Mesopelagic fish communities of the tropical North Atlantic: Spatial and temporal patterns in composition and structure

The tropical North Atlantic is a region affected by pronounced natural climate variability on multiple spatio-temporal scales, in interplay with environmental effects due to anthropogenic warming. In its eastern part, an oxygen minimum zone (OMZ) is expanding, while in addition, intensive commercial...

Full description

Bibliographic Details
Published in:Journal of Marine Systems
Main Author: Czudaj, Stephanie
Other Authors: Möllmann, Christian, Fock, Heino Ove
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Staats- und Universitätsbibliothek Hamburg Carl von Ossietzky 2022
Subjects:
Oxygen minimum zone
Deep scattering layer
Tropischer Nordatlantik
Längen-Gewichtsbeziehungen
Stabile Isotopen
570: Biowissenschaften
Biologie
42.94: Meeresbiologie
Mesopelagial
Tiefseefische
Hydroakustik
Mikronekton
Nahrungskette
ddc:570:
North Atlantic
Online Access:http://nbn-resolving.de/urn:nbn:de:gbv:18-ediss-101216
https://ediss.sub.uni-hamburg.de/handle/ediss/9697
Description
Summary:The tropical North Atlantic is a region affected by pronounced natural climate variability on multiple spatio-temporal scales, in interplay with environmental effects due to anthropogenic warming. In its eastern part, an oxygen minimum zone (OMZ) is expanding, while in addition, intensive commercial fishing effort on tuna and small pelagic fish species such as Sardinella spp. occurs; with potential consequences for the structure of pelagic communities and food webs. To be able to assess and monitor these changes, one essential aspect is to increase our current knowledge on mesopelagic fish communities and their functional ecology under different environments. The mesopelagic zone hosts huge biomass of mesopelagic fishes that vertically migrate and interact in the food web with other micronekton organisms, and, thereby, contribute importantly to global marine trophic and biogeochemical cycles. Global large-scale studies demonstrated regional variation in daytime main sound scattering layer (SSL) related to regional environmental characteristics. The accompanying regional variation in the vertical mesopelagic fish community structure and its relative contribution to ecological functioning remain, however, poorly investigated. I conducted the present thesis as part of the EU FP7-Environment project Enhancing Prediction of tropical Atlantic Climate and its Impacts (PREFACE), which aimed to improve our understanding of the functioning of the tropical Atlantic climate, its predictability, and, as part of Work Package 12 (‚Environmental and anthropogenic pressures on pelagic ecosystems and fisheries’), its impacts on pelagic ecosystems and fisheries. Within this framework, we conducted a comprehensive study on abundances, biomass, vertical distribution patterns, size distributions and community and trophic structure of mesopelagic fishes and other micronekton organisms, which were collected during two surveys in 2014 (WH375) and 2015 (WH383) in the eastern North Atlantic. Additional data included in this thesis in ...

Similar Items