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Amami rabbit

The Amami rabbit (Pentalagus furnessi), also known as the Ryukyu rabbit, is a and endangered lagomorph species endemic to the subtropical islands of and in the Ryukyu Archipelago of southern . This dark-furred , often called a "living fossil" due to its basal position in the family and morphological similarities to Pleistocene ancestors, features a stocky build with short rounded ears (about 45 mm long), small eyes, a short tail (20-35 mm), and large digging claws up to 20 mm in length; adults typically measure 45 cm in body length and weigh 2-2.9 kg, with females slightly larger than males. It retains traits such as a more rodent-like skull structure, and has the typical lagomorph dental formula of 2/1, 0/0, 3/2, 3/3 = 28, distinguishing it from more derived hare-like species. The Amami rabbit inhabits primary and secondary forests, as well as fern-dominated grasslands, in a subtropical climate with high annual rainfall exceeding 2,800 mm; it prefers areas with dense vegetation for cover and forages nocturnally within home ranges of about 1 . Its diet consists primarily of grasses, ferns such as Dicranopteris pedata, and fallen acorns from trees like Castanopsis sieboldii, supplemented possibly by coprophagy to maximize nutrient extraction. Behaviorally solitary and elusive, it uses burrows or tree hollows for shelter, communicates through high-pitched vocalizations (6-12 kHz) and hind-foot thumping, and exhibits seasonal breeding peaks in and autumn, producing litters in leaf-lined natal burrows after an estimated of around 39 days. Classified as Endangered on the due to its restricted range (less than 1,000 km²) and ongoing population decline, the Amami rabbit faces severe threats from loss due to and , as well as predation by such as feral cats and dogs; while the was a major predator, it was successfully eradicated from in 2024, though it remains a threat on . Current estimates place the population at 2,000-4,800 individuals on and 120-300 on , a reduction from earlier figures of 2,500-5,800 since the ; it has been protected as a Special in since 1963, with conservation efforts focusing on restoration and control. Fossils indicate its persistence since the (about 30,000 years ago), underscoring its evolutionary significance as one of the world's rarest rabbits.

Taxonomy and etymology

Taxonomy

The Amami rabbit is scientifically classified under the binomial name Pentalagus furnessi, originally described as Caprolagus furnessi by Witmer Stone in 1900 based on specimens from the . The name was later amended to its current form by Marcus Ward Lyon in 1904, establishing the genus Pentalagus. In the taxonomic hierarchy, P. furnessi belongs to Kingdom Animalia, Phylum Chordata, Class Mammalia, Order Lagomorpha, Family Leporidae, Subfamily Leporinae, and Genus Pentalagus, which is monotypic containing only this species. This classification reflects its position among primitive lagomorphs within the Leporidae family. A distinctive genetic feature of P. furnessi is its diploid chromosome number of 2n=46, with a fundamental number of 80, differing from the typical 2n=44 observed in most other leporids; this karyotype consists of 10 meta- to submetacentric pairs, 8 subtelocentric pairs, and 5 acrocentric pairs. The type specimen, cataloged as ANSP 20645 at the Academy of Natural Sciences of Drexel University in Philadelphia, was collected from Amami Ōshima Island, Japan, with the type locality originally noted as the "Liu Kiu Islands" but subsequently restricted to this site.

Etymology

The scientific name of the Amami rabbit is Pentalagus furnessi. The genus name Pentalagus derives from words penta (five) and lagos (hare), referring to the species' five upper cheek teeth, a primitive characteristic with only 2–3 molars (instead of 3) per side of the upper jaw, distinguishing it from other leporids that typically have six. The specific epithet furnessi honors American anthropologist William Henry Furness III (1866–1920), who co-discovered the species in 1896 during an expedition to the alongside H.M. Hiller; specimens collected in the 1890s formed the basis for its formal in 1900 by Witmer Stone as Caprolagus furnessi, later reclassified into the Pentalagus by Marcus Ward Lyon Jr. in 1904. The common English name "Amami rabbit" originates from the species' exclusive occurrence on Island, one of the in southern . It is alternatively known as the "Ryukyu rabbit" in reference to the broader Ryukyu archipelago. In Japanese, the name is Amami no kuro usagi (奄美の黒兎), translating to "Amami black rabbit," which highlights the animal's characteristically dark, blackish-brown fur.

Evolutionary history

Fossil record

The Amami rabbit (Pentalagus furnessi) represents an ancient lagomorph lineage, descending from the extinct Pliopentalagus, which flourished during the to epochs approximately 11 to 2.6 million years ago across . Fossils of Pliopentalagus species, such as P. huainanensis and newly described forms, have been recovered from multiple sites in Anhui Province, China, spanning the late through the , indicating a widespread continental distribution before the ' extinction on the mainland. This ancestral group is characterized as a "living fossil" precursor to Pentalagus, exhibiting minimal morphological evolution in the descendant species over millions of years, with shared primitive traits including relatively short ears and adaptations for burrowing, such as robust forelimbs and elongated claws evident in and postcranial remains. Fossil evidence linking Pliopentalagus to P. furnessi extends to , where related lagomorph remains from the - transition display primitive leporid features, such as simplified cheek patterns and burrowing-specialized limb proportions, found in deposits from central (e.g., the Kobiwako Group) and further afield in , underscoring the genus' broad Holarctic range prior to regional extinctions. In , the earliest direct fossils attributable to P. furnessi consist of two isolated teeth (a right M¹ and left P³) from cave deposits on Island, dated to roughly 30,000–18,000 years ago, confirming the species' presence in the during the . These specimens exhibit dental morphology nearly identical to modern P. furnessi, reinforcing the minimal evolutionary change since divergence from Pliopentalagus. The isolation of P. furnessi's ancestors in the likely occurred via episodic land bridges connecting the archipelago to the Eurasian mainland during the Pleistocene (2.58 million to 11,700 years ago), when lowered sea levels facilitated faunal dispersal amid glacial cycles. Following mainland extinction of Pliopentalagus by the end of the , the Pentalagus lineage persisted as a in the subtropical Ryukyus, with post-glacial inundation around 20,000–10,000 years ago severing connections and promoting endemic evolution. This timeline aligns with broader patterns of Pleistocene vertebrate migrations to the Ryukyus, where P. furnessi survived environmental shifts that eliminated its continental relatives.

Phylogenetic relationships

The Amami rabbit (Pentalagus furnessi) represents a primitive lineage within the family . This status is evident in its morphological traits, such as short ears and a robust build, which retain ancestral characteristics more akin to those of pikas (family Ochotonidae) than to derived modern rabbits like those in the genus Lepus. The species forms its own monotypic genus. Earlier genetic studies using mitochondrial DNA sequences, including the 12S ribosomal RNA and cytochrome b genes, placed P. furnessi as a sister group to the remaining leporid genera in phylogenetic trees with strong bootstrap support (78% neighbor-joining, 91% maximum parsimony), estimating the split from other leporids in the middle Miocene, approximately 12–16 million years ago. However, more recent mitochondrial analyses from 2025 indicate a closer relationship: one study found it as sister to Oryctolagus cuniculus with high bootstrap support (>90%), while another placed it closer to Brachylagus monticularis with a divergence time of approximately 7 million years ago (95% HPD: 3.57–10.59 mya). Additionally, the Amami rabbit's unique karyotype, characterized by a diploid number of 46 chromosomes and a fundamental number of 80 (including the X chromosome), further supports its distinct evolutionary trajectory and isolation from other leporids, many of which have 2n=44. Phylogenetically, P. furnessi shows the closest affinities to extinct Asian lagomorphs, particularly the genus Pliopentalagus, from which it diverged; Pliopentalagus once ranged across but became extinct by the end of the . This connection highlights the Amami rabbit's status as a , preserving traits from ancient leporid ancestors that disappeared elsewhere on the mainland.

Physical characteristics

Morphology

The Amami rabbit (Pentalagus furnessi) is a medium-sized lagomorph characterized by a compact, robust body structure. Its head-body length measures 397–530 mm, with an average of approximately 450 mm, while the tail is notably short at 20–35 mm. Adult weights range from 2.0 to 2.9 kg in the wild, averaging 2.2 kg for males and 2.5 kg for females, though individuals in captivity average slightly less at 2.1–2.2 kg. These dimensions contribute to its stocky build, distinguishing it from more elongated leporids. The skeletal and limb features emphasize a burrowing-oriented . The hind feet are short, measuring 80–92 mm, and the limbs feature heavy, curved claws up to 20 mm long—nearly straight on the forefeet and more curved on the hind feet—for digging. The and are short and robust, with the shorter than the , and the metatarsals are among the broadest in the family. Additionally, the transverse processes of the are broad, supporting a stable, powerful frame for subterranean activities. The vertebral formula is C7, T12, L7, S4, Ca10–11, totaling 40–41 vertebrae. Head morphology includes short, rounded ears averaging 44–45 mm in length and small eyes suited to its forested environment. The is low, flat, and broad between the orbits, with a short, heavy rostrum, well-developed blunt superorbital processes, short broad nasals, and very small auditory bullae; cranial measurements include a greatest length of 76.1–85.4 mm and zygomatic breadth of 38.0–42.2 mm. The primitive dental formula is I 2/1, C 0/0, P 3/2, M 2–3/3 (total 26–28 teeth), with P2 featuring three grooves and the most complex enamel crenulation among leporids; the third upper is sometimes absent. This underscores its basal phylogenetic position within the family. Sexual dimorphism is minimal, with females generally slightly larger than males in body mass and certain linear measurements, such as ear and hind foot length, though overall proportions remain similar. Males exhibit scrotal dimensions of 21.8–29.5 mm in length and 9.4–14.8 mm in width, while females possess three pairs of mammae.

Adaptations

The Amami rabbit exhibits specialized fur coloration and texture that enhance its survival in the dense, shaded of subtropical forests. Its pelage is thick and woolly, ranging from dark brown to black on the surface with reddish-brown flanks, which provides effective against the dim forest floor and reduces visibility to predators. The species compensates for its limited eyesight, characterized by small eyes, through heightened reliance on other sensory modalities, including a strong for detecting food and threats in its nocturnal environment. Locomotor adaptations include short but robust legs and hind limbs suited to the rugged terrain, enabling short bursts of running or to evade danger rather than sustained leaping like mainland lagomorphs. Additionally, it produces brief vocalizations, consisting of 3-4 short calls lasting 0.4-0.6 seconds at frequencies of 6-12 kHz, to signal predators or communicate with offspring. Burrowing is facilitated by large, curved foreclaws up to 20 mm long and strong shoulder musculature, allowing the rabbit to excavate simple underground dens and escape tunnels in hard for shelter and predator avoidance. These burrows, often sealed with and for added concealment, serve as primary refuges during the day. For in its humid subtropical , the dense layer insulates against moisture and moderate temperature fluctuations. As a primitive lagomorph, the Amami rabbit exhibits a slow life history , evidenced by its slow growth and delayed maturation—taking up to five times longer than in related species such as the Japanese hare—which conserves energy in a resource-limited island ecosystem. This K-selected life history , including dense limb bones with thick cortices for in steep terrain, underscores its adaptations to low-predation, isolated conditions.

Distribution and habitat

Geographic range

The Amami rabbit (Pentalagus furnessi) is endemic to two islands in the Ryukyu Archipelago of southern : , which spans 712 km², and , which covers 248 km². No wild populations exist outside these islands, as the species has not been successfully introduced elsewhere due to its specialized ecological requirements. Historically, the rabbit's range on likely encompassed a broader expanse of dense primary forests across the island, but current distribution is markedly reduced and fragmented, covering approximately 301–370 km² as of surveys in the early 2000s. On , the historical range was similarly more continuous, but it was estimated at about 33 km² based on 2009 surveys, though recent studies indicate slight recovery with occupation of new areas as of 2023, with isolated patches resulting from alterations. The primary population on is concentrated in the northern and central regions, including areas around Kawauchi, Sumiyo, and Mount Yuwan, where suitable forested habitats persist. In contrast, on , smaller and more isolated groups occupy fragmented forested areas, particularly in the southern portions near Mount Amagi, reflecting greater subdivision into distinct northern and southern segments.

Habitat preferences

The Amami rabbit (Pentalagus furnessi) primarily inhabits subtropical moist broadleaf forests, characterized by a mosaic of mature Castanopsis sieboldii-dominated stands and secondary growth areas with Miscanthus sinensis grasslands. These forests provide essential cover and foraging opportunities, with the species favoring areas where dense evergreen broadleaf vegetation, including Distylium racemosum and Schima liukiuensis, forms a thick canopy and understory. The rabbit occurs across elevations from sea level to approximately 700 m, predominantly in mountainous regions up to 694 m on Amami Ōshima and 645 m on Tokunoshima. At the microhabitat level, Amami rabbits select dense vegetation for concealment and predator avoidance, often utilizing burrows in well-drained, forested valleys or steep, slopes within 100–200 m of feeding sites. Recent surveys indicate selection for steep slopes near forests, farmlands, and rivers, likely to minimize predation by habu pit vipers. These burrows, typically not well-hidden, serve as daytime refuges, with individuals emerging nocturnally to forage. The avoids open grasslands and human-modified landscapes, preferring intact forests over cleared or agricultural areas, though it may venture to forest edges with for seasonal resources. The of the Amami and Islands supports this habitat, with mean annual temperatures around 21°C and ranging from 2,500 to 3,000 mm, fostering year-round moisture and lush vegetation. Amami rabbits use forested areas consistently throughout the year for shelter, but increase foraging in Miscanthus sinensis-dominated grasslands during non-breeding periods, particularly summer, to access abundant herbaceous growth.

Behavior and ecology

Activity patterns

The Amami rabbit (Pentalagus furnessi) exhibits a strictly nocturnal , emerging from its burrows approximately 1–2 hours after sunset and remaining active until pre-dawn, with peak activity occurring between 1900 and 0400 hours. During the day, individuals rest in burrows or hidden locations to avoid detection. This pattern aligns with the species' secretive lifestyle in dense subtropical forests, where they travel 100–200 m from burrows along runways on steep slopes, occasionally climbing inclines up to 70° using their long nails. Amami rabbits maintain a solitary outside of periods, with individuals occupying non-overlapping home ranges for females (averaging 1.0 ha) and slightly larger, overlapping ranges for males (averaging 1.3 ha) that extend into female territories. Locomotion is characterized by quiet hopping to minimize noise in the forest understory, supplemented by hind-limb thumping against the as an to alert others of potential threats. Communication is primarily auditory and infrequent, consisting of short vocalizations resembling pika calls (e.g., "puyi" at 6–12 kHz) emitted at dusk or when disturbed. In response to predators like the habu viper (Trimeresurus flavoviridis) or introduced mongooses, rabbits employ freezing behavior or rapid flight to burrows for cover, facilitated by their low population density of approximately 6–16 individuals per km² across their ~300 km² range on Amami Ōshima. Wild lifespan is estimated to exceed 10 years based on bone growth ring analysis, longer than typical for lagomorphs.

Reproduction and diet

The Amami rabbit exhibits seasonal polyestry, with breeding primarily occurring in November–December and May. The period is unknown but estimated at around 39 days based on the closely related (Romerolagus diazi). Litter sizes are small, typically consisting of 1 young (rarely 2), based on limited observations. is notably delayed compared to other lagomorphs, with individuals reaching reproductive age at around 5 years, roughly five times longer than related species like the Japanese hare; this slow maturation, revealed in a 2025 study, likely reduces overall reproductive output and contributes to the species' vulnerability. Parental care is provided solely by females, with no observed male involvement in rearing. Females construct specialized birthing s about 30 cm in diameter, lined with leaves, approximately one week prior to delivery. occurs nocturnally, with mothers visiting the burrow every other night for brief sessions lasting 2-3 minutes, during which they remain vigilant against predators such as snakes before resealing the entrance. Young are altricial at birth—hairless, blind, and helpless—and remain dependent in the nest for 38-43 days before emerging; full independence follows at around 3 months, though prolonged care supports their gradual development. As a herbivorous folivore, the Amami rabbit consumes a diverse array of vegetation, with individual diets encompassing 17-38 plant species from a broader pool of over 85 operational taxonomic units identified across the population. Preferred foods include the sprouts of grasses such as Miscanthus sinensis, acorns from Castanopsis sieboldii, and bark from various shrubs and trees, alongside ferns like Dicranopteris pedata and herbaceous plants such as Pouzolzia hirta. The species practices cecotrophy, reingesting soft, nutrient-rich fecal pellets to maximize extraction from fibrous material. A 2025 dental microwear texture analysis confirmed specialized adaptations for processing tough vegetation, with enamel surfaces showing low roughness indicative of year-round consumption of mechanically demanding plants comparable to bamboo and dry grass. Foraging is selective and nocturnal, aligning with the rabbit's crepuscular activity patterns, as individuals browse within a limited home range extending up to 200 meters from burrows to minimize predation risk while targeting fresh leaves, shoots, and bark. This behavior supports a stable intake suited to their subtropical habitat, emphasizing dietary plasticity amid seasonal vegetation changes.

Conservation status

Population and threats

The population of the Amami rabbit (Pentalagus furnessi) is fragmented into isolated subpopulations across its limited range on and islands. As of 2021, estimates based on fecal pellet counts and surveys indicate approximately 10,000–35,000 individuals on and 2,800 on , yielding a total of roughly 13,000–38,000 rabbits. These figures reflect a recovery from earlier lows of 2,000–4,800 on in 2003, driven by conservation interventions, though no recent range expansion has occurred and ongoing fragmentation limits connectivity. Prior to the , the primary threat to the Amami rabbit was habitat loss due to and , which reduced suitable and isolated populations. predators pose a continued major risk, including the ( auropunctatus) introduced to in 1979 to control venomous habu snakes (Trimeresurus spp.), which decimated rabbit numbers until its complete eradication in 2024; mongooses remain a threat on . Feral cats and dogs, present due to human encroachment, cause high juvenile mortality through predation, exacerbating population vulnerability. Low , resulting from historical bottlenecks and fragmentation, further increases susceptibility to diseases and environmental changes. A 2025 study revealed exceptionally delayed , taking about five years—far longer than in related lagomorphs—due to insular resource limitations, which slows reproductive rates and heightens overall risk.

Protection and efforts

The Amami rabbit (Pentalagus furnessi) is classified as Endangered on the of since 1996. In , it was designated a in 1921, prohibiting hunting, and elevated to Special Natural Monument status in 1963, providing enhanced legal protections under national law. Conservation efforts include the establishment of Amami Guntō National Park in 2017, which encompasses a significant portion of the species' range across and islands to safeguard habitats. A major initiative has been the (Urva auropunctata) eradication program, launched in 2000 and spanning over two decades, which successfully eliminated the invasive predator from —the largest island ever cleared of this species—announced in September 2024 after six years without detections. Habitat restoration efforts involve planting native subtropical forest species to restore mosaic woodlands essential for the rabbit's foraging and shelter needs. Feral predator control measures target remaining threats like stray cats. A pioneering parasite conservation program for the co-endangered Ryukyu rabbit tick (Haemaphysalis pentalagi) achieved its first captive breeding success in 2025, producing three generations to prevent co-extinction with the host rabbit. Population monitoring employs camera traps to document activity and distribution, supplemented by fecal DNA analysis for non-invasive genetic and dietary assessments. Captive breeding trials have been limited, with early experiments yielding only isolated successes due to high stress levels in confined individuals. These interventions have yielded positive outcomes, including a rebound in native bird populations on Amami Ōshima following removal, as documented in 2024 surveys, which indirectly benefits the ecosystem supporting Amami rabbits through reduced predation pressure.