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Linnaeus's two-toed sloth

Linnaeus's two-toed sloth (Choloepus didactylus) is a medium-sized, slow-moving arboreal mammal in the family Megalonychidae, native to the tropical rainforests of northern South America, including countries such as Venezuela, Colombia, Ecuador, Peru, Brazil, and the Guianas.^[1] It is distinguished by its two long, curved claws on the forelimbs—used for grasping branches while hanging upside down—and shaggy, coarse fur that frequently hosts symbiotic algae, imparting a greenish camouflage against the forest canopy.^[2] Adults typically measure 53–74 cm (21–29 inches) in head-body length, weigh 4–8 kg (9–17 pounds), and exhibit a low body temperature ranging from 30–34°C (86–93°F), with a short, flat head, large eyes, rudimentary external ears, and continuously growing, peg-like teeth adapted for grinding vegetation.^[3] This nocturnal and solitary species inhabits the upper levels of lowland tropical moist forests, maintaining a home range of approximately 4 hectares (10 acres) within the canopy where it spends up to 15 hours per day sleeping or resting.^[2] It moves deliberately at speeds of about 0.24 km/h (0.15 mph) on the ground but is a capable swimmer, occasionally descending from trees to cross rivers or access water from dew and vegetation.^[3] The sloth's diet is primarily folivorous, consisting of leaves, fruits, buds, twigs, and tender shoots, with occasional supplementation from insects or small vertebrates; its multi-chambered stomach and slow digestive process allow it to extract nutrients from fibrous plant matter over a period of about one month, defecating only once a week on the forest floor.^[2] Reproduction in C. didactylus is poorly documented in the wild, but females reach sexual maturity at around 3 years, males at 4–5 years, with a gestation period of approximately 10 months leading to the birth of a single offspring weighing about 340 g (12 ounces) and measuring 25 cm (10 inches).^[2] The young clings to the mother's fur for the first 5–6 weeks before beginning to forage independently, though it may remain with her for up to 9 months; lifespan in the wild averages 20 years, while individuals in captivity can live up to 40–49 years.^[2] Classified as Least Concern on the IUCN Red List due to its wide distribution and presumed stable population, Linnaeus's two-toed sloth nonetheless faces ongoing threats from deforestation and habitat fragmentation driven by agriculture, logging, and mining in its range.^[1] Conservation efforts focus on protecting Amazonian rainforests, where the species plays a role in seed dispersal and forest ecosystem dynamics, though it is not heavily hunted due to cultural taboos among some indigenous groups.^[1]

Taxonomy and Phylogeny

Classification and Etymology

The scientific name of Linnaeus's two-toed sloth is Choloepus didactylus (Linnaeus, 1758), originally described by Carl Linnaeus in the 10th edition of Systema Naturae.^[4] A notable synonym is Bradypus didactylus Linnaeus, 1758, reflecting its initial classification.^[4] The genus name Choloepus derives from the Greek words chōlos (meaning "lame") and pous (meaning "foot"), alluding to the animal's slow, deliberate locomotion. The species epithet didactylus comes from Greek di- (meaning "two" or "twice") and daktulos (meaning "finger" or "toe"), referring to the two prominent claws on its forelimbs. In current taxonomy, Linnaeus's two-toed sloth is classified within Kingdom Animalia, Phylum Chordata, Class Mammalia, Order Pilosa, Suborder Folivora, Family Choloepodidae, Genus Choloepus, and Species C. didactylus.^[4] This places it in the Choloepodidae family, distinct from the three-toed sloths of the Bradypodidae family, based on anatomical and behavioral differences such as dental structure and limb proportions.^[5] Historically, the family was included in Megalonychidae, but recent phylogenetic studies have recognized Choloepodidae as a separate family for the extant two-toed sloths due to their distinct evolutionary lineage. Linnaeus initially assigned the species to the genus Bradypus alongside three-toed sloths, but Johann Karl Wilhelm Illiger established the genus Choloepus in 1811, transferring B. didactylus based on key differences in toe count and dentition. Subsequent classifications have refined its position within the superorder Xenarthra, emphasizing its separation from Bradypodidae.^[5]

Evolutionary Relationships

Linnaeus's two-toed sloth (Choloepus didactylus) belongs to the superorder Xenarthra, which encompasses anteaters, armadillos, and sloths, and is classified within the order Pilosa and suborder Folivora. Within Folivora, the lineage leading to two-toed sloths diverged from that of three-toed sloths (genus Bradypus) approximately 24–27 million years ago during the Oligocene-Miocene transition, reflecting an early split in the radiation of arboreal folivorans. This divergence is supported by molecular clock analyses of mitochondrial and nuclear DNA, indicating distinct evolutionary trajectories shaped by adaptations to suspensory locomotion in tropical forests.^[6] The species resides in the family Choloepodidae, which includes only two extant members: Linnaeus's two-toed sloth and Hoffmann's two-toed sloth (C. hoffmanni). Despite superficial similarities in limb structure and arboreal habits, Choloepodidae is not closely related to the three-toed sloth family Bradypodidae; instead, these groups exhibit convergent evolution in traits like reduced digit number and slow metabolism, driven by parallel adaptations to folivory and canopy life.^[6] Phylogenetic reconstructions place Choloepodidae within the mylodontoid clade (Mylodontoidea), linking it more closely to certain extinct mylodontid ground sloths than to Bradypus. A 2023 Bayesian total-evidence dating analysis, incorporating morphological and molecular data, confirmed this placement and revealed no evidence of hybridization between two-toed and three-toed sloths, underscoring their deep phylogenetic isolation.^[6] The fossil record traces the origins of the Choloepus lineage to the Early Miocene within Mylodontoidea, with Pleistocene relatives including ground sloths that adapted to arboreality but are not direct ancestors of the extant family. Unlike previously thought, Choloepus is not closely related to megalonychid ground sloths such as species in the genus Megalonyx, which went extinct in North America around 11,000 years ago during the Late Pleistocene extinction event.^[7] A key shared evolutionary trait across Xenarthra, including sloths, is the xenarthrous articulation in vertebrae, characterized by interlocking processes that enhance spinal stability during suspension and digging behaviors inherited from terrestrial forebears.^[8] Genetic studies utilizing mitochondrial DNA sequences estimate the divergence between Choloepus and Bradypus lineages at around 24 million years ago, with low genetic diversity within Choloepus suggesting a bottleneck following the Pleistocene megafaunal extinctions.^[6]

Physical Characteristics

Morphology

The skeletal structure of Linnaeus's two-toed sloth (Choloepus didactylus) is adapted for suspensory locomotion, featuring xenarthrous articulations in the vertebrae that provide additional intervertebral articulations and stiffen the vertebral column to support hanging postures.^[9] These articulations, characteristic of xenarthrans, involve supplementary caudal and intertubercular processes on the vertebrae, enhancing stability during arboreal suspension without compromising flexibility.^[10] The limbs are elongated and of nearly equal length between fore- and hindlimbs, facilitating brachiation; the forelimbs bear two functional digits with large, curved claws measuring 8-10 cm in length, while the hindlimbs have three digits with similarly robust claws.^[3] Typically, the species possesses seven cervical vertebrae, contributing to a relatively short neck that supports the head's positioning during inverted movement.^[11] Dental morphology in C. didactylus lacks incisors and canines, consisting instead of rootless, ever-growing molariform teeth suited for grinding fibrous vegetation.^[12] The dental formula is 5/4, with five peg-like teeth per upper jaw side and four per lower, all lacking enamel and composed of alternating layers of orthodentine and orthovasodentine covered by cementum.^[12] These teeth erupt as simple rounded cones and develop their caniniform or molariform shapes through wear and occlusion, enabling efficient mastication of leaves despite the absence of enamel for protection.^[12] Supernumerary teeth occasionally occur, as observed in some specimens where an extra upper molariform duplicates the first or second position.^[12] Muscular adaptations reflect the species' low-energy lifestyle, with muscle mass comprising only about 25% of total body weight—roughly half that of most mammals—limiting thermoregulatory capacity and contributing to a basal metabolic rate 37-45% below expectations for its size.^[13] This reduced musculature supports slow, energy-conserving movements but impairs rapid responses or shivering in cold conditions.^[14] Sensory adaptations include large, mobile eyes positioned for a wide field of view, optimized for low-light and nocturnal conditions despite overall poor visual acuity and limited depth perception.^[15] The sense of smell is well-developed, with prominent olfactory bulbs aiding in detecting food and environmental cues, compensating for deficiencies in vision and hearing.^[16] The alimentary system is specialized for processing low-nutrient foliage through foregut fermentation in a large, multi-chambered stomach that houses symbiotic bacteria to break down cellulose and tannins.^[17] Food retention in the stomach lasts 70-90 hours post-ingestion, with total gastrointestinal transit requiring up to one week, reflecting the slow metabolic rate.^[16] The intestines are elongated, extending approximately seven times the body length to maximize nutrient extraction via prolonged microbial action and absorption, though a significant portion of retention occurs in the rectum.^[17] This configuration allows digesta mass to reach 17-37% of body weight, supporting survival on a diet of limited caloric value.^[17]

Size and Appearance

Linnaeus's two-toed sloth (Choloepus didactylus) has a head-body length of 53–74 cm (21–29 in) and weighs 4–8 kg (9–17 lb), making it one of the larger extant sloth species.^[3] The tail is vestigial and short, typically measuring 2 to 3 cm.^[2] Males are slightly larger than females, though sexual dimorphism is minimal overall.^[16] The animal's fur is coarse and shaggy, consisting of an outer coat of long hairs up to 15 cm in length overlying a shorter, finer undercoat; colors vary from pale brown to grayish-brown.^[3] A unique adaptation is the orientation of the ventral fur, which grows backward from the chest toward the abdomen, allowing smoother passage through it during upside-down locomotion.^[2] This fur harbors symbiotic green algae, including Trichophilus welckeri, which colonize the hair grooves and impart a greenish hue that enhances camouflage against the forest canopy. The grooves also support cyanobacteria growth, enabling the sloth to obtain supplemental nutrients by licking or absorbing compounds from the fur.

Distribution and Habitat

Geographic Range

Linnaeus's two-toed sloth (Choloepus didactylus) is native to northern South America, with its range encompassing Venezuela and Colombia in the west, extending eastward to Guyana, Suriname, French Guiana, and Brazil, and southward to Peru, Ecuador, and Bolivia.^[18] The species occupies tropical lowlands from sea level up to elevations of 1,200 m, though records extend to 2,400 m in some areas.^[19] It is largely absent from the central Amazon Basin but occurs along its northern and eastern peripheries, with populations concentrated in forested regions east of the Andes.^[20] Recent research has confirmed a southern range extension into Bolivia, marking a significant expansion beyond previously mapped limits.^[18] Additionally, GBIF records from 2023 to 2025 indicate ongoing southward movement in Brazil's central-southern Amazon, with sightings up to 820 km south of the core range in states such as Pará, Amazonas, and Mato Grosso, increasing the overall area of occurrence by approximately 30%.^[21] These findings suggest active range dynamics facilitated by connected forest habitats. No precise global population estimate exists for C. didactylus, but it is considered stable in core northern ranges.^[22] Historically, the distribution has shown no major contractions, contrasting with the documented southern expansions that reflect natural dispersal rather than decline.^[23] Within this range, the sloth prefers undisturbed rainforests, as detailed in habitat studies.^[2]

Habitat Preferences

Linnaeus's two-toed sloth (Choloepus didactylus) primarily inhabits evergreen tropical rainforests across northern South America, where it spends nearly all of its time in the dense canopy of tall trees essential for its suspensory locomotion and foraging. These forests provide the structural complexity needed for the sloth's slow, energy-conserving movements, with the species showing a strong preference for areas featuring continuous arboreal pathways formed by interlocking branches and vines. Secondary forests and mangrove ecosystems also support populations, particularly in regions with moderate disturbance, though the sloth avoids arid savannas or seasonally flooded wetlands that lack sufficient moisture and foliage cover.^[3]^[20]^[24] Within these habitats, the sloth favors microhabitats in the upper and middle canopy layers, typically at heights of 10 to 30 meters, where it rests curled among branches or hangs upside down to feed and sleep. Occasional descents to the forest floor occur near streams or rivers for defecation or short travels, but ground use is minimal and risky due to predation. This arboreal niche is supported by trees such as Cecropia and Pourouma species, which offer abundant leaves, fruits, and structural support; the sloth's tolerance for human-modified landscapes allows persistence in selectively logged areas, but it shuns extremes of drought or persistent inundation.^[2]^[23]^[25] The species thrives in warm, humid tropical climates with average temperatures of 20–30°C and annual precipitation exceeding 2,000 mm, conditions prevalent in lowland neotropical regions up to approximately 400 m elevation, though occasional records extend to 2,400 m in montane forests. These climatic parameters maintain the high humidity necessary for the sloth's fur, which hosts symbiotic green algae (Trichophilus spp.) that provide camouflage against the foliated backdrop. Additionally, epiphyte-laden trees in these moist environments supply supplementary food sources like insects and algae-derived nutrients, enhancing the sloth's opportunistic omnivory within its arboreal domain.^[24]^[16]^[2]

Behavior and Ecology

Linnaeus's two-toed sloth (Choloepus didactylus) is primarily nocturnal, with activity concentrated from dusk to dawn, typically awake between 18:00 and 06:00 and exhibiting crepuscular peaks of movement from 19:00–21:00 and 04:00–06:00. Although traditionally considered primarily nocturnal, recent studies indicate cathemeral activity patterns, with activity occurring both day and night.^[26]^[27] Individuals spend 10–15 hours daily in sleep, often curled in tree forks or suspended from branches, which conserves energy in their low-metabolism lifestyle.^[3] Their overall pace is deliberate and slow, reflecting adaptations to arboreal life, with average speeds of approximately 0.5–0.6 km/h during travel.^[16] Locomotion in C. didactylus is characterized by suspensory quadrupedalism, where the animal hangs inverted from branches using long, curved claws on all limbs to grip without relying on tails or prehensile extremities.^[28] This posture facilitates navigation through the forest canopy via lianas and vines, though individuals occasionally descend to the ground for terrestrial travel, such as crossing canopy gaps or accessing mineral licks, at speeds up to 1.6 km/h.^[16] Such ground excursions are infrequent and risky, exposing them briefly to predators. Socially, C. didactylus is solitary outside of brief mating encounters, maintaining home ranges of 1.2–6.5 ha with minimal overlap between individuals of the same sex to reduce competition.^[29] Vocalizations play a key role in defense and communication, including hisses, screams, and low moans emitted when threatened or during territorial disputes.^[3] Recent research highlights vulnerabilities in these patterns; a 2023 study found that exposure to anthropogenic noise in captive settings led to increased locomotion during exposure and reduced foraging 24 hours later in males, indicating stress.^[30] Similarly, camera trap observations in 2023 documented an ocelot (Leopardus pardalis) predation attempt at a mineral lick, where the sloth initially froze before counterattacking with claw strikes, underscoring cryptic freezing as an initial anti-predator response.^[31]

Diet and Predators

Linnaeus's two-toed sloth (Choloepus didactylus) is primarily folivorous, with leaves constituting the majority of its diet, including species such as Cecropia, supplemented by fruits, flowers, and occasionally insects or small vertebrates like lizards and bird eggs.^[3]^[32] It selectively feeds on young, nutrient-rich foliage to maximize energy from low-quality plant material.^[26] Foraging occurs slowly to conserve energy, with individuals spending about six hours per day methodically cropping leaves using their lips, often nocturnally to align with their activity patterns.^[29] Daily intake is low at 0.1–0.2 kg of food, reflecting their reduced metabolic rate.^[33] Gut fermentation of this fibrous diet produces methane, accounting for up to 9.4% of gross energy intake and contributing to their slow digestion.^[33] Predators include harpy eagles, jaguars, ocelots, and boas, which target sloths in the canopy or during ground descents.^[34] Defenses rely on camouflage from algae-covered fur, prolonged immobility to avoid detection, and occasionally dropping from branches to evade attacks.^[3] A 2023 study documented an ocelot predation attempt on an adult sloth at a mineral lick in western Amazonia, Ecuador, where the sloth resisted by swiping with its claws.^[31] Through seed dispersal via feces and nutrient recycling in the forest canopy, Linnaeus's two-toed sloths play a key role in maintaining neotropical forest ecosystems.^[35]

Reproduction and Life History

Mating and Gestation

Linnaeus's two-toed sloth (Choloepus didactylus) employs a polygynous mating system, in which males may mate with multiple females, though observations are constrained by the species' solitary and arboreal lifestyle.^[36] Breeding is aseasonal and occurs year-round, with some evidence suggesting peaks in March and April based on captive and field records.^[37] Females typically initiate interactions during estrus, approaching potential mates and signaling receptivity primarily through scent cues, as the species possesses a well-developed sense of smell and engages in scent marking via glands near the anus.^[37]^[29] Courtship behaviors are poorly documented but involve the female leading the male, followed by brief physical contact such as nuzzling; copulation takes place suspended in trees and lasts only a few minutes.^[16] Gestation in C. didactylus lasts approximately 10 months, the longest reported among sloth species, reflecting adaptations to their slow metabolic rate.^[38] Litters consist of a single offspring, with twinning being extremely rare (less than 1% of births in recorded cases).^[38] Sexual maturity is attained by females around 3 years of age and by males at 4–5 years, aligning with their extended developmental timeline.^[37] Hormonal cycles in females exhibit an ovarian cycle length of 4–5 weeks, as confirmed by progesterone profiling in captive individuals, supporting year-round reproductive potential.^[39]

Development and Parental Care

Linnaeus's two-toed sloth typically gives birth to a single precocial offspring after a gestation period of approximately 10 months, with the young weighing 340–400 g and measuring about 25 cm in length at birth.^[37]^[38] The newborn has open eyes, functional claws for gripping, and immediately clings to the mother, often climbing to her abdomen or back if born on the ground or a low branch.^[16]^[40] Maternal care is extensive and provided solely by the female, who carries the infant on her back or abdomen for 6–9 months, allowing it to nurse and observe foraging.^[37]^[41] Nursing lasts about 1 month, after which the young samples solid foods like leaves directly from the mother's mouth, gradually transitioning to independent feeding while remaining dependent on her for mobility and protection. Weaning occurs around 1 month, though the offspring may continue to associate with the mother for up to 2 years.^[37]^[41]^[38] The young reaches sexual maturity and adult size by about 3 years, achieving independence between 12 and 24 months when it disperses from the natal area to establish its own home range, typically within continuous forested habitats.^[37]^[29] In the wild, lifespan averages 20–30 years, while individuals in captivity can live up to 40 years.^[2]^[42]

Conservation

Status and Threats

Linnaeus's two-toed sloth (Choloepus didactylus) is classified as Least Concern on the IUCN Red List, with the most recent assessment conducted in 2022, with a population trend assessed as decreasing, though no overall population decline sufficient to warrant higher threat status.^[1]^[43] No comprehensive global population estimate exists for the species, though it is considered widespread across its range in northern South America, with local densities varying from approximately 1.7 individuals per km² in areas like French Guiana.^[22] However, populations in fragmented forest edges are vulnerable due to the species' low dispersal ability, leading to localized reductions in isolated habitats.^[23] The primary threat to C. didactylus is habitat loss driven by deforestation for agriculture, logging, and ranching in the Amazon basin, which fragments its essential rainforest habitat and reduces available foliage for foraging.^[24]^[43] Additional human-induced risks include electrocution on uninsulated power lines, as sloths often cross these while moving through canopies, with documented cases of severe burns and fatalities in the species.^[44] The international pet trade poses a minimal but growing concern, prompting a 2025 CITES proposal to list C. didactylus in Appendix II to regulate trade and prevent overexploitation.^[18] Climate change exacerbates these pressures by altering rainfall patterns in the Amazon, potentially disrupting leaf availability and the sloth's low-energy diet, while the species' limited thermoregulatory capacity—relying on behavioral adaptations rather than metabolic adjustments—may hinder adaptation to rising temperatures.^[45] In captivity, a 2024 study documented acute fatal gastric dilatation and volvulus in an adult C. didactylus, underscoring dietary and management challenges that could inform wild veterinary responses, though wild threats remain centered on habitat fragmentation.^[46]

Protection Efforts and Recent Research

The species receives legal protection within key national parks and reserves, such as Ecuador's Yasuní National Park, which safeguards vast Amazonian habitats critical for the species, and broader Amazonia protected areas in countries like Peru and Brazil that encompass its range.^[47] Additionally, cultural taboos among some indigenous groups in the Amazon basin prohibit hunting sloths, providing informal but effective local safeguards that reduce targeted exploitation.^[24] Conservation efforts emphasize habitat restoration through targeted reforestation projects, such as those led by the Sloth Conservation Foundation, which plant native tree species to reconnect fragmented forests and support sloth movement corridors.^[48] Rescue and rehabilitation programs have advanced, with successes in releasing rehabilitated individuals in range countries. Ecotourism initiatives in the range countries, such as in Brazil, promote education on sloth ecology while generating funds for habitat protection, and similar programs integrate visitor awareness to curb illegal wildlife interactions.^[49] Recent research has expanded knowledge of the species' distribution and vulnerabilities. A 2024 study using camera traps in the southern Amazon documented a range extension into previously unconfirmed areas of Bolivia, highlighting the sloth's adaptability to edge habitats amid deforestation pressures.^[21] A 2023 study examined behavioral effects of anthropogenic noise on captive C. didactylus, revealing altered activity patterns in response to visitor noise, with implications for predation risk in noisy forest edges.^[30] Future conservation priorities include genetic monitoring of subpopulations to detect divergence and guide translocation efforts. As of November 2025, the CITES Appendix II proposal awaits decision at CoP20 (24 November – 5 December 2025) to evaluate trade regulations' effectiveness in preventing overexploitation across the species' range.^[50]^[18]

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Aug 6, 2025 · ... reproductive parameters in sloths. Choloepus didactylus have a 10-month gestation period with an inter-birth interval of 16 months or more ...<|control11|><|separator|>
[37]
Two-toed Sloths (Choloepus spp.) Fact Sheet - LibGuides
Oct 30, 2024 · Mating occurs throughout the year, though some observers detect a marked mating season in March and April · Females in estrus appear to initiate ...
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(PDF) Reproductive biology and postnatal development in sloths ...
Choloepus didactylus have a 10-month gestation period with an inter-birth interval of 16 months or more; young become independent around 12 months.
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Characterization of the ovarian cycle in the two-toed sloths ...
Jun 4, 2013 · The course of progesterone concentrations resulted in a cycle length of 4-5 weeks length in the two-toed sloth. Thus, the reproductive activity ...
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Southern two-toed sloth
It weighs between 4 and 11 kg. It has long fore- and hindlimbs that are almost equal in length. The forelegs have two large curved claws. Although their fur is ...
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Baby Sloths: Everything you always wanted to know
May 4, 2021 · Two-fingered sloths do not vocalize. Instead, both males and females mark their scent by rubbing ...
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Oldest sloth in captivity ever | Guinness World Records
A male Linne's two-toed sloth (Choloepus didactylus) named Jan – a resident at Krefeld Zoo in Germany since 30 April 1986 – was at least 54 years old as of ...Missing: Bolivia | Show results with:Bolivia
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Population & Conservation Status - Two-toed Sloths (Choloepus spp ...
Oct 30, 2024 · Population Status. No global population estimates (Plese and Chiarello 2014, Chiarello and Plese 2014). Conservation Status. IUCN. Choloepus ...Missing: density | Show results with:density
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https://seer.ufrgs.br/index.php/ActaScientiaeVeterinariae/article/view/122849
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Electrocution in a Sloth (Choloepus didactylus) - Clinical and ...
Nov 5, 2022 · In this way, the present This study aims to describe the treatment strategies in Choloepus didactylus victim of high voltage electrocution.Missing: lines | Show results with:lines
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Sloth metabolism may make survival untenable under climate ...
Sep 27, 2024 · Sloths are limited by the rate at which they can acquire energy and are unable to regulate core body temperature (Tb) to the extent seen in most ...
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Acute Fatal Gastric Dilatation and Volvulus in a Captive Adult ... - MDPI
It was fed a diverse diet that included animal protein, fruits, vegetables, and greens, with vitamin and mineral supplementation. After five years, the sloth ...
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[PDF] Patterns of mineral lick visitation by Linnaeus's two-toed sloth ...
Global conservation significance of Ecuador's Yasuní National Park. PLoS ONE ... and howler monkeys in Amazonia: Are licks perceived as risky areas?
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Sloth Problems (and how to solve them)
Here we detail the 7 biggest threats to wild sloth populations and explain what we are doing to help ... 2) Power line electrocutions. It is difficult to ...
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Release and follow-up of a rehabilitated two-toed sloth
Nov 23, 2022 · We present the first records of the post-release follow-up and monitoring of a rehabilitated two-toed sloth (Choloepus hoffmanni) as well as freezing behavior.
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Sloth Island, Guyana: in pursuit of the pale-throated sloth!
Hiding deep within the remote jungles of South America, there is an elusive and commonly overlooked species of sloth clinging onto survival.
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The Jaguar Rescue Center's Pilot Study on the Reproductive ...
Feb 8, 2024 · Insights into the reproductive biology of two-toed sloths, improvements to the efficacy of natural mating, and the development of artificial ...
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Genetic divergence and evidence of human‐mediated translocation ...
Jun 3, 2020 · We used microsatellite analysis to undertake the first exploratory investigation into sloth population genetics in Costa Rica.
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CITES Parties to deliberate potential listings of animals and plants in ...
Oct 15, 2025 · The outcomes of CoP20 are expected to set the course of international wildlife trade regulation for the next three years—and beyond— advancing ...Missing: toed sloth