Layers:

Layer: Spatial Intensity of Marine Heat Waves (1)

Sub Layers:
• Spatial Intensity of Marine Heat Waves - January 2024
• Spatial Intensity of Marine Heat Waves - February 2024
• Spatial Intensity of Marine Heat Waves - March 2024
• Spatial Intensity of Marine Heat Waves - April 2024
• Spatial Intensity of Marine Heat Waves - May 2024
• Spatial Intensity of Marine Heat Waves - June 2024
• Spatial Intensity of Marine Heat Waves - January 2023
• Spatial Intensity of Marine Heat Waves - February 2023
• Spatial Intensity of Marine Heat Waves - March 2023
• Spatial Intensity of Marine Heat Waves - April 2023
• Spatial Intensity of Marine Heat Waves - May 2023
• Spatial Intensity of Marine Heat Waves - June 2023
• Spatial Intensity of Marine Heat Waves - July 2023
• Spatial Intensity of Marine Heat Waves - August 2023
• Spatial Intensity of Marine Heat Waves - September 2023
• Spatial Intensity of Marine Heat Waves - October 2023
• Spatial Intensity of Marine Heat Waves - November 2023
• Spatial Intensity of Marine Heat Waves - December 2023
• Spatial Intensity of Marine Heat Waves - January 2022
• Spatial Intensity of Marine Heat Waves - February 2022
• Spatial Intensity of Marine Heat Waves - March 2022
• Spatial Intensity of Marine Heat Waves - April 2022
• Spatial Intensity of Marine Heat Waves - May 2022
• Spatial Intensity of Marine Heat Waves - June 2022
• Spatial Intensity of Marine Heat Waves - July 2022
• Spatial Intensity of Marine Heat Waves - August 2022
• Spatial Intensity of Marine Heat Waves - September 2022
• Spatial Intensity of Marine Heat Waves - October 2022
• Spatial Intensity of Marine Heat Waves - November 2022
• Spatial Intensity of Marine Heat Waves - December 2022
• Spatial Intensity of Marine Heat Waves - January 2014
• Spatial Intensity of Marine Heat Waves - February 2014
• Spatial Intensity of Marine Heat Waves - March 2014
• Spatial Intensity of Marine Heat Waves - April 2014
• Spatial Intensity of Marine Heat Waves - May 2014
• Spatial Intensity of Marine Heat Waves - June 2014
• Spatial Intensity of Marine Heat Waves - July 2014
• Spatial Intensity of Marine Heat Waves - August 2014
• Spatial Intensity of Marine Heat Waves - September 2014
• Spatial Intensity of Marine Heat Waves - October 2014
• Spatial Intensity of Marine Heat Waves - November 2014
• Spatial Intensity of Marine Heat Waves - December 2014
• Spatial Intensity of Marine Heat Waves - January 2012
• Spatial Intensity of Marine Heat Waves - February 2012
• Spatial Intensity of Marine Heat Waves - March 2012
• Spatial Intensity of Marine Heat Waves - April 2012
• Spatial Intensity of Marine Heat Waves - May 2012
• Spatial Intensity of Marine Heat Waves - June 2012
• Spatial Intensity of Marine Heat Waves - July 2012
• Spatial Intensity of Marine Heat Waves - August 2012
• Spatial Intensity of Marine Heat Waves - September 2012
• Spatial Intensity of Marine Heat Waves - October 2012
• Spatial Intensity of Marine Heat Waves - November 2012
• Spatial Intensity of Marine Heat Waves - December 2012
Name: Spatial Intensity of Marine Heat Waves

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - January 2024 (2)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

Definition Expression: N/A

Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - February 2024 (3)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - March 2024 (4)

Parent Layer: Spatial Intensity of Marine Heat Waves

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Layer: Spatial Intensity of Marine Heat Waves - April 2024 (5)

Parent Layer: Spatial Intensity of Marine Heat Waves

Name: Spatial Intensity of Marine Heat Waves - April 2024

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - May 2024 (6)

Parent Layer: Spatial Intensity of Marine Heat Waves

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Layer: Spatial Intensity of Marine Heat Waves - June 2024 (7)

Parent Layer: Spatial Intensity of Marine Heat Waves

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Layer: Spatial Intensity of Marine Heat Waves - January 2023 (8)

Parent Layer: Spatial Intensity of Marine Heat Waves

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - February 2023 (9)

Parent Layer: Spatial Intensity of Marine Heat Waves

Name: Spatial Intensity of Marine Heat Waves - February 2023

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - March 2023 (10)

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Layer: Spatial Intensity of Marine Heat Waves - September 2023 (16)

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Layer: Spatial Intensity of Marine Heat Waves - November 2023 (18)

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Layer: Spatial Intensity of Marine Heat Waves - December 2022 (31)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - January 2014 (32)

Parent Layer: Spatial Intensity of Marine Heat Waves

Name: Spatial Intensity of Marine Heat Waves - January 2014

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - February 2014 (33)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - March 2014 (34)

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Name: Spatial Intensity of Marine Heat Waves - March 2014

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - April 2014 (35)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Layer: Spatial Intensity of Marine Heat Waves - May 2014 (36)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - June 2014 (37)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Layer: Spatial Intensity of Marine Heat Waves - July 2014 (38)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Spatial Intensity of Marine Heat Waves - August 2014 (39)

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Description: The MHW spatial intensity layer outlines the monthly spatial area under MHW conditions at a given monthly time step. Marine heatwaves were identified as pixels experiencing a monthly sea surface temperature anomaly above the 90th percentile of the seasonal threshold for that pixel (2000-2020 climatological baseline). MHWs were identified using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Layer: Spatial Intensity of Marine Heat Waves - September 2014 (40)

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Layer: Spatial Intensity of Marine Heat Waves - October 2014 (41)

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Layer: Spatial Intensity of Marine Heat Waves - June 2012 (49)

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Layer: Spatial Intensity of Marine Heat Waves - July 2012 (50)

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Layer: Spatial Intensity of Marine Heat Waves - August 2012 (51)

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Layer: Sea Surface Temperature Anomaly - January 2023 (63)

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Layer: Sea Surface Temperature Anomaly - October 2012 (108)

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Description: The sea surface temperature anomaly layer shows the monthly SST anomaly (°C) at a given monthly time step. Monthly sea surface temperature anomalies were calculated based on a 20-year climatological baseline (2000-2020), with the long-term warming trend removed (detrended). Anomalies were calculated using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Sea Surface Temperature Anomaly - November 2012 (109)

Parent Layer: Sea Surface Temperature Anomaly

Name: Sea Surface Temperature Anomaly - November 2012

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Description: The sea surface temperature anomaly layer shows the monthly SST anomaly (°C) at a given monthly time step. Monthly sea surface temperature anomalies were calculated based on a 20-year climatological baseline (2000-2020), with the long-term warming trend removed (detrended). Anomalies were calculated using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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Layer: Sea Surface Temperature Anomaly - December 2012 (110)

Parent Layer: Sea Surface Temperature Anomaly

Name: Sea Surface Temperature Anomaly - December 2012

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Description: The sea surface temperature anomaly layer shows the monthly SST anomaly (°C) at a given monthly time step. Monthly sea surface temperature anomalies were calculated based on a 20-year climatological baseline (2000-2020), with the long-term warming trend removed (detrended). Anomalies were calculated using the Multi-scale Ultra-high Resolution (MUR) Sea Surface Temperature (SST) product, a part of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Program (<a href='https://podaac.jpl.nasa.gov/MEaSUREs-MUR' target='_blank'>here</a>). Additional information about this project and for more details on how these models are produced and used can be found in the layer metadata and on the Fisheries and Climate Toolkit website.

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Copyright Text: NASA-funded Fisheries and Climate Toolkit (FaCeT, https://fisheriesclimatetoolkit.sdsu.edu). For questions contact: cbraun@whoi.edu

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YMin: 18.00500000000001
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Spatial Reference: 4326  (4326)



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