Current methodological refinements for the acquisition of life history information in fishes: Paradigms from pan-oceanic billfishes
1. 1. Many factors contribute to hinder progress in estimating and verifying age, growth, and life history strategies of billfishes. It is necessary to discern growth of an individual fish to circumvent problems in substantiating age, growth, longevity and age at maturity. These biological character...
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Veröffentlicht in: | Comparative biochemistry and physiology. A, Comparative physiology Comparative physiology, 1991, Vol.100 (2), p.323-333 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | 1.
1. Many factors contribute to hinder progress in estimating and verifying age, growth, and life history strategies of billfishes. It is necessary to discern growth of an individual fish to circumvent problems in substantiating age, growth, longevity and age at maturity. These biological characteristics allow us to discover what life history periods are critical to survival and reproduction.
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2. Two theoretical approaches may be considered for studying the age of billfish: Age may be delineated in terms of the passage of time (chronological age), or may be examined as the progression of physiological development (physiological age).
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3. Hard tissues such as otoliths, spines, vertebrae and post-mitotic tissues contain a plethora of biological and ecological information documenting a fish's chronological and physiological age and individual life history. In calcified tissues, this information can be obtained when the proper techniques are used to investigate the structural and chemical components of billfish hard parts. Chemical analyses of stable isotopes and elemental concentrations in calcified tissues suggest that calcified tissues contain hydrographie, nutritional and migrational information—life history information.
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4. Utilization of structural and chemical analyses of billfish otoliths, vertebrae, and other hard parts, enables specific phases of growth to be linked to enrivonmental occurrences. Measurement of the metabolically accumulated cellular pigment, lipofuscin, in post-mitotic tissue may make it possible to define physiological age or readiness. Internal and external structural and chemical analyses of otoliths, vertebrae, and other hard parts, combined with biochemical assays of post-mitotic tissue will greatly enhance studies of life history. The methods presented provide insights into means by which life history knowledge can be obtained. |
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ISSN: | 0300-9629 |
DOI: | 10.1016/0300-9629(91)90477-T |