Reading the biomineralized book of life: expanding otolith biogeochemical research and applications for fisheries and ecosystem-based management

Reis-Santos, Patrick; Gillanders, Bronwyn M.; Sturrock, Anna M.; Izzo, Christopher; Oxman, Dion S.; Lueders-Dumont, Jessica A.; Hussy, Karin; Tanner, Susanne E.; Rogers, Troy; Doubleday, Zoe A.; Andrews, Allen H.; Trueman, Clive; Brophy, Deirdre; Thiem, Jason D.; Baumgartner, Lee J.; Willmes, Malte; Chung, Ming-Tsung; Johnson, Rachel C.; Heimbrand, Yvette; Limburg, Karin E.; Walther, Benjamin D.

doi:10.1007/s11160-022-09720-z

Översiktsartikel2023Vetenskapligt granskadÖppen tillgång

Reading the biomineralized book of life: expanding otolith biogeochemical research and applications for fisheries and ecosystem-based management

Reis-Santos, Patrick; Gillanders, Bronwyn M.; Sturrock, Anna M.; Izzo, Christopher; Oxman, Dion S.; Lueders-Dumont, Jessica A.; Hussy, Karin; Tanner, Susanne E.; Rogers, Troy; Doubleday, Zoe A.; Andrews, Allen H.; Trueman, Clive; Brophy, Deirdre; Thiem, Jason D.; Baumgartner, Lee J.; Willmes, Malte; Chung, Ming-Tsung; Johnson, Rachel C.; Heimbrand, Yvette; Limburg, Karin E.;
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Sammanfattning

Chemical analysis of calcified structures continues to flourish, as analytical and technological advances enable researchers to tap into trace elements and isotopes taken up in otoliths and other archival tissues at ever greater resolution. Increasingly, these tracers are applied to refine age estimation and interpretation, and to chronicle responses to environmental stressors, linking these to ecological, physiological, and life-history processes. Here, we review emerging approaches and innovative research directions in otolith chemistry, as well as in the chemistry of other archival tissues, outlining their value for fisheries and ecosystem-based management, turning the spotlight on areas where such biomarkers can support decision making. We summarise recent milestones and the challenges that lie ahead to using otoliths and archival tissues as biomarkers, grouped into seven, rapidly expanding and application-oriented research areas that apply chemical analysis in a variety of contexts, namely: (1) supporting fish age estimation; (2) evaluating environmental stress, ecophysiology and individual performance; (3) confirming seafood provenance; (4) resolving connectivity and movement pathways; (5) characterising food webs and trophic interactions; (6) reconstructing reproductive life histories; and (7) tracing stock enhancement efforts. Emerging research directions that apply hard part chemistry to combat seafood fraud, quantify past food webs, as well as to reconcile growth, movement, thermal, metabolic, stress and reproductive life-histories provide opportunities to examine how harvesting and global change impact fish health and fisheries productivity. Ultimately, improved appreciation of the many practical benefits of archival tissue chemistry to fisheries and ecosystem-based management will support their increased implementation into routine monitoring.[GRAPHICS].

Nyckelord

Otolith; Calcified structure; Archival tissue; Chemistry; Life-history; Fisheries management

Publicerad i

Reviews in Fish Biology and Fisheries
2023, Volym: 33, nummer: 2, sidor: 411-449
Utgivare: SPRINGER

SLU författare

Heimbrand, Yvette
- Institutionen för akvatiska resurser (SLU Aqua), Sveriges lantbruksuniversitet

Limburg, Karin
- Institutionen för akvatiska resurser (SLU Aqua), Sveriges lantbruksuniversitet
- State University of New York (SUNY) College of Environmental Science and Forestry

Associerade SLU-program

Kust och hav

Globala målen

SDG14 Bevara och nyttja haven och de marina resurserna på ett hållbart sätt för en hållbar utveckling

UKÄ forskningsämne

Ekologi

More information

Correction in: Reviews in Fish Biology and Fisheries, Volume 33, pages 451-452, DOI: 10.1007/s11160-022-09729-4

Publikationens identifierare

DOI: https://doi.org/10.1007/s11160-022-09720-z

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/118637