A global meta-analysis of marine predator nitrogen stable isotopes: Relationships between trophic structure and environmental conditions - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Global Ecology and Biogeography Année : 2018

A global meta-analysis of marine predator nitrogen stable isotopes: Relationships between trophic structure and environmental conditions

John Logan
Valérie Allain
Petra Kuhnert
  • Fonction : Auteur
Christophe E. Menkès
  • Fonction : Auteur
  • PersonId : 936770

Résumé

Aim We examined potential environmental drivers of broad‐scale spatial patterns in the trophic structure of marine ecosystems as represented by nitrogen stable isotopes in globally distributed marine predators. Additionally, we assessed the effects of spatial scale on the predictive capabilities of environmental variables. Location Global oceans. Time period 2000 to 2015. Major taxa studied Tunas: Thunnus albacares , Thunnus obesus , Thunnus alalunga . Methods We undertook a global compilation and meta‐analysis of the bulk nitrogen stable isotope ratios (δ15N values) of three tuna species (n  = 4,281). After adjusting for regional variations in baseline δ15N values using a global ocean biogeochemistry model, generalized additive mixed models were employed to infer global‐scale oceanographic controls of trophic structure, using cosmopolitan tuna species as a model. Results For the three tuna species, variation in trophic position estimated using bulk δ15N values was largely explained by geographical location and the corresponding oxygen minimum layer depth. Tuna trophic positions declined in areas with reduced oxygen at depth. Food‐chain length, as captured by maximum trophic position, was longer in areas of the western Pacific Ocean and shorter in the northern Atlantic and eastern Pacific Oceans. Trophic adaptability of the tuna predators, as indicated by intraspecific variability, was highest in the western and central Pacific Ocean and lowest in the northern Atlantic Ocean. Our analysis demonstrated that while tunas share similar functional trophic roles, deeper‐foraging tuna species had higher trophic positions globally. The predictive capacity of environmental variables decreased at finer (regional) spatial scales. Main conclusions Our work suggests that habitat compression resulting from the predicted global expansion of oxygen minimum zones with ocean warming will impact the trophic structure of marine food webs and the corresponding foraging habits of marine predators. Spatial scale analyses highlighted the importance of representing differences in regional ecological dynamics in global‐scale trophic and ecosystem models.
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Dates et versions

hal-01975308 , version 1 (09-01-2019)

Identifiants

Citer

Heidi Pethybridge, C. Anela Choy, John Logan, Valérie Allain, Anne Lorrain, et al.. A global meta-analysis of marine predator nitrogen stable isotopes: Relationships between trophic structure and environmental conditions. Global Ecology and Biogeography, 2018, 27 (9), pp.1043-1055. ⟨10.1111/geb.12763⟩. ⟨hal-01975308⟩
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