Biology:Archerfish

From HandWiki
Short description: Family of fishes

Archerfish
Toxotes jaculatrix.jpg
Toxotes jaculatrix
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Perciformes
Family: Toxotidae
Cuvier, 1816
Genus: Toxotes
Cuvier, 1816
Type species
Labrus jaculator
Shaw, 1803

The archerfish (also known as spinner fish or archer fish) or Toxotidae are a monotypic family (although some include a second genus) of perciform tropical fish known for their unique predation technique of "shooting down" land-based insects and other small prey with jets of water spit from their specialized mouths. The family is small, consisting of ten species in a single genus, Toxotes. Most archerfish live in freshwater streams, ponds and wetlands, but two or three species are euryhaline, inhabiting both fresh and brackish water habitats such as estuaries and mangroves.[1][2] They can be found from India , Bangladesh and Sri Lanka, through Southeast Asia, to Melanesia and Northern Australia.[3]

Archerfish have deep and laterally compressed bodies, with the dorsal fin and the profile a straight line from dorsal fin to mouth. The mouth is protractile, and the lower jaw juts out. Sizes are fairly small, typically up to about 12–18 cm (5–7 in), but T. chatareus can reach 40 cm (16 in).[3][4]

Archerfish are popular exotic fish for aquaria,[5] but are difficult to feed and maintain by average fishkeepers since they prefer live prey over typical fish foods.

Capture of prey

Illustration of an archerfish shooting water at a bug on a hanging branch

File:Archer fish shooting at prey.ogv Archerfish are remarkably accurate in their shooting; an adult fish almost always hits the target on the first shot. Although it is presumed that all archerfish species do this, it has only been confirmed from T. blythii, T. chatareus and T. jaculatrix.[1] They can bring down insects and other prey[6] up to 3 m (10 ft) above the water's surface.[7] This is partially due to their good eyesight, but also to their ability to compensate for the refraction of light as it passes through the air-water interface when aiming at their prey.[8] They typically spit at prey at a mean angle of about 74° from the horizontal but can still aim accurately when spitting at angles between 45° and 110°.[9]

When an archerfish selects its prey, it rotates its eye so that the image of the prey falls on a particular portion of the eye in the ventral temporal periphery of the retina,[10] and its lips just break the surface, squirting a jet of water at its victim. The archerfish does this by forming a small groove in the roof of its mouth and its tongue into a narrow channel. It then fires by contracting its gill covers and forcing water through the channel, shooting a stream that, shaped by its mouth parts, travels faster at the rear than at the front. This speed differential causes the stream to become a blob directly before impact as the slower leading water is overtaken by the faster trailing water, and it is varied by the fish to account for differences in range. It also makes this one of the few animals that both make and use tools, as they both utilise the water and shape it to make it more useful to them.[11][12] They are persistent and will make multiple shots if the first one fails.[13]

Young archerfish start shooting when they are about 2.5 cm (1 in) long but are inaccurate at first and must learn from experience.[citation needed] During this learning period, they hunt in small schools. This way, the probability is enhanced that at least one jet will hit its target.[citation needed] A 2006 experimental study found that archerfish appear to benefit from observational learning by watching a performing group member shoot, without having to practice:

This instance of social learning in a fish is most remarkable as it could imply that observers can ‘‘change their viewpoint,’’ mapping the perceived shooting characteristics of a distant team member into angles and target distances that they later must use to hit.[8]

However, little of their social behaviour is currently known beyond that archerfish are sensitive to, and make changes to their shooting behaviour, when conspecifics are visible to them.[14] This is probably as a result of the potential threat of kleptoparasitism that other archerfish represent to a shooting fish.[15]

An archerfish will often leap out of the water and grab an insect in its mouth if it happens to be within reach. Individuals typically prefer to remain close to the surface of the water.[11]

New research has found that archerfish also use jets to hunt underwater prey, such as those embedded in silt. It is not known whether they learned aerial or underwater shooting first, but the two techniques may have evolved in parallel, as improvements in one can be adapted to the other.[16] This makes it an example of exaptation.

Species

Toxotes blythii

There are 9 valid species, 8 in the genus Toxotes:[1][3][17][18]

  • Protoxotes lorentzi Weber, 1910 - primitive archerfish
  • Toxotes blythii Boulenger, 1892 - clouded archerfish, zebra archerfish
  • Toxotes carpentariensis, Castelnau, 1878
  • Toxotes chatareus (Hamilton, 1822) - largescale archerfish, common archerfish
  • Toxotes jaculatrix (Pallas, 1767) - banded archerfish
  • Toxotes kimberleyensis Allen, 2004 - Kimberley archerfish, western archerfish
  • Toxotes microlepis Günther, 1860 - smallscale archerfish
  • Toxotes oligolepis Bleeker, 1876 - big scale archerfish
  • Toxotes sundaicus Kottelat & Tan, 2018

Timeline

<timeline> ImageSize = width:1000px height:auto barincrement:15px PlotArea = left:10px bottom:50px top:10px right:10px

Period = from:-65.5 till:10 TimeAxis = orientation:horizontal ScaleMajor = unit:year increment:5 start:-65.5 ScaleMinor = unit:year increment:1 start:-65.5 TimeAxis = orientation:hor AlignBars = justify

Colors =

#legends
 id:CAR	  value:claret
 id:ANK 	 value:rgb(0.4,0.3,0.196)
 id:HER	  value:teal
 id:HAD	  value:green
 id:OMN	  value:blue
 id:black        value:black
 id:white        value:white
 id:cenozoic     value:rgb(0.54,0.54,0.258)
 id:paleogene     value:rgb(0.99,0.6,0.32)
 id:paleocene     value:rgb(0.99,0.65,0.37)
 id:eocene     value:rgb(0.99,0.71,0.42)
 id:oligocene     value:rgb(0.99,0.75,0.48)
 id:neogene     value:rgb(0.999999,0.9,0.1)
 id:miocene     value:rgb(0.999999,0.999999,0)
 id:pliocene     value:rgb(0.97,0.98,0.68)
 id:quaternary   value:rgb(0.98,0.98,0.5)
 id:pleistocene   value:rgb(0.999999,0.95,0.68)
 id:holocene   value:rgb(0.999,0.95,0.88)

BarData=

bar:eratop
bar:space
bar:periodtop
bar:space
bar:NAM1
bar:space
bar:period
bar:space
bar:era

PlotData=

align:center textcolor:black fontsize:M mark:(line,black) width:25
shift:(7,-4)
bar:periodtop
from: -65.5   till:  -55.8    color:paleocene  text:Paleocene
from: -55.8   till:  -33.9    color:eocene  text:Eocene
from: -33.9   till:  -23.03    color:oligocene  text:Oligocene
from: -23.03    till: -5.332    color:miocene    text:Miocene
from: -5.332    till: -2.588    color:pliocene    text:Plio.
from: -2.588    till: -0.0117   color:pleistocene    text:Pleist.
from: -0.0117    till: 0    color:holocene    text:H.
bar:eratop
from: -65.5   till:  -23.03    color:paleogene  text:Paleogene
from: -23.03    till: -2.588    color:neogene    text:Neogene
from: -2.588    till: 0   color:quaternary    text:Q.

PlotData=

align:left fontsize:M mark:(line,white) width:5 anchor:till align:left
color:eocene bar:NAM1  from:	-55.8	till:	0	text:	Toxotes

PlotData=

align:center textcolor:black fontsize:M mark:(line,black) width:25
bar:period
from: -65.5   till:  -55.8    color:paleocene  text:Paleocene
from: -55.8   till:  -33.9    color:eocene  text:Eocene
from: -33.9   till:  -23.03    color:oligocene  text:Oligocene
from: -23.03    till: -5.332    color:miocene    text:Miocene
from: -5.332    till: -2.588    color:pliocene    text:Plio.
from: -2.588    till: -0.0117   color:pleistocene    text:Pleist.
from: -0.0117    till: 0    color:holocene    text:H.
bar:era
from: -65.5   till:  -23.03    color:paleogene  text:Paleogene
from: -23.03    till: -2.588    color:neogene    text:Neogene
from: -2.588    till: 0   color:quaternary    text:Q.

</timeline>

See also

References

  1. 1.0 1.1 1.2 Maurice Kottelat; Tan Heok Hui (2018). "Three new species of archerfishes from the freshwaters of Southeast Asia (Teleostei: Toxotidae) and notes on Henri Mouhot's fish collections". Ichthyological Exploration of Freshwaters IEF-952: 1–19. doi:10.23788/IEF-952. 
  2. Arthington, A., and McKenzie, F. "Review of Impacts of Displaced/Introduced Fauna Associated with Inland Waters. " Environment Australia Australia: State of the Environment Technical Paper Series (Inland Waters), Series 1, 1997. Accessed 2009-05-24.
  3. 3.0 3.1 3.2 Froese, Rainer and Pauly, Daniel, eds. (2017). Species of Toxotes in FishBase. December 2017 version.
  4. Johnson, G.D.; Gill, A.C. (1998). Paxton, J.R.. ed. Encyclopedia of Fishes. San Diego: Academic Press. pp. 189. ISBN 0-12-547665-5. 
  5. "Archer Fish (Toxotes jaculatrix)". liveaquaria. 2016-03-09. http://www.liveaquaria.com/product/prod_display.cfm?c=954+1600&pcatid=1600. 
  6. "River and wetland food webs in Australia's wet-dry tropics: general principles and implications for management". Marine and Freshwater Research Vol. 56, No. 3, 329–342. 2005-06-03. http://www98.griffith.edu.au/dspace/bitstream/10072/4430/1/29443.pdf. 
  7. ""Plastic flies help spitting archer fish regain aim" Telegraph.co.uk". The Telegraph. 2002-07-11. https://www.telegraph.co.uk/news/uknews/1401098/Plastic-flies-help-spitting-archer-fish-regain-aim.html. 
  8. 8.0 8.1 Schuster, S.; Wöhl, S.; Griebsch, M.; Klostermeier, I. (2006-02-21). "Animal Cognition:, How Archer Fish Learn to Down Rapidly Moving Targets". Current Biology (Current Biology Vol. 16, No. 4, 378–383) 16 (4): 378–383. doi:10.1016/j.cub.2005.12.037. PMID 16488871. http://www.nbb.cornell.edu/neurobio/department/reprints/Schuster%20et%20al.%202006.pdf. Retrieved 2014-05-31. 
  9. Temple, S. E. "Effect of salinity on the refracive index of water: considerations for archer fish aerial vision" 'Journal of Fish Biology' Vol 70, 1626–1629 2007.
  10. Temple, S.E., Hart, N. S., and Colin, S. P. "A spitting image: visual specializations of the arsherfish (Toxotes chatareus)" 'Brain Behaviour and Evolution' Vol. 73, 309 2009.
  11. 11.0 11.1 Milius, Susan; October (2014). "Archerfish mouth reveals spit secret". Science News 186 (7): 8. doi:10.1002/scin.2014.186007005. 
  12. "Spit Decision: How Archerfish Decide". WIRED. 19 November 2013. https://www.wired.com/2013/11/spit-decision-how-archerfish-decide/. 
  13. Timmermans, P.J.A (2000). "Prey Catching in the Archer Fish: Marksmanship, and Endurance of Squirting At an Aerial Target". Netherlands Journal of Zoology 50 (4): 411–423. doi:10.1163/156854200X00162. http://booksandjournals.brillonline.com/content/journals/10.1163/156854200x00162. Retrieved 2014-10-06. 
  14. Jones, N. A. R., Webster, M. M., Templeton, C. N., Schuster, S., & Rendell, L. (2018). Presence of an audience and consistent interindividual differences affect archerfish shooting behaviour. Animal Behaviour, 141, 95–103. https://doi.org/10.1016/j.anbehav.2018.04.024
  15. Davis, B. D., & Dill, L. M. (2012). Intraspecific kleptoparasitism and counter-tactics in the archerfish (Toxotes chatareus). Behaviour, 149(13–14), 1367–1394. https://doi.org/10.1163/1568539X-00003026
  16. "New Scientist: Spitting archerfish shoot at prey above and beneath the water". https://www.newscientist.com/article/2118582-spitting-archerfish-shoot-at-prey-above-and-beneath-the-water/. 
  17. Froese, Rainer, and Daniel Pauly, eds. (2017). "Toxotidae" in FishBase. December 2017 version.
  18. Girard, M G; Davis, M P; Tan, H H; Wedd, D J; Chakrabarty, P; Ludt, W B; Summers, A P; Smith, W L (2022). "Phylogenetics of archerfishes (Toxotidae) and evolution of the toxotid shooting apparatus". Integrative Organismal Biology 4 (1): obac013. doi:10.1093/iob/obac013. PMID 35814192. 

External links

Wikidata ☰ {{{from}}} entry