- Classification
- ACTINOPTERYGII
- PERCIFORMES
- TOXOTIDAE
-
Fish Classification
-
Class
ACTINOPTERYGII Ray-finned fishes -
Order
PERCIFORMES Perches and allies -
Family
TOXOTIDAE Archerfishes -
Genera
Toxotes(4)
Family TOXOTIDAE
Archerfishes have an amazing ability to spit powerful jets of water at terrestrial insects and other animals to knock them into the water. They also shoot jets of water at the bottom sediment to dislodge buried prey.
The dorsal fin is far back on the body allowing archerfish to swim very close to the surface enabling them to clearly see their prey. They form a 'blow tube' or 'water pistol' by pressing their odd-shaped tongue up against a groove in the roof of the mouth. This allows archerfishes to accurately shoot powerful jets of water in a fraction of a second, and hit prey at distances of more than ten times their body length.
Watch a BBC video clip of a Sevenspot Archerfish, Toxotes chatareus, shooting a beetle down from a branch.
More Info
Family Taxonomy |
The family contains only the single genus Toxotes with 7 species. Four species are found in northern Australia (Allen, 2002). Allen (1978) reviewed the family and described a new species in 2004. |
Family Distribution |
Widespread in the tropical Indo-west Pacific from India to Vanuatu and northern Australia to the Philippines. They are commonly found in mangrove-lined estuaries and freshwater rivers, streams, lakes and lagoons. |
Family Description |
The palate of the mouth contains a deep longitudinal groove that becomes a tube when the tongue is pressed against the roof of the mouth. When the gill covers are suddenly compressed water is forced from the pharynx into this tube, and with the tip of the tongue acting as a valve, the flow of water, under pressure, is regulated. |
Family Size |
To a maximum length of 40 cm; most less than 25 cm. |
Family Feeding |
Archerfishes feed on insects and floating vegetation taken from the surface. They are renowned for their ability to "shoot" down insects from over-hanging vegetation. |
Family Commercial |
Archerfishes provide sport for recreational anglers and the flesh of large fish is considered good eating. They are also attractive and interesting aquarium fishes. |
Family Conservation |
A number of species have been assessed by the IUCN - International Union for the Conservation of Nature. |
Family Remarks |
Archerfishes are renowned for their ability to 'shoot' down insects from over-hanging vegetation. The palate contains a deep longitudinal groove that is converted to a tube when the tongue is pressed against the roof of the mouth. When the gill covers are suddenly compressed, water is forced from the pharynx into this tube, and with the tip of the tongue acting as a valve, the flow of water, under pressure, is regulated. Accurately shooting terrestrial prey not only requires oral dexterity, but also the ability to detect small camouflaged prey against a visually complex background of overhanging foliage (Temple et al., 2010). Because archerfish eyes remain below the water's surface during spitting, they must adapt to the optical demands of both aquatic and aerial fields of view. Temple and colleagues found that archerfish eyes have specieal adaptations for vision at the interface between air and water. |
Author |
Bray, D.J. 2022 |
References
Allen, G.R. 1978. A review of the archerfishes (family Toxotidae). Rec. West. Aust. Mus. 6(4): 355–378 figs 1–11
Allen, G.R. 2004. Toxotes kimberleyensis, a new species of archerfish (Pisces: Toxotidae) from fresh waters of Western Australia. Records of the Australian Museum 56(2): 225-230.
Allen, G.R., Midgley, S.H. & Allen, M. 2002. Field Guide to the Freshwater Fishes of Australia. Perth : Western Australian Museum 394 pp.
Allen, G.R., 2001. Toxotidae—archerfishes (pp. 3212–3215). In: Carpenter, K.E. & V.H. Niem (eds). FAO Species Identification Guide for Fishery Purposes. The Living Marine Resources of the Western Central Pacific. Vol. 5. Bony Fishes, part 3 (Menidae to Pomacentridae). Rome: FAO.
Bekoff, M. & Dorr, R. 1976. Predation by ’shooting’ in archer fish, Toxotes jaculatrix: accuracy and sequences. Bull. Psychonom. Soc. 7: 167–168.
Braekevelt, C.R. 1985. Fine structure of the retinal pigment epithelial region of the archerfish (Toxotes jaculatrix). Ophthal. Res. 17: 221–229.
Braekevelt, C.R. 1985. Photoreceptor fine structure in the archerfish (Toxotes jaculatrix). Am. J. Anat. 173: 89–98.
Dewenter J, Gerullis P, Hecker A, Schuster S. 2017. Archerfish use their shooting technique to produce adaptive underwater jets. Journal of Experimental Biology 220: 1019–25.
Dill, L.M. 1977. Refraction and the spitting behavior of the archerfish (Toxotes chatareus). Behavioural Ecology and Sociobiology 2:169–84.
Elshoud, G.C.A. & Koomen, P. 1985. A biomechanical analysis of spitting in archer fishes (Pisces, Perciformes, Toxidae). Zoomorphology 105: 240–52.
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, https://doi.org/10.1093/iob/obac013
Milburn, O., Alexander, R. & McN. 1976. The performance of the muscles involved in spitting by the archefish Toxotes. Journal of Zoology 180: 243–251.
Schlegel, T., Schmid C.J. & Schuster, S. 2006. Archerfish shots are evolutionarily matched to prey adhesion. Current Biology 16: R836–R837.
Schlosser, J.A. 1764. An account of a fish from Batavia called Jaculator: in a letter to Mr. Peter Collinson, F. R. S. from John Albert Schlosser, M. D. F. R. S. Phil. Trans. R. Soc. Lond. 54: 89–91.
Schuster, S. 2007. Archerfish. Current Biology 17: R494–5.
Schuster, S., Rossel, S., Schmidtmann, A., Jager, I. & Poralla, J. 2004. Archer fish learn to compensate for complex optical distortions to determine the absolute size of their aerial prey. Current Biology 14: 1565–1568.
Schuster, S., Wöhl, S., Griebsch, M. & Klostermeier, I. 2006. Animal cognition: how archer fish learn to down rapidly moving targets. Current Biology 16: 378–383.
Temple, S. E. 2007. Effect of salinity on the refractive index of water: considerations for archer fish aerial vision. Journal of Fish Biology 70: 1626–1629.
Temple, S., Hart, N.S., Marshall, J.N. & Collin, S.P. 2010. A spitting image: Specializations in archerfish eyes for vision at the interface between air and water. Proceedings of the Royal Society B - Biological Sciences 227 1694: 2607-2615
Timmermans, P.J.A. & Souren, P.M. 2004. Prey catching in archer fish: the role of posture and morphology in aiming behavior. Physiology and Behaviour 81: 101–110
Wöhl, S. & Schuster, S. 2007. The predictive start of hunting archer fish: a flexible and precise motor pattern performed with the kinematics of an escape C-start. Journal of Experimental Biology 210: 311–324.