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Sala JE, Pisoni JP, Quintana F. 2017. Three-dimensional temperature fields of the North Patagonian Sea recorded by Magellanic penguins as biological sampling platforms. Journal Estuarine, Coastal and Shelf Science 189: 203-215.
Three-dimensional-temperature-fields-of-the-North-Patagonian-Sea-recorded-by-Magellanic-penguins-as-biological-sampling-platformsDescarga
Halsey LG, Shepard ELC, Quintana F, Gomez Laich A, Green JA y Wilson RP. 2009. The relationship between oxygen consumption and body acceleration in a range of species. Comparative Biochemistry and Physiology, Part A 152: 197–202.
The-relationship-between-oxygen-consumption-and-body-acceleration-in-a-range-of-speciesDescarga
Bidder OR, Soresina M, Shepard ELC, Halsey LG, Quintana F, Gómez Laich A y Wilson RP. 2012. The need for speed: testing acceleration for estimating animal travel rates in terrestrial dead-reckoning systems. Zoology 115:58-64. Doi:10.1016/j.zool.2011.09.003.
The-need-for-speed-testing-acceleration-for-estimating-animal-travel-rates-in-terrestrial-dead-reckoning-systemsDescarga
Yorio P, Quintana F, Dell Arciprete P y Gonzales-Zevallos D. 2010. Spatial overlap between foraging seabirds and trawl fisheries: implications for the effectiveness of a marine protected area at Golfo San Jorge, Argentina. Bird Conservation International 20: 320-334.
Spatial-overlap-between-foraging-seabirds-and-trawl-fisheries-Implications-for-the-effectiveness-of-a-marine-protected-area-atDescarga
Uhart M, Vanstreels RET, Gallo L, Cook RA, Karesh WB. 2020. Serological survey for select infectious agents in wild Magellanic penguins (Spheniscus magellanicus) in Argentina, 1994–2008. Journal of Wildlife Diseases 56(1): 66-81. doi: 10.7589/2019-01-022
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González-Zevallos D, Yorio P y Svagelj WS. 2011. Seabird attendance and incidental mortality at shrimp fisheries in Golfo San Jorge, Argentina. Marine Ecology Progress Series 432: 125-135.
Seabird-attendance-and-incidental-mortality-at-shrimp-fisheries-in-Golfo-San-Jorge-ArgentinaDescarga
Wilson RP, Sala JE, Gómez-Laich A, Ciancio J y Quintana F. 2015. Pushed to the limit: food abundance determines tag-induced harm in penguins. Animal Welfare 24:37-44
Pushed-to-the-limit-food-abundance-determines-tag-induced-harm-in-penguinsDescarga
Acosta Hospitaleche C y Haidr N. 2011. Penguin cranial remains from the Eocene La Meseta Formation, Isla Marambio (Seymour Island), Antarctic Peninsula. Antarctic Science 23 (4): 369-378.
Penguin-cranial-remains-from-the-Eocene-La-Meseta-Formation-Isla-Marambio-Seymour-Island-Antarctic-PeninsulaDescarga
Wilson RP, Shepard ELC, Gómez Laich A, Frere E y Quintana F. 2010. Pedaling downhill and freewheeling up; a penguin perspective on foraging. Aquatic Biology 8: 193-202.
Pedalling-downhill-and-freewheeling-up-a-penguin-perspective-on-foragingDescarga
Williams JH, Taylor LA, Benhamou S, Bijleveld AI, Clay TA, de Grissac S, Demšar U, English HL, Franconi N, Gómez‐Laich A et al. 2020. Optimizing the use of biologgers for movement ecology research. Journal of Animal Ecology 89 (1): 186-206. doi: 10.1111/1365-2656.13094
Optimizing-the-use-of-biologgers-for-movement-ecology-researchDescarga
Wilson R, McMahon CR, Quintana F, Frere E, Scolaro A, Hays G y Bradshaw CJ. 2011. N-dimensional animal energetic niches clarify behavioural options in a variable marine environment. Journal of Experimental Biology 214: 646-656.
N-dimensional-animal-energetic-niches-clarify-behavioural-options-in-a-variable-marine-environmentDescarga
Gómez-Laich A, Wilson RP, Sala JE, Luzenti A. y Quintana F. 2015. Moving northward: Comparison of the foraging effort of Magellanic penguins from three colonies of Northern Patagonia. Marine Biology 162: 1451-1461.
Moving-northward-comparison-of-the-foraging-effort-of-Magellanic-penguins-from-three-colonies-of-northern-PatagoniaDescarga
Haidr N y Acosta Hospitaleche C. 2014. Miocene Patagonian penguins: craniomandibular morphology and functional mechanics. Alcheringa 38(2): 273-280.
Miocene-Patagonian-penguins-craniomandibular-morphology-and-functional-mechanicsDescarga
Wilson RP, Holton MD, Di Virgiglio A, Williams H, Shepard ELC et al. 2018. Give the machine a hand: A Boolean time-based decision-tree template for rapidly finding animal behaviours in multisensor data. Methods in Ecology and Evolution 9: 2206 – 2215. doi: 10.1111/2041-210X.13069
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Bidder O, Campbell HA, Gómez Laich A, Urgé P, Walker J, Yuzhi C, Lianli G, Quintana F y Wilson R. 2014. Love thy Neighbour: Automatic Animal Behavioural Classification of Acceleration data using the K-Nearest Neighbour Algorithm. PLoS ONE 9 (2): e88609. doi:10.1371/journal.pone.0088609
Love-Thy-Neighbour-Automatic-Animal-Behavioural-Classification-of-Acceleration-Data-Using-the-K-Nearest-Neighbour-AlgorithmDescarga
Quintana F, Gómez-Laich A, Gunner RM, Gabelli F, Dell’Omo GD, Duarte C, Brogger M, Wilson RP. 2022. Long walk home: Magellanic penguins have strategies that lead them to areas where they can navigate most efficiently. Proceedings of the Royal Society B 289:20220535. doi:10.1098/rspb.2022.0535
Long-walk-home-Magellanic-penguins-have-strategies-that-lead-them-to-areas-where-they-can-navigate-most-efficientlyDescarga
Wilson R.P., Gómez-Laich A, Sala JE, Dell’Omo G, Holton MD, Quintana F. 2017. Long necks enhance and constrain foraging capacity in aquatic vertebrates. Proceedings of the Royal Society B: Biological Sciences 284: 1867.
Long-necks-enhance-and-constrain-foraging-capacity-in-aquatic-vertebratesDescarga
Thiebot JB, Arnould J, Gómez-Laich A, Ito K, Kato A, Mattern T, Mitamura H, Noda T, Poupart T, Quintana F, Raclot T, Ropert-Coudert Y, Sala J, Seddon P, Sutton G, Yoda K, Takahashi A. 2017. Jellyfish and other gelata as food to four penguin species: insights from predator-borne videos. Frontiers in ecology and the environment.
Jellyfish-and-other-gelata-as-food-for-four-penguin-species-–-insights-from-predator-borne-videosDescarga
Gómez-Laich A, Yoda K, Quintana F. 2018. Insights into the Foraging Behavior of Magellanic Penguins (Spheniscus magellanicus). Waterbirds 41: 332-336. doi: 10.1675/063.041.0315
Insights-into-the-Foraging-Behavior-of-Magellanic-Penguins-Spheniscus-magellanicusDescarga
Williams HJ, Holton MD, Shepard ELC, Largey N, Norman B, Ryan PG, Duriez O, Scantlebury M, Quintana F, Magowan EA, Marks NJ, Alagaili AN, Bennett NC and Wilson RP. 2017. Identification of animal movement patterns using tri-axial magnetometry. Movement Ecology 5 (6). DOI 10.1186/s40462-017-0097-x.
Identification-of-animal-movement-patterns-using-tri-axial-magnetometryDescarga
Gunner RM, Holton MD, Scantlebury MD, Hopkins P, Shepard ELC, Fell AJ, Garde B, Quintana F, Gómez‑Laich A, Yoda K et al. 2021. How often should dead-reckoned animal movement paths be corrected for drift? Animal Biotelemetry 9(1): 1-22. doi:10.1186/s40317-021-00265-9
How-often-should-dead-reckoned-animal-movement-paths-be-corrected-for-driftDescarga
Sala JE, Wilson RP y Quintana F. 2012. How much is too much? Assessment of prey consumption by Magellanic penguins in Patagonian colonies. PLoS ONE 7(12):e51487. DOI:10.1371/journal.pone.0051487
How-Much-Is-Too-Much-Assessment-of-Prey-Consumption-by-Magellanic-Penguins-in-Patagonian-ColoniesDescarga
Gallo L, Vanstreels RET, Cook RA, Karesh WB, Uhart M. 2019. Hematology, plasma biochemistry, and trace element reference values for free-ranging adult Magellanic Penguins (Spheniscus magellanicus). Polar Biology 42(4): 733-742. doi:10.1007/s00300-019-02467-7
Hematology-plasma-biochemistry-and-trace-element-reference-values-for-free‑ranging-adult-Magellanic-Penguins-Spheniscus-magellanicusDescarga
Sala JE, Wilson RP, Frere E y Quintana F. 2012. Foraging effort in Magellanic penguins in Coastal Patagonia, Argentina. Marine Ecology Progress Series 464:273-287. DOI: 10.3354/meps09887
Foraging-effort-in-Magellanic-penguins-in-coastal-Patagonia-ArgentinaDescarga
Sala JE, Wilson RP y Quintana F. 2015. Foraging effort in Magellanic penguins: Balancing the energy books for survival? Marine Biology 162: 501-514.
Foraging-effort-in-Magellanic-penguins-balancing-the-energy-books-for-survivalDescarga
Sala JE, Quintana F, Frere E y Wilson RP. 2014. Flexible foraging for finding fish: variable diving patterns in Magellanic penguins from different colonies. Journal of Ornithology 155: 801-817. DOI:10.1007/s10336-014-1065-5
Flexible-foraging-for-finding-fish-variable-diving-patterns-in-Magellanic-penguins-Spheniscus-magellanicus-from-different-coloniesDescarga
Del Caño M, Quintana F, Yoda K, Dell’Omo G, Blanco GS, Gómez-Laich A. 2021. Fine-scale body and head movements allow to determine prey capture events in the Magellanic Penguin (Spheniscus magellanicus). Marine Biology 168(6): 1-15. doi:10.1007/s00227-021-03892-1
Fine-scale-body-and-head-movements-allow-to-determine-prey-capture-events-in-the-Magellanic-Penguin-Spheniscus-magellanicusDescarga
Yamamoto T, Yoda K, Blanco GS, Quintana F. 2019. Female-biased stranding in Magellanic penguins. Current Biology 29:12-13. doi: 10.1016/j.cub.2018.11.023
Female-biased-stranding-in-Magellanic-PenguinsDescarga
Haidr N y Acosta Hospitaleche, C. 2012. Feeding habits of Antarctic Eocene penguins from a morphofunctional perspective. Neues Jahrbuch für Geologie und Paläontologie 263 (2): 125-131.
Feeding-habitats-of-Antarctic-Eocene-penguins-from-a-morpho-functional-perspectiveDescarga
Wilson RP, Börger L, Holton MD, Scantlebury DM, Gómez-Laich A, Quintana F et al. 2020. Estimates for energy expenditure in free-living animals using acceleration proxies; a reappraisal. Journal of Animal Ecology 89: 161-172. doi: 10.1111/1365-2656.13040
Estimates-for-energy-expenditure-in-free‐living-animals-using-acceleration-proxies-A-reappraisalDescarga
Gunner RM, Holton MD, Scantlebury MD, van Schalkwyk OL, English HM, Williams HJ, Hopkins P, Quintana F, Gómez-Laich A, Börger et al. 2021. Dead-reckoning animal movements in R: a reappraisal using Gundog. Tracks. Animal Biotelemetry 9(1): 1-37. doi: 10.1186/s40317-021-00245-z
Dead-reckoning-animal-movements-in-R-a-reappraisal-using-Gundog.TracksDescarga
Ciancio J, Quintana F, Sala JE and Wilson RP. 2016. Cold birds under pressure; can thermal substitution ease heat loss in diving penguins? Marine Biology 163: 43. DOI 10.1007/s00227-016-2813-2.
Cold-birds-under-pressure-Can-thermal-substitution-ease-heat-loss-in-diving-penguinsDescarga
Gallo VL, Vanstreels RET, Gallo L, Entrocassi AC, Peker L, Blanco GS, Rago MV, Rodriguez Fermepin M, Uhart MM. 2022. Chlamydiaceae-Like Bacterium in Wild Magellanic Penguins (Spheniscus magellanicus). Diversity 14(9):746. doi: 10.3390/d14090746
Chlamydiaceae-Like-Bacterium-in-Wild-Magellanic-PenguinsDescarga
Blanco GS, Gallo L, Pisoni JP, Dell’Omo G, Gerez NA, Molina G, Quintana F. 2022. At-sea distribution, movements and diving behavior of Magellanic penguins reflect small-scale changes in oceanographic conditions around the colony. Marine Biology 169(2): 1-13. doi:10.1007/s00227-021-04016-5
At‑sea-distribution-movements-and-diving-behavior-of-Magellanic-penguins-refect-small‑scale-changes-in-oceanographic-conditions-around-the-colonyDescarga
Wilson RP, Holton MD, Walker JS, Shepard ELC, Scantlebury MD, Wilson VL, Wilson GI, Tysse B, Gravenor M, Ciancio J, McNarry MA, Mackintosh KA, Qasem L, Rosell F, Graf PM, Quintana F, Gómez-Laich A, Sala JE, Mulvenna CC, Marks NJ, Jones MW. 2016. A spherical-plot solution to linking acceleration metrics with animal performance, state, behaviour and lifestyle. Movement Ecology 4:22.
A-spherical-plot-solution-to-linking-acceleration-metrics-with-animal-performance-state-behaviour-and-lifestyleDescarga