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Short-finned eel

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Short-finned eel
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Anguilliformes
Family: Anguillidae
Genus: Anguilla
Species:
A. australis
Binomial name
Anguilla australis

The short-finned eel (Anguilla australis), also known as the shortfin eel, is one of the 15 species of eel in the family Anguillidae. It is native to the lakes, dams and coastal rivers of south-eastern Australia, New Zealand, and much of the South Pacific, including New Caledonia, Norfolk Island, Lord Howe Island, Tahiti, and Fiji.

Description

The dorsal and anal fins are similar in length

The body is long and snakelike, roughly tubular and the head is small, with the jaws reaching back to below the eye or further. The dorsal (top) and anal (bottom) fins are of roughly equal length. The colour varies considerably from one individual to another; a deep olive-green is typical but it can be much lighter; golden or even (rarely) yellowish. There are no markings of note, but the underside is pale, often silvery, and the fins greenish. When full grown, they reach about 90 cm. The short-finned eel has a typical regeneration time of 15 to 30 years for females and it reaches a maximum size of about 1.1 m and 3 kg. Males tend to be slower growing and reach a smaller adult size.[1] Anguillid eels are undifferentiated gonochoristic fish.[2] This means that the sex of the animal is determined from an undifferentiated gonad. Differentiation then occurs and an eel becomes male or female, and this is generally correlated to the size (20.0–22.5 cm) of the animal not its age.

Distribution and habitat

They are common throughout the lowlands of New Zealand, including both Chatham and Stewart Island/Rakiura, but tend not to ascend as far inland as long-finned eels. In Australia, they are restricted to the area on the seaward side of the Great Dividing Range, from about Mount Gambier in the south-eastern corner of South Australia, through Victoria, Tasmania, the Bass Strait islands and up the eastern seaboard to the Richmond River in northern New South Wales. Unable to scale the Great Divide, and not extending as far west as the outlet of the Murray River, they are excluded from the thousands of miles of waterways that drain inland eastern Australia. A. Australis is the most widely distributed longitudinally of the Anguillid eels where its larvae can be found just south of Fiji to the North-west of Australia in the SEC region (14.5–21°S, 154–179.5°E)[3] (For a comparison with northern hemisphere eels, in particular the European eel, see eel life history.) The larvae drift on the ocean currents and eventually reach coastal waters, where they metamorphose into elvers (tiny, semi-transparent eels). From there, they migrate upstream, traversing numerous obstacles — if necessary, leaving the water and travelling short distances over moist ground. They are well fitted to this task, being able to absorb 50% of the oxygen they need through the skin. Eventually, they take up residence in a lake, swamp, dam or river, typically occupying a home range of about 400 m in length, where they remain until they reach maturity at about 14 years for males and 18 to 24 years for females.

Feeding

They are carnivorous, eating crustaceans, fish, frogs and even small birds.

Life history

Like the other anguillids, short-finned eels are catadromous: when they reach maturity, they stop feeding and migrate downstream to the sea, then anything up to three or four thousand kilometres to a spawning ground in deep water somewhere in the Coral Sea off New Caledonia. The larvae recruit from the sea as small adults when they lack colour and are transparent-giving them the name 'glass eel'. Tropical species have year round recruitment where temperate species such as the short-finned eel have strong seasonal recruitment.[4] Recent evidence that has utilised analytical microchemical techniques in eel otoliths has suggested that eels are facultatively catadromous rather than obligatory. Discrete populations of ocean and estuarine residents exist, that very rarely enter freshwater.[5]

Reproductive biology

The reproductive biology of these eels has remained elusive during the marine phase. Much is known about the longer freshwater phase from the juvenile to puberal stage, but much less is known about the marine stage[6] Newer research has identified that tropical species such as A. reinhardtii have a shorter larval migration and faster corresponding growth, suggesting a water temperature effect on growth.[3]

Like other anguillids, short-finned eels are remarkably hardy: they can tolerate high water temperatures and low oxygen concentrations, endure long periods without food, and bury themselves in mud or sand and enter an energy-saving torpor when the water temperature drops below 10°C. They are one of the few Australian freshwater fish to have coped well with the wholesale introduction of European and American species.

Commercial fisheries

Global capture of short-finned eel in tonnes reported by the FAO, 1950–2009[7]

Eel farming

Eel farming was trialled in New Zealand in the 1970s[1] but had limited success. However, the implementation of new technology has made farming a viable option once more, with greater production efficiency. NIWA (National Institute of Water and Atmospheric Research) has begun developing culture and husbandry techniques in freshwater, and will also be investigating trials in saltwater.

Decline of wild seed

The main reason that the aquaculture of Anguillid eels has become more popular in recent times is that the wild seed supply cannot support the demand of the consumer. Because of declining catches of both the European and Japanese glass eels, seed from the short-finned eels is at a commercial premium.[5] The increasing pressure on eels has led to reduced recruitment of juveniles of angullid species which limits the industry and potentially leads to ecological impacts.[6] Supply of seed to aquaculture operations of these eels relies solely on wild stocks of glass eels. These stocks are declining and there is now pressure being placed on the development of intensive eel culture technology. Anguillid eels cannot be reared from eggs in a culture setting, it is the glass eels caught from wild stock that are reared.

Aquaculture of the short-finned eel

History

Extensive systems of aquaculture to farm the short-finned eel were developed by the Gunditjmara people of western Victoria, Australia, dating to at least 7,000 years ago in the wetlands created by the Tyrendarra lava flow of the Budj Bim volcano. Today, the areas are protected by three Budj Bim heritage areas.[8] The eel was known as kooyang in the Gunditjmara language.[9][10]

Current industry

Since short-finned eels make excellent eating, there is global demand for them. The major market is Japan with smaller markets in other parts of Asia and in Europe. Aquaculture is the single fastest growing animal food producing sector in the world, having an annual growth rate of 6.9%. The worldwide production of Anguillid eels from aquaculture is estimated to be 242 000 t per annum with a value of $US 1 billion.[2] Chinese eel aquaculture production has increased dramatically over the last 10 years, now accounting for 75% of the total annual world production, and relies on the demand of the Japanese market.

Techniques for artificial breeding of the Japanese eel "A. japonica" have been studied intensively since the 1960s. It is difficult to rear these animals in captivity, the main problem being incomplete techniques for inducing sexual maturation and incomplete rearing techniques of larvae.[11]

However the main way that full growth of oocytes is achieved is by repeated injections of salmon pituitary extracts,[11] and also additions of other hormones.

Development of the industry

The important factors for developing and growing this industry are having viable and reliable seed sources, as well as understanding the basic biology of the animal. This includes an understanding of the times at which spawning in freshwater occurs as well as maintaining a sustainable catch of any given population. New Zealand is in a unique position where the shortfin eel stock, despite heavy exploitation, show little evidence of decline nationally.[1] New Zealand is therefore in a position to enhance global production of shortfin eels and relieve pressure on other stocks around the world in countries such as China, Japan, Korea and Taiwan where aquaculture potential has been limited.[12]

Most eel culture facilities utilise freshwater. However a saltwater eel farm operated in Bristol in the United Kingdom for 15 years, using warm seawater growing eels to a marketable size in 18–24 months (it was shut down for economic reasons.)[2]

Water temperature has a notable effect on the metabolic activity of fish species. Anguillids can withstand a wide variety of temperatures but the optimum temperature in cultured species is between 22 °C and 28 °C- at this temperature growth is maximised[5] Recent work has determined that the optimal water temperature is for maximal growth of short-finned eels is 26.5 °C, and salinity is optimum at 17.5%. These parameters were shown to give the highest mean specific growth rate of these eels.[5] It has been shown in the European eel that they achieve higher growth when in saline.[3] Much research continues in this area.

Sustainability of aquaculture operations

A major problem in the sustainability of aquaculture of these eels is controlling reproduction and larval development. Culture conditions have a skewed male sex ratio from a small body size.This size difference between sexes is seen in eels housed within a tank. Males are smaller than females and some size difference extends 3g-270g.[5] Many fisheries therefore concentrate on females, except for the Lake Ellesmere (New Zealand) fishery which consists of a two-thirds male catch.[1] The goal of many aquaculture operations is to favour female development, the most common way is by the addition of hormones however this is not favoured in all areas of the world.[2]

As food

Short-finned eels make excellent eating and have long been esteemed as an important food. The consumption of short-finned eels is a longstanding tradition in many Pacific nations, including Japan, Australia and New Zealand.

Prior to European settlement at least two Aboriginal Australian nations, the Gunditjmara and the Djab wurrung from Western Victoria, farmed eels on a large scale, trading smoked eel with distant communities in return for other goods.

For the Māori people of New Zealand, starved of protein after the extinction of New Zealand megafauna, the short-finned eel was a significant food resource. They had a highly developed fishery for freshwater eels before the arrival of Europeans. Māori people had an extensive knowledge of the ecology of eels and harvested them through a variety of techniques. Present-day recreational anglers catch and eat them regularly, and New Zealand has a well-established commercial eel fishery. Māori are now concerned that the commercial fishery is compromising their ability to harvest short-finned eels for ceremonial purposes.[1]

References

  1. ^ a b c d e Jellyman, D. J (2007). "Status of New Zealand fresh-water eel stocks and management initiatives". ICES Journal of Marine Science. 64 (7): 1379–1386. doi:10.1093/icesjms/fsm073.
  2. ^ a b c d Kearney, M. (2009). "Aquaculture potential of the New Zealand shortfin (Anguilla australis) and longfin eel (A. dieffenbachii)". University of Auckland.
  3. ^ a b c Kuroki, M., Aoyama, J., Miller, M. J., Watanabe, S., Shinoda, A., Jellyman, D. J.; et al. (2008). "Distribution and early life-history characteristics of anguillid leptocephali in the western South Pacific". Marine and Freshwater Research. 59 (12): 1035–1047. doi:10.1071/mf08041.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  4. ^ Jellyman, D. J., Booker, D. J., & Watene, E. (2009). "Recruitment of Anguilla spp. glass eels in the Waikato River, New Zealand. Evidence of declining migrations?". Journal of Fish Biology. 74 (9): 2014–2033. doi:10.1111/j.1095-8649.2009.02241.x. PMID 20735686.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  5. ^ a b c d e Kearney, M., Jeffs, A., & Lee, P (2008). "Effects of salinity and temperature on the growth and survival of New Zealand shortfin, Anguilla australis, and longfin, A. dieffenbachii, glass eels". Aquaculture Research. 39 (16): 1769–1777. doi:10.1111/j.1365-2109.2008.02053.x.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  6. ^ a b Lokman, P. M., & Young, G. (2000). "Induced spawning and early ontogeny of New Zealand freshwater eels (Anguilla dieffenbachii and A. australis)". New Zealand Journal of Marine and Freshwater Research. 34: 135–145. doi:10.1080/00288330.2000.9516921. S2CID 85243813.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  7. ^ Based on data sourced from the FishStat database, FAO.
  8. ^ "National Heritage Places - Budj Bim National Heritage Landscape". Australian Government. Dept of Agriculture, Water and the Environment. Retrieved 9 March 2020. See also attached documents: National Heritage List Location and Boundary Map, and Government Gazette, 20 July 2004.
  9. ^ "World heritage Places - Budj Bim Cultural Landscape". Australian Government. Dept of the Environment and Energy. 6 July 2019. Retrieved 30 January 2020.
  10. ^ Neal, Matt. "Ancient Indigenous aquaculture site Budj Bim added to UNESCO World Heritage list". ABC News. Australian Broadcasting Corporation. Retrieved 6 July 2019.
  11. ^ a b Kagawa, H., Tanaka, H., Ohta, H., Unuma, T., & Nomura, K. (2005). "The first success of glass eel production in the world: Basic biology on fish reproduction advances new applied technology in aquaculture". Fish Physiology and Biochemistry. 31 (2–3): 193–199. doi:10.1007/s10695-006-0024-3. PMC 3233899. PMID 20035458.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  12. ^ Skehan, B. W., & Silva, S. S. D. (1998). Aspects of the culture-based fishery of the shortfinnedeel, Anguilla australis, in western Victoria, Australia. Journal of Applied Ichthyology, 14(1–2), 23–30.

Further reading