Abstract
Anthropogenic climate change is altering the geographical distribution and regular movements of species. Highly‐mobile pelagic seabirds, such as albatrosses, are particularly threatened by human activities, such as fisheries bycatch. Predicting the impact of climate change on how these animals roam the ocean is an important step towards making informed conservation decisions. In this study, we used a mechanistic model of migratory movements to predict how the migration of albatross species that breed in the southern Indian Ocean may change between now and the end of the century. The model is able to generate non‐breeding movement patterns of albatrosses that correspond to empirical patterns from tracking data, thus providing confidence in the ability of the model to make future predictions. We projected the model using environmental conditions for 2100 based on a scenario assuming high emissions (IPCC RCP 8.5). Overall, we found very little projected change in the non‐breeding distribution of albatrosses compared to the present. Some change, however, is predicted for large albatrosses, which, due to their size, are more affected by wind, and are projected to migrate further eastwards in the future scenario. These results contrast with previous analyses focusing on the breeding distribution that used statistical modelling, such as habitat and species distributions models, and predicted poleward shifts in geographical distributions of various seabird species including albatrosses. Therefore, it highlights the need for formal comparison of predicted changes in distribution during different phases of the annual cycle of the albatrosses and/or integration of the different approaches. Our analysis also predicts that the overlap of albatrosses with Regional Fisheries Management Organisations (RFMOs) during the non‐breeding season will remain similar in 2100 compared to today. This implies that large‐scale by‐catch mitigation measures implemented through fisheries management organisations will remain important over the next hundred years of climate change.
Highlights
Anthropogenic climate change is affecting the distribution of species across the world (Chen et al 2011, Pecl et al 2017)
We considered four different Regional Fisheries Management Organisations (RFMOs), comprising three tuna RFMOs: the International Commission for the Conservation of Atlantic Tunas (ICCAT), the Indian Ocean Tuna Commission (IOTC) and the Western and Central Pacific Fisheries Commission (WCPFC); plus the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR)
We used a mechanistic model to predict how the migrations of albatrosses that breed in the southern Indian Ocean will be affected by climate change
Summary
Anthropogenic climate change is affecting the distribution of species across the world (Chen et al 2011, Pecl et al 2017). Many marine species are adapted to the inherent dynamic nature of the ocean by being highly mobile, which allows them to respond to climate change by modifying their geographical distribution and regular movements (Sorte et al 2010, Poloczanska et al 2013). Pelagic seabirds such as albatrosses are highly mobile and among ocean top-predators, typically foraging over large oceanic areas (Croxall et al 2005). Such predictions could inform fisheries management practices, such as bycatch mitigation measures implemented through Regional Fisheries Management Organisations (RFMOs) (Anderson et al 2011), or dynamic ocean management approaches (Hobday et al 2014, Hazen et al 2018)
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