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Wrasse

April 08, 2024

For other uses, see Wrasse (disambiguation).

The wrasses are a family, Labridae, of marine fish, many of which are brightly colored. The family is large and diverse, with over 600 species in 81 genera, which are divided into 9 subgroups or tribes.[1][2][3] They are typically small, most of them less than 20 cm (7.9 in) long, although the largest, the humphead wrasse, can measure up to 2.5 m (8.2 ft). They are efficient carnivores, feeding on a wide range of small invertebrates. Many smaller wrasses follow the feeding trails of larger fish, picking up invertebrates disturbed by their passing.[4] Juveniles of some representatives of the genera Bodianus, Epibulus, Cirrhilabrus, Oxycheilinus, and Paracheilinus hide among the tentacles of the free-living mushroom corals and Heliofungia actiniformis.[5][6]

Wrasses
Moon wrasse, Thalassoma lunare, a typical wrasse
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Labriformes
Family: Labridae
G. Cuvier, 1816
Genera

See text.

Taxonomy edit

Etymology edit

The word "wrasse" comes from the Cornish word wragh, a lenited form of gwragh, meaning an old woman or hag, via Cornish dialect wrath. It is related to the Welsh gwrach and Breton gwrac'h.[7]

Subgroups and tribes edit

  • Cheilines
  • Hypsigenyines
  • Julidines
  • Labrichthyines
  • Labrines
  • Novaculines
  • Pseudocheilines
  • Pseudolabrines
  • Scarines

Genera edit

Timeline edit

QuaternaryNeogenePaleogeneHolocenePleist.Plio.MioceneOligoceneEocenePaleocenePimelometoponOxyjulisBodianusCheilinusSymphodusLabrusLabrodonQuaternaryNeogenePaleogeneHolocenePleist.Plio.MioceneOligoceneEocenePaleocene

Description edit

 
Lips of Labrus festivus

Wrasses have protractile mouths, usually with separate jaw teeth that jut outwards.[8] Many species can be readily recognized by their thick lips, the inside of which is sometimes curiously folded, a peculiarity which gave rise to the German name of "lip-fishes" (Lippfische),[9] and the Dutch name of lipvissen. The dorsal fin has eight to 21 spines and six to 21 soft rays, usually running most of the length of the back. Wrasses are sexually dimorphic. Many species are capable of changing sex. Juveniles are a mix of males and females (known as initial-phase individuals), but the largest adults become territory-holding (terminal-phase) males.[8]

The wrasses have become a primary study species in fish-feeding biomechanics due to their jaw structures. The nasal and mandibular bones are connected at their posterior ends to the rigid neurocranium, and the superior and inferior articulations of the maxilla are joined to the anterior tips of these two bones, respectively, creating a loop of four rigid bones connected by moving joints. This "four-bar linkage" has the property of allowing numerous arrangements to achieve a given mechanical result (fast jaw protrusion or a forceful bite), thus decoupling morphology from function. The actual morphology of wrasses reflects this, with many lineages displaying different jaw morphology that results in the same functional output in a similar or identical ecological niche.[8]

Distribution and habitat edit

Most wrasses inhabit the tropical and subtropical waters of the Atlantic, Indian, and Pacific Oceans, though some species live in temperate waters: the Ballan wrasse is found as far north as Norway. Wrasses are usually found in shallow-water habitats such as coral reefs and rocky shores, where they live close to the substrate.

Reproductive behavior edit

Most labrids are protogynous hermaphrodites within a haremic mating system.[10][11] A good example of this reproductive behavior is seen in the California sheephead. Hermaphroditism allows for complex mating systems. Labroids exhibit three different mating systems: polygynous, lek-like, and promiscuous.[12] Group spawning and pair spawning occur within mating systems. The type of spawning that occurs depends on male body size.[11] Labroids typically exhibit broadcast spawning, releasing high numbers of planktonic eggs, which are broadcast by tidal currents; adult labroids have no interaction with offspring.[13] Wrasses of a particular subgroup of the family Labridae, Labrini, do not exhibit broadcast spawning.

Sex change in wrasses is generally female-to-male, but experimental conditions have allowed for male-to-female sex change. Placing two male Labroides dimidiatus wrasses in the same tank results in the smaller of the two becoming female again.[14] Additionally, while the individual to change sex is generally the largest female,[15] evidence also exists of the largest female instead "choosing" to remain female in situations in which she can maximize her evolutionary fitness by refraining from changing sex.[16]

Broodcare behavior of the tribe edit

The subgroup Labrini arose from a basal split within family Labridae during the Eocene period.[3] Subgroup Labrini is composed of eight genera, wherein 15 of 23 species exhibit broodcare behavior,[13] which ranges from simple to complex parental care of spawn; males build algae nests or crude cavities, ventilate eggs, and defend nests against conspecific males and predators.[13] In species that express this behavior, eggs cannot survive without parental care.[17] Species of Symphodus, Centrolabrus, and Labrus genera exhibit broodcare behavior.

Cleaner wrasse edit

 
Cleaner wrasses, Labroides sp., working on gill area of dragon wrasse Novaculichthys taeniourus, on a reef in Hawaii

Cleaner wrasses are the best-known of the cleaner fish. They live in a cleaning symbiosis with larger, often predatory, fish, grooming them and benefiting by consuming what they remove. "Client" fish congregate at wrasse "cleaning stations" and wait for the cleaner fish to remove gnathiid parasites, the cleaners even swimming into their open mouths and gill cavities to do so. A single wrasse works for around four hours a day and in that time can inspect more than 2,000 clients.[18]

Cleaner wrasses are best known for feeding on dead tissue, scales, and ectoparasites, although they are also known to 'cheat', consuming healthy tissue and mucus, which is energetically costly for the client fish to produce. The bluestreak cleaner wrasse, Labroides dimidiatus, is one of the most common cleaners found on tropical reefs. Few cleaner wrasses have been observed being eaten by predators, possibly because parasite removal is more important for predator survival than the short-term gain of eating the cleaner.[19]

When cleaner wrasses were experimentally removed from a reef in Australia, the total number of fish species halved, and their numbers fell by three-quarters. Also, some evidence, from another Australian study, shows that cleaned fish are smarter than those not served by the wrasse.[18]

In a 2019 study, cleaner wrasses passed the mirror test, the first fish to do so.[20] However, the test's inventor, American psychologist Gordon G. Gallup, has said that the fish were most likely trying to scrape off a perceived parasite on another fish and that they did not demonstrate self-recognition. The authors of the study retorted that because the fish checked themselves in the mirror before and after the scraping, this meant that the fish had self-awareness and recognized that their reflections belonged to their own bodies.[21][22][23]

Tool use edit

Studies show that some wrasse species are capable of tool use, using rocks to smash open sea urchins.[24][25]

Significance to humans edit

In the Western Atlantic coastal region of North America, the most common food species for indigenous humans was the tautog, a species of wrasse.[9] Wrasses today are commonly found in both public and home aquaria. Some species are small enough to be considered reef safe. They may also be employed as cleaner fish to combat sea-lice infestations in salmon farms.[26] Commercial fish farming of cleaner wrasse for sea-lice pest control in commercial salmon farming has developed in Scotland as lice busters, with apparent commercial benefit and viability.

Parasites edit

As all fish, labrids are the hosts of a number of parasites. A list of 338 parasite taxa from 127 labrid fish species was provided by Muñoz and Diaz in 2015.[27] An example is the nematode Huffmanela ossicola.

Gallery edit

References edit

  1. ^ Parenti, Paolo; Randall, John E. (15 April 2011). "Checklist of the species of the families Labridae and Scaridae: an update". Smithiana Bulletin. 13: 29–44.
  2. ^ Parenti, Paolo; Randall, John E. (June 2000). "An annotated checklist of the species of the labroid fish families Labridae and Scaridae". Ichthyological Bulletin. 68: 1–97. hdl:10962/d1019894. ISSN 0073-4381.
  3. ^ a b Cowman, P.F.; Bellwood, D.R.; van Herwerden, L. (2009). "Dating the evolutionary origins of wrasse lineages (Labridae) and the rise of trophic novelty on coral reefs". Molecular Phylogenetics and Evolution. 52 (3): 621–631. doi:10.1016/j.ympev.2009.05.015. PMID 19464378.
  4. ^ Choat, J.H.; Bellwood, D.R. (1998). Paxton, J.R.; Eschmeyer, W.N. (eds.). Encyclopedia of Fishes. San Diego: Academic Press. p. 211. ISBN 978-0-12-547665-2.
  5. ^ Bos, Arthur R (2012). "Fishes (Gobiidae and Labridae) associated with the mushroom coralHeliofungia actiniformis (Scleractinia: Fungiidae) in the Philippines". Coral Reefs. 31: 133. doi:10.1007/s00338-011-0834-3.
  6. ^ Bos, AR; Hoeksema, BW (2015). "Cryptobenthic fishes and co-inhabiting shrimps associated with the mushroom coral Heliofungia actiniformis (Fungiidae) in the Davao Gulf, Philippines". Environmental Biology of Fishes. 98 (6): 1479–1489. doi:10.1007/s10641-014-0374-0. S2CID 254466578.
  7. ^ "Wrasse | Define Wrasse at Dictionary.com". Dictionary.reference.com. Retrieved 2012-06-28.
  8. ^ a b c Wainwright, Peter C.; Alfaro, Michael E.; Bolnick, Daniel I.; Hulsey, C. Darrin (2005). "Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?". Integrative and Comparative Biology. 45 (2): 256–262. doi:10.1093/icb/45.2.256. PMID 21676769.
  9. ^ a b Chisholm, Hugh, ed. (1911). "Wrasse" . Encyclopædia Britannica. Vol. 28 (11th ed.). Cambridge University Press. p. 839.
  10. ^ Robertson, D.R.; Warner, R.R. (1978). "Sexual patterns in the labroid fishes of the Western Caribbean II: the parrotfishes (Scaridae)". Smithsonian Contributions to Zoology. 255 (255): 1–26. doi:10.5479/si.00810282.255.
  11. ^ a b Kazancioglu, E.; Alonzo, S.H. (2010). "A comparative analysis of sex change in Labridae supports the size advantage hypothesis". Evolution. 64 (8): 2254–226. doi:10.1111/j.1558-5646.2010.01016.x. PMID 20394662.
  12. ^ Colin, P.L.; Bell, L. J. (1992). "Aspects of the spawning of labrid and scarid fishes (Pisces, Labroidei) at Enewetak Atoll, Marshall Islands with notes on other families (corrected reprint.)". Environmental Biology of Fishes. 33 (3): 330–345. doi:10.1007/BF00005881.
  13. ^ a b c Hanel, R.; Westneat, M. W.; Sturmbauer, C. (December 2002). "Phylogenetic relationships, evolution of broodcare behavior, and geographic speciation in the Wrasse tribe Labrini". Journal of Molecular Evolution. 55 (6): 776–789. doi:10.1007/s00239-002-2373-6. PMID 12486536. S2CID 3002410.
  14. ^ Kuwamura, T.; Tanaka, N.; Nakashima, Y.; Karino, K.; Sakai, Y (2002). "Reversed sex-change in the protogynous reef fish Labroides dimidiatus". Ethology. 108 (5): 443–450. doi:10.1046/j.1439-0310.2002.00791.x.
  15. ^ Munday, P. L.; Ryen, C. A.; McCormick, M. I.; Walker, S. P. W. (2009). "Growth acceleration, behaviour and otolith check marks associated with sex change in the wrasse Halichoeres miniatus". Coral Reefs. 28 (3): 623–634. doi:10.1007/s00338-009-0499-3. S2CID 38928952.
  16. ^ Munoz, R. C.; Warner, R. R. (2003). "A new version of the size-advantage hypothesis for sex change: incorporating sperm competition and size-fecundity skew". American Naturalist. 161 (5): 749–761. doi:10.1086/374345. PMID 12858282. S2CID 33000631.
  17. ^ Taborsky, M.; Hudde, B.; Wirtz, P. (1987). "Reproductive behavior and ecology of Symphodus (Crenilabrus) ocellatus, a European wrasse with four types of male behavior". Behaviour. 102 (1–2): 82–118. doi:10.1163/156853986x00063.
  18. ^ a b "The Fish That Makes Other Fish Smarter" by Ed Yong, The Atlantic, March 7, 2018
  19. ^ Trivers, R. L. 1971
  20. ^ "A species of fish has passed the mirror test for the first time".
  21. ^ . Animals. 2019-02-07. Archived from the original on September 17, 2018. Retrieved 2020-05-11.
  22. ^ Ye, Yvaine. "A species of fish has passed the mirror test for the first time". New Scientist. Retrieved 2020-05-11.
  23. ^ Kohda, Masanori; Takashi, Hatta; Takeyama, Tmohiro; Awata, Satoshi; Tanaka, Hirokazu; Asai, Jun-ya; Jordan, Alex (2018-08-21). "Cleaner wrasse pass the mark test. What are the implications for consciousness and self-awareness testing in animals?". bioRxiv: 397067. doi:10.1101/397067.
  24. ^ Gertz, Emily (June 19, 2014). "Are Fish As Intelligent As Crows, Chimps... Or People?". Popular Science.
  25. ^ Dunn, R. P. (2015-12-23). "Tool use by a temperate wrasse, California sheephead Semicossyphus pulcher". Journal of Fish Biology. 88 (2): 805–810. doi:10.1111/jfb.12856. ISSN 0022-1112. PMID 26693945.
  26. ^ . Scottish Salmon Producers' Organisation. Archived from the original on 15 September 2013. Retrieved 8 June 2011.
  27. ^ Muñoz G., Diaz P.E. 2015: Checklist of parasites of labrid fishes (Pisces: Labridae). Viña del Mar, Chile. PDF.  
  • Sepkoski, Jack (2002). "A compendium of fossil marine animal genera". Bulletins of American Paleontology. 364: 560. Retrieved 2011-05-18.

External links edit

 
Look up wrasse in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Labridae.
 
Wikispecies has information related to Labridae.
  • FishBase info for Labridae
  • How Fish Hire a Cleaning Service
  • Male and Female Images or Rock Wrasse Fish
  • Smith, J.L.B. 1957. List of the fishes of the Family Labridae in the Western Indian Ocean. Ichthyological Bulletin; No. 7. Department of Ichthyology, Rhodes University, Grahamstown, South Africa.
  • Photos of Wrasses on Sealife Collection

April 08, 2024
wrasse, other, uses, disambiguation, wrasses, family, labridae, marine, fish, many, which, brightly, colored, family, large, diverse, with, over, species, genera, which, divided, into, subgroups, tribes, they, typically, small, most, them, less, than, long, al. For other uses see Wrasse disambiguation The wrasses are a family Labridae of marine fish many of which are brightly colored The family is large and diverse with over 600 species in 81 genera which are divided into 9 subgroups or tribes 1 2 3 They are typically small most of them less than 20 cm 7 9 in long although the largest the humphead wrasse can measure up to 2 5 m 8 2 ft They are efficient carnivores feeding on a wide range of small invertebrates Many smaller wrasses follow the feeding trails of larger fish picking up invertebrates disturbed by their passing 4 Juveniles of some representatives of the genera Bodianus Epibulus Cirrhilabrus Oxycheilinus and Paracheilinus hide among the tentacles of the free living mushroom corals and Heliofungia actiniformis 5 6 WrassesMoon wrasse Thalassoma lunare a typical wrasseScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass ActinopterygiiOrder LabriformesFamily LabridaeG Cuvier 1816GeneraSee text Contents 1 Taxonomy 1 1 Etymology 1 2 Subgroups and tribes 1 3 Genera 1 4 Timeline 2 Description 3 Distribution and habitat 4 Reproductive behavior 4 1 Broodcare behavior of the tribe 5 Cleaner wrasse 6 Tool use 7 Significance to humans 8 Parasites 9 Gallery 10 References 11 External linksTaxonomy editEtymology edit The word wrasse comes from the Cornish word wragh a lenited form of gwragh meaning an old woman or hag via Cornish dialect wrath It is related to the Welsh gwrach and Breton gwrac h 7 Subgroups and tribes edit Cheilines Hypsigenyines Julidines Labrichthyines Labrines Novaculines Pseudocheilines Pseudolabrines Scarines Genera edit Acantholabrus Achoerodus Ammolabrus Anampses Anchichoerops Austrolabrus Bodianus Centrolabrus Cheilinus Cheilio Choerodon Cirrhilabrus Clepticus Conniella Coris Ctenolabrus Cymolutes Decodon Diproctacanthus Doratonotus Dotalabrus Epibulus Eupetrichthys Frontilabrus Gomphosus Halichoeres Hemigymnus Hologymnosus Iniistius Labrichthys Labroides Labropsis Labrus Lachnolaimus Lappanella Larabicus Leptojulis Macropharyngodon Malapterus Minilabrus Notolabrus Novaculichthys Novaculoides Novaculops Ophthalmolepis Oxycheilinus Oxyjulis Paracheilinus Parajulis Pictilabrus Polylepion Pseudocheilinops Pseudocheilinus Pseudocoris Pseudodax Pseudojuloides Pseudolabrus Pteragogus Sagittalarva Semicossyphus Stethojulis Suezichthys Symphodus Tautoga Tautogolabrus Terelabrus Thalassoma Wetmorella Xenojulis Xiphocheilus Xyrichtys Timeline editDescription edit nbsp Lips of Labrus festivusWrasses have protractile mouths usually with separate jaw teeth that jut outwards 8 Many species can be readily recognized by their thick lips the inside of which is sometimes curiously folded a peculiarity which gave rise to the German name of lip fishes Lippfische 9 and the Dutch name of lipvissen The dorsal fin has eight to 21 spines and six to 21 soft rays usually running most of the length of the back Wrasses are sexually dimorphic Many species are capable of changing sex Juveniles are a mix of males and females known as initial phase individuals but the largest adults become territory holding terminal phase males 8 The wrasses have become a primary study species in fish feeding biomechanics due to their jaw structures The nasal and mandibular bones are connected at their posterior ends to the rigid neurocranium and the superior and inferior articulations of the maxilla are joined to the anterior tips of these two bones respectively creating a loop of four rigid bones connected by moving joints This four bar linkage has the property of allowing numerous arrangements to achieve a given mechanical result fast jaw protrusion or a forceful bite thus decoupling morphology from function The actual morphology of wrasses reflects this with many lineages displaying different jaw morphology that results in the same functional output in a similar or identical ecological niche 8 Distribution and habitat editMost wrasses inhabit the tropical and subtropical waters of the Atlantic Indian and Pacific Oceans though some species live in temperate waters the Ballan wrasse is found as far north as Norway Wrasses are usually found in shallow water habitats such as coral reefs and rocky shores where they live close to the substrate Reproductive behavior editMost labrids are protogynous hermaphrodites within a haremic mating system 10 11 A good example of this reproductive behavior is seen in the California sheephead Hermaphroditism allows for complex mating systems Labroids exhibit three different mating systems polygynous lek like and promiscuous 12 Group spawning and pair spawning occur within mating systems The type of spawning that occurs depends on male body size 11 Labroids typically exhibit broadcast spawning releasing high numbers of planktonic eggs which are broadcast by tidal currents adult labroids have no interaction with offspring 13 Wrasses of a particular subgroup of the family Labridae Labrini do not exhibit broadcast spawning Sex change in wrasses is generally female to male but experimental conditions have allowed for male to female sex change Placing two male Labroides dimidiatus wrasses in the same tank results in the smaller of the two becoming female again 14 Additionally while the individual to change sex is generally the largest female 15 evidence also exists of the largest female instead choosing to remain female in situations in which she can maximize her evolutionary fitness by refraining from changing sex 16 Broodcare behavior of the tribe edit The subgroup Labrini arose from a basal split within family Labridae during the Eocene period 3 Subgroup Labrini is composed of eight genera wherein 15 of 23 species exhibit broodcare behavior 13 which ranges from simple to complex parental care of spawn males build algae nests or crude cavities ventilate eggs and defend nests against conspecific males and predators 13 In species that express this behavior eggs cannot survive without parental care 17 Species of Symphodus Centrolabrus and Labrus genera exhibit broodcare behavior Cleaner wrasse edit nbsp Cleaner wrasses Labroides sp working on gill area of dragon wrasse Novaculichthys taeniourus on a reef in HawaiiCleaner wrasses are the best known of the cleaner fish They live in a cleaning symbiosis with larger often predatory fish grooming them and benefiting by consuming what they remove Client fish congregate at wrasse cleaning stations and wait for the cleaner fish to remove gnathiid parasites the cleaners even swimming into their open mouths and gill cavities to do so A single wrasse works for around four hours a day and in that time can inspect more than 2 000 clients 18 Cleaner wrasses are best known for feeding on dead tissue scales and ectoparasites although they are also known to cheat consuming healthy tissue and mucus which is energetically costly for the client fish to produce The bluestreak cleaner wrasse Labroides dimidiatus is one of the most common cleaners found on tropical reefs Few cleaner wrasses have been observed being eaten by predators possibly because parasite removal is more important for predator survival than the short term gain of eating the cleaner 19 When cleaner wrasses were experimentally removed from a reef in Australia the total number of fish species halved and their numbers fell by three quarters Also some evidence from another Australian study shows that cleaned fish are smarter than those not served by the wrasse 18 In a 2019 study cleaner wrasses passed the mirror test the first fish to do so 20 However the test s inventor American psychologist Gordon G Gallup has said that the fish were most likely trying to scrape off a perceived parasite on another fish and that they did not demonstrate self recognition The authors of the study retorted that because the fish checked themselves in the mirror before and after the scraping this meant that the fish had self awareness and recognized that their reflections belonged to their own bodies 21 22 23 Tool use editStudies show that some wrasse species are capable of tool use using rocks to smash open sea urchins 24 25 Significance to humans editIn the Western Atlantic coastal region of North America the most common food species for indigenous humans was the tautog a species of wrasse 9 Wrasses today are commonly found in both public and home aquaria Some species are small enough to be considered reef safe They may also be employed as cleaner fish to combat sea lice infestations in salmon farms 26 Commercial fish farming of cleaner wrasse for sea lice pest control in commercial salmon farming has developed in Scotland as lice busters with apparent commercial benefit and viability Parasites editAs all fish labrids are the hosts of a number of parasites A list of 338 parasite taxa from 127 labrid fish species was provided by Munoz and Diaz in 2015 27 An example is the nematode Huffmanela ossicola Gallery edit nbsp Giant Napoleon wrasse Cheilinus undulatus in Apo Reef Philippines nbsp Humphead wrasse Cheilinus undulatus Melbourne Aquarium nbsp Yellowtail wrasse Coris gaimard Hawaii nbsp A yellowtail coris wrasse Coris gaimard is being cleaned by Labroides phthirophagus in Hawaii nbsp Bird wrasse Gomphosus varius Kona Hawaii nbsp Gomphosus varius nbsp Gomphosus caeruleus swimming with a yellow goatfish nbsp Bluehead wrasse Belize Barrier Reef nbsp Clown wrasse Coris aygula Red Sea nbsp Pearl wrasse Anampses cuvieri Hawaii nbsp Bluestreak wrasse Labroides dimidiatus nbsp Six line wrasse Pseudocheilinus hexataenia nbsp Cuckoo wrasse by Wilhelm von WrightReferences edit Parenti Paolo Randall John E 15 April 2011 Checklist of the species of the families Labridae and Scaridae an update Smithiana Bulletin 13 29 44 Parenti Paolo Randall John E June 2000 An annotated checklist of the species of the labroid fish families Labridae and Scaridae Ichthyological Bulletin 68 1 97 hdl 10962 d1019894 ISSN 0073 4381 a b Cowman P F Bellwood D R van Herwerden L 2009 Dating the evolutionary origins of wrasse lineages Labridae and the rise of trophic novelty on coral reefs Molecular Phylogenetics and Evolution 52 3 621 631 doi 10 1016 j ympev 2009 05 015 PMID 19464378 Choat J H Bellwood D R 1998 Paxton J R Eschmeyer W N eds Encyclopedia of Fishes San Diego Academic Press p 211 ISBN 978 0 12 547665 2 Bos Arthur R 2012 Fishes Gobiidae and Labridae associated with the mushroom coralHeliofungia actiniformis Scleractinia Fungiidae in the Philippines Coral Reefs 31 133 doi 10 1007 s00338 011 0834 3 Bos AR Hoeksema BW 2015 Cryptobenthic fishes and co inhabiting shrimps associated with the mushroom coral Heliofungia actiniformis Fungiidae in the Davao Gulf Philippines Environmental Biology of Fishes 98 6 1479 1489 doi 10 1007 s10641 014 0374 0 S2CID 254466578 Wrasse Define Wrasse at Dictionary com Dictionary reference com Retrieved 2012 06 28 a b c Wainwright Peter C Alfaro Michael E Bolnick Daniel I Hulsey C Darrin 2005 Many to One Mapping of Form to Function A General Principle in Organismal Design Integrative and Comparative Biology 45 2 256 262 doi 10 1093 icb 45 2 256 PMID 21676769 a b Chisholm Hugh ed 1911 Wrasse Encyclopaedia Britannica Vol 28 11th ed Cambridge University Press p 839 Robertson D R Warner R R 1978 Sexual patterns in the labroid fishes of the Western Caribbean II the parrotfishes Scaridae Smithsonian Contributions to Zoology 255 255 1 26 doi 10 5479 si 00810282 255 a b Kazancioglu E Alonzo S H 2010 A comparative analysis of sex change in Labridae supports the size advantage hypothesis Evolution 64 8 2254 226 doi 10 1111 j 1558 5646 2010 01016 x PMID 20394662 Colin P L Bell L J 1992 Aspects of the spawning of labrid and scarid fishes Pisces Labroidei at Enewetak Atoll Marshall Islands with notes on other families corrected reprint Environmental Biology of Fishes 33 3 330 345 doi 10 1007 BF00005881 a b c Hanel R Westneat M W Sturmbauer C December 2002 Phylogenetic relationships evolution of broodcare behavior and geographic speciation in the Wrasse tribe Labrini Journal of Molecular Evolution 55 6 776 789 doi 10 1007 s00239 002 2373 6 PMID 12486536 S2CID 3002410 Kuwamura T Tanaka N Nakashima Y Karino K Sakai Y 2002 Reversed sex change in the protogynous reef fish Labroides dimidiatus Ethology 108 5 443 450 doi 10 1046 j 1439 0310 2002 00791 x Munday P L Ryen C A McCormick M I Walker S P W 2009 Growth acceleration behaviour and otolith check marks associated with sex change in the wrasse Halichoeres miniatus Coral Reefs 28 3 623 634 doi 10 1007 s00338 009 0499 3 S2CID 38928952 Munoz R C Warner R R 2003 A new version of the size advantage hypothesis for sex change incorporating sperm competition and size fecundity skew American Naturalist 161 5 749 761 doi 10 1086 374345 PMID 12858282 S2CID 33000631 Taborsky M Hudde B Wirtz P 1987 Reproductive behavior and ecology of Symphodus Crenilabrus ocellatus a European wrasse with four types of male behavior Behaviour 102 1 2 82 118 doi 10 1163 156853986x00063 a b The Fish That Makes Other Fish Smarter by Ed Yong The Atlantic March 7 2018 Trivers R L 1971 A species of fish has passed the mirror test for the first time This tiny fish can recognize itself in a mirror Is it self aware Animals 2019 02 07 Archived from the original on September 17 2018 Retrieved 2020 05 11 Ye Yvaine A species of fish has passed the mirror test for the first time New Scientist Retrieved 2020 05 11 Kohda Masanori Takashi Hatta Takeyama Tmohiro Awata Satoshi Tanaka Hirokazu Asai Jun ya Jordan Alex 2018 08 21 Cleaner wrasse pass the mark test What are the implications for consciousness and self awareness testing in animals bioRxiv 397067 doi 10 1101 397067 Gertz Emily June 19 2014 Are Fish As Intelligent As Crows Chimps Or People Popular Science Dunn R P 2015 12 23 Tool use by a temperate wrasse California sheephead Semicossyphus pulcher Journal of Fish Biology 88 2 805 810 doi 10 1111 jfb 12856 ISSN 0022 1112 PMID 26693945 Sea Lice Scottish Salmon Producers Organisation Archived from the original on 15 September 2013 Retrieved 8 June 2011 Munoz G Diaz P E 2015 Checklist of parasites of labrid fishes Pisces Labridae Vina del Mar Chile PDF nbsp Sepkoski Jack 2002 A compendium of fossil marine animal genera Bulletins of American Paleontology 364 560 Retrieved 2011 05 18 External links edit nbsp Look up wrasse in Wiktionary the free dictionary nbsp Wikimedia Commons has media related to Labridae nbsp Wikispecies has information related to Labridae FishBase info for Labridae How Fish Hire a Cleaning Service Male and Female Images or Rock Wrasse Fish Smith J L B 1957 List of the fishes of the Family Labridae in the Western Indian Ocean Ichthyological Bulletin No 7 Department of Ichthyology Rhodes University Grahamstown South Africa Photos of Wrasses on Sealife Collection Retrieved from https en wikipedia org w index php title Wrasse amp oldid 1190918573, wikipedia, wiki, book, books, library,

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