Bottom marine heatwaves along the continental shelves of North America
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[1] M. Alexander,et al. An evaluation of high-resolution ocean reanalyses in the California current system , 2023, Progress in Oceanography.
[2] C. Whittle,et al. An Intercomparison of Global Reanalysis Products for Southern Africa’s Major Oceanographic Features , 2022, Frontiers in Marine Science.
[3] A. Capotondi,et al. An Optimal Precursor of Northeast Pacific Marine Heatwaves and Central Pacific El Niño Events , 2022, Geophysical Research Letters.
[4] James D. Scott,et al. Subseasonal‐to‐seasonal forecast skill in the California Current System and its connection to coastal Kelvin waves , 2022, Journal of Geophysical Research: Oceans.
[5] Jiayan Yang,et al. Mesoscale and Submesoscale Shelf‐Ocean Exchanges Initialize an Advective Marine Heatwave , 2021, Journal of Geophysical Research: Oceans.
[6] Young‐Oh Kwon,et al. Mixed layer depth climatology over the northeast U.S. continental shelf (1993–2018) , 2021, Continental Shelf Research.
[7] B. Mounir,et al. The Copernicus Global 1/12° Oceanic and Sea Ice GLORYS12 Reanalysis , 2021, Frontiers in Earth Science.
[8] J. Molines,et al. Assessing Eddying (1/12°) Ocean Reanalysis GLORYS12 Using the 14‐yr Instrumental Record From 59.5°N Section in the Atlantic , 2021, Journal of Geophysical Research: Oceans.
[9] Brian C. Stock,et al. Seasonal Prediction of Bottom Temperature on the Northeast U.S. Continental Shelf , 2021, Journal of Geophysical Research: Oceans.
[10] J. Palter,et al. Changes in the Gulf Stream preceded rapid warming of the Northwest Atlantic Shelf , 2021, Communications Earth & Environment.
[11] M. Newman,et al. The Continuum of Northeast Pacific Marine Heatwaves and Their Relationship to the Tropical Pacific , 2021, Geophysical Research Letters.
[12] S. Perkins‐Kirkpatrick,et al. Drivers and impacts of the most extreme marine heatwaves events , 2020, Scientific Reports.
[13] P. Soares,et al. Global marine heatwave events using the new CMIP6 multi-model ensemble: from shortcomings in present climate to future projections , 2020, Environmental Research Letters.
[14] N. Holbrook,et al. Marine Heatwaves. , 2020, Annual review of marine science.
[15] Tong Lee,et al. Compounding impact of severe weather events fuels marine heatwave in the coastal ocean , 2020, Nature Communications.
[16] S. Riser,et al. Subsurface Evolution and Persistence of Marine Heatwaves in the Northeast Pacific , 2020, Geophysical Research Letters.
[17] Kirstin K. Holsman,et al. Marine Heatwave Stress Test of Ecosystem-Based Fisheries Management in the Gulf of Alaska Pacific Cod Fishery , 2020, Frontiers in Marine Science.
[18] James D. Scott,et al. Thermal displacement by marine heatwaves , 2020, Nature.
[19] S. Xie,et al. Physical drivers of the summer 2019 North Pacific marine heatwave , 2020, Nature Communications.
[20] J. Santora,et al. Habitat compression and ecosystem shifts as potential links between marine heatwave and record whale entanglements , 2020, Nature Communications.
[21] M. Roughan,et al. Evaluation of four global ocean reanalysis products for New Zealand waters–A guide for regional ocean modelling , 2020 .
[22] A. Schaeffer,et al. Observational Insight Into the Subsurface Anomalies of Marine Heatwaves , 2019, Front. Mar. Sci..
[23] S. Somot,et al. Past Variability of Mediterranean Sea Marine Heatwaves , 2019, Geophysical Research Letters.
[24] Antonietta Capotondi,et al. Predictability of US West Coast Ocean Temperatures is not solely due to ENSO , 2019, Scientific Reports.
[25] S. Perkins‐Kirkpatrick,et al. A global assessment of marine heatwaves and their drivers , 2019, Nature Communications.
[26] Hernan G. Arango,et al. A Coastal Ocean Forecast System for U.S. Mid-Atlantic Bight and Gulf of Maine , 2018, New Frontiers in Operational Oceanography.
[27] E. Oliver,et al. Extreme Marine Warming Across Tropical Australia During Austral Summer 2015–2016 , 2018 .
[28] C. Wolfe,et al. Intercomparison of the Gulf Stream in ocean reanalyses: 1993−2010 , 2017 .
[29] James D. Scott,et al. Response of O 2 and pH to ENSO in the California Current System in a high-resolution global climate model , 2017 .
[30] N. Bindoff,et al. The unprecedented 2015/16 Tasman Sea marine heatwave , 2017, Nature Communications.
[31] M. Roughan,et al. Subsurface intensification of marine heatwaves off southeastern Australia: The role of stratification and local winds , 2017 .
[32] R. Kudela,et al. An unprecedented coastwide toxic algal bloom linked to anomalous ocean conditions , 2016, Geophysical research letters.
[33] Irina Koester,et al. Biological Impacts of the 2013–2015 Warm-Water Anomaly in the Northeast Pacific: Winners, Losers, and the Future , 2016 .
[34] D. Rudnick,et al. The 2014–2015 warming anomaly in the Southern California Current System observed by underwater gliders , 2016 .
[35] Alistair J. Hobday,et al. A hierarchical approach to defining marine heatwaves , 2016 .
[36] Andrew C. Thomas,et al. Slow adaptation in the face of rapid warming leads to collapse of the Gulf of Maine cod fishery , 2015, Science.
[37] Gabriel A. Vecchi,et al. Seasonal sea surface temperature anomaly prediction for coastal ecosystems , 2015 .
[38] Young‐Oh Kwon,et al. The role of atmospheric forcing versus ocean advection during the extreme warming of the Northeast U.S. continental shelf in 2012 , 2015 .
[39] Nicholas A. Bond,et al. Causes and impacts of the 2014 warm anomaly in the NE Pacific , 2015 .
[40] J. Barth,et al. Occurrence of demersal fishes in relation to near‐bottom oxygen levels within the California Current large marine ecosystem , 2015 .
[41] Hart,et al. Post-settlement predation by sea stars and crabs on the sea scallop in the Mid-Atlantic Bight , 2012 .
[42] M. Scheffer,et al. Creation of a Gilded Trap by the High Economic Value of the Maine Lobster Fishery , 2011, Conservation biology : the journal of the Society for Conservation Biology.
[43] Alistair J. Hobday,et al. Seasonal forecasting of tuna habitat for dynamic spatial management , 2011 .
[44] Michael J. Fogarty,et al. Potential climate change impacts on Atlantic cod (Gadus morhua) off the northeastern USA , 2008 .
[45] J. Hare,et al. Thermal tolerance and potential distribution of invasive lionfish (Pterois volitans/miles complex) on the east coast of the United States , 2004 .
[46] John R. Lanzante,et al. The Atmospheric Bridge: The Influence of ENSO Teleconnections on Air-Sea Interaction over the Global Oceans , 2002 .
[47] T. DelSole. Optimally Persistent Patterns in Time-Varying Fields , 2001 .
[48] E. Carmack,et al. A climatology of the shelfbreak front in the Middle Atlantic Bight (Paper 98JC01438) , 1998 .
[49] J. Jacka,et al. Oceans. , 1905 .
[50] Ben P. Harvey,et al. Marine heatwaves threaten global biodiversity and the provision of ecosystem services , 2019 .
[51] M. McCammon,et al. The High Latitude Marine Heat Wave of 2016 and Its Impacts on Alaska , 2018 .
[52] James D. Scott,et al. Forcing of Multiyear Extreme Ocean Temperatures that Impacted California Current Living Marine Resources in 2016 , 2018 .
[53] James D. Scott,et al. Response of O2 and pH to ENSO in the California Current System in a high resolution global climate model , 2017 .
[54] Alistair J. Hobday,et al. Dynamical seasonal ocean forecasts to aid salmon farm management in a climate hotspot , 2014 .
[55] Katherine E. Mills,et al. Fisheries Management in a Changing Climate Lessons from the 2012 Ocean Heat Wave in the Northwest Atlantic , 2013 .