Projected distributions of Southern Ocean albatrosses, petrels and fisheries as a consequence of climatic change

Citations Over TimeTop 10% of 2017 papers

Abstract

Given the major ongoing influence of environmental change on the oceans, there is a need to understand and predict the future distributions of marine species in order to plan appropriate mitigation to conserve vulnerable species and ecosystems. In this study we use tracking data from seven large seabird species of the Southern Ocean (black‐browed albatross Thalassarche melanophris , grey‐headed albatross T. chrysostoma , northern giant petrel Macronectes halli , southern giant petrel M. giganteus , Tristan albatross Diomedea dabbenena , wandering albatross D. exulans and white‐chinned petrel Procellaria aequinoctialis , and on fishing effort in two types of fisheries (characterised by low or high‐bycatch rates), to model the associations with environmental variables (bathymetry, chlorophyll‐a concentration, sea surface temperature and wind speed) through ensemble species distribution models. We then projected these distributions according to four climate change scenarios built by the Intergovernmental Panel for Climate Change for 2050 and 2100. The resulting projections were consistent across scenarios, indicating that there is a strong likelihood of poleward shifts in distribution of seabirds, and several range contractions (resulting from a shift in the northern, but no change in the southern limit of the range in four species). Current trends for southerly shifts in fisheries distributions are also set to continue under these climate change scenarios at least until 2100; some of these may reflect habitat loss for target species that are already over‐fished. It is of particular concern that a shift in the distribution of several highly threatened seabird species would increase their overlap with fisheries where there is a high‐bycatch risk. Under such scenarios, the associated shifts in distribution of seabirds and increases in bycatch risk will require much‐improved fisheries management in these sensitive areas to minimise impacts on populations in decline.

Related Papers

• → Seabird bycatch in the Southwest Atlantic: interaction with the Uruguayan pelagic longline fishery(2008)88 cited
• → Spatial and temporal variations in seabird bycatch: Incidental bycatch in the Norwegian coastal gillnet-fishery(2019)40 cited
• → How much do we know about seabird bycatch in pelagic longline fisheries? A simulation study on the potential bias caused by the usually unobserved portion of seabird bycatch(2019)9 cited
• → Seabird bycatch loss rate variability in pelagic longline fisheries(2020)11 cited
• Estimates of total seabird bycatch by Atlantic pelagic longline fisheries from 2003 to 2006(2012)