The Response of a Branch of Puget Sound, Washington to the 2014 North Pacific Warm Anomaly

John Mickett1, Jan Newton2,3, Allan Devol4, Christopher Krembs5 and Wendi Ruef4, (1)University of Washington, Applied Physics Laboratory, Seattle, WA, United States, (2)Northwest Association of Networked Ocean Observing Systems, Seattle, WA, United States, (3)University of Washington & NANOOS, Seattle, WA, United States, (4)University of Washington, Seattle, WA, United States, (5)Washington State Department of Ecology, Marine Monitoring Unit, Olympia, WA, United States
Abstract:
The flow of the unprecedentedly-warm upper-ocean North Pacific “Blob” water into Puget Sound, Washington, caused local extreme water property anomalies that extended from the arrival of the water inshore in the fall of 2014 through 2015. Here we report on moored and seaplane observations from Hood Canal, a branch of Puget Sound, where temperature was more than 2σ above climatology for much of the year with maximum temperature anomalies at depth and at the surface +2.5 °C and +7 °C respectively. The low density of the oceanic warm “Blob” water resulted in weak deep water flushing in Hood Canal in the fall of 2014, which combined with a lack of wintertime flushing to result in anomalously-low dissolved oxygen (DO) concentrations at depth. Late-summer 2015 DO values were the lowest in a decade of mooring observations and more than 2σ below climatology. The anomalously low density of the deep basin water allowed a very early onset of the annually-occurring, late-summer intrusion, which first entered Hood Canal at the end of July compared to the usual arrival in early to mid-September. In late August this intrusion conspired with an early fall storm to lift the very low DO deep water to surface at the south end of Hood Canal, causing a significant fish kill event.