---
- attributes: ~
  caption: |+2
    
    	The observed number of very cold nights (annual number of days with minimum temperature below 0°F) for 1900–2014, averaged over 5-year periods; these values are averages from eight long-term reporting stations. The number of very cold nights has been below average since the early 1990s. In the period of record, the greatest number occurred during 1945–1949, when the state averaged 12.1 such days annually. The dark horizontal line is the long-term average of 8.3 days per year. Source: CICS-NC and NOAA NCEI.

  chapter_identifier: idaho
  create_dt: 2015-04-13T00:00:00
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-observed-number-of-very-cold-nights.yaml
  identifier: id-observed-number-of-very-cold-nights
  lat_max: 49.0009
  lat_min: 41.9880
  lon_max: -117.2431
  lon_min: -111.0434
  ordinal: 4
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: ~
  time_end: 2014-12-31T00:00:00
  time_start: 1900-01-01T00:00:00
  title: Observed Number of Very Cold Nights
  uri: /report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-observed-number-of-very-cold-nights
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: 'In August and September 2012, sea ice covered less of the Arctic Ocean than any time since the beginning of reliable satellite measurements (1979). The long-term retreat of sea ice has occurred faster than climate models had predicted. The average minimum extent of sea ice for 1979-2000 was 2.59 million square miles. The image on the left shows Arctic minimum sea ice extent in 1984, which was about the average minimum extent for 1979-2000. The image on the right shows that the extent of sea ice had dropped to 1.32 million square miles at the end of summer 2012. Alaska Native coastal communities rely on sea ice for many reasons, including its role as a buffer against coastal erosion from storms. (Figure source: NASA Earth Observatory 2012<tbib>4599b8b1-534b-4e48-bff1-b381a9ef4998</tbib>).'
  chapter_identifier: tribal-indigenous-native-lands-resources
  create_dt: 2014-03-14T13:23:00
  href: https://data.globalchange.gov/report/nca3/chapter/tribal-indigenous-native-lands-resources/figure/sea-ice-cover-reaches-record-low.yaml
  identifier: sea-ice-cover-reaches-record-low
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 4
  report_identifier: nca3
  source_citation: 'NASA Earth Observatory 2012<tbib>4599b8b1-534b-4e48-bff1-b381a9ef4998</tbib>'
  submission_dt: ~
  time_end: ~
  time_start: ~
  title: Sea Ice Cover Reaches Record Low
  uri: /report/nca3/chapter/tribal-indigenous-native-lands-resources/figure/sea-ice-cover-reaches-record-low
  url: http://nca2014.globalchange.gov/highlights/report-findings/our-changing-climate/graphics/arctic-sea-ice-decline
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: '(a) Global mean sea level (GMSL) rise from 1800 to 2100, based on Figure 12.2b from 1800 to 2015, the six Interagency<tbib>c66bf5a9-a6d7-4043-ad99-db0ae6ae562c</tbib> GMSL scenarios (navy blue, royal blue, cyan, green, orange, and red curves), the <em>very likely</em> ranges in 2100 for different RCPs (colored boxes), and lines augmenting the <em>very likely</em> ranges by the difference between the median Antarctic contribution of Kopp et al.<tbib>38924fa0-a0dd-44c9-a2a0-366ca610b280</tbib>  and the various median Antarctic projections of DeConto and Pollard.<tbib>ae82c8a3-3033-4103-91e9-926a27d1fa18</tbib> (b) Relative sea level(RSL) rise (feet) in 2100 projected for the Interagency Intermediate Scenario (1-meter [3.3 feet] GMSL rise by 2100)  (Figure source: Sweet et al. 2017<tbib>c66bf5a9-a6d7-4043-ad99-db0ae6ae562c</tbib>).'
  chapter_identifier: sea-level-rise
  create_dt: 2017-10-06T17:12:27
  href: https://data.globalchange.gov/report/climate-science-special-report/chapter/sea-level-rise/figure/slr_global-mean-and-relative-sea-level_v1.yaml
  identifier: slr_global-mean-and-relative-sea-level_v1
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 4
  report_identifier: climate-science-special-report
  source_citation: ~
  submission_dt: 2017-10-13T18:24:24
  time_end: ~
  time_start: ~
  title: Projected Global Mean and Relative Sea Level
  uri: /report/climate-science-special-report/chapter/sea-level-rise/figure/slr_global-mean-and-relative-sea-level_v1
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: 'Dramatic reductions in Arctic sea ice and changes in its timing and composition affect the entire food web, including many Inupiaq communities that continue to rely heavily on subsistence hunting and fishing. (Figure source: NOAA NCDC).'
  chapter_identifier: tribal-indigenous-native-lands-resources
  create_dt: 2012-10-27T12:14:17
  href: https://data.globalchange.gov/report/nca3/chapter/tribal-indigenous-native-lands-resources/figure/arctic-marine-food-web.yaml
  identifier: arctic-marine-food-web
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 5
  report_identifier: nca3
  source_citation: NOAA NCDC
  submission_dt: ~
  time_end: ~
  time_start: ~
  title: Arctic Marine Food Web
  uri: /report/nca3/chapter/tribal-indigenous-native-lands-resources/figure/arctic-marine-food-web
  url: http://nca2014.globalchange.gov/report/sectors/indigenous-peoples/graphics/arctic-marine-food-web
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: |+2
    
    	The observed annual precipitation across Idaho for 1895–2014, averaged over 5-year periods; these values are averages from NCEI's version 2 climate division dataset.  The dark horizontal line is the long-term average of 23.7 inches annually. Source: CICS-NC and NOAA NCEI.

  chapter_identifier: idaho
  create_dt: 2015-04-13T00:00:00
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-observed-annual-precipitation.yaml
  identifier: id-observed-annual-precipitation
  lat_max: 49.0009
  lat_min: 41.9880
  lon_max: -117.2431
  lon_min: -111.0434
  ordinal: 5
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: ~
  time_end: 2014-12-31T00:00:00
  time_start: 1895-01-01T00:00:00
  title: Observed Annual Precipitation
  uri: /report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-observed-annual-precipitation
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: '(a) Tidal floods (days per year) exceeding NOAA thresholds for minor impacts at 28 NOAA tide gauges through 2015.  (b) Historical exceedances (orange), future projections through 2100 based upon the continuation of the historical trend (blue), and future projections under median RCP2.6, 4.5 and 8.5 conditions, for two of the locations—Charleston, SC and San Francisco, CA.  (c) Water level heights above average highest tide associated with a local 5-year recurrence probability, and (d) the future decade when the 5-year event becomes a 0.2-year (5 or more times per year) event under the Interagency Intermediate scenario; black dots imply that a 5-year to 0.2-year frequency change does not unfold by 2200 under the Intermediate scenario.   (Figure source: (a) adapted from Sweet and Marra 2016,<tbib>048006a1-a72d-44a1-bdab-fff317c842f7</tbib>  (b) adapted from Sweet and Park 2014,<tbib>91aeffdb-e82f-4645-abe9-f6ea6909e979</tbib> (c) and (d) Sweet et al. 2017<tbib>c66bf5a9-a6d7-4043-ad99-db0ae6ae562c</tbib>).'
  chapter_identifier: sea-level-rise
  create_dt: 2017-10-06T17:15:03
  href: https://data.globalchange.gov/report/climate-science-special-report/chapter/sea-level-rise/figure/slr_tidal-floods_v1.yaml
  identifier: slr_tidal-floods_v1
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 5
  report_identifier: climate-science-special-report
  source_citation: ~
  submission_dt: 2017-10-13T18:24:31
  time_end: ~
  time_start: ~
  title: Tidal Floods
  uri: /report/climate-science-special-report/chapter/sea-level-rise/figure/slr_tidal-floods_v1
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: |+2
    
    	The observed number of days with extreme precipitation events (annual number of days with precipitation greater than 1 inch) for 1900–2014, averaged over 5-year periods; these values are averages from eight long-term reporting stations. Idaho has experienced an above normal number of extreme precipitation events during most of the late 1990s and 2000s, except for 2000–2004. The dark horizontal line is the long-term average of 1.4 days per year. Source: CICS-NC and NOAA NCEI.

  chapter_identifier: idaho
  create_dt: 2015-04-13T00:00:00
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-observed-number-of-extreme-precipitation-events.yaml
  identifier: id-observed-number-of-extreme-precipitation-events
  lat_max: 49.0009
  lat_min: 41.9880
  lon_max: -117.2431
  lon_min: -111.0434
  ordinal: 6
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: ~
  time_end: 2014-12-31T00:00:00
  time_start: 1900-01-01T00:00:00
  title: Observed Number of Extreme Precipitation Events
  uri: /report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-observed-number-of-extreme-precipitation-events
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: 'The maps show projected ground temperature at a depth of 3.3 feet assuming continued increases in emissions (A2 scenario) and assuming a substantial reduction in emissions (B1 scenario). Blue shades represent areas below freezing at a depth of 3.3 feet and yellow and red shades represent areas above freezing at that depth (see Ch. 22: Alaska for more details). Many Alaska Natives depend on permafrost for ice cellars to store frozen food, and replacing these cellars with electricity-driven freezers is expensive or otherwise infeasible. Permafrost thawing also affects infrastructure like roads and utility lines. (Figure source: Permafrost Lab, Geophysical Institute, University of Alaska Fairbanks).'
  chapter_identifier: tribal-indigenous-native-lands-resources
  create_dt: ~
  href: https://data.globalchange.gov/report/nca3/chapter/tribal-indigenous-native-lands-resources/figure/thawing-permafrost-in-alaska.yaml
  identifier: thawing-permafrost-in-alaska
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 6
  report_identifier: nca3
  source_citation: 'Permafrost Lab, Geophysical Institute, University of Alaska Fairbanks'
  submission_dt: ~
  time_end: ~
  time_start: ~
  title: Thawing Permafrost in Alaska
  uri: /report/nca3/chapter/tribal-indigenous-native-lands-resources/figure/thawing-permafrost-in-alaska
  url: http://nca2014.globalchange.gov/report/sectors/indigenous-peoples/graphics/thawing-permafrost-alaska
  usage_limits: Copyright protected. Obtain permission from the original figure source.
- attributes: ~
  caption: 'Projected changes in spring precipitation (%) by the middle of the 21st century compared to the late 20th century under a higher emissions pathway. Hatching represents areas where the majority of climate models indicate a statistically significant change. Idaho is part of a large area of projected increases across the northern United States. Source: CICS-NC, NOAA NCEI, and NEMAC.'
  chapter_identifier: idaho
  create_dt: 2019-02-15T18:19:47
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-projected-change-in-spring-precipitation.yaml
  identifier: id-projected-change-in-spring-precipitation
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 8
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: 2019-06-11T12:22:41
  time_end: 2070-12-31T00:00:00
  time_start: 1971-01-01T00:00:00
  title: Projected Change in Spring Precipitation
  uri: /report/noaa-led-state-summaries-2017/chapter/idaho/figure/id-projected-change-in-spring-precipitation
  url: ~
  usage_limits: Figure may be copyright protected and permission may be required. Contact original figure source for information
- attributes: ~
  caption: "Climate change will alter (black bold text) chemical and physical interactions that create, remove, and transport air pollution (red text and gray arrows). Human activities and natural processes release precursors for ground-level ozone (O<sub>3</sub>) and particulate matter with a diameter less than 2.5 micrometers (PM<sub>2.5</sub>), including methane (CH<sub>4</sub>), carbon monoxide (CO), nitrogen oxides (NO<sub>x</sub>), non-methane volatile organic compounds (NMVOCs), sulfur dioxide (SO<sub>2</sub>), ammonia (NH<sub>3</sub>), organic carbon (OC), black carbon (BC), and dimethyl sulfide (DMS); and direct atmospheric pollutants, including mineral dust, sea salt, pollen, spores, and food particles. Source: adapted from Fiore et al. 2015.{{< tbib '4' 'b4038a28-b14b-4ae8-b783-0de19e3cffdd' >}} Reprinted by permission of the publisher (Taylor &amp; Francis Ltd., http://www.tandfonline.com)."
  chapter_identifier: air-quality
  create_dt: 2017-05-31T19:01:50
  href: https://data.globalchange.gov/report/nca4/chapter/air-quality/figure/airquality_climate_v05302017.yaml
  identifier: airquality_climate_v05302017
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 1
  report_identifier: nca4
  source_citation: ~
  submission_dt: 2018-11-23T14:45:16
  time_end: ~
  time_start: ~
  title: Pathways by Which Climate Change Will Influence Air Pollution
  uri: /report/nca4/chapter/air-quality/figure/airquality_climate_v05302017
  url: ~
  usage_limits: Figure may be copyright protected and permission may be required. Contact original figure source for information
- attributes: ~
  caption: "Forested Peatland in Northern Minnesota.\r\nThis bog is part of the U.S. Department of Agriculture\r\n(USDA) Forest Services’s Marcell Experimental\r\nForest. [Figure source: USDA Forest Service.]"
  chapter_identifier: terrestrial-wetlands
  create_dt: 2018-10-20T17:30:20
  href: https://data.globalchange.gov/report/second-state-carbon-cycle-report-soccr2-sustained-assessment-report/chapter/terrestrial-wetlands/figure/fig13-1.yaml
  identifier: fig13-1
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 1
  report_identifier: second-state-carbon-cycle-report-soccr2-sustained-assessment-report
  source_citation: ~
  submission_dt: 2019-02-11T16:52:33
  time_end: ~
  time_start: ~
  title: Forested Peatland in Northern Minnesota
  uri: /report/second-state-carbon-cycle-report-soccr2-sustained-assessment-report/chapter/terrestrial-wetlands/figure/fig13-1
  url: ~
  usage_limits: Figure may be copyright protected and permission may be required. Contact original figure source for information
- attributes: ~
  caption: ~
  chapter_identifier: alaska-infrastructure
  create_dt: 2017-05-10T15:39:37
  href: https://data.globalchange.gov/report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017/chapter/alaska-infrastructure/figure/figure-13-1.yaml
  identifier: figure-13-1
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 1
  report_identifier: epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017
  source_citation: ~
  submission_dt: 2017-09-27T15:15:33
  time_end: ~
  time_start: ~
  title: Distribution of Current Permafrost across Alaska’s Boroughs
  uri: /report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017/chapter/alaska-infrastructure/figure/figure-13-1
  url: ~
  usage_limits: Copyright protected. Obtain permission from the original figure source.
- attributes: ~
  caption: |+2
    
    	Observed and projected changes (compared to the 1901–1960 average) in near-surface air temperature for Illinois. Observed data are for 1900–2014. Projected changes for 2006–2100 are from global climate models for two possible futures: one in which greenhouse gas emissions continue to increase (higher emissions) and another in which greenhouse gas emissions increase at a slower rate (lower emissions). Temperatures in Illinois (orange line) have risen about 1°F since the beginning of the 20th century. Shading indicates the range of annual temperatures from the set of models. Observed temperatures are generally within the envelope of model simulations of the historical period (gray shading). Historically unprecedented warming is projected during the 21st century,. Less warming is expected under a lower emissions future (the coldest years being about as warm as the hottest year in the historical record; green shading) and more warming under a higher emissions future (the hottest years being about 10°F warmer than the hottest year in the historical record; red shading). Source: CICS-NC and NOAA NCEI.

  chapter_identifier: illinois
  create_dt: 2015-08-12T00:00:00
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/illinois/figure/il-observed-and-projected-temperature-change.yaml
  identifier: il-observed-and-projected-temperature-change
  lat_max: 42.5084
  lat_min: 36.9701
  lon_max: -91.5129
  lon_min: -87.4952
  ordinal: 1
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: ~
  time_end: 2100-12-31T00:00:00
  time_start: 1900-01-01T00:00:00
  title: Observed and Projected Temperature Change
  uri: /report/noaa-led-state-summaries-2017/chapter/illinois/figure/il-observed-and-projected-temperature-change
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: 'Global Ocean heat content change time series. Ocean heat content from 0 to 700 m (blue), 700 to 2,000 m (red), and 0 to 2,000 m (dark gray) from 1955 to 2015 with an uncertainty interval of ±2 standard deviations shown in shading. All time series of the analysis performed by Cheng et al.<tbib>db777261-ee2e-4bf6-944e-a8831c595300</tbib> are smoothed by a 12-month running mean filter, relative to the 1997–2005 base period.   (Figure source: Cheng et al. 2017<tbib>db777261-ee2e-4bf6-944e-a8831c595300</tbib>).'
  chapter_identifier: ocean-acidification
  create_dt: 2017-03-28T20:10:35
  href: https://data.globalchange.gov/report/climate-science-special-report/chapter/ocean-acidification/figure/ocean-heat-uptake.yaml
  identifier: ocean-heat-uptake
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 1
  report_identifier: climate-science-special-report
  source_citation: ~
  submission_dt: 2017-09-01T20:51:48
  time_end: ~
  time_start: ~
  title: Ocean Heat Uptake
  uri: /report/climate-science-special-report/chapter/ocean-acidification/figure/ocean-heat-uptake
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: 'Map shows regional differences in land cover. These patterns affect climate and will be affected by climate change. They also influence the vulnerability and resilience of communities to the effects of climate change (Figure source: USGS Earth Resources Observation and Science (EROS) Center). (See Table 13.2 for definitions of mechanically and non-mechanically disturbed.)'
  chapter_identifier: land-use-land-cover-change
  create_dt: 2012-12-07T12:48:00
  href: https://data.globalchange.gov/report/nca3/chapter/land-use-land-cover-change/figure/us-landcover-composition-in-2000.yaml
  identifier: us-landcover-composition-in-2000
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 1
  report_identifier: nca3
  source_citation: USGS Earth Resources Observation and Science (EROS) Center). (See Table 13.2 for definitions of mechanically and non-mechanically disturbed.
  submission_dt: ~
  time_end: ~
  time_start: ~
  title: U.S. Land-Cover Composition in 2000
  uri: /report/nca3/chapter/land-use-land-cover-change/figure/us-landcover-composition-in-2000
  url: http://nca2014.globalchange.gov/report/sectors/land-use-and-land-cover-change/graphics/us-land-cover-composition-2000
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: "The soil and vegetation carbon pools are represented by the range of carbon densities (minimum to\r\nmaximum) among Canada, Mexico, and the United States. Annual carbon dioxide (CO2) and methane (CH4) fluxes\r\n(arrows) are represented by a 95% confidence interval; a negative flux indicates a transfer of carbon from the atmosphere to the ecosystem. Stocks and fluxes are in grams of carbon (g C) per m2. [Data sources: Table 13.1, p. 514,\r\nand Appendices 13A and 13B, p. 547 and p. 557, respectively.]"
  chapter_identifier: terrestrial-wetlands
  create_dt: 2018-02-09T18:12:36
  href: https://data.globalchange.gov/report/second-state-carbon-cycle-report-soccr2-sustained-assessment-report/chapter/terrestrial-wetlands/figure/figure-13-1--carbon-pools--gray-boxes--and-fluxes--arrows--in-forested-and-nonforested-mineral-soil-wetland-3-and-peatlands-in-north-america-.yaml
  identifier: figure-13-1--carbon-pools--gray-boxes--and-fluxes--arrows--in-forested-and-nonforested-mineral-soil-wetland-3-and-peatlands-in-north-america-
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 2
  report_identifier: second-state-carbon-cycle-report-soccr2-sustained-assessment-report
  source_citation: ~
  submission_dt: 2019-02-11T16:52:38
  time_end: ~
  time_start: ~
  title: Carbon Pools and Fluxes in Forested and Nonforested Mineral Soil Wetlands and Peatlands in North America
  uri: /report/second-state-carbon-cycle-report-soccr2-sustained-assessment-report/chapter/terrestrial-wetlands/figure/figure-13-1--carbon-pools--gray-boxes--and-fluxes--arrows--in-forested-and-nonforested-mineral-soil-wetland-3-and-peatlands-in-north-america-
  url: ~
  usage_limits: Figure may be copyright protected and permission may be required. Contact original figure source for information
- attributes: ~
  caption: ~
  chapter_identifier: alaska-infrastructure
  create_dt: 2017-05-10T15:40:35
  href: https://data.globalchange.gov/report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017/chapter/alaska-infrastructure/figure/figure-13-2.yaml
  identifier: figure-13-2
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 2
  report_identifier: epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017
  source_citation: ~
  submission_dt: 2017-09-27T15:15:47
  time_end: ~
  time_start: ~
  title: Cumulative Reactive Adaptation Costs to Infrastructure by Borough
  uri: /report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017/chapter/alaska-infrastructure/figure/figure-13-2
  url: ~
  usage_limits: Copyright protected. Obtain permission from the original figure source.
- attributes: ~
  caption: "The maps show the change in summer averages of the maximum daily 8-hour ozone concentration. Summertime ozone is projected to change non-uniformly across the United States based on multiyear simulations from the Community Multiscale Air Quality (CMAQ) modeling system. Those changes are amplified under the higher scenario (RCP8.5) compared with the lower scenario (RCP4.5), as well as at 2090 compared with 2050. Source: adapted from EPA 2017.{{< tbib '1' '0b30f1ab-e4c4-4837-aa8b-0e19faccdb94' >}}"
  chapter_identifier: air-quality
  create_dt: 2017-05-31T19:10:21
  href: https://data.globalchange.gov/report/nca4/chapter/air-quality/figure/ozone.yaml
  identifier: ozone
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 2
  report_identifier: nca4
  source_citation: ~
  submission_dt: 2018-11-23T14:45:25
  time_end: ~
  time_start: ~
  title: Projected Changes in Summer Season Ozone
  uri: /report/nca4/chapter/air-quality/figure/ozone
  url: ~
  usage_limits: Figure may be copyright protected and permission may be required. Contact original figure source for information
- attributes: ~
  caption: "Projected percentages in each housing-unit\r\n    density category for 2050 compared with 2010, assuming\r\n    demographic and economic growth consistent with the high-growth\r\n    emissions scenario (A2). (Data from U.S. EPA Integrated Climate\r\n    and Land Use Scenarios)."
  chapter_identifier: land-use-land-cover-change
  create_dt: ~
  href: https://data.globalchange.gov/report/nca3/chapter/land-use-land-cover-change/figure/projections-of-settlement-densities-20102050.yaml
  identifier: projections-of-settlement-densities-20102050
  lat_max: ~
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  ordinal: 2
  report_identifier: nca3
  source_citation: U.S. EPA Integrated Climate and Land Use Scenarios
  submission_dt: ~
  time_end: ~
  time_start: ~
  title: Projections of Settlement Densities (2010-2050)
  uri: /report/nca3/chapter/land-use-land-cover-change/figure/projections-of-settlement-densities-20102050
  url: http://nca2014.globalchange.gov/report/sectors/land-use-and-land-cover-change/graphics/projections-settlement-densities-2010-2050
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: 'Ocean heat content changes from 1960 to 2015 for different ocean basins for 0 to 2,000 m depths. Time series is relative to the 1997–1999 base period and smoothed by a 12-month running filter by Cheng et al.<tbib>db777261-ee2e-4bf6-944e-a8831c595300</tbib> The curves are additive, and the ocean heat content changes in different ocean basins are shaded in different colors   (Figure source: Cheng et al. 2017<tbib>db777261-ee2e-4bf6-944e-a8831c595300</tbib>).'
  chapter_identifier: ocean-acidification
  create_dt: 2017-04-07T13:35:49
  href: https://data.globalchange.gov/report/climate-science-special-report/chapter/ocean-acidification/figure/trends-in-ocean-heat-content-for-different-ocean-basins.yaml
  identifier: trends-in-ocean-heat-content-for-different-ocean-basins
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 2
  report_identifier: climate-science-special-report
  source_citation: ~
  submission_dt: 2017-09-01T20:52:46
  time_end: ~
  time_start: ~
  title: Ocean Heat Content
  uri: /report/climate-science-special-report/chapter/ocean-acidification/figure/trends-in-ocean-heat-content-for-different-ocean-basins
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: ~
  chapter_identifier: illinois
  create_dt: 2015-04-13T00:00:00
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/illinois/figure/il-observed-spring-temperature.yaml
  identifier: il-observed-spring-temperature
  lat_max: 42.5084
  lat_min: 36.9701
  lon_max: -91.5129
  lon_min: -87.4952
  ordinal: 2a
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: ~
  time_end: 2014-12-31T00:00:00
  time_start: 1895-01-01T00:00:00
  title: Observed Spring Temperature
  uri: /report/noaa-led-state-summaries-2017/chapter/illinois/figure/il-observed-spring-temperature
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: ~
  chapter_identifier: illinois
  create_dt: 2015-04-13T00:00:00
  href: https://data.globalchange.gov/report/noaa-led-state-summaries-2017/chapter/illinois/figure/il-observed-summer-temperature.yaml
  identifier: il-observed-summer-temperature
  lat_max: 42.5084
  lat_min: 36.9701
  lon_max: -91.5129
  lon_min: -87.4952
  ordinal: 2b
  report_identifier: noaa-led-state-summaries-2017
  source_citation: ~
  submission_dt: ~
  time_end: 2014-12-31T00:00:00
  time_start: 1895-01-01T00:00:00
  title: Observed Summer Temperature
  uri: /report/noaa-led-state-summaries-2017/chapter/illinois/figure/il-observed-summer-temperature
  url: ~
  usage_limits: Free to use with credit to the original figure source.
- attributes: ~
  caption: "Composed primarily from partially decomposed organic matter, this\r\npeat sample is from Drosera Fen in Yosemite National Park. [Figure source: Judith Drexler, U.S. Geological\r\nSurvey.]"
  chapter_identifier: terrestrial-wetlands
  create_dt: 2018-10-20T17:32:10
  href: https://data.globalchange.gov/report/second-state-carbon-cycle-report-soccr2-sustained-assessment-report/chapter/terrestrial-wetlands/figure/fig13-3.yaml
  identifier: fig13-3
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  ordinal: 3
  report_identifier: second-state-carbon-cycle-report-soccr2-sustained-assessment-report
  source_citation: ~
  submission_dt: 2019-02-11T16:52:44
  time_end: ~
  time_start: ~
  title: Organic Soil Peat Core
  uri: /report/second-state-carbon-cycle-report-soccr2-sustained-assessment-report/chapter/terrestrial-wetlands/figure/fig13-3
  url: ~
  usage_limits: Figure may be copyright protected and permission may be required. Contact original figure source for information
- attributes: ~
  caption: ~
  chapter_identifier: alaska-infrastructure
  create_dt: 2017-05-10T17:14:30
  href: https://data.globalchange.gov/report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017/chapter/alaska-infrastructure/figure/projected-annual-reactive-adaptation-costs-by-infrastructure-type.yaml
  identifier: projected-annual-reactive-adaptation-costs-by-infrastructure-type
  lat_max: ~
  lat_min: ~
  lon_max: ~
  lon_min: ~
  ordinal: 3
  report_identifier: epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017
  source_citation: ~
  submission_dt: 2017-09-27T15:16:04
  time_end: ~
  time_start: ~
  title: Projected Annual Reactive Adaptation Costs by Infrastructure Type
  uri: /report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017/chapter/alaska-infrastructure/figure/projected-annual-reactive-adaptation-costs-by-infrastructure-type
  url: ~
  usage_limits: Copyright protected. Obtain permission from the original figure source.