Synopsis
Examination of living and stained preserved embryos of the fundulid Adinia xenica from the intertidal salt marshes of the northern Gulf of Mexico, revealed a saltatory pattern of development. Embryonic structures indicate an ability to tolerate low oxygen conditions, primarily by extensive vascularization of the large yolksac and pericardial headfold, and capillaries covering the entire body. Adhesive fibres of the chorion hold the egg to the chosen substrate, away from anoxic sediments. Prior to hatching most embryos enter a resting interval of up to four weeks, with a mean duration of 8 days (in the laboratory). Growth ceases, development is limited to some skeletal calcification, and metabolic rate, as indicated by bradycardia and yolk resorption, is greatly reduced. This step distributes hatching and recruitment over time in a variety of environmental conditions. Hatching is considered to result from a variable summation of internal and external factors; ease of its induction increases during the resting interval. Upon hatching most embryos are well developed and ready to feed exogenously, there being essentially no free-embryo phase. The considerable individual variation in timing and relative order of some ontogenic events may provide opportunities for environmentally induced heterochronies and thus assist A. xenica to develop in a range of habitats and conditions. Reproductive style includes hiding the eggs in protected locations, and a fractional spawning pattern. Consideration of this plus morphological adaptations, egg size and adhesivity places A. xenica in the reproductive guild of brood-hiding cavity spawners.
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References cited
Al-Adhami, M.A. & Y.W. Kunz. 1976. Haemopoietic centres in the developing angelfish, Pterophyllum scalare (Cuvier and Valenciennes). Wilhelm Roux's Arch. 179: 393–401.
Al-Adhami, M.A. & Y.W. Kunz. 1977. Ontogenesis of haematopoietic sites in Brachydanio rerio (Hamilton-Buchanan) (Teleostei). Develop. Growth and Differ. 19: 171–179.
Armstrong, P.B. & J.S. Child. 1965. Stages in the normal development of Fundulus heteroclitus. Biol. Bull. 128: 143–168.
Arndt, R.G.E. 1971. Ecology and behaviour of the cyprinodont fishes Adinia xenica, Lucania goodei, and Leptolucania ommata. Ph.D. Theis, Cornell University, Ithaca. 344 pp.
Balon, E.K. 1975a. Terminology of intervals in fish development. J. Fish. Res. Board Can. 32: 1663–1670.
Balon, E.K. 1975b. Reproductive guilds of fishes: a proposal and definition. J. Fish. Res. Board Can. 32: 821–864.
Balon, E.K. 1975c. Ecological guilds of fishes: a short summary of the concept and its application. Verh. Internat. Verein. Limnol. 19: 2430–2439.
Balon, E.K. 1977. Early ontogeny of Labeotropheus Ahl, 1927 (Mbuna, Cichlidae, Lake Malawi), with a discussion on advanced reproductive styles in fish reproduction and development. Env. Biol. Fish. 2: 147–176.
Balon, E.K. 1979a. The theory of saltation and its application in the ontogeny of fishes: steps and thresholds. Env. Biol. Fish. 4: pp. 97–101.
Balon, E.K. 1979b. The juvenilization process in phylogeny and the altricial to precocial forms in the ontogeny of fishes. Env. Biol. Fish. 4: 193–198.
Balon, E. K. 1979c. The role of carotenoids in endogenous respiration of fish embryos. Abstracts of 59th Annual Meeting of American Society of Ichthyologists and Herpetologists, Orono.
Balon, E.K. 1980a. Early ontogeny of lake charr — Salvelinus (Cristivomer) namaycush. pp. 485–562. In: E.K. Balon (ed.) Charrs: Salmonid Fishes of the Genus Salvelinus, Perspectives in Vertebrate Science 1, Dr W. Junk Publishers, THe Hague.
Balon, E.K. 1980b. Early ontogeny of North American landlocked arctic charr — sunapee, Salvelinus (Salvelinus) alpinus oquassa. pp. 563–606. Idem, ibidem.
Balon, E.K. 1980c. Early ontogeny of the European landlocked arctic charr — altricial form, Salvelinus (Salvelinus) alpinus alpinus. pp. 607–630. Idem, ibidem.
Balon, E.K. 1980d. Early ontogeny of the brook chart, Salvelinus (Baione) fontinalis. pp. 631–666. Idem, ibidem.
Balon, E.K. 1980e. Comparative ontogeny of Charrs. pp. 703–720. Idem, ibidem.
Balon, E.K. 1981a. Saltatory processes and altricial to precocial forms in the ontogeny of fishes. Amer. Zool. 21: 573–596.
Balon, E.K. 1981b. Additions and amendments to the classification of reproductive styles in fishes. Env. Biol. Fish. 6: 377–389.
Balon, E.K. 1981c. About processes which cause the evolution of guilds and species. Env. Biol. Fish. 6: 129–138.
Balon, E.K. 1983. Epigenetic mechanisms: reflections on evolutionary proceses. Can. J. Fish. Aquat. Sci. 40: 2045–2058.
Balon, E.K. 1984a. Reflections on some decisive events in the early life of fishes. Trans. Amer. Fish. Soc. 113: 178–185.
Balon, E.K. 1984b. Patterns in the evolution of reproductive styles in fishes. pp. 35–53. In: G.W. Potts & R.J. Wootton (ed.) Fish Reproduction: Strategies and Tactics, Academic Press, London.
Balon, E.K. 1985a. The theory of saltatory ontogeny and life history models revisited. Developments in Env. Biol. Fish. 5: 13–30.
Balon, E.K. 1985b. Reflections on epigenetic mechanisms: hypotheses and case histories. Developments in Env. Biol. Fish. 5: 239–270.
Balon, E.K. & D.L.G. Noakes. 1980. Principles of ichthyology. Supplements to lectures and laboratory exercises. 3rd revised edition. Department of Zoology, College of Biological Science, University of Guelph, Guelph. 285 pp.
Boulekbache, H. 1981. Energy metabolism in fish development. Amer. Zool. 21: 377–389.
Champion, M.J. & G.S. Whitt. 1976. Differential gene expression in multilocus isozyme systems of the developing green sunfish. J. Exp. Zool. 196: 263–282.
Černy, K. 1977. The early development of chub — Leuciscus cephalus (L., 1758), rudd — Scardinus erythrophthalmus (L. 1758) and roach — Rutilus rutilus (L.,1758). Acta Universitatis Carolinae-Biologica 1977: 1–149.
Cunningham, J.E.R. & E.K. Balon. 1986a. Early ontogeny of Adinia xenica (Pisces, Cyrinodontiformes): 2. Implications of embryonic resting interval for larval development. Env. Biol. Fish. (in press).
Cunningham, J.E.R. & E.K. Balon. 1986b. Idem 3. Comparison and evolutionary significance of some patterns in epigenesis of eggscattering, hiding and bearing cyprinodontids. Env. Biol. Fish. (in press).
DiMichele, L. 1980. The hatching mechanism of Fundulus heteroclitus. Ph.D. Thesis, University of Delaware, Newark. 125 pp.
Dingerkus, G. & L.D. Uhler. 1977. Enzyme clearing of alcian blue stained whole small vertebrates for demonstration of cartilage. Stain Technology 52: 229–232.
Foster, N.R. 1967. Comparative studies on the biology of killifishes (Pisces: Cyprinodontidae). Ph.D. Thesis, Cornell University, Ithaca. 369 pp.
Foster, N.R. 1974. Order Atheriniformes. pp. 115–144. In: A.J. Lippon & R.L. Moran (ed.) Manual for Identifiaction of Early Developmental Stages of Fishes of the Potomac River Estuary, Martin Marietta Corp., Environmental Technology Centre, Baltimore.
Goodrich, E.S. 1958. Studies on the structure and development of vertebrates, Vol. 1 and 2. Dover Publications, New York. 837 pp.
Gould, S.J. & E.S. Vrba. 1982. Exaptation — a missing term in the science of form. Paleobiology 8: 4–15.
Hastings, R.W. & R.W. Yerger. 1971. Ecology and life history of the diamond killifish, Adinia xenica (Jordan and Gilbert). Amer. Midi. Nat. 86: 276–291.
Hoffman, R.B., G.A. Salinas & A.A. Baky. 1977. Behavioural analysis of killifish exposed to weightlessness in Apollo-Soyuz test project. Aviat. Space and Envir. Medicine 48: 712–717.
Hoffman, R.B., G.A. Salinas, J.F. Boyd, R.J. Baumgarten & A.A. Baky. 1978. Effect of prehatching weightlessness on adult fish behaviour in dynamic environments. Aviat. Space and Envir. Medicine 49: 576–581.
Hollister, G. 1934. Clearing and dyeing fish for bone study. Zoologica 12: 89–101.
Koenig, C.C. & R.J. Livingston. 1976. The embryological development of the diamond killifish (Adinia xenico). Copeia 1976: 435–445.
Kryzhanovsky, S.G. 1949. Eco-morphological principles of development among carps, loaches and catfishes. Tr. Inst. Morph. Zhiv. Severtsova 1: 5–332. (In Russian). (Part 2, Ecological groups of fishes and patterns of their distribution, pp. 237–331, translated from Russian in Fish. Res. Board Can. Transl. Ser. No. 2945, 1974).
Kryzhanovsky, S.G., N.N. Disler & E.N. Smirnova. 1953. Ecomorphological laws of development in percids. Tr. Inst. Morph. Zhiv. Severtsova 10: 3–138. (In Russian).
Kryzhanovsky, S.G. 1956. On the development of clupeids. Tr. Inst. Morph. Zhiv. Severtsova 17: 1–255. (In Russian).
Lindsey, C.C. & A.N. Arnasson. 1981. A model for responses of vertebrate numbers in fish to environmental influences during development. Can. J. Fish. Aquat. Sci. 38: 334–347.
McElman, J.F. 1978. Early ontogeny of the walleye Stizostedion vitreum, and the white sucker Catostomus commersoni: ecomorphological features of embryonic development. M.Sc. Thesis, University of Guelph, Guelph. 215 pp.
McElman, J.F. & E.K. Balon. 1979. Early ontogeny of walleye, Stizostedion vitreum, with steps of saltatory development. Env. Biol. Fish. 4: 290–348.
McElman, J.F. & E.K. Balon. 1980. Early ontogeny of white sucker, Catostomtus commersoni, with steps of saltatory development Env. Biol. Fish. 5: 191–224.
Mikulin, A.Y. & S.G. Soin. 1975. The functional significance of carotenoids in the embryonic development of teleosts. J. Ichthyol. 15: 749–759.
Parenti, L.R. 1981. A phylogenetic and biogeographic analysis of cyprinodontiform fishes (Teleostei, Atherinomorpha). Bull. Amer. Mus. Nat. Hist. 168: 335–557.
Peňaz, M. 1981. Ecomophological principles and saltation in the early ontogeny of fishes. pp. 95–100. In: M. Peňaz & M. Prokeš (ed.) Topical Problems of Ichthyology, Czechoslovak Academy of Sciences, Brno.
Sethi, R.P. 1960. Osteology and phylogeny of oviparous cyprinodont fishes (order Cyprinodontiformes). Ph.D. Thesis, University of Florida, Gainsville. 274 pp.
Shaklee, J.B., M.J. Champion & G.S. Whitt. 1974. Development genetics of teleosts: a biochemical analysis of lake chubsucker ontogeny. Devel. Biol. 38: 356–382.
Shaklee, J.B. & G.S. Whitt. 1977. Patterns of enzyme ontogeny in developing sunfish. Differentiation 9: 85–95.
Soin, S.G. 1968. Adaptive principles of fish development. Moscow Univ. Press, Moscow. 90 pp. (In Russian).
Tavolga, W.N. 1949. Embryonic development of the platyfish (Platypoecilus), swordtail (Xiphophorus) and their hybrids. Bull. Amer. Mus. Nat. Hist. 94: 165–229.
Tay, K.-L. & E.T. Garside. 1978. Compensatory embryogenic responses in osmoregulatory structures of mummichog Fundulus heteroclitus. I. Incubated at constant temperature and various constant levels of salinity. Can. J. Zool. 56: 613–623.
Taylor, W.R. 1967. An enzyme method of clearing and staining small vertebrates. Proc. U.S. Nat. Mus. Washington 122: 1–17.
Wells, H.G. 1904. The food of the gods. McMillan, London.
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Cunningham, J.E.R., Balon, E.K. Early ontogeny of Adinia xenica (Pisces, Cyprinodontiformes): 1. The development of embryos in hiding. Environ Biol Fish 14, 115–166 (1985). https://doi.org/10.1007/BF00000821
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DOI: https://doi.org/10.1007/BF00000821