Zaglossus bartoni was not considered a separate species until 1998 when Flannery and Groves published their paper establishing it as distinct from Zaglossus bruijni based on geographic location and morphology (Flannery and Groves, 1998). Fossil echidnas found in Australia and New Guinea date back to the Pleistocene and are very similar to living species (Griffiths et al., 1991).
The skin on the outside of the rostrum has a large number of electroreceptors (around 2000), which allow it to detect electrical signals to better locate their prey in the wet soil during the night (Map of Life, 2012). There is no available information on communication between Z. bartoni individuals.
Perception Channels: visual ; tactile ; chemical
As of 2011, the IUCN listed Zaglossus bartoni as a Critically Endangered species. This species is also listed on Appendix II of CITES. Population size has decreased by 80% over the last 45 to 50 years based on direct observation of their habitat. Though Z. bartoni lacks local native animal predators, the population is decreasing due to hunting and loss of habitat from the conversion of their habitat into agricultural land. Conservation management for Z. bartoni has been difficult due to the limited information on the ecology and breeding patterns of this species. The Papua New Guinea Institute of Biological Research has started a long-term conservation research project, headed by Muse Opiang. The goal is to illuminate the reproduction, ecology, and natural history of this species.
US Federal List: no special status
CITES: appendix ii
There are no known adverse effects of Z. bartoni on humans since their habitat is in areas with low population density.
Eastern long-beaked echidnas are hunted as a highly valued game species for native people in New Guinea due to its rarity and general inaccessibility. Their meat is considered a delicacy and echidna bodies can serve as “trophies” to native people.
Positive Impacts: food ; body parts are source of valuable material
Eastern long-beaked echidnas have similar ecology to species such as Phalanger carmelitae, Pseudochirops corinnae, Uromys anak, and Anisomys imitator. These are all medium-sized mammals living in mid-upper montane regions. This suggests that they are filling the same insectivorous, medium-sized mammal niche. The foraging depressions they create could become resource traps. In turn, this could affect soil biochemistry and nutrient circulation. Though there are no known ectoparasites for Z. bartoni, there are several known for Tachyglossus, and Z. bartoni may be carriers for these as well. Some of these parasites include fleas from the genera Echidnophaga, Pulex, Bradiopsylla, Stephanocircus, and ticks from the genera Aponomma, Ixodes, Haemaphysalis, and Amblyomma.
Ecosystem Impact: soil aeration
Eastern long-beaked echidnas are insectivores that forage at night and eat mostly earthworms and occasionally grubs.They have several adaptations for foraging, including a long snout and relatively large claws on the forefeet. They have a specific tongue adaptation for grabbing earthworms. There are three rows of sharp, spine-like structures at the back of its tongue, which enables them to more effectively grasp earthworms while foraging. The foraging method for obtaining grubs consists of tearing open logs with their claws to find the grubs and other “wood-boring” invertebrates. They dig for earthworms by using the combined effort of their snout and forelimbs. The method they use is called a “head press,” which is a probing technique in which they apply pressure to the wet soil, mostly from their long snout and partially from their forelimbs. The depression made by the head press creates a hole, which can be used to find earthworms. This foraging depression is larger and deeper than the one made by the short-beaked echidna.
Animal Foods: insects; terrestrial non-insect arthropods; terrestrial worms
Primary Diet: carnivore (Insectivore , Vermivore)
Eastern long-beaked echidnas are found east of the Paniai Lakes region of New Guinea. They are found in the Central Cordillera (the central highlands) and in the Huon Peninsula, both mountain ranges in New Guinea. Though they have a relatively wide distribution across New Guinea, they are sparsely populated throughout much of this range. Population estimates are not known.
Biogeographic Regions: australian (Native )
Other Geographic Terms: island endemic
Eastern long-beaked echidnas have an expansive altitudinal range from sea level to 4150 meters. Their habitat is generally limited to the cooler, mountain summits of New Guinea. They inhabit tropical montane forests and sub-alpine and alpine grasslands. Montane rainforests (1000 to 3000 m) are rich in wildlife and thick with trees. At higher elevations, in the sub-alpine and alpine grasslands (3000 m or higher), there is less diversity of flora and fauna. Eastern long-beaked echidnas live in burrows underground or in dense vegetation. When underground, the dens are covered with little vegetation and are usually found on slopes because it is easier for Z. bartoni to dig into them.
Range elevation: 0 to 4150 m.
Average elevation: 800-1500 m.
Habitat Regions: tropical ; terrestrial
Terrestrial Biomes: savanna or grassland ; forest ; rainforest ; mountains
The longest recorded lifespan is 30 years in captivity at the London Zoo. There is no doubt this species is particularly long-lived, especially for its size. A lifespan of 30 years is around double the lifespan that would be expected based on the body size of Z. bartoni.
Range lifespan
Status: captivity: 30 (high) years.
Eastern long-beaked echidnas are the largest living monotremes, usually weighing from 5 to 10 kilograms. They have long, dense black to dark brown fur and white spines that cover the entire dorsal surface of their body. Their spines can sometimes be obscured behind long fur. They have long, tubular rostra with an average length of 12.3 centimeters. Eastern long-beaked echidnas do not have teeth but they have a horny plate at the back of their mouth to help grind food. Both males and females have a cloaca: a single orifice for the passing of feces, urine, and eggs (in females) (Augee et al., 2006; Flannery and Groves, 1998). Eastern long-beaked echidnas are heterothermic endotherms; they depend on movement and shivering as a source of body heat. The lowest body temperature of a captive population was measured at 24.2 degrees Celsius. The highest body temperature was 34.2 degrees Celsius. The average body temperature of captive populations was in the low 30's. The basal metabolic rate was recorded at 24.41 kJ/hour (Grigg, 2003; McNab, 2008). Adults differ from the juvenile Z. bartoni in a variety of features. In the transition to adulthood, the sutures of the cranial bones close completely, the major basicranial foramina stay open but narrow with age, the rostrum lengthens, the posterior palate bones become more robust, and the narial opening becomes shorter and rounded posteriorly (Flannery and Groves, 1998). The presence of a spur sheath in Z. bartoni is indicative of a juvenile (Opiang, 2009; Rismiller, 1999).
The main morphological distinction between western long-beaked echidnas (Zaglossus bruijni) and eastern long-beaked echidnas is the difference in claw number on the forefoot. Eastern long-beaked echidnas have five claws on each forefoot, whereas western long-beaked echidnas have three to four claws on each forefoot, usually lacking claws on digits one and five. Cranial features also differ between the two species. The braincase of eastern long-beaked echidnas is as high as it is long, whereas western long-beaked echidnas never have braincases as high as they are long. Eastern long-beaked echidnas have smaller orbitotemporal fossae than western long-beaked echidnas and the posterior end of the palate is flattened in eastern long-beaked echidnas, but is a channel in western long-beaked echidnas. Eastern long-beaked echidnas usually have a cranium with a dorsal depression that lies between the rostrum and the braincase. Western long-beaked echidnas lack this feature. However, some eastern long-beaked echidnas lack the depression as well, so this feature is not diagnostic (Flannery and Groves, 1998).
There are four recognized subspecies, which exhibit substantial geographic variation. These subspecies are Z. bartoni bartoni, Z. bartoni clunius, Z. bartoni smeenki, and Z. bartoni diamondi. The subspecies differ in size, fur coloration/density, and geography. Based on cranial measurements, the smallest subspecies is Z. bartoni smeenki and the largest is Z. bartoni diamondi (Flannery and Groves, 1998). In terms of sexual dimorphism, males possess a spur on their ankle, which is lacking in females. This is often used for sex determination. However, some juvenile females possess the spur. Females are often larger than males, but there is not a significant difference in size. Female eastern long-beaked echidnas have significantly longer snouts than males (Opiang 2009).
Range mass: 5 to 16.5 kg.
Average mass: 6.5 kg.
Range length: 30 (low) cm.
Average length: 55.6 cm.
Other Physical Features: endothermic ; heterothermic ; bilateral symmetry
Sexual Dimorphism: female larger; sexes shaped differently; ornamentation
The building of an underground den is a measure of predator avoidance in Z. bartoni. Risk of predation and human hunting is lowere because these animals are elusive and cryptic. Another adaptation for defense from predators is their spines. This provides an armored exterior as protection from predation. Thylacinus is an extinct genus of carnivorous mammal, the Tasmanian wolf, that lived in the mountains of Papua New Guinea until the Holocene. They may have been a native predator when they co-occurred. Today there are no known native predators of Z. bartoni. However, feral domestic dogs Canis lupus familiaris, introduced a few thousand years ago, are known to occasionally prey on Z. bartoni and humans sometimes hunt them.
Known Predators:
Anti-predator Adaptations: cryptic
Monotremes lack external genitalia; therefore an investigation of the cloaca and/or palpation of the penial sack is necessary for a robust verification of sex. When breeding, male penises protrude from the cloaca, which is seen as a sign of sexual activity. It has been suggested that Z. bartoni is reproductively active in April and May since females have been found lactating during these months. The mating system is not reported.
Due to the solitary and obscure nature of eastern long-beaked echidnas, details about their reproduction are not well known. However, according to researchers and native New Guinean people its reproduction is similar to that of western long-beaked echidnas and short-beaked echidnas (Tachyglossus species). Native people have said they give birth to one echidna at a time, which would be consistent with western long-beaked echidnas accounts. Since they have similar reproduction, it can be inferred that breeding is seasonal (April/May). Females lay the eggs and the eggs hatch around 10 days later. Juveniles stay in the female’s pouch for another 6 to 7 weeks until the spines grow in and the young are weaned after around seven months.
Breeding interval: Eastern long-beaked echidnas breed once yearly.
Breeding season: Breeding occurs around April or May.
Average number of offspring: 1.
Average weaning age: 7 months.
Key Reproductive Features: iteroparous ; seasonal breeding ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; fertilization ; oviparous
Eastern long-beaked echidna females nurse and wean their young. Like other monotremes, mothers nurse young through pores connected to their mammary glands since they do not have nipples.
Parental Investment: altricial ; female parental care ; pre-fertilization (Provisioning, Protecting: Female); pre-hatching/birth (Provisioning: Female, Protecting: Female); pre-weaning/fledging (Provisioning: Female, Protecting: Female)
