This article's tone or style may not reflect the encyclopedic tone used on Wikipedia. (September 2019) (Learn how and when to remove this template message)
|Periophthalmus barbarus mudskippers in The Gambia|
Mudskippers are known for their unusual looks and the interesting abilities that they possess for being a fish that can survive both in and out of water. They can grow up to twelve inches long and most of them are a brownish green color that range anywhere from dark to light. During mating season the males will also develop brightly colored spots on them in order to attract the females. The spots can be red, green and even blue. They are also known for their protruding eyes found on the very top of their flat head. Their most noticeable feature however is their side pectoral fins that are located more forward and under their elongated body. These fins function a lot like the legs of a human or any other animal in that they allow the mudskipper to move from place to place. Although having the typical appearance of any other fish, these forward fins allow the mudskipper to “skip” across muddy surfaces and even give them the ability to climb trees and low branches. Because of these fins, mudskippers have also been found to be able to leap distances of up to two feet.
They typically live in burrows in intertidal habitats, and exhibit unique adaptations to this environment that are not found in most intertidal fishes, which typically survive the retreat of the tide by hiding under wet seaweed or in tide pools. These burrows are most often characterized by their smooth and vaulted ceilings. The way the males dig these burrows has been found to be directly linked to their ability to survive submerged in almost anoxic water. It has also been found to play a crucial role in the development of the eggs within the burrow. Mudskippers are quite active when out of water, feeding and interacting with one another, for example, to defend their territories and court potential partners. Once the male has completed digging his burrow he will resurface and will begin attempting to attract a female through assorted yet typical displays. These displays consist of body undulations, different postures and energetic movements in attempt to attract the female. Once the female has made her choice she will then proceed to follow the male into the burrow where she will lay hundreds of eggs and allow them to be fertilized. After fertilization occurs, the period of cohabitation between the male and female is rather short. Eventually, the female will leave and it is the male that ends up guarding the egg filled burrow from hungry predators.
Perhaps the most interesting trait of the mudskipper is their ability to both survive and thrive in and out of water. When leaving the water and moving into a more dry environment on land they are still able to breathe using water that is trapped inside their rather large gill chambers. They are also able to absorb oxygen from the lining of their mouth and throat allowing them to stay out of water for long periods of time. In fact, it has been discovered that they spend up to three quarters of their life on land. They are found in tropical, subtropical, and temperate regions, including the Indo-Pacific and the Atlantic coast of Africa.
Oxudercinae is sometimes classified within the family Gobiidae (gobies). Recent molecular studies do not support this classification, as oxudercine gobies appear to be paraphyletic relative to amblyopine gobies (Gobiidae: Amblyopinae), thus being included in a distinct "Periophthalmus lineage", together with amblyopines. Mudskippers can be defined as oxudercine gobies that are "fully terrestrial for some portion of the daily cycle" (character 24 in Murdy, 1989). This would define the species of the genera Boleophthalmus, Periophthalmodon, Periophthalmus, and Scartelaos as "mudskippers". However, field observations of Zappa confluentus suggest that this monotypic genus should be included in the definition.
Compared with fully aquatic gobies, these specialized fish present a range of peculiar anatomical and ethological adaptations that allow them to move effectively on land as well as in the water. As their name implies, these fish use their fins to move around in a series of skips.
Although mudskippers' fins do not have a joint homologous to the elbow, the joint between the radials and the fin rays serves a functionally analogous role.
The mudskipper pectoral fin differs from most actinopterygian fishes in that the radials of the mudskipper pectoral fin are elongate and protrude from the body wall. This unusual morphology creates a pectoral fin with two fin segments (the radials and the rays) and two movable hinge joints: a 'shoulder' joint where the cleithrum meets the radials and an 'intra-fin' joint where the radials meet the rays. In addition, ... the abductor superficialis muscle of the pectoral fin is divided into two sections (rather than being a single muscle, as is common with the rest of the Oxudercinae gobies) with one section inserting on the dorsal rays and the other section inserting on the ventral rays.
Mudskippers have the ability to breathe through their skin and the lining of their mouth (the mucosa) and throat (the pharynx); this is only possible when the mudskippers are wet, limiting them to humid habitats and requiring that they keep themselves moist. This mode of breathing, similar to that employed by amphibians, is known as cutaneous respiration. Another important adaptation that aids breathing while out of water is their enlarged gill chambers, where they retain a bubble of air. These chambers close tightly when the fish is above water, due to a ventromedial valve of the gill slit, keeping the gills moist, and allowing them to function while exposed to air. Gill filaments are stiff and do not coalesce when out of water.
Digging deep burrows in soft sediments allows the fish to thermoregulate, avoid marine predators during the high tide when the fish and burrow are submerged, and lay their eggs. When the burrow is submerged, several mudskipper species maintain an air pocket inside it, which allows them to breathe in conditions of very low oxygen concentration.
The genus Periophthalmus is by far the most diverse and widespread genus of mudskipper. Eighteen species have been described. Periophthalmus argentilineatus is one of the most widespread and well-known species. It can be found in mangrove ecosystems and mudflats of East Africa and Madagascar east through the Sundarbans of Bengal, Southeast Asia to Northern Australia, southeast China, and southern Japan, to Samoa and Tonga Islands. It grows to a length of about 9.5 cm  and is a carnivorous opportunist feeder. It feeds on small prey such as small crabs and other arthropods. However, a recent molecular study suggests that P. argentilineatus is in fact a complex of species, with at least three separate lineages, one in East Africa, and two in the Indo-Malayan region. Another species, Periophthalmus barbarus, is the only oxudercine goby that inhabits the coastal areas of western Africa.
- Richard van der Laan; William N. Eschmeyer & Ronald Fricke (2014). "Family-group names of Recent fishes". Zootaxa. 3882 (2): 001–230.
- Nelson, JS; Grande, TC & Wilson, MVH (2016). "Classification of fishes from Fishes of the World 5th Edition" (PDF). Retrieved 10 May 2018.
- Graham JB, ed. (1997). Air–breathing Fishes. Evolution, Diversity and Adaptation. San Diego California: Academic Press.
- Murdy EO (1989). "A Taxonomic Revision and Cladistic Analysis of the Oxudercine Gobies (Gobiidae: Oxudercinae)". Records of the Australian Museum. Suppl 11: 1–93. doi:10.3853/j.0812-7387.11.1989.93.
- Agorreta A.; San Mauro D.; Schliewen U. & Rüber L. (2013). "Molecular phylogenetics of Gobioidei and phylogenetic placement of European gobies". Molecular Phylogenetics and Evolution. 69 (3): 619–633. doi:10.1016/j.ympev.2013.07.017. PMID 23911892.
- Polgar G.; Sacchetti A. & Galli P. (2010). "Differentiation and adaptive radiation of amphibious gobies (Gobiidae: Oxudercinae) in semi-terrestrial habitats". Journal of Fish Biology. 77: 1645–1664. doi:10.1111/j.1095-8649.2010.02807.x.
- Harris VA (1960). "On the locomotion of the mudskipper Periophthalmus koelreuteri (Pallas): Gobiidae". Proceedings of the Zoological Society of London. 134: 107–35. doi:10.1111/j.1469-7998.1960.tb05921.x.
- Pace CM & Gibb AC (2009). "Mudskipper pectoral fin kinematics in aquatic and terrestrial environments". Journal of Experimental Biology. 212 (14): 2279–2286. doi:10.1242/jeb.029041. PMID 19561218.
- S. M. Kawano and R. W. Blob (August 2, 2013). "Propulsive Forces of Mudskipper Fins and Salamander Limbs during Terrestrial Locomotion: Implications for the Invasion of Land" (PDF). Integrative and Comparative Biology. 53: 283–294. doi:10.1093/icb/ict051. PMID 23667046.CS1 maint: uses authors parameter (link)
- Pace CM and Gibb AC (July 15, 2009). "Mudskipper pectoral fin kinematics in aquatic and terrestrial environments" (PDF). The Journal of Experimental Biology. 212: 2279–2286. doi:10.1242/jeb.029041. PMID 19561218.CS1 maint: uses authors parameter (link)
- Ecology of Kalimantan: Indonesian Borneo
- Tytler P, Vaughan T (1983). "Thermal Ecology of the Mudskippers Periophthalmus koelreuteri (Pallas) and Boleophthalmus boddaerti (Pallas), of Kuwait Bay". Journal of Fish Biology. 23 (3): 327–37. doi:10.1111/j.1095-8649.1983.tb02912.x.
- Sasekumar A, Chong VC, Lim KH, Singh HR (1994). "The Fish Community of Matang Mangrove Waters, Malaysia". In Sudara S, Wilkinson CR, Chou LM (eds.). Proceedings, Third ASEAN-Australia Symposium on Living Coastal Resources. Research papers. 2. Bangkok: Chulalonghorn University. pp. 457–64.
- Brillet C (1969). "Etude du comportement constructeur des poissons amphibies Periophthalmidae". Terre et la Vie (in French). 23 (4): 496–520.
- Ishimatsu A, Hishida Y, Takita T, Kanda T, Oikawa S, Takeda T, Khoo KH (1998). "Mudskipper Store Air in Their Burrows". Nature. 391 (6664): 237–8. doi:10.1038/34560.
- Ishimatsu A, Takeda T, Kanda T, Oikawa S, Khoo KH (2000). "Burrow environment of mudskippers in Malaysia". Journal of Biosciences. 11 (1–2): 17–28.
- Lee HJ, Martinez CA, Hertzberg KJ, Hamilton AL, Graham JB (2005). "Burrow air phase maintenance and respiration by the mudskipper Scartelaos histophorus (Gobiidae: Oxudercinae)". The Journal of Experimental Biology. 208 (Pt 1): 169–77. doi:10.1242/jeb.01361. PMID 15601887.
- Polgar G, Malavasi S, Cipolato G, Georgalas V, Clack JA, Torricelli P (2011). "Acoustic Communication at the Water's Edge: Evolutionary Insights from a Mudskipper". PLOS ONE. 6 (6): e21434. doi:10.1371/journal.pone.0021434. PMC 3125184. PMID 21738663.
- Larson HK, Takita T (2004). "Two new species of Periophthalmus (Teleostei: Gobiidae: Oxudercinae) from northern Australia, and a re-diagnosis of Periophthalmus novaeguineaensis". The Beagle, Records of the Museums and Art Galleries of the Northern Territory. 20: 175–85.
- Jaafar Z, Perrig M, Chou LM (2009). "Periophthalmus variabilis (Teleostei: Gobiidae: Oxudercinae), a valid species of mudskipper, and a re-diagnosis of Periophthalmus novemradiatus". Zoological Science. 26 (4): 309–14. doi:10.2108/zsj.26.309. PMID 19798926.
- Jaafar Z, Larson HL (2008). "A new species of mudskipper, Periophthalmus takita (Teleostei: Gobiidae: Oxudercinae), from Australia, with a key to the genus". Zoological Science. 25 (9): 946–52. doi:10.2108/zsj.25.946. PMID 19267605.
- Milward, NE (1974). Studies on the taxonomy, ecology and physiology of Queensland mudskippers (unpubl. Ph.D. dissertation ed.). Brisbane: University of Queensland.
- Polgar G, Zane L, Babbucci M, Barbisan F, Patarnello T, Rüber L, Papetti C (2014). "Phylogeography and demographic history of two widespread Indo-Pacific mudskippers (Gobiidae: Periophthalmus)". Molecular Phylogenetics and Evolution. 73: 161–76. doi:10.1016/j.ympev.2014.01.014.