Advertisement
Journal Articles
Locomotor mechanics during early life history: effects of size and ontogeny on fast-start performance of salmonid fishes
M.E. Hale
Journal of Experimental Biology 1999 202: 1465-1479;

Summary

Fast-start locomotor behavior is important for escaping from predators and for capturing prey. To examine the effects of size and other aspects of developmental morphology on fast-start performance, the kinematics of the fast-start escape behavior were studied through early post-hatching development in three salmonid species: chinook salmon (Oncorhynchus tshawytscha), coho salmon (Oncorhynchus kisutch) and brown trout (Salmo trutta). These three species, while morphologically and developmentally similar, hatch and mature at different sizes (total length). Comparison of these species shows that some fast-start performance variables, including stage duration, maximum velocity and maximum acceleration, are highly dependent on ontogenetic state, while another, the overall distance traveled during stage 2, scales with total body length. Brown trout were studied from hatching into the juvenile development period. Aspects of fast-start performance peak at the end of yolk-sac absorption (the end of the eleutheroembryo phase) when the fish reaches the juvenile period. At this time, the durations of the fast-start stages are at their minima, and maximum velocity and maximum acceleration are at their highest levels relative to body length. Thus, escape behavior reaches its maximum size-specific performance at a relatively small size, just as the fish absorbs its yolk sac and begins to search for food. This peak in fast-start performance occurs during a life history period in which fast-start ability is likely to be particularly important for survival.

REFERENCES

    1. Batty, R. S.
    (1984). Development of swimming movements and musculature in the larval herring (Clupea harengus). J. Exp. Biol 110, 217–.
    OpenUrlAbstract/FREE Full Text
    1. Bernardo, J.
    (1994). Experimental analysis of allocation in two divergent, natural salamander populations. Am. Nat 143, 14–.
    OpenUrlCrossRef
    1. Domenici, P. and
    2. Blake, R. W.
    (1991). The kinematics and performance of the escape response in the angelfish (Pterophyllum eimekei). J. Exp. Biol 156, 187–.
    OpenUrlAbstract/FREE Full Text
    1. Domenici, P. and
    2. Blake, R. W.
    (1993). Escape trajectories in angelfish (Pterophyllum eimekei). J. Exp. Biol 177, 253–.
    OpenUrlAbstract/FREE Full Text
    1. Domenici, P. and
    2. Blake, R. W.
    (1993). The effect of size on the kinematic performance of angelfish (Pterophyllum eimekei) escape responses. Can. J. Zool 71, 2319–.
    OpenUrlCrossRef
    1. Domenici, P. and
    2. Blake, R. W.
    (1997). The kinematics and performance of fish fast-start swimming. J. Exp. Biol 200, 1165–.
    OpenUrlAbstract
    1. Eaton, R. C. and
    2. Emberley, D. S.
    (1991). How stimulus direction determines the trajectory of the Mauthner-initiated escape response in a teleost fish. J. Exp. Biol 161, 469–.
    OpenUrlAbstract/FREE Full Text
    1. Eaton, R. C.,
    2. Farley, R. D.,
    3. Kimmel, C. B. and
    4. Schabtach, E.
    (1977). Functional development in the Mauthner cell system of embryos and larvae of the zebrafish. J. Neurobiol 8, 151–.
    OpenUrlCrossRefPubMedWeb of Science
    1. Fernald, R. D.
    (1975). Fast body turns in cichlid fish. Nature 258, 228–.
    OpenUrlCrossRef
    1. Foreman, M. B. and
    2. Eaton, R. C.
    (1993). The direction change concept for reticulospinal control of goldfish escape. J. Neurosci 13, 4101–.
    OpenUrlAbstract
    1. Fuiman, L. A.
    (1993). Development of predator evasion in Atlantic herring, Clupea harengus L. Anim. Behav 45, 1101–.
    OpenUrlCrossRef
    1. Fuiman, L. A. and
    2. Webb, P. W.
    (1988). Ontogeny of routine swimming activity and performance in zebra danios (Teleostei: Cyprinidae). Anim. Behav 36, 250–.
    OpenUrlCrossRef
    1. Hale, M. E.
    (1996). The development of fast-start performance in fishes: escape kinematics of the chinook salmon (Oncorhynchus tshawytscha). Am. Zool 36, 695–.
    OpenUrl
    1. Harper, D. G. and
    2. Blake, R. W.
    (1989). A critical analysis of the use of high-speed film to determine maximum accelerations of fish. J. Exp. Biol 142, 465–.
    OpenUrlFREE Full Text
    1. Harper, D. G. and
    2. Blake, R. W.
    (1989). On the error involved in high-speed film when used to evaluate maximum accelerations of fish. Can. J. Zool 67, 1929–.
    OpenUrlCrossRef
    1. Jayne, B. C. and
    2. Lauder, G. V.
    (1996). New data on axial locomotion in fishes: How speed affects diversity of kinematics and motor patterns. Am. Zool 36, 642–.
    OpenUrl
    1. Kasapi, M. A.,
    2. Domenici, P.,
    3. Blake, R. W. and
    4. Harper, D.
    (1993). The kinematics and performance of escape responses of the knifefish Xenomystus nigri. Can. J. Zool 71, 189–.
    OpenUrlCrossRef
    1. McArdle, B. H.
    (1988). The structural relationship: regression in biology. Can. J. Zool 66, 2329–.
    OpenUrlCrossRef
    1. Nag, A. C. and
    2. Nursall, J. R.
    (1972). Histogenesis of white and red muscle fibres of trunk muscle of a fish, Salmo gairdneri. Cytobios 6, 227–.
    OpenUrl
    1. Reznick, D. and
    2. Endler, J. A.
    (1982). The impact of predation on life history evolution in Trinidadian guppies (Poecilia reticulata). Evolution 36, 160–.
    OpenUrlCrossRefWeb of Science
    1. Rice, W. R.
    (1989). Analyzing tables of statistical tests. Evolution 43, 223–.
    OpenUrlCrossRefWeb of Science
    1. van Raamsdonk, W.,
    2. van't Veer, L.,
    3. Veeken, K.,
    4. Heyting, C. and
    5. Pool, C. W.
    (1982). Differentiation of muscle fiber types in the teleost Brachydanio rerio, the zebrafish. Anat. Embryol 164, 51–.
    OpenUrlCrossRefPubMed
    1. Walker, J. A.
    (1998). Estimating velocities and accelerations of animal locomotion: a simulation experiment comparing numerical differentiation methods. J. Exp. Biol 201, 981–.
    OpenUrlAbstract/FREE Full Text
    1. Wardle, C. S.
    (1975). Limit of fish swimming speed. Nature 255, 725–.
    OpenUrlCrossRefPubMedWeb of Science
    1. Webb, P. W.
    (1976). The effect of size on the fast-start performance of rainbow trout Salmo gairdneri and a consideration of piscivorous predator—prey interactions. J. Exp. Biol 65, 157–.
    OpenUrlAbstract/FREE Full Text
    1. Webb, P. W.
    (1978). Fast-start performance and body form in seven species of teleost fish. J. Exp. Biol 74, 211–.
    OpenUrlAbstract/FREE Full Text
    1. Weihs, D.
    (1973). The mechanism of rapid starting of slender fish. Biorheology 10, 343–.
    OpenUrlPubMed
    1. Westneat, M. W.,
    2. Hale, M. E.,
    3. McHenry, M. J. and
    4. Long, J. H. Jr..
    (1998). Mechanics of the fast-start: muscle function and the role of intermuscular pressure in the escape behavior of Amia calva and Polypterus palmas. J. Exp. Biol 201, 3041–.
    OpenUrlAbstract
Back to top

 Download PDF

Email
Journal Articles
Locomotor mechanics during early life history: effects of size and ontogeny on fast-start performance of salmonid fishes
M.E. Hale
Journal of Experimental Biology 1999 202: 1465-1479;
del.icio.us logo Digg logo Reddit logo Twitter logo CiteULike logo Facebook logo Google logo Mendeley logo
Citation Tools
Alerts

Article navigation

Other journals from The Company of Biologists

Advertisement

Meet the Editors at SICB Virtual 2021

Reserve your place to join some of the journal editors, including Editor-in-Chief Craig Franklin, at our Meet the Editor session on 17 February at 2pm (EST). Don’t forget to view our SICB Subject Collection, featuring relevant JEB papers relating to some of the symposia sessions.

2020 at The Company of Biologists

Despite 2020's challenges, we were able to bring a number of long-term projects and new ventures to fruition. As we enter a new year, join us as we reflect on the triumphs of the last 12 months.

Critical temperature window sends migratory black-headed buntings on their travels

The spring rise in temperature at black-headed bunting overwintering sites is essential for triggering the physical changes that they undergo before embarking on their spring migration – read more.

Developmental and reproductive physiology of small mammals at high altitude

Cayleih Robertson and Kathryn Wilsterman focus on high-altitude populations of the North American deer mouse in their review of the challenges and evolutionary innovations of pregnant and nursing small mammals at high altitude.

Read & Publish participation extends worldwide

“Being able to publish Open Access articles free of charge means that my article gets maximum exposure and has maximum impact, and that all my peers can read it regardless of the agreements that their universities have with publishers.”

Professor Roi Holzman (Tel Aviv University) shares his experience of publishing Open Access as part of our growing Read & Publish initiative. We now have over 60 institutions in 12 countries taking part – find out more and view our full list of participating institutions.