Data and code from: You shall not pass, the Pacific oxygen minimum zone creates a boundary to shortfin mako shark distribution in the Eastern North Pacific Ocean

Shoaling of large oxygen minimum zones (OMZs) that form along eastern margins of the world’s oceans can reduce habitat availability for some pelagic fishes. Our aim was to test the hypothesis that habitat compression caused by shoaling of the Pacific OMZ in tropical regions creates a boundary to the southern distribution of shortfin mako sharks (Isurus oxyrinchus) in the Eastern North Pacific Ocean. Methods Satellite tagging of shortfin mako sharks captured in long line or sportfishing equipment in the northwest Atlantic (2013 - 2020) and northeast Pacific (2003-2016) Oceans. Sharks were tagged with fin-mounted satellite-linked radio tags (SLRT), and a subset of sharks in the Pacific were also tagged with pop-up archival tags (PAT).  Location Eastern North Pacific and Western North Atlantic oceans. Methods We compared environmental conditions between areas used by satellite-tagged mako sharks in the Eastern North Pacific, encompassing the world’s largest OMZ, to those used in the Western North Atlantic where no OMZ is present. In the Pacific we quantified the effects of temperature and dissolved oxygen (DO) on depth use and tested if sharks spent less time in areas with strong habitat compression over the OMZ than expected by chance. Results The southern distribution of sharks in the Pacific corresponded with the apex of OMZ shoaling in the North Equatorial Current. Sharks in the Atlantic occupied areas with warm surface temperatures (≥ 26oC) more often than the Pacific, and waters with these temperatures in the Atlantic had greater DO at depth. Sharks in the Pacific reduced time near the surface in warm temperatures and consistently avoided depths with low DO and spent less time in areas with strong habitat compression than expected by chance. Main Conclusions The combination of warm surface temperatures and shoaling of the OMZ creates a soft boundary to mako shark movements in the Eastern North Pacific Ocean. The expected expansion of OMZs due to climate change could have considerable impact on future distribution of mako sharks and other pelagic fish. As such, development of species distribution models to predict effects of climate change on pelagic fish distributions should incorporate oxygen availability.