The Japanese giant salamander (''Andrias japonicus'') is a species of fully aquatic

giant salamander The Cryptobranchidae are a family of fully aquatic salamanders commonly known as the giant salamanders. They include the largest living amphibians. The family is native to China, Japan, and the eastern United States. They constitute one of two ...

endemic to Japan. With a length of up to ,''Andrias japonicus''
- Amphibiaweb it is the third-largest

salamander Salamanders are a group of amphibians typically characterized by their lizard-like appearance, with slender bodies, blunt snouts, short limbs projecting at right angles to the body, and the presence of a tail in both larvae and adults. All t ...

in the world, only being surpassed by the very similar and closely related Chinese giant salamander (''A. davidianus''). It is known in Japanese as , literally meaning "giant salamander". Other local names include ''Hanzaki'''','' ''Hanzake','' and ''Ankou''. This salamander was first catalogued by Europeans when the resident physician of

Dejima , in the 17th century also called Tsukishima ( 築島, "built island"), was an artificial island off Nagasaki, Japan that served as a trading post for the Portuguese (1570–1639) and subsequently the Dutch (1641–1854). For 220 years, i ...

Island in Nagasaki,

Philipp Franz von Siebold Philipp Franz Balthasar von Siebold (17 February 1796 – 18 October 1866) was a German physician, botanist and traveler. He achieved prominence by his studies of Japanese flora and fauna and the introduction of Western medicine in Japan. He w ...

, captured an individual and shipped it back to

Leiden Leiden (; in English and archaic Dutch also Leyden) is a city and municipality in the province of South Holland, Netherlands. The municipality of Leiden has a population of 119,713, but the city forms one densely connected agglomeration w ...

in the Netherlands, in the 1820s. The species was designated as a special natural monument in 1951, and is federally protected. It is one of the only six species of giant salamanders in the world.

Description

The Japanese giant salamander can grow to a length of and a weight of . The largest wild specimen on record weighed and was long. It is the third-largest amphibian in the world, only smaller than its close relatives, the

South China giant salamander The South China giant salamander (''Andrias sligoi'') may be the largest species of salamander and the largest amphibian in the world. It is Endemism, endemic to southern China, mainly in the Pearl River (China), Pearl River basin south of the Na ...

and the Chinese giant salamander. The brown and black mottled skin of ''A. japonicus'' provides camouflage against the bottoms of streams and rivers. Its body surface is covered with numerous small warts with distinctive warts concentrating on its head. It has very small eyes with no eyelids and poor eye sight. Its mouth extends across the width of its head, and can open to the width of its body. ''A. japonicus'' possesses large skin folds on its neck that effectively increase its overall body surface area. This assists in epidermal gas exchanges, which in turn regulates carbon dioxide and oxygen exchange with the water. Capillaries in the surface of the skin facilitate this gas exchange. The skin folds along each side of the body are more pronounced in the hellbender than in the Japanese giant salamander. The Japanese giant salamander can be distinguished from the Chinese giant salamander by the arrangement of

tubercles In anatomy, a tubercle (literally 'small tuber', Latin for 'lump') is any round nodule, small eminence, or warty outgrowth found on external or internal organs of a plant or an animal. In plants A tubercle is generally a wart-like projection, ...

on the head and throat. The tubercles are larger and more numerous compared to the mostly single and irregularly scattered tubercles of the Chinese giant salamander. The snout is also more rounded, and the tail is slightly shorter. Adult males develop enlarged cloacal glands during the breeding season. Compared to an adult female, an adult male typically possesses a larger and wider head in proportion to its body. It is difficult to distinguish sex outside of the breeding season.

Distribution

The Japanese giant salamander occurs in southwestern Japan (west of Gifu Prefecture in

Honshu , historically called , is the largest and most populous island of Japan. It is located south of Hokkaidō across the Tsugaru Strait, north of Shikoku across the Inland Sea, and northeast of Kyūshū across the Kanmon Straits. The island s ...

and parts of

Shikoku is the smallest of the four main islands of Japan. It is long and between wide. It has a population of 3.8 million (, 3.1%). It is south of Honshu and northeast of Kyushu. Shikoku's ancient names include ''Iyo-no-futana-shima'' (), '' ...

and

Kyushu is the third-largest island of Japan's five main islands and the most southerly of the four largest islands ( i.e. excluding Okinawa). In the past, it has been known as , and . The historical regional name referred to Kyushu and its surround ...

). In particular, Okayama, Hyogo, Shimane, Tottori, Yamaguchi, Mie, Ehime, Gifu, and Ōita Prefecture are known to harbor its robust populations. They are typically found in fast-flowing mountain streams of these prefectures. It has been speculated that some of the populations in Wakayama Prefecture were introduced by humans and it is unknown whether naturally-distributed populations exist in Wakayama Prefecture. The Japanese giant salamander occurs in freshwater habitats ranging from relatively large river (20-50 m) to small headwater streams (0.5 - 4 m). Smaller breeding adults tend to use small headwater streams presumably in order to avoid intraspecific competition with larger individuals in larger streams. Mark-recapture records suggest that giant salamanders migrate between a mainstem and tributaries of the same river. Environmental DNA surveys and the following physical field surveys suggest that small headwater streams likely serve as important habitats for juveniles and larvae. While habitat degradation threatens the Japanese giant salamander, it can inhabit disturbed streams surrounded by agriculture fields such as rice paddy fields. Adults appear to do well in a stream surrounded by rice paddy fields because rice paddy fields provide habitats for frogs, which serve as primary diet for adult giant salamanders in such a stream. However, streams surrounded by rice paddy fields are typically characterized by agricultural dams and concrete stream banks, which likely imposes a negative impact on their reproduction and thus result in low recruitment.

Behavior

Japanese giant salamanders in Tottori Prefecture, Japan

The Japanese giant salamander is restricted to

stream A stream is a continuous body of surface water flowing within the bed and banks of a channel. Depending on its location or certain characteristics, a stream may be referred to by a variety of local or regional names. Long large streams ...

s with clear, cool water. Due to its large size and lack of gills, it is confined to flowing water where

oxygen Oxygen is the chemical element with the symbol O and atomic number 8. It is a member of the chalcogen group in the periodic table, a highly reactive nonmetal, and an oxidizing agent that readily forms oxides with most elements ...

is abundant. it is entirely aquatic and almost entirely

nocturnal Nocturnality is an animal behavior characterized by being active during the night and sleeping during the day. The common adjective is "nocturnal", versus diurnal meaning the opposite. Nocturnal creatures generally have highly developed sens ...

. Unlike typical pond-breeding salamanders whose juveniles migrate to land after losing their

gill A gill () is a respiratory organ that many aquatic organisms use to extract dissolved oxygen from water and to excrete carbon dioxide. The gills of some species, such as hermit crabs, have adapted to allow respiration on land provided they ar ...

s through metamorphosis, it stays in the aquatic habitat even after metamorphosis and breaches its head above the surface to obtain air without venturing out of the water and onto land. The salamander also absorbs oxygen through its skin, which has many folds to increase surface area. When threatened, the Japanese giant salamander can excrete a strong-smelling, milky substance. It has very poor eyesight, and possesses special sensory cells covering its skin, running from head to toe, the

lateral line The lateral line, also called the lateral line organ (LLO), is a system of sensory organs found in fish, used to detect movement, vibration, and pressure gradients in the surrounding water. The sensory ability is achieved via modified epithelial ...

system. These sensory cells' hair-like shapes detect minute vibrations in the environment, and are quite similar to the

hair cell Hair cells are the sensory receptors of both the auditory system and the vestibular system in the ears of all vertebrates, and in the lateral line organ of fishes. Through mechanotransduction, hair cells detect movement in their environment. ...

s of the human inner ear. This feature is essential for hunting prey due to its poor eyesight. Adults feed mainly on freshwater crabs, other crustaceans, worms, insects, frogs, and fish. It has a very slow

metabolism Metabolism (, from el, μεταβολή ''metabolē'', "change") is the set of life-sustaining chemical reactions in organisms. The three main functions of metabolism are: the conversion of the energy in food to energy available to run ...

and can sometimes go for weeks without eating. It lacks natural competitors. It is a long-lived species, with the captive record being an individual that lived in the Natura Artis Magistra, the

Netherlands ) , anthem = ( en, "William of Nassau") , image_map = , map_caption = , subdivision_type = Sovereign state , subdivision_name = Kingdom of the Netherlands , established_title = Before independence , established_date = Spanish Netherl ...

, for 52 years. In the wild, it may live for nearly 80 years.

Lifecycle

The Japanese giant salamander remains in bodies of water its entire life. During the mating season, typically in late August and early September, sexually mature males start actively finding suitable nesting sites and often migrate upstream into smaller sections of the river or its tributaries. Because of the limited availability of suitable nesting sites, only large and competitive males are able to occupy nesting sites and become den masters. A den master diligently cleans his den guards his den against intruders including other males who try to steal the den while allowing a sexually active female enter the den. Mating begins as the female starts laying eggs and the den master starts releasing sperm, which often stimulate other subordinate males hiding around the den to enter the den and join the mating. As a result, a single female often mates with multiple males. The den master stays in the den with the fertilized eggs while the other males and the female leave the den. He provides parental care for the embryos by guarding the eggs and fanning water over them with his tail to increase oxygen flow. The den-master continues providing parental care for the hatchlings until the following spring when the larvae start dispersing from the nest. Researchers also observed that den masters consumed eggs and larvae that showed the sign of failed fertilization, death, or

water mold Oomycota forms a distinct phylogenetic lineage of fungus-like eukaryotic microorganisms, called oomycetes (). They are filamentous and heterotrophic, and can reproduce both sexually and asexually. Sexual reproduction of an oospore is the resul ...

infection. The researchers termed the behavior of selectively eating his own eggs or larvae "hygienic filial cannibalism" and hypothesize that this behavior importantly increases the survivorship of the remaining offspring by preventing water mold infection on the dead offspring from spreading over the healthy offspring.

Conservation

Threats

The Japanese giant salamander is threatened by pollution,

habitat loss Habitat destruction (also termed habitat loss and habitat reduction) is the process by which a natural habitat becomes incapable of supporting its native species. The organisms that previously inhabited the site are displaced or dead, thereby ...

(among other changes, by the

silting Siltation, is water pollution caused by particulate terrestrial clastic material, with a particle size dominated by silt or clay. It refers both to the increased concentration of suspended sediments and to the increased accumulation (temporary or ...

up of the rivers where it lives), dams and concrete banks, and invasive species. In particular, it is important to note that the construction of concrete streambanks and agricultural dams throughout the distribution range has imposed a significant negative impact on giant salamanders. Concrete banks have deprived of habitats suited for nesting sites, and dams block migration paths and have caused habitat fragmentation. With the ongoing climate change, it is predicted that frequency and intensity of rainstorms in Japan will increase. These rainstorms will likely destroy stream banks more frequently, which could result in the construction of more flood-control dams and concrete banks.

Introgressive hybridization Introgression, also known as introgressive hybridization, in genetics is the transfer of genetic material from one species into the gene pool of another by the repeated backcrossing of an interspecific hybrid with one of its parent species. Introg ...

between the native Japanese giant salamander and the introduced Chinese (or South China) giant salamander is one of the major conservation challenges. It has been suggested that although the details are not known, the Chinese giant salamanders imported for food to Japan in 1972 were the sources of the ongoing introgressive hybridization. In Kamo River in Kyoto Prefecture, the study conducted from 2011 to 2013 found that 95% of the captured giant salamanders were hybrids. The introgressive hybridization appears to be spreading across several watersheds. In some regions, giant salamanders used to be hunted as a source of food, but hunting has ceased because of the protection acts established after

World War II World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the World War II by country, vast majority of the world's countries—including all of the great power ...

.Naturalis Biodiversity Center (NL)"> File:Andrias japonicus (Temminck, 1836) 2434418468.jpg File:Andrias japonicus (Temminck, 1836) 2434418468 (2).jpg File:Andrias japonicus (Temminck, 1836) 2434418468 (3).jpg File:Andrias japonicus (Temminck, 1836) 2434418468 (4).jpg File:Andrias japonicus (Temminck, 1836) 2434418468 (5).jpg

Status

As of 2022 the Japanese giant salamander is considered Vulnerable by

IUCN The International Union for Conservation of Nature (IUCN; officially International Union for Conservation of Nature and Natural Resources) is an international organization working in the field of nature conservation and sustainable use of natu ...

, and is included on

CITES CITES (shorter name for the Convention on International Trade in Endangered Species of Wild Fauna and Flora, also known as the Washington Convention) is a multilateral treaty to protect endangered plants and animals from the threats of intern ...

Appendix I. It is considered Vulnerable by the Japanese Ministry of the Environment. Additionally, it has been given the highest protection as a “Special Natural Monument” by the Japanese Agency for Cultural Affairs since 1952 due to its cultural and educational significance.

Efforts

Despite the national protection and conservation status, there have been no conservation programs or actions initiated by the government agencies. Instead, nonprofit organizations such as th
Japanese Giant Salamander Society
an
the Hanzaki Research Institute of Japan
have organized volunteers to conduct population assessments in some areas. The Japanese Giant Salamander Society also organizes annual meetings to promote the conservation education and information sharing about the species. There is no range-wide conservation or recovery program, which is essential to the conservation of the species whose populations have been declining throughout its range. The Hiroshima City Asa Zoological Park of Japan was the first domestic organization to successfully breed Japanese giant salamanders in captivity. Several of their offspring were given to the National Zoo of the United States to establish a breeding program. Although Asa Zoological Park has not released any offspring to streams, it has a capacity to carry out a headstarting program if needed.

Cultural references

Hanagami Danjo no jo Arakage fighting a giant salamander

The Japanese giant salamander has been the subject of legend and artwork in Japan, for example, in the ''

ukiyo-e Ukiyo-e is a genre of Japanese art which flourished from the 17th through 19th centuries. Its artists produced woodblock prints and paintings of such subjects as female beauties; kabuki actors and sumo wrestlers; scenes from history and folk ta ...

'' work by

Utagawa Kuniyoshi Utagawa Kuniyoshi ( ja, 歌川国芳, ; January 1, 1798 – April 14, 1861) was one of the last great masters of the Japanese ukiyo-e style of woodblock prints and painting.Nussbaum, Louis Frédéric ''et al'' (2005). "Kuniyoshi" in He was ...

. The well-known Japanese mythological creature known as the ''kappa'' may be inspired by the Japanese giant salamander. There is a giant salamander festival every year on August 8 in Yubara, Maniwa City, Okayama prefecture to honour the animal and celebrate its life. The giant salamanders are called "Hanzaki" in Yubara, due to the belief that even if they are ripped in half (han) they continue to survive. There are two giant salamander floats: a dark male and a red female. As of 2017, a picture book entitled "Zakihan" was also published in both Japanese and English wherein the main character is a "hanzaki" called "Zakihan".

References

External links

*
''Andrias japonicus''
at CalPhotos
Discovery Channel Video on the giant salamander

BBC report
{{Taxonbar, from=Q112045 Cryptobranchidae Endemic amphibians of Japan Amphibians described in 1836