservation of beaches with low HACD to mitigate future coastal squeeze.

Published
2020

23. Proceedings of the Royal Society B - Biological Sciences

Author

Tammy E. Davies, Catherine M. McClellan, Alan F. Rees, Meredith Whitten, Giuseppe Notarbartolo di Sciara, Ben Donnelly, Mark Spalding, Fanny Douvere, Graeme C. Hays, Ward Appeltans, Sofie M. Van Parijs, Barbara A. Block, Susanne Åkesson, Amalia Alberini, Maria P. Dias, Daniel C. Dunn, Francesco Ferretti, Erick Ross Salazar, José Manuel Arcos, Peter J. Corkeron, Autumn-Lynn Harrison, Nuria Varo-Cruz, Michelle Modest, Patrick N. Halpin, Lisa T. Ballance, Guillermo Ortuño Crespo, Carolina Hazin, Jorge Brenner, Andrea Pauly, Melanie Virtue, Fernando Spina, Paolo Luschi, Lucy M. Hawkes, Yuriko Hashimoto, Connie Y. Kot, Vikki Gunn, Ei Fujioka, Angela Formia, Sarah Poulin, David Freestone, Sarah DeLand, Andre M. Boustany, Jesse Cleary, Laurie K. Wilson, Ari S. Friedlaender, Jorge Jimenez, Bryan P. Wallace, Daniel P. Costa, David H. Secor, Ana M. M. Sequeira, Heidrun Frisch-Nwakanma, Christopher R.S. Barrio Froján, David E. Johnson, Paulo Catry, Matt J. Rayner, Daniel Cejudo, Kristina M. Gjerde, José Pedro Granadeiro, Jacob González-Solís, Bill Woodward, Sara M. Maxwell, Corrie Curtice, Hannah Blondin, Brendan J. Godley, Henri Weimerskirch, Daniel M. Palacios, Michael Coyne, Eleanor Heywood, Alejandro Herrero Palacio, Lyle Glowka, Helen Bailey, Nicholas School of the Environment, Duke University [Durham], Migratory Bird Center [DC, USA], Smithsonian Conservation Biology Institute, Department of Biology, Center for Animal Movement Research [Sweden], Lund University [Lund], International Oceanographic Data and Information Exchange (IODE) of the Intergovernmental Oceanographic Commission of UNESCO, Oostende, SEO/BirdLife, Chesapeake Biological Laboratory (CBL), University of Maryland Center for Environmental Science (UMCES), University of Maryland System-University of Maryland System, Southwest Fisheries Science Center (SWFSC), NOAA National Marine Fisheries Service (NMFS), National Oceanic and Atmospheric Administration (NOAA)-National Oceanic and Atmospheric Administration (NOAA), Hopkins Marine Station [Stanford], Stanford University, Monterrey Bay Aquarium[USA], The Nature Conservancy [Houston, USA], Marine and Environmental Sciences Centre [Portugal] (MARE), Instituto Universitário de Ciências Psicológicas, Sociais e da Vida (ISPA), Biology Department of the University of Las Palmas de Gran Canaria [Spain], University of Las Palmas de Gran Canaria [Spain] (ULPGC), Protected Species Branch, NOAA Northeast Fisheries Science Center [USA], NOAA Northeast Fisheries Science Center, Dept of Ecology and Evolutionary Biology [Santa Cruz, CA, USA], University of California [Santa Cruz] (UCSC), University of California-University of California, University of California, BirdLife International, UNESCO World Heritage Convention [France], Wildlife Conservation Society, Sargasso Sea Commission [USA], Estación Biológica de Doñana (EBD), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Centro de Estudos do Ambiente e do Mar (CESAM), Universidade de Lisboa (ULISBOA), University College of London [London] (UCL), Tethys Research Institute [ITALIE], Instituto Nacional de Saùde Dr Ricardo Jorge [Portugal] (INSA), Deptarment of Zoology, University of Cambridge, Istituto Superiore per la Protezione e la Ricerca Ambientale (ISPRA), Centre d'Études Biologiques de Chizé - UMR 7372 (CEBC), Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), NOAA Integrated Ocean Observing System (IOOS), National Oceanic and Atmospheric Administration (NOAA), Marine Geospatial Ecology Laboratory [USA], and Duke University [Durham]-Duke University [Durham]

Subjects
0106 biological sciences, Life Sciences & Biomedicine - Other Topics, migratory species, Biodiversity, DIVERSITY, Distribution (economics), CONVENTION, 01 natural sciences, Medical and Health Sciences, TRACKING, 11 Medical and Health Sciences, General Environmental Science, Ocean policy, education.field_of_study, area-based management, Ecology, Geography, COASTAL, Environmental resource management, General Medicine, Biological Sciences, areas beyond national jurisdiction, Area-based management, Areas beyond national jurisdiction, Marine spatial planning, Migratory species, Environmental Policy, Protecció de la fauna, Fauna marina, Marine fauna, [SDE]Environmental Sciences, marine spatial planning, General Agricultural and Biological Sciences, Life Sciences & Biomedicine, Espècies invasores, Conservation of Natural Resources, Ecology (disciplines), Oceans and Seas, Population, CONSERVATION, Environmental Sciences & Ecology, 010603 evolutionary biology, Marine species, General Biochemistry, Genetics and Molecular Biology, Animal migration, 07 Agricultural and Veterinary Sciences, Animals, 14. Life underwater, education, Biology, Ecosystem, Evolutionary Biology, CONSEQUENCES, MOVEMENTS, General Immunology and Microbiology, Agricultural and Veterinary Sciences, Invasive species, business.industry, 010604 marine biology & hydrobiology, Evidence Synthesis, 15. Life on land, 06 Biological Sciences, 13. Climate action, Wildlife conservation, PATTERNS, BIODIVERSITY, Animal Migration, business, MARINE
Abstract

International audience; The distributions of migratory species in the ocean span local, national and international jurisdictions. Across these ecologically interconnected regions, migratory marine species interact with anthropogenic stressors throughout their lives. Migratory connectivity, the geographical linking of individuals and populations throughout their migratory cycles, influences how spatial and temporal dynamics of stressors affect migratory animals and scale up to influence population abundance, distribution and species persistence. Population declines of many migratory marine species have led to calls for connectivity knowledge, especially insights from animal tracking studies, to be more systematically and synthetically incorporated into decision-making. Inclusion of migratory connectivity in the design of conservation and management measures is critical to ensure they are appropriate for the level of risk associated with various degrees of connectivity. Three mechanisms exist to incorporate migratory connectivity into international marine policy which guides conservation implementation: site-selection criteria, network design criteria and policy recommendations. Here, we review the concept of migratory connectivity and its use in international policy, and describe the Migratory Connectivity in the Ocean system, a migratory connectivity evidence-base for the ocean. We propose that without such collaboration focused on migratory connectivity, efforts to effectively conserve these critical species across jurisdictions will have limited effect.

Published
2018

24. Predicting habitat suitability for basking sharks (Cetorhinus maximus) in UK waters using ensemble ecological niche modelling

Author

Rebecca A. Austin, L. Johnson, Richard Inger, Stephen K. Pikesley, Matthew J. Witt, C. Speedie, Lucy A. Hawkes, Philip D. Doherty, S. M. Henderson, and Jean-Luc Solandt

Subjects
0106 biological sciences, Ecological niche, education.field_of_study, biology, 010604 marine biology & hydrobiology, Population, Species distribution, Endangered species, Aquatic Science, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Basking shark, Fishery, Geography, Habitat, Abundance (ecology), Marine protected area, education, Ecology, Evolution, Behavior and Systematics
Abstract

The basking shark (Cetorhinus maximus) is an endangered species in the north-east Atlantic, having been historically over exploited. Whilst near-shore aggregation hotspots in the UK have been identified, robust knowledge on species distribution and abundance outside these areas remains limited. Research techniques, such as habitat modelling, could however be used to gain a greater knowledge of the species distribution to inform management plans to aid population recovery. For large mobile species gathering wide-scale distribution data can be financially and logistically challenging. In lieu of conducting an expensive UK-wide strategic survey for basking sharks, we use data from two regional-scale surveys, which were conducted in southwest England and western Scotland, in an Ensemble Ecological Niche Model (EENM) to produce a spatially-explicit map of habitat suitability. When compared against a ~20-year database of public sightings of basking sharks across UK coastal seas (to 6 nautical miles offshore), patterns of habitat suitability yielded a statistically significant agreement with areas known to support basking shark sightings. EENMs could be used to advise Marine Protected Area (MPA) selection, as well as to inform environmental impact assessments for offshore developments. The application of EENM outputs could be wide-reaching and benefit not only basking sharks but other large mobile marine species in the north-east Atlantic.

Published
2019

25. The physiology of paragliding flight at moderate and extreme altitudes

Author

Clare Eglin, Matt Wilkes, Martin J. MacInnis, Heather Massey, Lucy A. Hawkes, and Mike Tipton

Subjects
Adult, Male, Adolescent, Aircraft, Physiology, sports, 030204 cardiovascular system & hematology, Young Adult, 03 medical and health sciences, Cognition, Oxygen Consumption, 0302 clinical medicine, Altitude, Respiratory Rate, Heart Rate, Accelerometry, extreme sports, Tidal Volume, Humans, Hypoxia, Extreme sports, paragliding, Public Health, Environmental and Occupational Health, 030229 sport sciences, General Medicine, Middle Aged, Oxygen, flight, Geography, Paragliding, physiology, Aerospace Medicine, sports.sport, Energy Metabolism, Gravitation, altitude, Sports and Exercise Sciences
Abstract

Aims - Paragliding is a form of free flight with extreme altitude paragliding an emerging discipline. We aimed to describe the physiological demands and the impact of environmental stressors of paragliding at moderate and extreme altitudes.We recorded oxygen consumption (VO2), heart rate (HR), respiratory frequency (ƒR), tidal volume (VT), oxygen saturation, accelerometry (G) and altitude in 9.3 hours of flight at moderate altitudes (to 3,073 m, n=4), 19.3 hours at extreme altitude (to 7,458 m, n=2) and during high-G manoeuvers (n=2). We also analysed heart rate data from 17 pilots (138 hours).Results - Overall energy expenditure at moderate altitude was low (1.7 (0.6) metabolic equivalents) but physiological parameters were notably higher during take-off (p < 0.05). Pilots transiently reached ~7 G during manoeuvres. Mean HR at extreme altitude (112 (14) bpm) were elevated compared to moderate altitude (98 (15) bpm, p = 0.048). While VT were similar (p = 0.958), elevation in ƒR at extreme compared to moderate altitude approached significance (p = 0.058).Conclusions - Physical exertion in paragliding appears low, so any subjective fatigue felt by pilots is likely to be cognitive or environmental. Future research should focus on reducing mental workload, enhancing cognitive function and improving environmental protection.

Published
2017

26. Evaluating the importance of Marine Protected Areas for the conservation of hawksbill turtles Eretmochelys imbricata nesting in the Dominican Republic

Author

Jesús Tomás, Yolanda M. León, Ohiana Revuelta, Juan Antonio Raga, Brendan J. Godley, and Lucy A. Hawkes

Subjects
education.field_of_study, Ecology, National park, Range (biology), Population, Foraging, Botany, law.invention, Fishery, Geography, Species of concern, QL1-991, law, QK1-989, Territorial waters, Marine protected area, Turtle (robot), education, Zoology, Nature and Landscape Conservation
Abstract

Understanding spatial and temporal habitat-use patterns to protect both foraging and breeding grounds of species of concern is crucial for successful conservation. Saona Island in Del Este National Park (DENP), south-eastern Dominican Republic (DR), hosts the only major hawksbill (Eretmochelys imbricata) nesting area in the DR (100 nests yr �1 , SD = 8.4, range = 93�111), with the population having been critically reduced through hunting. We satellite tracked 9 female hawksbill turtles, and present analyses of their core-use areas with respect to Marine Protected Areas (MPAs) in both their internesting and foraging areas. Kernel utilization distribu- tions indicated that during the internesting period all turtles remained close to their nesting beaches in small home ranges in the territorial waters of the DR, mostly over the continental shelf (

Published
2015

27. Balanced primary sex ratios and resilience to climate change in a major sea turtle population

Author

Castro Barbosa, Rui Rebelo, Ana M. Marques, Paulo Catry, Brendan J. Godley, Aissa Regalla, Annette C. Broderick, Lucy A. Hawkes, Ana R. Patrício, and Repositório da Universidade de Lisboa

Subjects
0106 biological sciences, Population, Climate change, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Socioeconomics, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Ecology, biology, 010604 marine biology & hydrobiology, sex ratio, biology.organism_classification, transitional range of temperatures, language.human_language, thermosensitive period, Resilience (organizational), pivotal temperature, Sea turtle, Geography, climate change, language, Portuguese, green turtle
Abstract

Global climate change is expected to have major impacts on biodiversity. Sea turtles have temperature-dependent sex determination, and many populations produce highly female-biased offspring sex ratios, a skew likely to increase further with global warming. We estimated the primary sex ratio at one of the world’s largest green turtle Chelonia mydas rookeries in Guinea-Bissau, West Africa, and explored its resilience to climate change. In 2013 and 2014, we deployed data loggers recording nest (n = 101) and sand (n = 30) temperatures, and identified hatchling sex by histological examination of gonads. A logistic curve was fitted to the data to allow predictions of sex ratio across habitats and through the nesting season. The population-specific pivotal temperature was 29.4°C, with both sexes produced within incubation temperatures from 27.6 to 31.4°C: the transitional range of temperatures (TRT). Primary sex ratio changed from male- to female-biased across relatively small temporal and spatial scales. Overall it was marginally female-biased, but we estimated an exceptionally high male hatchling production of 47.7% (95% CI: 36.7-58.3%) and 44.5% (95% CI: 33.8-55.4%) in 2013 and 2014, respectively. Both the temporal and spatial variation in incubation conditions and the wide range of the TRT suggest resilience and potential for adaptation to climate change if the present nesting habitat remains unchanged. These findings underline the importance of assessing site-specific parameters to understand populations’ responses to climate change, particularly with regard to identifying rookeries with high male hatchling production that may be key for the future conservation of sea turtles under projected global warming scenarios.

Published
2017

28. REVIEW: On the Front Line: frontal zones as priority at-sea conservation areas for mobile marine vertebrates

Author

Peter I. Miller, Kylie L. Scales, Stephen C. Votier, David W. Sims, Lucy A. Hawkes, and Simon N. Ingram

Subjects
Geography, Ecology, Critical habitat, Habitat, Marine vertebrate, Foraging, Front (oceanography), Marine spatial planning, Marine protected area, Exclusive economic zone
Abstract

Summary 1. Identifying priority areas for marine vertebrate conservation is complex because species of conservation concern are highly mobile, inhabit dynamic habitats and are difficult to monitor. 2. Many marine vertebrates are known to associate with oceanographic fronts – physical interfaces at the transition between water masses – for foraging and migration, making them important candidate sites for conservation. Here, we review associations between marine vertebrates and fronts and how they vary with scale, regional oceanography and foraging ecology. 3. Accessibility, spatiotemporal predictability and relative productivity of front-associated foraging habitats are key aspects of their ecological importance. Predictable mesoscale (10s– 100s km) regions of persistent frontal activity (‘frontal zones’) are particularly significant. 4. Frontal zones are hotspots of overlap between critical habitat and spatially explicit anthropogenic threats, such as the concentration of fisheries activity. As such, they represent tractable conservation units, in which to target measures for threat mitigation. 5. Front mapping via Earth observation (EO) remote sensing facilitates identification and monitoring of these hotspots of vulnerability. Seasonal or climatological products can locate biophysical hotspots, while near-real-time front mapping augments the suite of tools supporting spatially dynamic ocean management. 6. Synthesis and applications. Frontal zones are ecologically important for mobile marine vertebrates. We surmise that relative accessibility, predictability and productivity are key biophysical characteristics of ecologically significant frontal zones in contrasting oceanographic regions. Persistent frontal zones are potential priority conservation areas for multiple marine vertebrate taxa and are easily identifiable through front mapping via EO remote sensing. These insights are useful for marine spatial planning and marine biodiversity conservation, both within Exclusive Economic Zones and in the open oceans.

Published
2014

29. Satellite tracking derived insights into migration and foraging strategies of male loggerhead turtles in the eastern Atlantic

Author

Nuria Varo-Cruz, Luis Felipe López-Jurado, Pedro López, Daniel Cejudo, Michael S. Coyne, Brendan J. Godley, and Lucy A. Hawkes

Subjects
Shore, geography, education.field_of_study, geography.geographical_feature_category, Ecology, Foraging, Population, Aquatic Science, Satellite tracking, Biology, law.invention, Cape verde, Fishery, law, Archipelago, Seasonal breeder, Turtle (robot), education, Ecology, Evolution, Behavior and Systematics
Abstract

In recent years, information about the movements and timing of migration by male sea turtles has begun to be unraveled. Here, we present the first satellite tracking of male loggerhead sea turtles ( Caretta caretta ) in the eastern Atlantic. Satellite linked transmitters were attached to five adult males, captured in the near shore waters off Boavista, Republic of Cape Verde. This archipelago hosts the single most important breeding site of loggerhead turtles in the eastern Atlantic. Animals were tracked for periods ranging between 48 and 537 days, including a probable annual remigration to the vicinity of the nesting ground for one turtle. Males showed a variety of movement patterns both during and after the breeding season. Of three males that transmitted for 85, 329 and 537 days, two (the smallest) migrated east and remained in oceanic waters for the tracking period and another (larger turtle) migrated 810 km northeast, to neritic waters off the coast of Mauritania, Western Africa. Results suggest males may show the same size-linked dichotomy in migratory strategies, as has been shown for females from this population.

Published
2013

30. Somatic growth dynamics of West Atlantic hawksbill sea turtles: a spatio‐temporal perspective

Author

Carlos E. Diez, Robert P. van Dam, Maria A. G. dei Marcovaldi, Zandy Hillis-Starr, Thomas B. Stringell, Mark E. Outerbridge, Karen A. Bjorndal, Quinton Phillips, Kristen M. Hart, Lawrence D. Wood, Felix Moncada, Ralf H. Boulon, Virginia R. Burns Perez, Mabel Nava, Julia A. Horrocks, Barry H. Krueger, Anne B. Meylan, Vincent S. Saba, Amdeep Sanghera, Ian Lundgren, Lucy A. Hawkes, Peter B. Richardson, Marta C. Calosso, Cathi L. Campbell, Samantha Strindberg, Vicente Guzmán‐H., Andrew McGowan, Alan B. Bolten, Matthew J. Witt, Stephen Connett, Armando J. B. Santos, Brendan J. Godley, Gonzalo Nodarse, J. M. Blumenthal, Shannon Gore, Stephen G. Dunbar, Annette C. Broderick, John A. B. Claydon, Robin Coleman, Claudio Bellini, Milani Chaloupka, Michael S. Cherkiss, Peter A. Meylan, Yosvani Medina, Sue Willis, and Cynthia J. Lagueux

Subjects
0106 biological sciences, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, Foraging, Climate change, Multivariate ENSO index, Coral reef, 010603 evolutionary biology, 01 natural sciences, Fishery, Sea surface temperature, Habitat, Productivity (ecology), Eretmochelys imbricata, lcsh:QH540-549.5, marine turtles, Greater Caribbean, multivariate ENSO index, lcsh:Ecology, coral reefs, Reef, Ecology, Evolution, Behavior and Systematics, climate effects
Abstract

Somatic growth dynamics are an integrated response to environmental conditions. Hawksbill sea turtles (Eretmochelys imbricata) are long‐lived, major consumers in coral reef habitats that move over broad geographic areas (hundreds to thousands of kilometers). We evaluated spatio‐temporal effects on hawksbill growth dynamics over a 33‐yr period and 24 study sites throughout the West Atlantic and explored relationships between growth dynamics and climate indices. We compiled the largest ever data set on somatic growth rates for hawksbills – 3541 growth increments from 1980 to 2013. Using generalized additive mixed model analyses, we evaluated 10 covariates, including spatial and temporal variation, that could affect growth rates. Growth rates throughout the region responded similarly over space and time. The lack of a spatial effect or spatio‐temporal interaction and the very strong temporal effect reveal that growth rates in West Atlantic hawksbills are likely driven by region‐wide forces. Between 1997 and 2013, mean growth rates declined significantly and steadily by 18%. Regional climate indices have significant relationships with annual growth rates with 0‐ or 1‐yr lags: positive with the Multivariate El Niño Southern Oscillation Index (correlation = 0.99) and negative with Caribbean sea surface temperature (correlation = −0.85). Declines in growth rates between 1997 and 2013 throughout the West Atlantic most likely resulted from warming waters through indirect negative effects on foraging resources of hawksbills. These climatic influences are complex. With increasing temperatures, trajectories of decline of coral cover and availability in reef habitats of major prey species of hawksbills are not parallel. Knowledge of how choice of foraging habitats, prey selection, and prey abundance are affected by warming water temperatures is needed to understand how climate change will affect productivity of consumers that live in association with coral reefs.

Published
2016

31. Migratory patterns in hawksbill turtles described by satellite tracking

Author

Ohiana Revuelta, Matthew J. Witt, J. M. Blumenthal, M.R. Fish, Juan Antonio Raga, Brendan J. Godley, Annette C. Broderick, Jesús Tomás, Lucy A. Hawkes, and Yolanda M. León

Subjects
Fishery, Conservation planning, Hawksbill turtle, Geography, Ecology, Adult female, Information gap, Foraging, Aquatic Science, Satellite tracking, Marine species, Ecology, Evolution, Behavior and Systematics
Abstract

The advent of telemetry has improved knowledge of the spatio-temporal distribution of marine species of conservation concern. Among the sea turtles, the movements of the hawksbill turtle Eretmochelys imbricata are among the least well described. We tracked 10 adult female hawksbill turtles by satellite after nesting in the Dominican Republic (DR) and describe a dichotomy in patterns of movement: some (n = 2) turtles remained in the DR, while others migrated to waters off Honduras and Nicaragua (n = 5) and the Bahamas (n = 1). Transmitters on 2 turtles failed during migration, before they reached their final foraging grounds. We present results from long tracking durations for 3 turtles, including 3 entire remigration intervals, high- lighting foraging ground and nest-site fidelity. Threats to hawksbill turtles are not well docu- mented for Nicaragua or neighbouring Honduras and represent a major information gap. We sug- gest that directing conservation efforts to regionally important foraging areas, such as those in Nicaragua, and strengthening national conservation in each nation with significant hawksbill nesting offers a clear way forward for the conservation of hawksbill turtles in the region.

Published
2012

32. Patterns of dispersal of hawksbill turtles from the Cuban shelf inform scale of conservation and management

Author

Gonzalo Nodarse, Lucy A. Hawkes, Felix Moncada, Grahame J. W. Webb, Brendan J. Godley, Yosvani Medina, M.R. Fish, and S.C. Manolis

Subjects
Caribbean island, Adult female, CITES, Ecology, Satellite tracking, law.invention, Mark and recapture, Geography, law, Territorial waters, Biological dispersal, Turtle (robot), Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

Conserving and managing populations of marine vertebrates can be complex when they occupy the waters of multiple nations, crossing heterogeneous legal and management landscapes. Hawksbill turtles ( Eretmochelys imbricata ) are subject to varying levels of use in Caribbean countries and their conservation and management is complicated by the extent to which they are a ‘shared’ resource. In 1997 and 2000, Cuba attempted to ‘downlist’ hawksbills from Cuban waters to CITES Appendix II to allow limited international trade. The research on movement and dispersal of hawksbills reported here was undertaken to better inform discussion about the impacts of their harvest. Flipper tagging and satellite tracking demonstrate that the majority of study turtles remained in Cuban territorial waters. Of 1170 hawksbills tagged (525 adults and 606 juveniles), 12% ( n = 143) were recaptured. All recaptured adults ( n = 16 males, 38 nesting females and 30 adult females in-water) were in Cuban waters. Of the 59 juveniles recaptured, only four recaptures were outside Cuban waters (Nicaragua = 2, Colombia = 1, USA = 1). Fourteen hawksbills tagged in the waters of other nations were recaptured in Cuban waters. We also satellite tracked 21 turtles (one adult male, ten nesting females and ten non-nesting adult females), of which five tags failed, 11 stayed in Cuban waters for the duration of transmissions (1–809 days) and five foraged in the waters of other nations (Mexico n = 1 an adult female; Honduras n = 2, both post-nesting turtles; Colombia n = 1 an adult female; and the eastern Lesser Antilles n = 1, an adult male), with differences for nesting and non-nesting turtles. Our results, demonstrating extended site fidelity within Cuban waters, suggest that strengthening national management within national jurisdictions that host hawksbill turtles is fundamental to improving regional conservation as a whole.

Published
2012

33. Home on the range: spatial ecology of loggerhead turtles in Atlantic waters of the USA

Author

Michael S. Coyne, Sally R. Murphy, Thomas M. Murphy, John W. Coker, DuBose B. Griffin, Kris L. Williams, Annette C. Broderick, Matthew H. Godfrey, Mark G. Dodd, Brendan J. Godley, Lucy A. Hawkes, Michael G. Frick, and Matthew J. Witt

Subjects
Geography, geography.geographical_feature_category, Habitat, Range (biology), Continental shelf, Ecology, Home range, Threatened species, Spatial ecology, Satellite tracking, Ecology, Evolution, Behavior and Systematics, Latitude
Abstract

Aim Although satellite tracking has yielded much information regarding the migrations and habitat use of threatened marine species, relatively little has been published about the environmental niche for loggerhead sea turtles Caretta caretta in north-west Atlantic waters. Location North Carolina, South Carolina and Georgia, USA. Methods We tracked 68 adult female turtles between 1998 and 2008, one of the largest sample sizes to date, for 372.2 ± 210.4 days (mean ± SD). Results We identified two strategies: (1) ‘seasonal’ migrations between summer and winter coastal areas (n = 47), although some turtles made oceanic excursions (n = 4) and (2) occupation of more southerly ‘year-round’ ranges (n = 18). Seasonal turtles occupied summer home ranges of 645.1 km2 (median, n = 42; using α-hulls) predominantly north of 35 ° latitude and winter home ranges of 339.0 km2 (n = 24) in a relatively small area on the narrow shelf off North Carolina. We tracked some of these turtles through successive summer (n = 8) and winter (n = 3) seasons, showing inter-annual home range repeatability to within 14.5 km of summer areas and 10.3 km of winter areas. For year-round turtles, home ranges were 1889.9 km2. Turtles should be tracked for at least 80 days to reliably estimate the home range size in seasonal habitats. The equivalent minimum duration for ‘year-round’ turtles is more complex to derive. We define an environmental envelope of the distribution of North American loggerhead turtles: warm waters (between 18.2 and 29.2 °C) on the coastal shelf (in depths of 3.0–89.0 m). Main conclusions Our findings show that adult female loggerhead turtles show predictable, repeatable home range behaviour and do not generally leave waters of the USA, nor the continental shelf (

Published
2011

34. Spatial dynamics of bar-headed geese migration in the context of H5N1

Author

Martin Wikelski, T. Natdorj, Lucy A. Hawkes, Patrick J. Butler, Charles M. Bishop, Nyambayar Batbayar, Jianhong Wu, Scott H. Newman, John Y. Takekawa, and Lydia Bourouiba

Subjects
Population, Biomedical Engineering, Biophysics, Endangered species, Bioengineering, Context (language use), Anser indicus, Biology, medicine.disease_cause, Models, Biological, Biochemistry, Disease Outbreaks, Biomaterials, Geese, medicine, Waterfowl, Animals, education, Research Articles, Epizootic, Disease Reservoirs, education.field_of_study, Geography, Influenza A Virus, H5N1 Subtype, Ecology, Age Factors, Outbreak, medicine.disease, biology.organism_classification, Influenza A virus subtype H5N1, Influenza in Birds, Animal Migration, Seasons, Biotechnology
Abstract

Virulent outbreaks of highly pathogenic avian influenza (HPAI) since 2005 have raised the question about the roles of migratory and wild birds in the transmission of HPAI. Despite increased monitoring, the role of wild waterfowl as the primary source of the highly pathogenic H5N1 has not been clearly established. The impact of outbreaks of HPAI among species of wild birds which are already endangered can nevertheless have devastating consequences for the local and non-local ecology where migratory species are established. Understanding the entangled dynamics of migration and the disease dynamics will be key to prevention and control measures for humans, migratory birds and poultry. Here, we present a spatial dynamic model of seasonal migration derived from first principles and linking the local dynamics during migratory stopovers to the larger scale migratory routes. We discuss the effect of repeated epizootic at specific migratory stopovers for bar-headed geese ( Anser indicus ). We find that repeated deadly outbreaks of H5N1 on stopovers during the autumn migration of bar-headed geese could lead to a larger reduction in the size of the equilibrium bird population compared with that obtained after repeated outbreaks during the spring migration. However, the opposite is true during the first few years of transition to such an equilibrium. The age-maturation process of juvenile birds which are more susceptible to H5N1 reinforces this result.

Published
2010

35. Movement patterns of loggerhead turtles Caretta caretta in Cuban waters inferred from flipper tag recaptures

Author

Juan Antonio Camiñas, Felix Moncada, F. A. Abreu-Grobois, Gonzalo Nodarse, Arturo Muhlia-Melo, Llewellyn M. Ehrhart, Dean A. Bagley, Lucy A. Hawkes, Karen A. Bjorndal, Alan B. Bolten, Barbara A. Schroeder, and Julio Zurita

Subjects
geography, geography.geographical_feature_category, Ecology, Range (biology), Foraging, Biology, Life stage, law.invention, Fishery, Habitat, law, Threatened species, Turtle (robot), Flipper, Reef, Nature and Landscape Conservation
Abstract

Understanding the spatial movements of threatened marine species, such as sea turtles, is essential as a means of informing appropriate conservation management. Although novel tech- niques for tracking spatial movements are becoming more widely available (such as satellite track- ing), simple techniques such as mark-release-recapture remain effective. A flipper tagging and recovery program in Cuba tagged 210 loggerhead turtles over 14 yr and recovered 7% of the tags between 2 d and 3 yr later (mean = 296 d). All but one turtle was recaptured in Cuban waters, and data showed limited movement of turtles between northern and southern coasts. A further 50 turtles were recovered that had been tagged in foreign projects, the majority of which were from the USA (but also Mexico, The Bahamas, Canary Islands and Spain). A range of life stages of loggerhead tur- tles are found in Cuban waters year-round, and given that Cuba has the second largest reef in the Caribbean, it likely provides foraging habitat for significant numbers of loggerhead turtles from at least 6 different countries.

Published
2010

36. Only some like it hot — quantifying the environmental niche of the loggerhead sea turtle

Author

Michael S. Coyne, Lucy A. Hawkes, Brendan J. Godley, Annette C. Broderick, and Matthew H. Godfrey

Subjects
Ecological niche, biology, Ecology, Range (biology), Foraging, Biodiversity, biology.organism_classification, Loggerhead sea turtle, Latitude, Gulf Stream, Fishery, Geography, Habitat, Ecology, Evolution, Behavior and Systematics
Abstract

Although the Atlantic waters of North America support hundreds of thousands of loggerhead sea turtles (Caretta caretta), remarkably little is known regarding their migratory ecology and habitat use. We integrate satellite tracking with remotely sensed oceanographic data to uncover two different migratory strategies used by loggerhead turtles at the northern part of their range. Most turtles travelled from the nesting beach to forage at higher latitudes in summer, before migrating south to wintering grounds in the autumn. Others moved south after nesting to forage for up to 514 days and did not make an autumn migration. Both groups utilized warm waters at the very edge of the Gulf Stream during winter: for southerly turtles obviating seasonal migration, and for northerly turtles minimizing the distance, time and energy required to reach northern areas for subsequent foraging seasons, avoiding lethally cold winter temperatures in inshore waters at the same latitude, and reducing energy costs that would be incurred within the fast-flowing Gulf Stream. Females made long resting dives of up to 7 h 24 min, effectively hibernating during the colder months. Offshore federal waters of the USA constitute a more important habitat for both foraging and wintering turtles than previously appreciated. These areas are potential hotspots for interaction with fisheries and proposed US military training activities and should receive special monitoring efforts to fully assess the extent of overlap.

Published
2007

37. Status of nesting loggerhead turtles Caretta caretta at Bald Head Island (North Carolina, USA) after 24 years of intensive monitoring and conservation

Author

Brendan J. Godley, Annette C. Broderick, Lucy A. Hawkes, and Matthew H. Godfrey

Subjects
Fishery, Rookery, Geography, Ecology, law, Cape, Nesting (computing), Turtle (robot), Ecology, Evolution, Behavior and Systematics, Statistical evidence, Nature and Landscape Conservation, law.invention, Head (geology)
Abstract

A 24-year set of data from monitoring of a nesting beach at Bald Head Island, North Carolina, USA, was analysed in parallel with limited data from nearby rookeries to investigate trends in loggerhead turtle Caretta caretta nesting numbers. There was no statistical evidence of an increasing or decreasing trend in numbers of clutches laid per year, although a significant decrease in the number of turtles nesting and number of clutches laid per year was found from 1991. Remigrating turtles were larger and had larger annual clutch frequencies than neophyte turtles. Annual levels of nesting at beaches within the Cape Fear area were significantly correlated. The stable trend in number of clutches laid across more than two decades is discussed in relation to other factors affecting marine turtles in North American waters.

Published
2005

38. The paradox of extreme high-altitude migration in bar-headed geese Anser indicus

Author

Lucy A. Hawkes, Graham R. Scott, Baoping Yan, Yuansheng Hou, Tseveenmyadag Natsagdorj, John Y. Takekawa, Beverly Chua, Charles M. Bishop, Scott H. Newman, Sivananinthaperumal Balachandran, David C. Douglas, Martin Wikelski, Peter B. Frappell, Nyambayar Batbayar, Ponnusamy Sathiyaselvam, Patrick J. Butler, Diann J. Prosser, William K. Milsom, and Matthew J. Witt

Subjects
Flight altitude, Shortest distance, Asia, high altitude, avian migration, exercise performance, physiology, Anser indicus, Wind, General Biochemistry, Genetics and Molecular Biology, Altitude, ddc:570, Exercise performance, Geese, Animals, Research Articles, General Environmental Science, General Immunology and Microbiology, biology, Ecology, General Medicine, Effects of high altitude on humans, biology.organism_classification, Geography, Flight, Animal, Remote Sensing Technology, Animal Migration, Physical geography, Seasons, General Agricultural and Biological Sciences
Abstract

Bar-headed geese are renowned for migratory flights at extremely high altitudes over the world's tallest mountains, the Himalayas, where partial pressure of oxygen is dramatically reduced while flight costs, in terms of rate of oxygen consumption, are greatly increased. Such a mismatch is paradoxical, and it is not clear why geese might fly higher than is absolutely necessary. In addition, direct empirical measurements of high-altitude flight are lacking. We test whether migrating bar-headed geese actually minimize flight altitude and make use of favourable winds to reduce flight costs. By tracking 91 geese, we show that these birds typically travel through the valleys of the Himalayas and not over the summits. We report maximum flight altitudes of 7290 m and 6540 m for southbound and northbound geese, respectively, but with 95 per cent of locations received from less than 5489 m. Geese travelled along a route that was 112 km longer than the great circle (shortest distance) route, with transit ground speeds suggesting that they rarely profited from tailwinds. Bar-headed geese from these eastern populations generally travel only as high as the terrain beneath them dictates and rarely in profitable winds. Nevertheless, their migration represents an enormous challenge in conditions where humans and other mammals are only able to operate at levels well below their sea-level maxima.

Published
2013

39. Satellite tracking of manta rays highlights challenges to their conservation

Author

Brendan J. Godley, Sara M. Maxwell, Francisco Remolina, Dan Castellanos, Matthew J. Witt, Rachel T. Graham, and Lucy A. Hawkes

Subjects
Marine conservation, Endangered species, lcsh:Medicine, Marine Biology, Manta alfredi, Marine Conservation, Behavioral Ecology, Spatial and Landscape Ecology, Animals, Skates, Fish, Spacecraft, lcsh:Science, Biology, Ecosystem, Animal Management, Conservation Science, Evolutionary Biology, Multidisciplinary, Extinction, biology, Animal Behavior, Ecology, Endangered Species, lcsh:R, Marine Ecology, Agriculture, Exclusive economic zone, Marine Technology, biology.organism_classification, Fishery, Geography, Mobula, Upwelling, Marine protected area, Veterinary Science, Animal Migration, lcsh:Q, Zoology, Research Article
Abstract

We describe the real-time movements of the last of the marine mega-vertebrate taxa to be satellite tracked – the giant manta ray (or devil fish, Manta birostris), the world's largest ray at over 6 m disc width. Almost nothing is known about manta ray movements and their environmental preferences, making them one of the least understood of the marine mega-vertebrates. Red listed by the International Union for the Conservation of Nature as ‘Vulnerable’ to extinction, manta rays are known to be subject to direct and incidental capture and some populations are declining. Satellite-tracked manta rays associated with seasonal upwelling events and thermal fronts off the Yucatan peninsula, Mexico, and made short-range shuttling movements, foraging along and between them. The majority of locations were received from waters shallower than 50 m deep, representing thermally dynamic and productive waters. Manta rays remained in the Mexican Exclusive Economic Zone for the duration of tracking but only 12% of tracking locations were received from within Marine Protected Areas (MPAs). Our results on the spatio-temporal distribution of these enigmatic rays highlight opportunities and challenges to management efforts.

Published
2012

40. The trans-Himalayan flights of bar-headed geese (Anser indicus)

Author

Ponnusamy Sathiyaselvam, Peter B. Frappell, Scott H. Newman, William K. Milsom, Charles M. Bishop, Lucy A. Hawkes, John Y. Takekawa, Sivananinthaperumal Balachandran, Martin Wikelski, Patrick J. Butler, Natsagdorj Tseveenmyadag, Graham R. Scott, and Nyambayar Batbayar

Subjects
Multidisciplinary, Time Factors, biology, Ecology, Altitude, Energetic cost, Anser indicus, Satellite tracking, Effects of high altitude on humans, Motor Activity, Biological Sciences, biology.organism_classification, Fishery, Geography, Climbing, Flight, Animal, Geese, Animals, Animal Migration, Motor activity, Seasons, Weather, Sea level
Abstract

Birds that fly over mountain barriers must be capable of meeting the increased energetic cost of climbing in low-density air, even though less oxygen may be available to support their metabolism. This challenge is magnified by the reduction in maximum sustained climbing rates in large birds. Bar-headed geese ( Anser indicus ) make one of the highest and most iconic transmountain migrations in the world. We show that those populations of geese that winter at sea level in India are capable of passing over the Himalayas in 1 d, typically climbing between 4,000 and 6,000 m in 7–8 h. Surprisingly, these birds do not rely on the assistance of upslope tailwinds that usually occur during the day and can support minimum climb rates of 0.8–2.2 km·h −1 , even in the relative stillness of the night. They appear to strategically avoid higher speed winds during the afternoon, thus maximizing safety and control during flight. It would seem, therefore, that bar-headed geese are capable of sustained climbing flight over the passes of the Himalaya under their own aerobic power.

Published
2011

41. Last Word on Point:Counterpoint: High altitude is/is not for the birds!

Author

Peter B. Frappell, Jessica U. Meir, William K. Milsom, Graham R. Scott, and Lucy A. Hawkes

Subjects
Geography, Altitude, Point (typography), Meteorology, Physiology, Physiology (medical), Effects of high altitude on humans, Counterpoint, Word (computer architecture)
Abstract

to the editor: We would like to thank the scientists who commented on this Point:Counterpoint. We originally argued that high altitude is for the birds because of several unique features that should improve their ability to exercise at extremely high altitudes ([4][1]). Many authors agreed with our

Published
2011

Catalog

Books, media, physical & digital resources
See catalog results