People


Name ORCID Organizations Publications
William F. Stern National Oceanic and Atmospheric Administration Geophysical Fluid Dynamics Laboratory On the seasonal forecasting of regional tropical cyclone activity
Leonel S. L. O. Sternberg University of Miami Department of Biology Sea level rise and South Florida coastal forests
Troy Sternberg University of Oxford School of Geography and the Environment Chinese drought, bread and the Arab Spring Did we see it coming? State fragility, climate vulnerability, and the uprisings in Syria and Egypt
Thomas Sterner University of Gothenburg Department of Economics Global warming: Improve economic models of climate change
George Stetson United States Coast Guard Academy Center for Maritime Policy and Strategy Vessels, risks, and rules: Planning for safe shipping in Bering Strait
Paul A. Steudler Marine Biological Laboratory Ecosystems Center Net Emissions of CH4 and CO2 in Alaska: Implications for the Region's Greenhouse Gas Budget Soil warming, carbon-nitrogen interactions, and forest carbon budgets
Markus Steuer Munich Re Group Rising variability in thunderstorm-related U.S. losses as a reflection of changes in large-scale thunderstorm forcing
Alison Stevens Cooperative Institute for Climate and Satellites-Maryland Indicator: Heavy Precipitation
B. Stevens Climate and carbon-cycle variability over the last millennium
Bjorn Stevens Max Planck Institute for Meteorology University of California, Los Angeles Department of Atmospheric and Oceanic Sciences University of California, Los Angeles Department of Atmospheric Sciences Assessment of different metrics for physical climate feedbacks The Atlantic Multidecadal Oscillation without a role for ocean circulation Evaluation of the aerosol indirect effect in marine stratocumulus clouds: Droplet number, size, liquid water path, and radiative impact Untangling aerosol effects on clouds and precipitation in a buffered system Amplification of El Niño by cloud longwave coupling to atmospheric circulation Rethinking the lower bound on aerosol radiative forcing Response to Comment on “The Atlantic Multidecadal Oscillation without a role for ocean circulation”
Duane E. Stevens University of Hawai'i at Mānoa Department of Meteorology Inversion Variability in the Hawaiian Trade Wind Regime
Jens T. Stevens 0000-0002-2234-1960 University of California, Davis John Muir Institute of the Environment Long‐term climate and competition explain forest mortality patterns under extreme drought
Joshua Stevens National Aeronautics and Space Administration A5.16: Record Warm Years
Kelly Stevens Alabama Department of Public Health Acute gastrointestinal illness following a prolonged community-wide water emergency
Laura Stevens 0000-0002-8842-702X Cooperative Institute for Climate and Satellites - NC National Oceanic and Atmospheric Administration National Climatic Data Center North Carolina State University c17d6a01-dd62-4078-aedc-04010560b2e8 ae5263fe-6b6c-4e3e-bd93-18e49132a6bd 4cd48da1-5d44-4e3c-8062-3805fa2fe149 0d40038a-59ec-47fa-ac22-3ea731d49e1f 565bd0f6-1eb2-4a5c-899a-65a485db4d5e Regional Surface Climate Conditions in CMIP3 and CMIP5 for the United States: Differences, Similarities, and Implications for the U.S. National Climate Assessment 74bf9c03-2a92-431c-8b67-c4fca74433df 0c3eb1d1-ab03-4137-a7c8-3ea2a5a8349e e3fb627a-913c-415f-bc4d-14807545144a 5d1545df-a8aa-4a1a-aacb-aab07244fe47 5cf71079-41ec-4c40-b9fe-a0b598868423 b10ad0f2-5100-4ec2-ad39-55aed305ec90 02c53cf7-75f8-4243-a925-f59a0025f04e 23d354a8-0b1f-48ce-b79c-1466cc687f08 9e2a261e-c908-45cb-b713-3d78f90fa54b 1d1e3836-2f11-411d-a811-13b1f484453d f6db3545-873b-4c9e-b857-c3bb5671aea4 13129a6d-3955-483b-94fa-d17b139d460c 75eed645-0dac-448e-b86b-b10cbf35cdc6 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 4. Climate of the U.S. Great Plains. NOAA Technical Report NESDIS 142-4 9e67e6e9-4892-401b-953f-39b99475cd79 230cb2f8-92e0-4897-ab5f-4d6339673832 f8258223-c1a5-4279-95cd-89c36a48311a 51fd0ea1-fd7c-45cf-963e-42c1f4a11025 048de6b5-60ab-4ad1-895b-d41ad9bdfab5 b180cfd9-b064-4644-a9a1-d2c3660c1be7 b9384563-fe11-4815-a5d4-e70acdc32b3e 1f5a3cdd-fc45-403e-bf11-d1772005b430 20.3: Observed and Projected Temperature Change for Puerto Rico 5044a96f-7f04-4f4f-8be2-35f28159f2e1 5ea41bc3-ecc0-415d-a8c7-b3b626186746 975d7ccf-1a6e-4d79-85fb-cd8806767f68 95fe2b26-3dd2-465b-99de-022aa549bbec 5859d2b2-b8fa-4d8c-99f0-ca73c87a8f64 724fda9a-7fdc-4fc1-aabd-748502675374 1.1: Indicators of Warming from Multiple Datasets e08566ff-9020-4b2c-9bd9-d6ce290c4270 16.2: Projected Increases in the Number of Days over 90°F. dddd358e-4a8c-4f6e-b90f-42814502afa8 113f0051-4694-4a00-b3f2-236942257952 25.9: Projected Shift in Agricultural Zones 9d9aa7ac-9894-4241-9603-bcd1d959be0c e5101c70-a821-4f52-ba56-d7f5c3cd3e79 660796bf-e2eb-41d9-bc9e-2cd9114f1b55 4532af53-000d-403d-a846-eb9d8b9354a7 78844f42-b6ab-427f-9cfc-145647135291 6938ed9f-999f-4ece-804d-46e646c4d6ea 369af075-69cd-4bf4-8da7-ac9a8bcba2dc 69da6d93-4426-4061-a2a1-7b3d01f2dc1c 25.3: Severe Drought Reduces Water Supplies in the Southwest fb74813a-b267-45e7-b903-03d566dc166e Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 8. Climate of the Pacific Islands. U.S. NOAA Technical Report NESDIS 142-8 24.1: Observed and Projected Temperature Change 80f8effc-e076-4be0-8d3c-dbef9b992803 19.4: Historical Number of Warm Nights a9caeffd-10ef-4361-a351-499a8f2d9840 Climate Science Special Report: The Fourth National Climate Assessment: Volume I 22.2: Projected Changes in Very Hot Days, Cool Days, and Heavy Precipitation 0de8b1ee-0f0f-421e-97ce-27230eef2cc1 a57d8b1b-0309-432d-8875-f30f9e6d39eb 31.1: Observed and Projected Temperature Change Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 9. Climate of the Contiguous United States. NOAA Technical Report NESDIS 142-9 b7a503bf-c39e-4615-892b-780a69ae57b5 f69194e8-397d-4f9c-836c-335d259ee09c Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 3. Climate of the Midwest U.S. NOAA Technical Report NESDIS 142-3 21.3: Drying Effect of Warmer Air on Plants and Soils 33.1: Observed and Projected Temperature Change 26a28c2a-75f2-47f7-a40f-becfc468d3d6 9515d4e2-73f4-4d9a-80f3-8f7953178e6e 1976ca9b-3bd4-4ae3-9189-578d9ee542f1 f0790695-28f6-43d7-b95a-58df7608ef2e bc7a4158-1ea7-4fcd-8641-97ed532540a8 68537d68-b14c-4811-908a-5dc0ab73879b 11.2: Projected Change in the Number of Very Hot Days 23.4: Projected Increase in Number of Days Above 100°F 11cf042a-6664-412f-9ca5-ce749575d3d1 7cc0679a-2354-4725-b7f4-9438e418409a 2aa82cc8-7bf0-4e2d-b335-dea23f3f5acd 08fa4162-7f5c-45b3-a46f-64d964b4b47e 1.16: Projected Change in Very Hot Days by 2100 in Phoenix, Arizona ca983a87-53a7-4c42-b0e9-18d26fad40ba f3f25c78-03d2-4cb5-a646-699c053979a2 aeaa0610-768e-44b8-96fb-d5b411132c07 807d5a58-63a5-437e-aae0-3a28da03b877 b42fbac8-e257-4089-941a-5aa3774b7476 f0eec5da-dff8-4b38-8a3f-57973d6c4ab2 8ea5099f-5380-4bab-82b3-13b17b3b24e7 19.5: Projected Number of Warm Nights Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 6. Climate of the Northwest U.S. NOAA Technical Report NESDIS 142-6 A5.17: U.S. Annual Average Temperature 8fdaad30-fd9a-4998-bc27-333782632a15 c75d4166-3323-49d2-8311-61e86fe4aa5a 198a8131-10f9-45b6-baac-0a4fd4c5b076 063fd83f-f5ad-4e74-8315-506eeaa202ba 4e5227d9-c835-4cca-8abf-54a5d0487bb3 4f468fd5-053a-4c39-a582-0477d8d85b82 710ebfc3-2b90-4133-9b5e-a7830575e295 44.1: Observed and Projected Temperature Change a563238b-ad5d-46b5-8248-5b6366098080 f22a5f95-549d-4a2e-9e08-0e5671e8800a Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 1. Climate of the Northeast U.S. NOAA Technical Report NESDIS 142-1 0eaa9484-50e6-4d85-845a-1bb2926c8d3d 0158fa86-481b-4a0b-8a79-4fd56b553cfd b31b1d99-a0ee-472d-94f9-85e85e2ddc30 19.15: Projected Changes in Plant Hardiness Zones daed8535-d9fb-4d10-a6d2-668aac785b37 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 7. Climate of Alaska. NOAA Technical Report NESDIS 142-7 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 2. Climate of the Southeast U.S. NOAA Technical Report 142-2 77065e97-1d1f-4786-9649-4402455aca47 11.3: Projected Change in Number of Days with Heavy Precipitation 7614711e-008b-4c92-93a9-94821a180d44 b232a192-5865-4984-b562-19ca4c1465af 92d4c92b-8bba-4cd7-af61-58d339ae33be fa83c34b-7b67-4b74-bcba-5bf60ba7730f a2433338-e69a-46eb-9db5-67b013c29c10 f4f31fd6-3345-42fb-b7c0-675dd98f3397 21.10: Historical and Projected Annual Number of Days Above 100°F for Chicago 6b737501-b651-4139-85b4-ccae7675df6d Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 5. Climate of the Midwest U.S. NOAA Technical Report NESDIS 142-5 db4d291d-17c5-4e10-b760-6c8799a8d709
Mark Stevens University of British Columbia Plan quality evaluation 1994–2012: Growth and contributions, limitations, and new directions
M. Bruce Stevens St. Francis Xavier University Environmental Sciences Research Centre North American climate of the last millennium: Underground temperatures and model comparison
Nathan Stevens University of Washington Department of Environmental and Occupational Health Sciences Climatic and landscape correlates for potential West Nile virus mosquito vectors in the Seattle region
Philip W. Stevens Florida Fish and Wildlife Conservation Commission Fish and Wildlife Research Institute FWC Resilience of a tropical sport fish population to a severe cold event varies across five estuaries in southern Florida
Rachel Stevens Great Bay National Estuarine Research Reserve Assessing tidal marsh resilience to sea-level rise at broad geographic scales with multi-metric indices
Scott E. Stevens Cooperative Institute for Climate and Satellites - NC National Oceanic and Atmospheric Administration National Climatic Data Center Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 9. Climate of the Contiguous United States. NOAA Technical Report NESDIS 142-9 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 4. Climate of the U.S. Great Plains. NOAA Technical Report NESDIS 142-4 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 1. Climate of the Northeast U.S. NOAA Technical Report NESDIS 142-1 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 2. Climate of the Southeast U.S. NOAA Technical Report 142-2 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 5. Climate of the Midwest U.S. NOAA Technical Report NESDIS 142-5 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 3. Climate of the Midwest U.S. NOAA Technical Report NESDIS 142-3 Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 6. Climate of the Northwest U.S. NOAA Technical Report NESDIS 142-6
Susan P. Stevens Dartmouth Medical School National Center for PTSD National Consortium for the Study of Terrorism and Responses to Terrorism START Community resilience as a metaphor, theory, set of capacities, and strategy for disaster readiness
Tanner M. Stevens South Dakota State University Department of Natural Resource Management Potential direct and indirect effects of climate change on a shallow natural lake fish assemblage
David S. Stevenson 0000-0002-4745-5673 The University of Edinburgh Institute of Atmospheric and Environmental Science The University of Edinburgh School of GeoSciences The impact of air pollutant and methane emission controls on tropospheric ozone and radiative forcing: CTM calculations for the period 1990-2030 Impacts of climate change on surface ozone and intercontinental ozone pollution: A multi-model study Radiative forcing from surface NO x emissions: spatial and seasonal variations
Mark Stevenson University of Melbourne City planning and population health: A global challenge