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Results:
1-7
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Results: 7
Authors:
Watson, RR
Dickson, KA
Citation: Rr. Watson et Ka. Dickson, Enzyme activities support the use of liver lipid-derived ketone bodies as aerobic fuels in muscle tissues of active sharks, PHYSIOL B Z, 74(2), 2001, pp. 273-282
Authors:
Bernal, D
Dickson, KA
Shadwick, RE
Graham, JB
Citation: D. Bernal et al., Review: Analysis of the evolutionary convergence for high performance swimming in lamnid sharks and tunas, COMP BIOC A, 129(2-3), 2001, pp. 695-726
Authors:
Graham, JB
Dickson, KA
Citation: Jb. Graham et Ka. Dickson, The evolution of thunniform locomotion and heat conservation in scombrid fishes: New insights based on the morphology of Allothunnus fallai, ZOOL J LINN, 129(4), 2000, pp. 419-466
Authors:
Dickson, KA
Johnson, NM
Donley, JM
Hoskinson, JA
Hansen, MW
Tessier, JD
Citation: Ka. Dickson et al., Ontogenetic changes in characteristics required for endothermy in juvenileblack skipjack tuna (Euthynnus lineatus), J EXP BIOL, 203(20), 2000, pp. 3077-3087
Authors:
Sepulveda, C
Dickson, KA
Citation: C. Sepulveda et Ka. Dickson, Maximum sustainable speeds and cost of swimming in juvenile kawakawa tuna (Euthynnus affinis) and chub mackerel (Scomber japonicus), J EXP BIOL, 203(20), 2000, pp. 3089-3101
Authors:
Donley, JM
Dickson, KA
Citation: Jm. Donley et Ka. Dickson, Swimming kinematics of juvenile kawakawa tuna (Euthynnus affinis) and chubmackerel (Scomber japonicus), J EXP BIOL, 203(20), 2000, pp. 3103-3116
Authors:
Gibb, AC
Dickson, KA
Lauder, GV
Citation: Ac. Gibb et al., Tail kinematics of the chub mackerel Scomber japonicus: Testing the homocercal tail model of fish propulsion, J EXP BIOL, 202(18), 1999, pp. 2433-2447
Risultati:
1-7
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