Satellite sea surface temperatures along the West Coast of the United States during the 2014–2016 northeast Pacific marine heat wave

Gentemann, Chelle; Fewings, Melanie R.; García‐Reyes, Marisol

doi:10.1002/2016gl071039

Cited by 257 publications

(235 citation statements)

References 18 publications

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“…Coastal sea surface temperatures in southern California began to warm as a result of 'the Blob' in mid-2014, after the start of our sampling regime, and remained anomalously warm until spring in 2015 (Leising et al 2015). El Niño impacted southern California starting in spring 2015 and intensified in fall− winter of 2015, corresponding to the highest temperatures recorded at our site, lowest larval abundances, and the peak of the southern California coastal warm anomaly (Leising et al 2015, Gentemann et al 2017. Decreased larval abundances in 2015 could be associated with environmental conditions that may have increased larval mortality or offshore advection, diminished onshore larval transport, decreased adult reproduction, or a combination of these factors.…”

Section: Discussionmentioning

confidence: 79%

Constrained nearshore larval distributions and thermal stratification

Hagerty¹,

Reyns²,

Pineda³

2018

Mar. Ecol. Prog. Ser.

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Vertical and cross-shore distributions and abundances of shallow-water barnacle larvae were characterized in La Jolla, southern California (USA), during a 2 yr period. Five stations located within 1 km of shore and ranging from 4−12 m water depths were sampled intensively in 2 m depth intervals during 27 cruises throughout spring−summer (April−July) and fall−winter (October−December) of 2014 and 2015. Larval abundances significantly decreased from 2014 to 2015, which could be related to the arrival of a warm-water anomaly (the so-called 'Blob') in 2014 and El Niño conditions in 2015. Despite the presence of these large-scale regional disturbances, vertical and cross-shore larval distributions were consistent throughout the 2 yr study period. Early-stage nauplii and Chthamalus fissus cyprids tracked bottom depth, and cyprids were on average deeper than nauplii. Vertical distributions were not related to the mid-depth of the thermocline or thermal stratification. Early-stage nauplii had a broader cross-shore distribution than cyprids, which were concentrated at inshore stations. Nearshore cyprid concentration had a positive relationship with thermal stratification, and the center of distribution of cyprids was farther offshore during fall−winter when stratification decreased. These results suggest that thermal stratification elicits enhanced behavioral control of cyprids to remain close to shore and reach the adult habitat.

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Section: Discussionmentioning

confidence: 79%

Constrained nearshore larval distributions and thermal stratification

Hagerty¹,

Reyns²,

Pineda³

2018

Mar. Ecol. Prog. Ser.

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show abstract

“…Bond et al (2015) showed that record SSTa in the Gulf of Alaska (GOA) in 2014 were caused by a persistent ridge of high sea level pressure anomalies that reduced surface wind speeds and weakened normal cooling processes over the 2013/14 winter. In 2015, northeast Pacific SST extremes expanded to include an area encompassing Alaska to Baja California (Gentemann et al 2017). Di Lorenzo and Mantua (2016;hereafter DM2016) showed this persistent marine heatwave was a consequence of two atmospheric forcing/ocean response patterns, the 2014 GOA pattern and the 2015 northeast Pacific Arc pattern, linked with ENSO via teleconnections.…”

Section: Cclme Sst Anomalies In the Context Of Variability And Changementioning

confidence: 99%

Forcing of Multiyear Extreme Ocean Temperatures that Impacted California Current Living Marine Resources in 2016

Jacox

Alexander

Mantua

et al. 2018

Bulletin of the American Meteorological Society

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“…At its peaks during the winter of 2014 and summer of 2015, the positive sea surface temperature (SST) anomalies in the warming region reached as high as 28-38C and penetrated as deep as 180 m below the ocean surface Hu et al 2017). This patch of warm water then propagated from the Gulf of Alaska toward the coastal regions, resulting in an arc-shaped warming off the North American coasts during the following winter (Amaya et al 2016;Di Lorenzo and Mantua 2016;Gentemann et al 2017). This Pacific warm blob event exerted pervasive impacts on coastal ecosystems, North American climate, and air quality.…”

Section: Introductionmentioning

confidence: 99%

Linking the Tropical Northern Hemisphere Pattern to the Pacific Warm Blob and Atlantic Cold Blob

Liang

Saltzman

et al. 2017

J. Climate

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During 2013-15, prolonged near-surface warming in the northeastern Pacific was observed and has been referred to as the Pacific warm blob. Here, statistical analyses are conducted to show that the generation of the Pacific blob is closely related to the tropical Northern Hemisphere (TNH) pattern in the atmosphere. When the TNH pattern stays in its positive phase for extended periods of time, it generates prolonged blob events primarily through anomalies in surface heat fluxes and secondarily through anomalies in wind-induced ocean advection. Five prolonged ($24 months) blob events are identified during the past six decades , and the TNH-blob relationship can be recognized in all of them. Although the Pacific decadal oscillation and El Niño can also induce an arc-shaped warming pattern near the Pacific blob region, they are not responsible for the generation of Pacific blob events. The essential feature of Pacific blob generation is the TNH-forced Gulf of Alaska warming pattern. This study also finds that the atmospheric circulation anomalies associated with the TNH pattern in the North Atlantic can induce SST variability akin to the so-called Atlantic cold blob, also through anomalies in surface heat fluxes and wind-induced ocean advection. As a result, the TNH pattern serves as an atmospheric conducting pattern that connects some of the Pacific warm blob and Atlantic cold blob events. This conducting mechanism has not previously been explored.

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Satellite sea surface temperatures along the West Coast of the United States during the 2014–2016 northeast Pacific marine heat wave

Cited by 257 publications

References 18 publications

Constrained nearshore larval distributions and thermal stratification

Constrained nearshore larval distributions and thermal stratification

Forcing of Multiyear Extreme Ocean Temperatures that Impacted California Current Living Marine Resources in 2016

Linking the Tropical Northern Hemisphere Pattern to the Pacific Warm Blob and Atlantic Cold Blob

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