Sensitivity of marine protected area network connectivity to atmospheric variability.

Alan D Fox,David W Corne,J Murray Roberts,Lea-Anne Henry

doi:10.1098/rsos.160494

Alan D Fox, David W Corne + Show 2 more

Open Access

https://doi.org/10.1098/rsos.160494

Copy DOI

Abstract

International efforts are underway to establish well-connected systems of marine protected areas (MPAs) covering at least 10% of the ocean by 2020. But the nature and dynamics of ocean ecosystem connectivity are poorly understood, with unresolved effects of climate variability. We used 40-year runs of a particle tracking model to examine the sensitivity of an MPA network for habitat-forming cold-water corals in the northeast Atlantic to changes in larval dispersal driven by atmospheric cycles and larval behaviour. Trajectories of Lophelia pertusa larvae were strongly correlated to the North Atlantic Oscillation (NAO), the dominant pattern of interannual atmospheric circulation variability over the northeast Atlantic. Variability in trajectories significantly altered network connectivity and source–sink dynamics, with positive phase NAO conditions producing a well-connected but asymmetrical network connected from west to east. Negative phase NAO produced reduced connectivity, but notably some larvae tracked westward-flowing currents towards coral populations on the mid-Atlantic ridge. Graph theoretical metrics demonstrate critical roles played by seamounts and offshore banks in larval supply and maintaining connectivity across the network. Larval longevity and behaviour mediated dispersal and connectivity, with shorter lived and passive larvae associated with reduced connectivity. We conclude that the existing MPA network is vulnerable to atmospheric-driven changes in ocean circulation.

Highlights

Sensitivity of marine protected area network connectivity to atmospheric variability Alan D
Striking variability in marine protected areas (MPAs) network connectivity was observed, which was strongly correlated to changes in atmospheric circulation
A small cluster of MPAs in the North Sea, the inshore East Mingulay MPA and the Anton Dohrn Seamount MPA were only weakly connected to the main clusters. These weaker and less frequent connections between clusters were highly sensitive to North Atlantic Oscillation (NAO) state, which changed the fundamental characteristics of the network

Summary

Introduction

Sensitivity of marine protected area network connectivity to atmospheric variability Alan D. Marine protected areas (MPAs) are areas of the ocean that are managed to achieve the long-term conservation of nature with associated ecosystem services and cultural values. Individual MPAs do not exist in isolation; these areas are connected in space and time by the movement of migratory species, larval life stages, or by the circulation of energy and elements. This means that MPAs form interconnected networks, with the term ‘connectivity’ describing the system of connections in a network

Methods

Results

Conclusion