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Pygoscelis

Pygoscelis is a genus of penguins within the family Spheniscidae, comprising three extant species: the Adélie penguin (P. adeliae), the chinstrap penguin (P. antarcticus), and the gentoo penguin (P. papua).^[1] These brush-tailed penguins, named for their stiff tail feathers that project like a brush, are characterized by their classic black-and-white plumage, with black backs and heads and white underparts, and they exhibit an upright posture typical of penguins.^[2] Native exclusively to the Southern Hemisphere, Pygoscelis species inhabit Antarctic and sub-Antarctic regions, breeding in large, gregarious colonies on ice-free coastal grounds and rocky islands.^[3] The Adélie penguin (P. adeliae), the most southerly of the genus, is circumpolar along the Antarctic coast, where it forages primarily on krill and small fish in pack ice zones. The chinstrap penguin (P. antarcticus), distinguished by its narrow black band under the chin resembling a strap, breeds on Antarctic Peninsula islands and sub-Antarctic archipelagos like the South Shetlands and South Orkneys, relying heavily on Antarctic krill (Euphausia superba) for its diet.^[4]^[5] The gentoo penguin (P. papua), the largest in the genus and the most northerly distributed, occupies sub-Antarctic islands such as the Falklands, South Georgia, and the Antarctic Peninsula, feeding on a mix of krill, small fish, and squid while being noted for its relatively fast swimming speed.^[6] All Pygoscelis species play key ecological roles as krill predators, influencing Southern Ocean food webs, and their populations are monitored for climate change impacts due to sensitivity to sea ice variability.^[7]

Taxonomy and Systematics

Etymology

The genus name Pygoscelis was coined by German zoologist Johann Georg Wagler in 1832, in his publication "Mittheilungen über einige merkwürdige Thiere. II." appearing in the journal Isis, oder Encyclopädische Zeitung von Oken. This marked the first scientific usage of the name, which Wagler applied to distinguish a group of penguins based on morphological traits observed in available specimens.^[8] Linguistically, Pygoscelis derives from the Ancient Greek pygē (πυγή), meaning "rump" or "buttocks," combined with skelos (σκέλος), meaning "leg," yielding a direct translation of "rump-legged."^[9] The term highlights the distinctive posterior positioning of the legs relative to the body in these penguins, a feature that supports their upright posture and swimming efficiency. The three extant species in the genus—Adélie (P. adeliae), chinstrap (P. antarcticus), and gentoo (P. papua)—share this trait, which also contributes to their collective common name, "brush-tailed penguins," evoking the stiff, projecting tail feathers near the rump that resemble a brush.^[10] The species epithets, such as adeliae, honor figures like Adélie Dumont d'Urville, wife of the French explorer who led the expedition discovering the Adélie penguin.^[10]

Classification

The genus Pygoscelis belongs to the family Spheniscidae, the only family in the order Sphenisciformes, which encompasses all penguins.^[11] Within Spheniscidae, phylogenetic analyses based on morphological and molecular data place Pygoscelis as sister to the clade comprising Eudyptula, Spheniscus, Eudyptes, and Megadyptes, with Aptenodytes as the basal genus among extant penguins.^[12] Some earlier studies suggested a closer relationship between Pygoscelis and Eudyptula, but more comprehensive genomic data support the broader sister grouping.^[13] The genus includes three extant species: the Adélie penguin (P. adeliae), the chinstrap penguin (P. antarcticus), and the gentoo penguin (P. papua).^[14] The gentoo penguin is further divided into two recognized subspecies: the northern P. p. papua, found around the Falkland Islands and sub-Antarctic islands, and the southern P. p. ellsworthi, occurring on the Antarctic Peninsula and associated islands; however, a 2020 genetic and morphometric study proposed elevating these and two additional lineages to full species status (P. poncetii and P. taeniata), though this revision awaits broader taxonomic acceptance and, as of 2025, has not been widely adopted by major taxonomic authorities.^[15]^[16] DNA-based phylogenetic studies indicate that the Pygoscelis lineage diverged from other penguin genera approximately 12–15 million years ago during the Miocene, coinciding with Antarctic cooling and habitat shifts.^[17] Within the genus, P. adeliae and P. antarcticus form a sister clade, with P. papua as the outgroup, reflecting a diversification pattern driven by isolation in Antarctic and sub-Antarctic environments.^[13] The genus Pygoscelis was established by Johann Georg Wagler in 1832 for the Adélie penguin, originally described as P. adeliae by Hombron and Jacquinot in 1841.^[18] Historical revisions in the 19th and early 20th centuries transferred species like the chinstrap penguin (initially placed in Aptenodytes by Forster in 1781) and the gentoo penguin (described under Pygoscelis by Forster in 1781 but with subspecies refinements by Mathews in 1927) into the genus based on shared morphological traits such as brush-tailed plumage.^[19]^[20]

Fossil Record

More definitive Miocene fossils include Pygoscelis calderensis, known from three well-preserved skulls in the Bahía Inglesa Formation of northern Chile, dated to the middle Miocene (about 13-9 million years ago). These remains represent the oldest confirmed records of the genus and indicate that Pygoscelis had already diversified in southern South American coastal environments by this time. Several extinct species highlight the genus's diversity during the Pliocene. Pygoscelis grandis, from the Bahía Inglesa Formation in northern Chile (late Miocene to early Pliocene, approximately 7.6 million years ago), is notably larger than any extant Pygoscelis species, reaching sizes comparable to the king penguin (Aptenodytes patagonicus).^[21] In contrast, Pygoscelis tyreei from the Late Pliocene (about 3-2 million years ago) of Motunau Beach, North Canterbury, New Zealand, was smaller than the modern gentoo penguin (P. papua), known from a single partial skeleton that includes limb bones and vertebrae. These species demonstrate morphological variation within the genus, with fossils primarily from marine deposits reflecting adaptations to cold-water foraging. Molecular phylogenetic analyses indicate that the Pygoscelis lineage diverged from Aptenodytes around 20 million years ago during the early Miocene, following the Eocene and coinciding with global cooling trends that expanded Antarctic ice sheets and altered ocean currents. This split facilitated the radiation of Pygoscelis into sub-Antarctic and Antarctic niches, with key fossil sites such as those on Seymour Island (Antarctic Peninsula) providing context for the broader sphenisciform family's Eocene origins, while Miocene-Pliocene localities in Patagonia, Chile, and New Zealand document the genus's subsequent diversification amid cooling climates.

Physical Description

General Morphology

Pygoscelis penguins exhibit a body size range of 65–81 cm in height and 3.5–8.5 kg in weight across the genus, with the Adélie penguin (P. adeliae) measuring approximately 70 cm and weighing 3.6–5 kg, the chinstrap penguin (P. antarcticus) reaching about 72 cm and 3.5–5 kg, and the gentoo penguin (P. papua) attaining 76–81 cm and 4.5–8.5 kg.^[22]^[23]^[6]^[24] Sexual dimorphism is present, with males generally larger than females; for example, in Adélie penguins, adult males average 5.0 kg in mass (versus 4.6 kg for females, an ~11% difference), bill length of 35.6 mm (versus 32.9 mm, ~8%), and flipper length of 210.9 mm (versus 203.8 mm, ~3%).^[25] Similar patterns occur in gentoo and chinstrap penguins, where males exceed females in height, bill, and flipper dimensions.^[6]^[23] The body is streamlined and torpedo-shaped to minimize drag during swimming, with flippers serving as primary propellers—modified wings featuring shortened, flattened bones for rigidity and lengths of 18–22 cm across species.^[24]^[26] Dense bones throughout the skeleton reduce buoyancy, enabling efficient diving to depths of up to several hundred meters.^[27] A stiff, brush-like tail, measuring about 15 cm in gentoo penguins, aids in steering and maneuverability underwater.^[6] The bill is short and stout with a hooked tip on the upper jaw, adapted for grasping slippery prey such as krill and small fish through powerful biting.^[28] Webbed feet, positioned rearward on the body, function as rudders for propulsion and directional control during aquatic locomotion.^[24] Skeletal adaptations include a reduced sternal keel compared to flying birds, reflecting the shift from aerial to aquatic propulsion, and a specialized humerus that is shortened and reinforced to form the robust leading edge of the flipper.^[27]

Plumage and Coloration

Pygoscelis penguins possess a dense, waterproof plumage essential for their aquatic lifestyle, featuring contour feathers that overlap tightly to form a barrier against water penetration. This plumage includes afterfeathers attached to the main feathers, which enhance insulation by trapping air close to the skin. Penguins maintain waterproofing through oil from the uropygial gland, spread via preening, which coats the feathers and prevents waterlogging during extended swims. Studies on penguin feather density report values ranging from 11 to 46 feathers per cm² across species, providing substantial thermal protection in cold Antarctic waters.^[29]^[29]^[24]^[29] The genus shares a characteristic color scheme of black backs, heads, and flippers contrasting with white underparts, a pattern known as countershading that aids camouflage in marine environments by blending with the dark water from above and the bright surface from below. This coloration is renewed annually through a catastrophic molt, during which all feathers are replaced over 2-3 weeks while the birds fast on land, rendering them temporarily flightless and unable to forage.^[6]^[30] Unique to Pygoscelis, the tail consists of stiff, elongated feathers forming a brush-like structure that projects prominently, assisting in balance on slippery ice and rocky terrains.^[2] Juveniles differ from adults in displaying browner tones on the back and head, with duller and less defined markings, such as reduced white patches; full adult coloration develops by the first breeding season following their initial molt.^[31] For example, the chinstrap penguin (P. antarctica) features a distinctive thin black band across the white face in adults, absent or less prominent in juveniles.

Distribution and Habitat

Geographic Range

The genus Pygoscelis, comprising the Adélie, chinstrap, and gentoo penguins, exhibits a circumpolar distribution across the Southern Ocean, spanning from the Antarctic continent to sub-Antarctic islands between approximately 45°S and 78°S latitude. This range reflects the genus's strong affinity for Antarctic environments, with breeding colonies concentrated along the Antarctic Peninsula, South Shetland Islands, South Orkney Islands, and South Sandwich Islands, as well as more northerly sub-Antarctic sites.^[30] The shared Antarctic focus underscores the ecological constraints imposed by cold oceanic currents and seasonal sea ice, which define the boundaries of their occupancy.^[32] The Adélie (P. adeliae) and chinstrap (P. antarctica) penguins maintain core ranges south of 60°S, where they breed on ice-free coastal areas during the austral summer, while the gentoo penguin (P. papua) has a broader distribution extending north to the Falkland Islands (around 51°S) and South Georgia (around 54°S), with significant populations in both Antarctic and sub-Antarctic regions.^[33] This northward extension for the gentoo species allows it to exploit slightly warmer sub-Antarctic waters while remaining tied to the broader Southern Ocean ecosystem.^[34] In contrast, the Adélie and chinstrap penguins are more strictly Antarctic, with breeding sites encircling the continent and adjacent archipelagos.^[35] Pygoscelis penguins are predominantly non-migratory, residing year-round within their breeding latitudes, but they engage in post-breeding dispersals of up to 1,000 km to follow prey resources like krill in productive oceanic fronts.^[36] The Adélie penguin demonstrates particularly extensive circumpolar movements, traveling in clockwise loops along the pack ice edge during winter, covering thousands of kilometers while rarely venturing north of the main sea ice zone.^[37] These patterns maintain connectivity across the genus's range without long-distance migrations typical of northern-hemisphere seabirds. Fossil records reveal historical range shifts for Pygoscelis species driven by Pleistocene ice age cycles, with evidence of expanded distributions during glacial maxima when lowered sea levels and altered oceanography facilitated colonization of now-submerged coastal areas.^[38] Post-glacial warming around 12,000 years ago prompted contractions and parallel recolonizations, as indicated by ancient DNA from Adélie penguin guano deposits showing broader Holocene occupancy in regions like the Ross Sea.^[39] Such dynamics highlight the genus's responsiveness to paleoclimatic changes in the Southern Ocean.^[40]

Habitat Preferences

Pygoscelis penguins, comprising the Adélie, chinstrap, and gentoo species, preferentially select ice-free terrestrial habitats for breeding, such as rocky shores, gravel beaches, and cliff ledges that provide accessible, snow-free ground during the austral summer (November to March). These sites are typically located at elevations below 20 meters above sea level, on gentler slopes to facilitate nest construction and chick rearing while minimizing exposure to extreme winds and avalanches.^[35]^[41] The preference for such microhabitats ensures proximity to open water, allowing adults to commute efficiently between colonies and foraging grounds without excessive energy expenditure on overland travel.^[41] For foraging, these penguins target coastal shelf waters rich in Antarctic krill, diving primarily within 40 kilometers of their breeding colonies to depths ranging from 10 to 150 meters, though they generally avoid the open deep ocean. Adélie penguins typically forage at mean depths of around 26 meters, with maximums up to 98 meters, while chinstrap penguins perform 90% of dives shallower than 45 meters, reaching maxima of 70 meters; gentoo penguins exhibit bimodal diving, with deeper excursions up to 210 meters but most activity below 100 meters.^[41]^[42]^[43] These patterns reflect adaptations to nutrient-upwelling zones where prey aggregates, with dives often occurring in bouts during daylight hours to exploit vertical migrations of krill.^[42]^[44] Pygoscelis species demonstrate varying climate adaptations suited to sub-zero Antarctic conditions, including dense waterproof plumage and behavioral thermoregulation to withstand wind exposure and temperatures as low as -40°C. They tolerate pack ice for resting and navigation but show species-specific sensitivities to sea ice extent: Adélie penguins rely heavily on persistent sea ice for breeding access and foraging efficiency, thriving in areas with moderate ice cover that enhances prey availability, whereas chinstrap and gentoo penguins are more ice-averse, preferring reduced ice concentrations to maintain open-water access near colonies.^[41]^[45] All three species favor cold, upwelling-driven marine environments that support high productivity, with overlapping habitats in the Southern Ocean's marginal ice zones, though gentoo penguins exhibit greater flexibility in ice-free sub-Antarctic waters.^[41]

Behavior and Ecology

Foraging and Diet

The diets of Pygoscelis penguins are dominated by Antarctic krill (Euphausia superba), but the proportion varies by species. For the Adélie (P. adeliae) and chinstrap (P. antarctica) penguins, krill constitutes 80-95% of their diet by mass, with supplementary prey including myctophid fish and squid rarely exceeding 20%. The gentoo penguin (P. papua) has a more diverse diet, with krill comprising 20-90% depending on local availability and season, and a greater reliance on fish such as Electrona antarctica and various squid species.^[46]^[47]^[48]^[6]^[49] This krill-dominated diet reflects their specialization as mid-trophic level consumers in the Southern Ocean, where they opportunistically target dense swarms during foraging excursions. Fish such as Electrona antarctica and various squid species provide caloric supplements, particularly when krill availability fluctuates, but rarely exceed 20% of intake in Adélie and chinstrap penguins. Foraging occurs through pursuit diving in cohesive flocks, enabling efficient capture of evasive prey like krill via coordinated herding. Penguins rely on acute underwater vision adapted to low-light Antarctic waters for detecting swarms, performing multiple dives per trip with average maximum depths of 50-100 m.^[50]^[51] Daily foraging bouts involve 10-20 dives, often lasting 1-2 minutes each, with birds traveling 20-50 km from colonies to shelf-edge hotspots rich in prey.^[52] This gregarious strategy minimizes individual energy costs while maximizing encounter rates with patchily distributed resources. Seasonal variations in diet align with breeding demands, with krill reliance peaking during summer when swarms are abundant near colonies, supporting heightened energy needs. Lactating females can consume up to 2 kg of food per day to provision chicks, contrasting with lower winter intakes focused on survival.^[53] These shifts underscore the penguins' adaptability to environmental cycles, though persistent krill declines could disrupt provisioning efficiency. As apex mid-level predators, Pygoscelis penguins exert significant top-down pressure on krill stocks, consuming millions of tons annually and structuring the Antarctic food web by linking primary production to higher trophic levels like seals and seabirds.^[54] Their foraging intensity influences krill recruitment and distribution, with population booms or declines cascading through the ecosystem.^[55]

Reproduction and Breeding

Pygoscelis penguins form monogamous pairs for the duration of a single breeding season, with some pairs reuniting in subsequent years based on recognition of vocalizations and nesting sites.^[22]^[6] Courtship involves elaborate displays by males to attract females, including bowing, ecstatic calling, and sky-pointing postures, often incorporating bright plumage elements for visual emphasis; males also present pebbles to females as part of nest-building initiation, symbolizing pair commitment.^[22]^[6]^[56] Breeding occurs synchronously across large colonies during the Antarctic or sub-Antarctic summer, typically from October to December, allowing coordinated environmental exploitation and reduced predation risk on eggs and chicks.^[56]^[57] Pairs lay a clutch of one to two eggs, with two being most common in Adélie and Chinstrap species and one or two in Gentoo penguins.^[22]^[6]^[24] Nests are constructed as pebble mounds or shallow scrapes on ice-free ground, with both parents collecting materials to elevate the site against flooding and predators.^[22]^[6] Incubation lasts 30 to 37 days, shared by both parents through alternating shifts that can extend up to 20 days, during which the off-duty parent fasts while foraging at sea.^[22]^[6]^[56] Following hatching, parents guard chicks closely for 3 to 4 weeks, brooding them against harsh weather and providing frequent feeds; afterward, chicks join creches for communal protection while parents continue provisioning.^[22]^[6]^[24] Chicks fledge at 8 to 10 weeks for Adélie and Chinstrap species, and up to 12 weeks for Gentoo penguins, entering the water independently before dispersing.^[22]^[6]^[24] Pygoscelis penguins exhibit highly colonial social structures, breeding in large aggregations that range from several hundred to over 500,000 breeding pairs per colony. For instance, Adélie penguin colonies in the Danger Islands archipelago support more than 1.5 million individuals across multiple subcolonies, representing some of the largest known gatherings for the genus. These colonies are characterized by dense nest arrangements, with Adélie penguins showing the highest nest densities among Pygoscelis species, often exceeding 2 nests per square meter, while Gentoo and Chinstrap penguins maintain slightly lower densities of 0.25 to 1.5 nests per square meter. This close spacing forms a hierarchical organization within the colony, where nests are positioned to delineate individual territories, thereby minimizing direct aggression and intra-specific conflicts over limited breeding space.^[58]^[59]^[60] Communication plays a central role in maintaining colony cohesion and coordinating social interactions among Pygoscelis penguins. Vocalizations are prominent, including distinctive braying calls produced by males to advertise and defend nesting territories, as well as contact calls that encode individual identity to facilitate recognition within the noisy colony environment. Visual displays, such as ecstatic postures and head movements, supplement vocal signals during social encounters, helping to resolve disputes or reinforce pair bonds. Allopreening, where individuals mutually preen each other's feathers, serves as an affiliative behavior that strengthens social ties and parental cooperation, particularly between mates during breeding.^[61]^[62]^[63] Foraging activities in Pygoscelis penguins often occur in groups, enhancing efficiency through cooperative behaviors. Birds form surface rafts—tight clusters floating on the water—to rest and scan for prey before diving synchronously in small groups to pursue krill, fish, or other targets, a strategy observed particularly in Gentoo and Chinstrap penguins. This group hunting allows for shared vigilance and improved prey detection in dynamic Antarctic waters. Against aerial predators like south polar skuas, colonies employ mobbing tactics, where multiple penguins aggressively approach, vocalize, and physically attack the intruder to protect nests and chicks, with Chinstrap penguins showing particularly intense responses including direct assaults.^[64]^[65]^[66] Social hierarchies within Pygoscelis colonies are generally loose but influence resource access and conflict resolution. Dominance is often correlated with body size, as larger individuals, particularly males, exhibit greater success in aggressive encounters and are more effective at defending small nesting territories averaging about 1 square meter. Males typically take the lead in territory maintenance, using displays and vocalizations to deter intruders, while sexual size dimorphism— with males 8-11% larger than females—further supports their role in these defenses across the genus.^[6]^[25]^[67]

Species

Adélie Penguin

The Adélie penguin (Pygoscelis adeliae) is the smallest species in its genus, measuring about 70 cm in height and weighing 4–6.5 kg, with males slightly larger than females.^[24] It exhibits a circumpolar breeding distribution confined to the Antarctic continent and adjacent islands, where colonies form on ice-free coastal areas during the austral summer.^[68] These penguins share morphological traits with other Pygoscelis species, such as brush-tailed flippers adapted for agile swimming, but their extreme southern range distinguishes their habitat use.^[69] Adélie penguins display distinctive behaviors, including long-distance foraging trips that can extend up to 500 km or more from breeding colonies, particularly during non-breeding periods, to pursue prey in open water.^[70] They show a strong dependency on Antarctic krill (Euphausia superba), which can constitute over 90% of their diet by mass in favorable conditions, enabling efficient energy intake for breeding.^[69] During courtship, males perform complex ecstatic displays involving head swings, bill thrusts, and vocalizations—characterized by introductory beats, short repeated syllables, and a prolonged climactic call—that signal body condition and predict breeding success.^[71] The global breeding population is estimated at around 3.79 million pairs, representing a substantial increase from prior assessments and reflecting stability or growth in regions like East Antarctica and the Ross Sea.^[72] Major breeding sites include vast colonies in the Ross Sea, where up to one million pairs nest annually, contributing significantly to the species' overall abundance.^[73] These penguins are ice-dependent for key life stages, using fast ice as platforms for resting, molting, and accessing prey beneath floes, while also tobogganing across it for efficient overland travel to colonies.^[74] However, they are vulnerable to fast ice variability; prolonged persistence can block ocean access, forcing extended walks and reducing foraging efficiency, while premature breakup exposes nests to predation and disrupts breeding.^[75] Such changes have led to localized declines, as seen in the western Antarctic Peninsula where populations dropped sharply following major ice anomalies.^[74]

Chinstrap Penguin

The chinstrap penguin (Pygoscelis antarcticus) is named for the distinctive thin black band of feathers that encircles its white face like a strap under the chin, extending from ear to ear beneath its reddish-brown eyes. Adults typically measure about 70 cm in height and weigh 4–5 kg, with a black back and flippers contrasting against a white underbelly and throat for countershading camouflage in the water.^[23]^[76] These penguins breed exclusively in the Antarctic region, forming colonies on ice-free rocky shores and slopes of the Antarctic Peninsula, South Shetland Islands, South Orkney Islands, and South Sandwich Islands, where they construct nests from pebbles, bones, and vegetation in November to December.^[23]^[76] Unlike more ice-reliant species in the genus, chinstrap penguins favor steep, rocky terrains for nesting, often high on cliffs or slopes that provide protection from ground predators like skuas.^[76]^[77] Chinstrap penguins display notably aggressive behaviors during breeding, including charging intruders, vocalizing loudly, and slapping with flippers to defend territories and nests; they are considered the boldest among Pygoscelis species in territorial disputes.^[23] A common behavior is stealing pebbles from neighboring nests to reinforce their own, which can lead to frequent skirmishes within colonies.^[78] Their diet consists predominantly of Antarctic krill (Euphausia superba), comprising 95–99% of intake during breeding, supplemented by small fish and crustaceans; foraging occurs in shallow coastal waters near colonies, with dives typically to 70 m.^[5]^[79] The global population was estimated at 3.42 million breeding pairs (equivalent to approximately 6.8 million mature individuals) as of 2020, though the population trend is decreasing, with some of the largest colonies found on Deception Island in the South Shetland Islands, hosting tens of thousands of breeding pairs.^[80]^[81] This species shows adaptations for less dependence on sea ice compared to relatives like the Adélie penguin, relying instead on accessible rocky habitats for breeding and near-shore foraging to support their krill-heavy diet.^[82]

Gentoo Penguin

The gentoo penguin (Pygoscelis papua) is the largest species in its genus, reaching an average height of 76 cm and weighing between 4.5 and 8.5 kg, with males typically larger than females.^[6] It features distinctive white patches above the eyes that connect across the top of the head, a black back, white underparts, and orange-red feet and beak.^[6] It is one of three species in the genus Pygoscelis, along with the Adélie penguin (P. adeliae) and the chinstrap penguin (P. antarcticus). This species breeds in a circumpolar distribution across sub-Antarctic and northern Antarctic regions, from the Falkland Islands (Malvinas) in the north to the Antarctic Peninsula in the south, spanning latitudes approximately 46°S to 66°S.^[83] Gentoo penguins exhibit unique behavioral traits adapted to their sub-Antarctic environment, including exceptional swimming speeds of up to 36 km/h, making them the fastest of all penguin species underwater.^[84] Their diet is more diverse than that of many Antarctic penguins, with a greater reliance on fish—such as rockcod comprising up to 90% of intake during certain seasons—alongside crustaceans like krill and cephalopods, allowing flexibility in warmer sub-Antarctic waters where krill densities may vary.^[6]^[85] For nesting, they construct bowl-shaped mounds, often 10-20 cm high, using pebbles, grasses, small stones, or even mud, typically situated on flat beaches, gravel areas, or among tussock grasses to provide stability and drainage.^[33]^[86] The global population consists of approximately 432,000 breeding pairs (as of 2020), equivalent to about 864,000 mature individuals, with key colonies at the Falkland Islands (around 132,000 pairs), South Georgia (nearly 99,000 pairs), and the Antarctic Peninsula (about 95,000 pairs).^[87]^[83] These penguins demonstrate tolerance for relatively warmer sub-Antarctic conditions through their broader foraging range in coastal inshore waters and reduced dependence on krill, enabling them to thrive in habitats with fluctuating prey availability compared to more polar-restricted congeners.^[83]^[85]

Conservation

Threats and Challenges

The genus Pygoscelis faces significant threats from climate change, which has led to rapid warming in the Antarctic Peninsula and associated reductions in sea ice extent. This sea ice loss disrupts foraging access for species like the Adélie penguin (P. adeliae), which relies on stable ice edges for hunting krill and other prey during breeding seasons.^[85] Ocean warming has further exacerbated these challenges by driving an estimated 80% decline in Antarctic krill (Euphausia superba) stocks since the 1970s, a primary food source for all Pygoscelis species, thereby reducing prey availability and increasing foraging effort.^[88] Variability in krill biomass, influenced by both warming and harvesting, has been directly linked to population fluctuations in Adélie, chinstrap (P. antarctica), and gentoo (P. papua) penguins across Antarctic regions.^[89] Human activities compound these environmental pressures through overfishing of krill, with annual catches reaching approximately 500,000–620,000 tons in recent years (as of 2025), primarily targeting areas overlapping with penguin foraging grounds. For the first time in 2025, the fishery reached its 620,000-ton annual limit, leading to an early closure.^[90]^[91] This industrial harvesting competes directly with Pygoscelis penguins for krill, particularly during non-breeding periods, leading to reduced prey availability and potential nutritional stress for chinstrap and gentoo populations in the Antarctic Peninsula.^[92] Concentrated fishing efforts in krill hotspots amplify these impacts, as they overlap with the foraging ranges of over 90% of Adélie and gentoo colonies, despite regulatory buffers.^[93] Tourism in Antarctic colonies introduces additional disturbances, as increased human presence stresses breeding behaviors and alters habitat use in gentoo and other Pygoscelis species. Visitor activities, including zodiac landings and proximity to nests, have been shown to elevate stress hormones and disrupt reproductive success, with effects persisting even after brief interactions.^[94] Plastic pollution poses a growing ingestion risk, with microplastics detected in the gastrointestinal tracts of gentoo penguins and scats of all three Pygoscelis species, potentially causing internal blockages and toxin accumulation. Anthropogenic particles, including 35% microplastics, have been found in samples from multiple colonies, highlighting the penetration of pollution into remote Antarctic food webs.^[95]^[96] Predation pressures on Pygoscelis penguins have intensified due to fishery-induced changes in prey distribution, leading to greater encounters with predators like skuas (Stercorarius spp.) and leopard seals (Hydrurga leptonyx). Reduced krill availability forces penguins to forage farther or longer, increasing vulnerability to attacks, particularly in areas of high fishing activity where predator-prey dynamics are altered.^[97] Disease outbreaks, such as avian cholera caused by Pasteurella multocida, have affected Adélie and chinstrap penguins, with documented mortality events in colonies like Hope Bay killing dozens of individuals. These outbreaks may be facilitated by warming temperatures, which expand pathogen ranges and stress host immunity in warming Antarctic environments.^[98]^[99]

Population Trends

The genus Pygoscelis encompasses three species of penguins—Adélie (P. adeliae), Chinstrap (P. antarctica), and Gentoo (P. papua)—with a combined global breeding population estimated at approximately 7.6 million pairs as of 2020, though precise totals vary due to ongoing surveys and regional fluctuations. Recent surveys (2023–2025) indicate further declines in some chinstrap colonies, such as 57% since the 1990s in parts of the Antarctic Peninsula.^[100]^[80]^[87]^[101] Overall, the genus is not considered globally threatened, with all species classified as Least Concern by the IUCN, but population trends differ markedly among them: Adélie populations remain stable at around 3.8 million breeding pairs globally (as of 2014), In the Antarctic Peninsula, chinstrap numbers are declining at an estimated 1.1% annually since the 1980s (equating to 30–50% losses in key regions), and Gentoo populations are increasing, with a global estimate of 430,000 breeding pairs (as of 2020) and growth particularly noted in sub-Antarctic areas.^[5]^[83] Monitoring efforts for Pygoscelis populations are coordinated through the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) Ecosystem Monitoring Program (CEMP), which tracks breeding success, colony sizes, and foraging patterns at designated sites across the Antarctic and sub-Antarctic.^[102] These surveys, supplemented by satellite imagery and acoustic indices for nest counts, reveal correlations between penguin trends and krill biomass, a primary food source, with long-term data from sites like Béchervaise Island showing synchronized fluctuations tied to environmental indices.^[103]^[104] Regional variations are pronounced: on the Antarctic Peninsula, warming-driven declines affect Adélie and Chinstrap colonies (e.g., 43% drop in Adélie near Mawson and over 50% in Chinstrap at multiple sites), while Gentoo numbers have grown in the Falkland Islands, with a 2010 census indicating stable to increasing breeding pairs amid habitat expansion.^[105]^[106] Projections under high-emission climate scenarios suggest potential genus-wide declines of up to 50% by 2100, driven by sea ice loss and altered prey availability, though Pygoscelis species may fare better than ice-obligate penguins due to adaptable foraging; Adélie populations could see asymmetric responses with refugia in East Antarctica, while Chinstrap and Gentoo trends may continue diverging based on regional warming.^[107]^[108]

References

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Pygoscelis - an overview | ScienceDirect Topics
Pygoscelis refers to a genus of penguins that includes species such as the chinstrap penguin (Pygoscelis antarctica), Gentoo penguin (Pygoscelis papua), ...
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Chinstrap penguin - Pygoscelis antarctica
DESCRIPTION: is the smallest of the Pygoscelis genus (3.5-5.5 Kg and 72 cm tall). Males are larger than females. In the adult, crown, forehead and upper ...
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Chinstrap Penguin Pygoscelis Antarcticus Species Factsheet
This species has a circumpolar distribution, being found in Antarctica, the South Sandwich Islands (Islas Sandwich del Sur), the South Orkneys, South Shetland ...<|control11|><|separator|>
[6]
Pygoscelis papua (gentoo penguin) - Animal Diversity Web
Pygoscelis papua, or more commonly known as gentoo penguins, are exclusively found in the Southern Hemisphere between 45 and 65 degrees south latitude.
[7]
Pygoscelis Penguins Prefer Different Oceanographic and Terrestrial ...
Pygoscelis penguins use ice-free ground for colonies and marine areas for foraging. Terrestrial elevation is important, and different species select for ...
[8]
Pygoscelis Wagler, 1832 - GBIF
Pygoscelis Wagler, 1832. Dataset; GBIF Backbone Taxonomy: Rank; GENUS: Published in; Isis (Oken), 1832. Classification. kingdom; Animalia: phylum; Chordata ...
[9]
Penguins: Natural History and Conservation on JSTOR
The bird's generic name, Pygoscelis (Wagler, 1832), refers to “rump legged,” while its specific name derives from the wife of Jules Sébastien César Dumont d' ...
[10]
Etymology of Penguin Names
Sep 9, 2019 · Brush-tailed penguins Pygoscelis is another genus of penguins, and it means “rump-legged” in Greek. This descriptor is kind of a mind bender. ...
[11]
Spheniscidae - Penguins - Birds of the World
Pygoscelis - 3 species. Megadyptes - 1 species. Eudyptula - 1 species ... Spheniscidae is the sole family in Sphenisciformes, which is part of a larger ...
[12]
The phylogeny of the living and fossil Sphenisciformes (penguins)
Sep 19, 2006 · Aptenodytes is the most basal extant taxon, and Pygoscelis is sister to (Spheniscus + Eudyptula) + (Eudyptes + Megadyptes). The fossil ...Abstract · Taxonomic note · Materials and methods · Discussion
[13]
Genome-wide analyses reveal drivers of penguin diversification
We show that lineage diversification in penguins was largely driven by changing climatic conditions and by the opening of the Drake Passage.
[14]
Multiple sex chromosome system in penguins (Pygoscelis ... - NIH
Aug 16, 2017 · The genus Pygoscelis Wagler, 1832, is composed of three species, Pygoscelis antarcticus Forster, 1781, P. papua Forster, 1781 and P. adeliae ...<|control11|><|separator|>
[15]
Subspecies Identification of Captive Gentoo Penguins in Japan ...
Apr 7, 2021 · The Gentoo Penguins Pygoscelis papua has been classified into two subspecies, Northern P. papua papua and Southern P. papua ellsworthi.
[16]
Morphometric and genetic evidence for four species of gentoo penguin
Nov 5, 2020 · First described by Forster (1781), the gentoo penguin (Pygoscelis papua) is the largest of the three Pygoscelis species and identifiable by its ...<|control11|><|separator|>
[17]
Evidence for a recent origin of penguins - PMC - NIH
The phylogenetic relationship between extant penguins and other outgroup species is shown in the Bayesian chronogram (figure 1). The topology of the maximum- ...
[18]
Multiple sex chromosome system in penguins (Pygoscelis ... - PubMed
Aug 16, 2017 · Penguins are classified in the order Sphenisciformes into a single family, Spheniscidae. The genus Pygoscelis Wagler, 1832, is composed of ...
[19]
Pygoscelis antarcticus (Chinstrap Penguin) - Avibase
The chinstrap penguin is a species of penguin that inhabits a variety of islands and shores in the Southern Pacific and the Antarctic Oceans.
[20]
Morphometric and genetic evidence for four species of gentoo penguin
Nov 5, 2020 · We suggest the designation of four species of gentoo penguin: P. papua in the Falkland Islands, P. ellsworthi in the South Shetland Islands/ ...
[21]
New penguin remains from the Pliocene of Northern Chile
Sep 2, 2006 · These remains are clearly referable to the living genus Pygoscelis, and share a mosaic of characters with extant species of the genus.Missing: record | Show results with:record
[22]
Pygoscelis tyreei - Wikipedia
Of Late Pliocene age, it is known only from fossil remains collected from Motunau Beach, North Canterbury. Pygoscelis tyreei. Temporal range: Late ...
[23]
Pygoscelis adeliae (Adelie penguin) - Animal Diversity Web
Adelie penguins are one of the smaller species of penguins, just above 60.96 cm tall. Their back, tail, head, and face are black.
[24]
Pygoscelis antarcticus (chinstrap penguin) | INFORMATION | Animal Diversity Web
### Summary of Chinstrap Penguin (Pygoscelis antarcticus) Physical Features
[25]
Penguins - Smithsonian Ocean Portal
Adaptive wizards of the sea, their torpedo shaped bodies combined with powerful flippers enable penguins to swim to considerable depths and over great distances ...
[26]
Sex-Based Differences in Adélie Penguin (Pygoscelis adeliae ...
Mar 2, 2016 · Adélie Penguins are a slightly dimorphic species, with adult males averaging larger than adult females in mass (~11%) as well as bill (~8%) and ...
[27]
Morphological Variation and Sexual Dimorphism in Antarctic ...
Apr 26, 2025 · This report presents an analysis of morphological and demographic data collected from three species of Antarctic penguins (Pygoscelis spp.) ...
[28]
Genomic insights into the secondary aquatic transition of penguins
Jul 19, 2022 · Numbers at nodes represent the divergence times (Ma) between each order and its sister taxon and red dots within the boxplots indicate average ...
[29]
Bill disparity and feeding strategies among fossil and modern ...
Mar 3, 2020 · This study explores the morphological disparity on the skull of penguins, emphasizing bill morphology and it relationship with feeding habits.
[30]
Hidden keys to survival: the type, density, pattern and functional role ...
Oct 22, 2015 · In previous studies, penguin feather densities have ranged from 11 to 46 contour feathers cm−2 [9–12,14,16]. None of these studies have ...
[31]
Gentoo Penguins - Antarctic and Southern Ocean Coalition
Parents stop feeding them around this time, returning to sea to feed up before their annual molt. They will spend 2-3 weeks on land, fasting while their old ...
[32]
Gentoo Penguin - Pygoscelis papua - Birds of the World
Dec 9, 2023 · This is the most northerly occurring member of the genus Pygoscelis; although its core range is the Sub-Antarctic, it can be found far up the Argentine coast.Identification · Subspecies · Breeding<|control11|><|separator|>
[33]
The contribution of penguin guano to the Southern Ocean iron pool
Apr 11, 2023 · During the non-breeding season, Pygoscelis species, such as Adélie or Chinstrap penguins, have shown to migrate towards areas with high krill ...
[34]
Gentoo penguin - Australian Antarctic Program
Mar 20, 2018 · The largest populations of gentoo penguins are in the Falkland Islands (South Georgia), and on the Antarctic Peninsula.
[35]
[PDF] Population Change and Resilience in Gentoo Penguins Pygoscelis ...
Gentoo Penguins Pygoscelis papua have a circumpolar distribution, breeding between 46 and 65°S on sub-Antarctic islands and on the. Antarctic Peninsula ...
[36]
Adélie penguin - Australian Antarctic Program
Adélie penguins breed around the entire Antarctic coast and small islands in places where there is exposed rock.Missing: patterns | Show results with:patterns
[37]
Adélie penguins' extensive seasonal migration supports dynamic ...
Adélie penguins greatly extend their distribution range outside the breeding season. · In winter they migrate up to >99% outside the local Marine Protected Area ...<|separator|>
[38]
Adélie Penguins confront astronomical and ocean boundaries
We report the present Adélie Penguin migration pattern and conjecture on how it probably has changed over the past approximately 12000 years.
[39]
Receding ice drove parallel expansions in Southern Ocean penguins
Dec 16, 2019 · We hypothesize that rapid postglacial reductions in sea ice drove biological shifts across multiple widespread Southern Ocean species.
[40]
Sedimentary DNA insights into Holocene Adélie penguin ... - NIH
Mar 5, 2025 · We report 156 sediment metagenomes from Adélie penguin (Pygoscelis adeliae) colonies dating back 6000 years along the Ross Sea coast, Antarctica.Missing: arcadiae | Show results with:arcadiae
[41]
[PDF] Holocene climate change shifted Southern Ocean biogeochemical ...
Jan 1, 2023 · We disentangle these hypotheses using amino acid stable isotope analysis on a 7000-yr Holocene archive of Adélie penguin (Pygoscelis adeliae) ...
[42]
Pygoscelis penguins prefer different oceanographic and terrestrial ...
Feb 10, 2025 · Accessible ice-free ground spaces serve as locations for penguins to build colonies and successfully raise chicks while the surrounding marine ...
[43]
Diving Behavior During Foraging in Breeding Adelie Penguins
Jun 1, 1993 · Most hunting activity occurred in bouts of consecutive dives to similar depths. Adelies foraged at depths between 3 and 98 m, with a mean of 26 ...
[44]
Diving depths of the Chinstrap Penguin Pygoscelis antarctica
Jan 31, 2014 · Deeper dives reached 70 m but 90% of dives were shallower than 45 m and 40% were to less than 10 m. The diving pattern is compared with those of ...
[45]
Maximal Diving Depth and Diving Patterns of the Gentoo Penguin ...
Apr 25, 2025 · Results from 15 birds showed that the individual maximum dive depths ranged from 40-210 m. The accumulated time spent shallow and flat ...
[46]
[PDF] Sea ice predicts long‐term trends in Adélie penguin population ...
Feb 25, 2020 · (Pygoscelis adeliae). Adélie penguins are strongly associated with. Antarctic sea ice, and are considered indicators of climate change in the ...
[47]
[PDF] THE FISH COMPONENT OF PYGOSCELIS PENGUIN DIETS by ...
Although Pygoscelis penguins rely on Antarctic krill Euphausia superba as their main food source, they also take appreciable amounts offish and an occasional ...
[48]
Are the diets of sympatric Pygoscelid penguins more similar than ...
Oct 12, 2022 · The goal of this study was to examine differences in their diet, and size structure of Antarctic krill recovered from penguin diet samples.Missing: genus | Show results with:genus<|control11|><|separator|>
[49]
(PDF) Diet Composition of Adelie Penguins Pygoscelis adeliae at ...
Aug 4, 2025 · Antarctic krill was the dominant prey, contributing > 99.6% of the diet by mass. The remainder of prey were fish, amphipods, and mollusks. Among ...<|control11|><|separator|>
[50]
Subsurface eddy increases Antarctic krill for penguins
The fourth assumption is that the horizontal advec- tion of simulated krill into the penguin foraging regions would make them accessible to foraging penguins.
[51]
Diving pattern and performance in relation to foraging ecology in the ...
We present data on diving pattern and performance (dive depth, duration, frequency and organization during the foraging trip) in gentoo penguins Pygoscelis ...
[52]
[PDF] Foraging Behaviour of the Chinstrap Penguin Pygoscelis Antarctica ...
Frequency of maximum dive depths for Chinstrap. Penguins foraging from Ardley Island (n = 6130 dives). Fig. 7. Frequency of the difference in maximum dive ...
[53]
Food and Energy Requirements of Adélie Penguins (Pygoscelis ...
We estimated that the 25,500 Adélie penguins using the Arthur Harbor area around Palmer Station would consume about 27.5 metric tons of krill each day.
[54]
Testing optimal foraging theory in a penguin–krill system - PMC - NIH
The penguin–krill system continues to provide an attractive model for ecologists to investigate how marine predators behave flexibly in response to dynamic prey ...
[55]
Spatial link between Adélie penguin foraging effort and krill swarm ...
Jan 25, 2023 · In this study, we examine the spatial associations between krill swarm characteristics and Adélie penguin (Pygoscelis adeliae) foraging effort.
[56]
The different breeding strategies of penguins: A review
Contrary to the emperor penguin, the king penguin does not exhibit a long courtship period but an extended chick-rearing period (84% of the breeding cycle while ...
[57]
The different breeding strategies of penguins: A review - ScienceDirect
They vary considerably in height, from about 40 to 130 cm, and in body mass, from 1 to 37 kg (little and emperor Aptenodytes forsteri penguins, respectively, ...
[58]
Multi-modal survey of Adélie penguin mega-colonies reveals the ...
Mar 2, 2018 · We find the Adélie penguin colonies on Heroína Island and Beagle Island are the third and fourth largest Adélie penguin colonies in the world, ...
[59]
[PDF] Nest-site Selection among Adelie, Chinstrap and Gentoo Penguins ...
Jun 1, 1981 · The literature on pygoscelid penguins, the Ad&lie (Pygoscelis ... terms of colony size and nest density, Ad&lies are the most colonial and.
[60]
First full census in 45 years of a large colony of breeding penguins ...
Sep 20, 2025 · The manual census from orthomosaic tiles identified a total of 19,886 occupied chinstrap penguin nests. The spatial analysis identified 108 ...Introduction · Methods · Discussion
[61]
Vocal variation in Gentoo Penguins depends on the species ...
Jul 21, 2022 · Despite very different display vocalizations between species and even though Pygoscelis penguins use frequency bands for individual ...
[62]
[PDF] Vocal Individuality and Species Divergence in the Contact Calls of ...
Penguins produce contact calls to maintain social relationships and group cohesion. Such vocalisations have recently been demonstrated to encode individual ...
[63]
Allopreening in birds is associated with parental cooperation over ...
Jun 9, 2017 · We found that allopreening between breeding partners was more common among species where parents cooperate to rear offspring.
[64]
[PDF] Concerted Small Group Foraging Behavior in Gentoo Penguins ...
Synchronous or social foraging behavior has been observed and studied in many different species of organisms. Murphy reported groups of Gentoo Penguins ...Missing: cooperative hunting<|control11|><|separator|>
[65]
Group association and vocal behaviour during foraging trips in ...
Aug 17, 2017 · Our findings show that penguins may use vocal communication in the ocean related with group association during foraging trips.Missing: vocalizations | Show results with:vocalizations
[66]
[PDF] Behavioral responses of chinstrap and gentoo penguins to a stuffed ...
Jun 4, 2016 · Although many factors are related to their aggressive- ness, one possible explanation about the interspecific aggression differences is that ...
[67]
Aggressiveness in king penguins in relation to reproductive status ...
In addition, aggressiveness of breeding penguins towards travelling birds trespassing into their territory increased with distance to edge. Early breeders were ...
[68]
Adelie Penguin Pygoscelis Adeliae Species Factsheet
The total global population was previously estimated at c.2.37 million breeding pairs (range 1.83-2.88 million pairs), equating to 4.74 million breeding ...
[69]
Foraging behavior links sea ice to breeding success in Antarctic ...
Jun 24, 2020 · In an ice-free season, penguins traveled by swimming rather than walking, leading to larger foraging areas, shorter trip durations, and lower energy ...Missing: vibrissae | Show results with:vibrissae
[70]
The foraging behavior of nonbreeding Adélie penguins in the ...
May 19, 2022 · We studied the movement behavior of nonbreeding Adélie penguins tracked during the 2016/2017 breeding season at King George Island in the South ...
[71]
https://brill.com/view/journals/beh/147/2/article-p165_2.xml
[72]
One, Two, 3.79 million: How Many Penguins Are There? | Audubon
Aug 21, 2014 · The finding, which totals Adélies at 3.79 million breeding pairs, is welcome news, though Antarctica's most charismatic birds still face an ...
[73]
https://oceanwide-expeditions.com/blog/adlie-penguins-in-the-ross-sea-antarctica
[74]
Adélie Penguins Cope With Climate Change - NSF
Feb 6, 2013 · For their size, Adélies can dive deeper and hold their breath longer to reach farther under ice floes than can penguin species that avoid sea ...Missing: dependence | Show results with:dependence
[75]
Adelie penguin population dynamics: 18 years in a colony
Nov 20, 2009 · This penchant for krill and their dependence on the sea ice environment makes Adélie penguins ... * Fast ice is ice attached to the continent.
[76]
Chinstrap Penguins - Antarctic and Southern Ocean Coalition
Chinstrap penguins prefer to form colonies on rocky surfaces, and don't mind nesting high up on steep slopes. The largest chinstrap penguin colony is on ...Missing: behaviors | Show results with:behaviors
[77]
[PDF] Pygoscelis Penguins Prefer Different Oceanographic and Terrestrial ...
Gentoo penguins (Pygoscelis papua) have a more generalist and flexible diet and thus consume relatively less krill on average than either Adélie or chinstrap.
[78]
[PDF] thirty three - Antarctic and Southern Ocean Coalition
penguins are known to steal pebbles from each other. The female usually ... the chinstrap penguin's horizontal facial stripe, gives it a particular charm.
[79]
For Chinstrap Penguin Populations, Proactive Steps Are Key
Sep 16, 2016 · In fact, 99 percent of the chinstrap's diet is Antarctic krill. Unfortunately, humans from the north keep coming to the Southern Ocean to ...
[80]
First direct, site-wide penguin survey at Deception Island, Antarctica ...
In the first ever field census of individual penguin nests at Deception Island (December 2–14, 2011), we find 79,849 breeding pairs of chinstrap penguins, ...
[81]
[PDF] Antarctic Penguin Response to Habitat Change
Adélie Penguins might colonize new breeding habitat where concentrated pack ice diverges and/or disintegrating ice shelves expose coastline. Limiting increase ...
[82]
Gentoo Penguin Pygoscelis Papua Species Factsheet
Pygoscelis papua has a circumpolar breeding distribution that ranges in latitude from the Fish Islands on the Antarctic Peninsula (66°01'S)
[83]
Fastest bird swimmer | Guinness World Records
The gentoo penguin (Pygoscelis papua) has a maximum burst of speed of about 36 km/h (22 mph). By way of comparison, when Usain Bolt set a new world record for ...
[84]
climate change 'winners' and 'losers' in Antarctic Peninsula penguins
Jun 12, 2014 · Changes in the local conditions, such as increased sea ice or ice-bergs which block access to colonies, has been found to increase the ...
[85]
Gentoo - Falklands Conservation
Nest building starts in September using diddle-dee from nearby plants, grasses, small stones or even hard lumps of mud. Two large round white eggs are laid in ...Missing: tussocks | Show results with:tussocks
[86]
Antarctic penguins losing to climate change through 80% krill decline
Apr 11, 2011 · Climate change has hit species of Antarctic penguins by causing a staggering decline in their prey: krill. A new study in the Proceedings of ...
[87]
Variability in krill biomass links harvesting and climate warming to ...
We hypothesize that the amount of krill available to penguins has declined because of increased competition for krill from recovering whale and fur seal ...
[88]
Antarctic krill fishery effects over penguin populations under adverse ...
Sep 26, 2020 · Fast climate changes in the western Antarctic Peninsula are reducing krill density, which along with increased fishing activities in recent ...Missing: adaptations | Show results with:adaptations
[89]
Study Confirms Antarctic Penguins Are Harmed by Krill Fishing and ...
Oct 28, 2020 · New research finds that millions of chinstrap and gentoo penguins in the Antarctic Peninsula face threats from concentrated fishing for krill, ...
[90]
Penguins in the anthropause: COVID-19 closures drive gentoo ...
One of the concerns regarding Antarctic tourism is that the presence of humans may cause stress or other disturbance to Antarctica's wildlife (Coetzee and Chown ...
[91]
Microplastics in gastrointestinal tracts of gentoo penguin (Pygoscelis ...
Aug 10, 2023 · For example, two microplastic ingestion studies of penguins in the genus Pygoscelis reported that 15–29% of the feces contained microplastics.
[92]
Microplastics and other anthropogenic particles in Antarctica
Sep 20, 2021 · Anthropogenic particles were found in all three pygoscelid penguin species. · Thirty-five percent were microplastics; these were found in all ...
[93]
Long-term observations from Antarctica demonstrate that ... - Nature
Feb 11, 2020 · ... fisheries management and predator-prey interaction lead to erroneous conclusions about precaution ... predators, like penguins. Using a ...
[94]
Outbreaks of avian cholera in Hope Bay, Antarctica - PubMed
Eighty-six dead birds were found: five kelp gulls (Larus dominicanus), 36 skuas (Stercorarius sp.), and 45 Adelie penguins (Pygoscelis adeliae). The ...
[95]
Health of Antarctic birds: a review of their parasites, pathogens and ...
May 12, 2009 · ... penguins (Pygoscelis adeliae) are parasitized by some lice. This ... Outbreaks of avian cholera in Hope Bay, Antarctica. J Wildl Dis 42 ...
[96]
First global census of the Adélie Penguin - BioOne
Jul 9, 2014 · We estimate the total global population of Adélie Penguins to be 3.79 million (95th-percentile CI: 3.52–4.10 million) breeding pairs in 251 ...
[97]
A global population assessment of the Chinstrap penguin ... - Nature
Nov 10, 2020 · Using the best current estimates of abundance, mean colony size for 367 colonies was 9327 breeding pairs (SD = 40,861) (median = 1100), ...
[98]
Update on the global abundance and distribution of breeding ...
Oct 17, 2020 · The global Gentoo penguin population is estimated at 432,144 breeding pairs, with 85% in the Atlantic sector, and has increased by 11% since ...
[99]
CEMP Sites - CCAMLR
Dec 15, 2022 · A large Adelie penguin colony is monitored for parameters such as adult arrival weight, breeding population size, breeding success, chick weight ...
[100]
CCAMLR Ecosystem Monitoring Program (CEMP)
Dec 2, 2021 · A long term monitoring program studying Adélie penguins has been run by Australian scientists since 1990. This study is located at Béchervaise Island.Missing: surveys | Show results with:surveys
[101]
Population size assessment of Adélie penguin (Pygoscelis adeliae ...
We assessed the ability of an acoustic index, vocal activity rate (VAR), to estimate population size of Adélie penguin chicks on Inexpressible Island, Ross Sea.
[102]
Dramatic decline in Adélie penguins near Mawson
Oct 11, 2022 · Long-term monitoring has revealed a 43% decline in a large Adélie penguin population off the East Antarctic coast, near Mawson research station ...
[103]
[PDF] Population Trends of Gentoo Penguins Pygoscelis Papua Breeding ...
The Falkland Islands are located approximately 600 km east of mainland South America, in the southwest Atlantic Ocean between. 51°S to 53°S and 57°W to 62°W ( ...
[104]
Projected asymmetric response of Adélie penguins to Antarctic ...
Jun 29, 2016 · However, climate model projections suggest refugia may exist in continental Antarctica beyond 2099, buffering species-wide declines.
[105]
Antarctica's emperor penguins could be extinct by 2100
Dec 23, 2022 · The populations of up to 97% of land-based Antarctic species could decline by 2100 if we don't change tack, our new research has found.