| Name |
ORCID |
Organizations |
Publications |
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James J. Kruse
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U.S. Forest Service State and Private Forestry
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Evidence and implications of recent and projected climate change in Alaska's forest ecosystems
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John Kruse
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University of Alaska Anchorage Institute of Social and Economic Research
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Alaska Inupiat subsistence and wage employment patterns: Understanding individual choice
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William A. Kruse
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Kruse Imaging
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Emergent crowns and light-use complementarity lead to global maximum biomass and leaf area in Sequoia sempervirens forests
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Paul D. Krushelnycky
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University of Hawai'i at Mānoa Department of Plant and Environmental Protection Sciences
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Climate-associated population declines reverse recovery and threaten future of an iconic high-elevation plant
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Paul J. Krusic
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0000-0001-5358-9697
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Stockholm University Department of Physical Geography
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Continental-scale temperature variability during the past two millennia
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Loeske E. B. Kruuk
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The Australian National University Research School of Biology
University of Edinburgh Institute of Evolutionary Biology
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Phenological sensitivity to climate across taxa and trophic levels
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Michael Ku
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New York State Department of Environmental Conservation Bureau of Air Quality Analysis and Research
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Simulating changes in regional air pollution over the eastern United States due to changes in global and regional climate and emissions
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Stevenson Kuartei
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Republic of Palau Ministry of Health
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An assessment of non-communicable diseases, diabetes, and related risk factors in the Republic of Palau: A systems perspective
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Rick Kubian
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Parks Canada Lake Louise, Yoho and Kootenay Field Unit Resource Conservation
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Temperate and boreal forest mega-fires: Characteristics and challenges
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David S. Kubien
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University of Toronto Department of Botany
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Quo vadis C4? An ecophysiological perspective on global change and the future of C4 plants
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Ida Kubiszewski
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0000-0003-3264-7899
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The Australian National University Crawford School of Public Policy
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Changes in the global value of ecosystem services
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Kerstin A. Kübler
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Swedish Museum of Natural History
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European phenological response to climate change matches the warming pattern
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Michael Kuby
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0000-0002-7988-5766
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Arizona State University
|
nca3 chapter 5 : Transportation
|
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Paul Kucera
|
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National Center for Atmospheric Research
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The Great Colorado Flood of September 2013
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Christopher A. Kucharik
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University of Wisconsin-Madison College of Agricultural and Life Sciences Department of Agronomy
University of Wisconsin-Madison Nelson Institute Center for Sustainability and the Global Environment
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Global Consequences of Land Use
Direct human influence on atmospheric CO2 seasonality from increased cropland productivity
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Lauren M. Kucirka
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Johns Hopkins Bloomberg School of Public Health Department of Epidemiology
Johns Hopkins University School of Medicine Department of Surgery
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Assessing the global threat from Zika virus
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Raphael M. Kudela
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0000-0002-8640-1205
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University of California, Santa Cruz Department of Ocean Sciences
University of California, Santa Cruz Institute of Marine Sciences
|
Harmful algal blooms along the North American west coast region: History, trends, causes, and impacts
State of the California Current 2016-2017: Still anything but “normal” in the north
Initial skill assessment of the California Harmful Algae Risk Mapping (C-HARM) system
An unprecedented coastwide toxic algal bloom linked to anomalous ocean conditions
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Matthias Kudella
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Coastal Research Center
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Wave attenuation over coastal salt marshes under storm surge conditions
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Mali'o Kudis
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Brown University Department of Geological Sciences
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Widespread methane leakage from the sea floor on the northern US Atlantic margin
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Gaku Kudo
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0000-0002-6488-818X
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Hokkaido University Faculty of Environmental Earth Science
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Early onset of spring increases the phenological mismatch between plants and pollinators
|
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Christoph Kueffer
|
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ETH Zurich Department of Environmental Systems Science
ETH Zurich Institute of Integrative Biology
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Managing the whole landscape: historical, hybrid, and novel ecosystems
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Norma J. Kuehn
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Booz Allen Hamilton
|
Cost and Performance Baseline for Fossil Energy Plants Volume 1: Bituminous Coal and Natural Gas to Electricity Revision 2, November 2010. DOE/NETL-2010/1397
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Matthew Kuehnert
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0000-0001-5390-0465
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National Center for Emerging and Zoonotic Infectious Diseases Office of Blood, Organ, and Other Tissue Safety
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Current practices and evaluation of screening solid organ donors for West Nile virus
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Frans Kuenen
|
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VU University Amsterdam Department of Ecological Science
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Adapt or disperse: Understanding species persistence in a changing world
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Amy J. Kuenzi
|
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The University of Arizona School of Renewable Natural Resources, Wildlife and Fisheries Science
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Brush mouse (Peromyscus boylii) population dynamics and hantavirus infection during a warm, drought period in southern Arizona
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Lara M. Kueppers
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0000-0002-8134-3579
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University of California, Merced School of Natural Sciences
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Biophysical considerations in forestry for climate protection
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Ilsa Kuffner
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0000-0001-8804-7847
|
U.S. Geological Survey
U.S. Geological Survey Florida Integrated Science Center for Coastal and Watershed Studies
|
Decreased abundance of crustose coralline algae due to ocean acidification
A century of ocean warming on Florida Keys coral reefs: Historic in situ observations
|
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Jong-Seong Kug
|
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Korea Ocean Research and Development Institute
|
El Niño in a changing climate
Changes in El Niño and La Niña teleconnections over North Pacific–America in the global warming simulations
|
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Richard K. Kugblenu
|
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U.S. Air Force School of Aerospace Medicine
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Case Series: Chikungunya and dengue at a forward operating location
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Kiersten J. Kugeler
|
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National Center for Zoonotic Vector-Borne and Enteric Disease Division of Vector-borne Infectious Diseases
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Surveillance for Lyme disease--United States, 1992-2006
|
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Daniel Kugler
|
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Cooperative State Research, Education, and Extension Service
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Enhancing conservation on agricultural landscapes: A new direction for the Conservation Effects Assessment Project
|
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Katrina Fischer Kuh
|
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Pace University
|
The Law Adaptation to Climate ...
|
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Norbert Kühl
|
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University of Bonn Steinmann Institute for Palaeobotany
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A model-data comparison of European temperatures in the Eemian interglacial
|
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Peter Kuhn
|
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Rutgers, the State University of New Jersey Biotech Center
|
Alaskan wild berry resources and human health under the cloud of climate change
|
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Ingolf Kühn
|
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German Centre of Integrative Biodiversity Research iDiv
Helmholtz Centre for Environmental Research Department of Community Ecology
Martin Luther University of Halle-Wittenberg Department of Geobotany and Botanical Garden
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No saturation in the accumulation of alien species worldwide
|
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Harriet V. Kuhnlein
|
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Centre for Indigenous Peoples' Nutrition and Environment
McGill University Centre for Indigenous Peoples' Nutrition and Environment CINE
McGill University School of Dietetics and Human Nutrition
|
Indigenous Peoples' food syste...
Food security in Nunavut, Canada: Barriers and recommendations
Arctic indigenous peoples experience the nutrition transition with changing dietary patterns and obesity
|
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Peter Kuhry
|
|
Stockholm University Bolin Centre for Climate Research
Stockholm University Department of Physical Geography
|
A simplified, data-constrained approach to estimate the permafrost carbon–climate feedback
Estimated stocks of circumpolar permafrost carbon with quantified uncertainty ranges and identified data gaps
Soil organic carbon pools in the northern circumpolar permafrost region
Climate change and the permafrost carbon feedback
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Jan J. Kuiper
|
0000-0002-6655-9355
|
Netherlands Institute of Ecology Department of Aquatic Ecology
|
How models can support ecosystem-based management of coral reefs
|
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Greg Kujawa
|
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U.S. Forest Service Forest Management Service
|
|
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Elizabeth B. Kujawinski
|
0000-0001-8261-971X
|
Woods Hole Oceanographic Institution Department of Marine Chemistry and Geochemistry
|
Molecular characterization of dissolved organic matter associated with the Greenland ice sheet
|
|
Meetpal S. Kukal
|
0000-0001-6589-3426
|
University of Nebraska-Lincoln
|
Climate-driven crop yield and yield variability and climate change impacts on the U.S. Great Plains agricultural production
|
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Maaret Kukkonen
|
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University of Cologne Institute of Geology and Mineralogy
|
2.8 Million Years of Arctic Climate Change from Lake El'gygytgyn, NE Russia
|
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Kalev Kuklane
|
0000-0003-3169-436X
|
Lund University Faculty of Engineering LTH Thermal Environment Laboratory
|
Effects of heat stress on working populations when facing climate change
|
|
Kelly R. Kukowski
|
|
Texas State University Department of Biology
|
Hydraulic responses to extreme drought conditions in three co-dominant tree species in shallow soil over bedrock
|
|
Dominik Kulakowski
|
0000-0002-7576-3569
|
Clark University Graduate School of Geography
|
Large carbon release legacy from bark beetle outbreaks across Western United States
|
|
Abraham Kulangara
|
|
Association of State and Territorial Health Officials
|
3rd National Climate Assessment Feedback Report. Reference Number 2011-0059
|
|
Ranjani Wasantha Kulawardhana
|
0000-0001-7918-7514
|
Texas A&M University Department of Ecosystem Science and Management
|
Historical reconstruction of mangrove expansion in the Gulf of Mexico: Linking climate change with carbon sequestration in coastal wetlands
|
|
Kathy Kuletz
|
|
U.S. Fish and Wildlife Service
|
Fluxes, Fins, and Feathers: Relationships Among the Bering, Chukchi, and Beaufort Seas in a Time of Climate Change
|
|
Robert J. Kuligowski
|
|
NOAA Satellite, Data, and Information Service Center for Satellite Applications and Research
|
Satellite sub-pixel rainfall variability
|
|
Manisha A. Kulkarni
|
0000-0002-5084-4960
|
University of Ottawa School of Epidemiology and Public Health
|
Anticipating the international spread of Zika virus from Brazil
|
|
Christian A. Kull
|
0000-0002-7516-7898
|
Monash University School of Geography and Environmental Science
|
Fire in the Earth System
|
|
Jaakko Kullberg
|
|
|
Poleward shifts in geographical ranges of butterfly species associated with regional warming
|
|
Markku Kulmala
|
0000-0003-3464-7825
|
University of Helsinki Department of Physics
|
Global observations of aerosol–cloud–precipitation–climate interactions
|
|
Andrew Kulmatiski
|
0000-0001-9977-5508
|
Utah State University Department of Plants, Soils and Climate
|
Woody plant encroachment facilitated by increased precipitation intensity
|
|
Scott Kulp
|
0000-0003-1435-7943
|
Climate Central
|
Evolving understanding of Antarctic ice‐sheet physics and ambiguity in probabilistic sea‐level projections
Carbon choices determine US cities committed to futures below sea level
Consequences of twenty-first-century policy for multi-millennial climate and sea-level change
Rapid escalation of coastal flood exposure in US municipalities from sea level rise
|
|
Michio Kumagai
|
0000-0002-0648-3061
|
Ritsumeikan University
|
Rapid and highly variable warming of lake surface waters around the globe
|
|
Arun Kumar
|
|
National Weather Service Climate Prediction Center
National Weather Service Environmental Modeling Center
National Weather Service National Centers for Environmental Prediction
|
A retrospective assessment of National Centers for Environmental Prediction climate model–based ensemble hydrologic forecasting in the western United States
Causes and predictability of the 2012 Great Plains drought
Causes of the 2011–14 California drought
The making of an extreme event: Putting the pieces together
Anatomy of an Extreme Event
Hurricanes and Climate: The U.S. CLIVAR Working Group on Hurricanes
Robustness of the nonlinear climate response to ENSO’s extreme phases
Annual Cycle of Pacific–North American Seasonal Predictability Associated with Different Phases of ENSO
Atmospheric Response Patterns Associated with Tropical Forcing
Why Did Large Differences Arise in the Sea Surface Temperature Datasets across the Tropical Pacific during 2012?
|
|
Devashish Kumar
|
0000-0003-1495-5089
|
Northeastern University Sustainability and Data Sciences Laboratory
|
Regional and seasonal intercomparison of CMIP3 and CMIP5 climate model ensembles for temperature and precipitation
|
|
Emani Kumar
|
|
ICLEI Local Governments for Sustainability
|
Meta-principles for developing smart, sustainable, and healthy cities
|
|
Naresh Kumar
|
|
Electric Power Research Institute EPRI
Indian Agricultural Research Institute Centre for Environment Science and Climate Resilient Agriculture
|
Climatic effects of 1950-2050 changes in US anthropogenic aerosols - Part 1: Aerosol trends and radiative forcing
How do various maize crop models vary in their responses to climate change factors?
Climatic effects of 1950–2050 changes in US anthropogenic aerosols – Part 2: Climate response
|
|
Ravind Kumar
|
|
Fiji Meteorological Service
|
An updated assessment of trends and variability in total and extreme rainfall in the western Pacific
|
|
Roselyn Kumar
|
0000-0002-3940-0488
|
University of the South Pacific Pacific Studies
|
Culturally grounded responses to coastal change on islands in the Federated States of Micronesia, northwest Pacific Ocean
|
|
Sanjiv Kumar
|
|
Center for Ocean-Land-Atmosphere Studies
|
North American Climate in CMIP5 Experiments. Part II: Evaluation of Historical Simulations of Intraseasonal to Decadal Variability
North American climate in CMIP5 experiments: Part III: Assessment of twenty-first-century projections
Intermodel variability and mechanism attribution of central and southeastern U.S. anomalous cooling in the twentieth century as simulated by CMIP5 models
|
|
Soora Naresh Kumar
|
|
Indian Agricultural Research Institute Centre for Environment Science and Climate Resilient Agriculture
|
Rising temperatures reduce global wheat production
Similar estimates of temperature impacts on global wheat yield by three independent methods
|
|
Christian D. Kummerow
|
|
Colorado State University Department of Atmospheric Science
|
The Global Precipitation Measurement Mission
|
|
Michaël Kummert
|
0000-0003-1606-8344
|
Polytechnique Montreal Department of Mechanical Engineering
|
Designing net-zero energy buildings for the future climate, not for the past
|
|
Lee Kump
|
|
The Pennsylvania State University Department of Geosciences
|
The Geological Record of Ocean Acidification
|
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Zbigniew W. Kundzewicz
|
|
Polish Academy of Sciences Institute for Agricultural and Forest Environment
Polish Academy of Sciences Research Centre for Agricultural and Forest Environment
Potsdam Institute for Climate Impact Research
|
CLIMATE CHANGE: Stationarity Is Dead: Whither Water Management?
Coping with variability and change: Floods and droughts
Integrating risks of climate change into water management
Climate change impacts on the hydrological cycle
|
|
Kenneth E. Kunkel
|
0000-0001-6667-7047
|
Cooperative Institute for Climate and Satellites
Cooperative Institute for Climate and Satellites - NC
Cooperative Institute for Meteorological Satellite Studies
Desert Research Institute Division of Atmospheric Sciences
Illinois State Water Survey
Midwestern Climate Center
Midwestern Regional Climate Center
National Oceanic and Atmospheric Administration National Centers for Environmental Information NCEI
National Oceanic and Atmospheric Administration National Climatic Data Center
North Carolina State University
University of Illinois at Urbana-Champaign
University of Illinois at Urbana-Champaign Department of Atmospheric Sciences
|
32.3: Observed Number of Very Cold Nights
43.6: Texas Palmer Drought Severity Index
30.2a: Observed Number of Very Hot Days
18.7: Projected Change in Summer Precipitation
31.2: Observed Number of Extremely Hot Days
Observational- and model-based trends and projections of extreme precipitation over the contiguous United States
35.4: Observed Number of Extreme Precipitation Events
3.2c: Observed Annual Precipitation
19.2c: Observed Annual Precipitation
15.2c: Observed Number of Very Warm Nights
49.2a-2: Observed Summer Temperature
23.1: Monitoring Precipitation Across the Southern Great Plains
20.7: Past and Projected Changes in Global Sea Level
45.3: Observed Number of Warm Nights
28.6: Lake Mead Elevation at Hoover Dam
2.14: Projected Precipitation Change by Season
Temporal variations of extreme precipitation events in the United States: 1895–2000
47.2c: Observed Annual Precipitation
22.2b: Observed Number of Warm Nights
32.8: Projected Change in Winter Precipitation
35.2c: Observed Annual Precipitation
39.7: Past and Projected Changes in Global Sea Level
14.7: Projected Change in Spring Precipitation
46.2c: Observed Annual Precipitation
24.1: Observed and Projected Temperature Change
19.22: Projected Changes in Cooling Degree Days
18.7: Projected Change in Summer Precipitation
25.2c: Observed Minimum Summer Temperature
10.3: Observed Number of Very Warm Nights
16.6: Kansas Palmer Drought Severity Index
18.2a: Observed Number of Very Hot Days
37.2: Observed Number of Extremely Hot Days
26.3: Observed Number of Very Cold Days
Effects of ocean warming on growth and distribution of dinoflagellates associated with ciguatera fish poisoning in the Caribbean
38.6: Projected Change in Winter Precipitation
Detection and attribution of climate extremes in the observed record
25.3b: Observed Number of Very Cold Nights
38.3: Observed Number of Warm Nights
39.3d: Observed Summer Precipitaton
Recent increases in U.S. heavy precipitation associated with tropical cyclones
-.1: Scenarios of Future Temperature Rise
24.2c: Observed Annual Precipitation
21.2a: Observed Number of Hot Days
1.1: Observed and Projected Temperature Change
4.4: Projected Changes in Seasonal Precipitation
36.3a: Observed Number of Extremely Hot Days
50.4b: Observed Number of Very Cold Days
nca3 chapter 33 : Appendix 3: Climate Science Supplement
24.2b: Observed Number of Days Below Freezing
Seasonal and regional variations in extreme precipitation event frequency using CMIP5
42.2: Observed Number of Extremely Hot Days
2.8: Projected Temperature Change
51.8: Projected Change in Annual Precipitation
43e4c69f-2e48-4edc-ad0b-c0508a35f6d7
8.2d: Observed Number of Extreme Precipitation Events
40.2d: Observed Number of Extreme Precipitation Events
11.8: Projected Change in Annual Precipitation
19.3: Historical Change in Heavy Precipitation
11.9: Past and Projected Changes in Global Sea Level
4.6: Projected Change in Winter Precipitation
19.3: Observed Number of Very Cold Nights
30.3: Observed Number of Warm Nights
18.6: When it Rains, it Pours
1.4: Projected Global Temperatures
48.1: Observed and Projected Temperature Change
13.3c: Observed Number of Very Cold Nights
25.9: Projected Shift in Agricultural Zones
2.2: Global Temperature and Carbon Dioxide
Probable maximum precipitation and climate change
18.4: Observed Annual Precipitation
21.5: Projected Change in Spring Precipitation
2.15: Newer Simulations for Projected Precipitation Change (CMIP5 models)
34.12: Measurements of Surface Temperature and Sun’s Energy
The response of Great Lakes water levels to future climate scenarios with an emphasis on Lake Michigan-Huron
6.5d: Observed Number of Extreme Precipitation Events
1.2c: Observed Annual Precipitation
35.3: Observed Number of Warm Nights
16.3d-2: Observed Summer Precipitaton
17.3: Observed Number of Very Cold Nights
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
49.2d-1: Observed Winter Precipitation
29.2a: Observed Number of Hot Days
33.21: Projected Wintertime Precipitation Changes
Indicator: Heavy Precipitation
44.4d: April 1 Snow Water Equivalent (SWE) at Ben Lomond Peak, UT
19.1: Historical Changes in Hot Days and Warm Nights
45.5: Projected Change in Winter Precipitation
Synthesis of public water supply use in the United States: Spatio-temporal patterns and socio-economic controls
31.4c: Observed Number of Extreme Precipitation
20.2c: Observed Number of Very Cold Nights
18.2d: Observed Fall Precipitation
6.2a: Observed Spring Temperature
49.2c: Observed Number of Warm Nights
26.2b: Observed Number of Warm Nights
13.4b: Observed Summer Precipitaton
38.4: Past and Projected Changes in Global Sea Level
12.3: Observed Number of Warm Nights
21.3: Drying Effect of Warmer Air on Plants and Soils
35.2d-2: Observed Summer Precipitation
33.3b: Observed Annual Precipitation
6.1: Observed and Projected Temperature Change
29.2b: Observed Number of Warm Nights
3.4: Observed Number of Very Cold Nights
4.2d: Observed Summer Precipitaton
20.2a: Observed Number of Very Hot Days
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
45.4: Observed Annual Precipitation
36.6: Oklahoma Palmer Drought Severity Index
20.3: Observed and Projected Temperature Change for Puerto Rico
1.4: Projected Change in Spring Precipitation
5.7: California Palmer Drought Severity Index
46.2a: Observed Number of Very Hot Days
1.9: Proxy Temperature Reconstructions
41.6: Observed Number of Extreme Precipitation Events
28.3: Observed Number of Warm Nights
2.10: Observed Increase in Frost-Free Season Length
13.3a: Observed Number of Very Hot Days
Trends and extremes in Northern Hemisphere snow characteristics
31.4a: Observed Number of Very Cold Nights
1.2a: Observed Number of Very Hot Days
23.2b: Observed Number of Warm Nights
34.1: Observed and Projected Temperature Change
45.2c-b: Observed Winter Temperature
44.7: Projected Change in Winter Precipitation
28.1: Observed and Projected Temperature Change
SAP 3.1. Climate Models: An Assessment of Strengths and Limitations
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
29.2c: Observed Annual Precipitation
8.2b: Observed Number of Days Below Freezing
49.2b: Observed Number of Very Hot Days
17.2d: Observed Summer Precipitaton
32.2d: Observed Annual Precipitation
8.1: Projected Change in Soil Moisture, End of Century, Higher Emissions
50.4a-1: Observed Winter Temperature
25.6: Projected Change in Spring Precipitation
24.8: Past and Projected Changes in Global Sea Level
50.5: End of Season Snow Water Equivalent Depth at Lewis Lake Divide
2.8: Projected Change in Annual Precipitation
43.4c: Observed Number of Extreme Precipitation Events
nca3 chapter 29 : Research Needs for Climate and Global Change Assessments
29.5: Projected Change in Winter Precipitation
31.6: Projected Change in Spring Precipitation
27.2a: Observed Winter Temperature
33.3a: Observed Number of Very Hot Days
14.2d-1: Observed Spring Precipitaton
39.3c: Observed Annual Precipitation
31.4b: Observed Annual Precipitation
18.8: Observed and Projected Change in Global Sea Level
25.3d: Observed Summer Precipitaton
36.7: Projected Change in Summer Precipitation
32.2a-1: Observed Winter Temperature
50.4c: Observed Annual Precipitation
49.4: Ice Cover on Lake Mendota
17.1: Observed and Projected Temperature Change
2.6: Observed and Projected Change in Heavy Precipitation
1.2b: Observed Number of Very Warm Nights
The Nature and Impacts of the July 1999 Heat Wave in the Midwestern United States: Learning from the Lessons of 1995
1.2: Global Land and Ocean Temperature Anamolies
22.3: Hydrologic Changes Across the Northern Great Plains
27.3b: Observed Number or Warm Nights
-.4: Significantly More Warming Occurs Under Higher Greenhouse Gas Concentration Scenarios
35.5: Projected Change in Spring Precipitation
22.2c: Observed Number of Very Cold Nights
50.3: Observed Number of Warm Nights
18.2c-1: Observed Spring Precipitation
45.2c-a: Observed Summer Temperature
2.13: Annual Maximum Precipitation and Changes in Consecutive Dry Days
31.3: Observed Number of Warm Nights
27.1: Observed and Projected Temperature Change
37.6: Projected Change in Winter Precipitation
24.3: Observed Number of Very Warm Nights
42.4: Observed Annual Precipitation
35.2d: Observed Winter Precipitation
16.3d-1: Observed Spring Precipitation
19.2a-1: Observed Winter Temperature
The seasonal nature of extreme hydrological events in the northeastern United States
34.3: Observed Number of Warm Nights
33.3b: Observed Annual Precipitation
16.3b: Observed Number of Extremely Hot Days
8.1: Observed and Projected Temperature Change
5.2a: Observed Number of Extremely Hot Days
33.1: Observed and Projected Temperature Change
25.2a: Observed Summer Temperature
13.2a: Observed Spring Temperature
14.1: Observed and Projected Temperature Change
12.5: Observed Annual Precipitation
45.2a: Observed Number of Hot Days
48.2: Observed Number of Very Hot Days
46.7: Past and Projected Changes in Global Sea Level
10.3: Observed and Projected Changes in Frost-Free Season
42.5: Observed Number of Extreme Precipitation Events
35.1: Observed and Projected Temperature Change
47.5: Past and Projected Changes in Global Sea Level
31.6: Projected Change in Spring Precipitation
33.5: Projected Change in Annual Precipitation
33.3d: Total Hurricane Events in North Carolina
30.7: Past and Projected Changes in Global Sea Level
33.5: Projected Change in Annual Precipitation
19.5: Projected Change in Number of Consecutive Dry Days
23.4: Observed Annual Precipitation
A preliminary synthesis of modeled climate change impacts on U.S. regional ozone concentrations
13.8: Projected Change in Spring Precipitation
36.3b: Observed Number of Extremely Warm Nights
15.3b: Observed Summer Precipitaton
24.4: Observed Summer Temperature
24.2c: Observed Annual Precipitation
44.2: Observed Number of Extremely Hot Days
31.3: Observed Number of Warm Nights
9.2c: Observed Annual Precipitation
30.2c: Observed Annual Precipitation
31.4b: Observed Annual Precipitation
9.2b: Observed Number of Nights Below Freezing
20.1: Observed and Projected Temperature Change
6.3: Observed Number of Very Hot Days
44.6: Annual Average Water Levels in the Great Salt Lake at Saltair Boat Harbor
34.9: Decade-Scale Changes in Average Temperature for U.S. Regions
18.2a: Observed Number of Very Hot Days
19.3: Projected Change in Number of Warm Nights
8.2c: Observed Annual Precipitation
27.3c: Observed Annual Precipitation
26.4a: Observed Winter Temperature
22.2d: Observed Annual Precipitation
10.2a: Observed Number of Extremely Hot Days
1.4: Projected Changes in Hottest/Coldest and Wettest/Driest Day of the Year
47.7: Projected Change in Winter Precipitation
16.4: Observed Number of Very Cold Nights
24.2d: Observed Summer Precipitaton
40.5: Projected Change in Annual Precipitation
14.6: Annual Lake-Wide Average Water Levels for Lake Michigan-Huron
35.5: Projected Change in Spring Precipitation
31.5: Storage Levels in the Elephant Butte Reservoir
3.2b-2: Observed Minimum Summer Temperature
35.2d-1: Observed Winter Precipitation
-.3: Sensitivity Analysis of Differences in Modeling Approaches
38.2b: Observed Number of Very Cold Nights
6.7: Projected Changes in Annual Average Temperatures
14.3: Growing Season Lengthens
24.4: Observed Summer Temperature
A5.10: Observed and Projected Changes in Global Temperature
41.4: Observed Number of Very Cold Days
37.7: Past and Projected Changes in Global Sea Level
22.4: Annual Lake-Wide Average Water Levels for Lake Michigan-Huron
37.4b: Observed Number of Warm Nights
33.2b: Observed Summer Temperature
10.1: Observed and Projected Temperature Change
How spatially coherent and statistically robust are temporal changes in extreme precipitation in the contiguous USA?
5bd64870-4e8e-45cb-9b2c-83c52f5af397
17.4: Projected Change in Number of Days Over 95°F
10.4: Observed Annual Precipitation
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
26.2a: Observed Number of Very Hot Days
1.16: Projected Change in Very Hot Days by 2100 in Phoenix, Arizona
23.2a: Observed Number of Hot Days
26.2c: Observed Annual Precipitation
1.3: Observed Number of Extreme Precipitation Events
3.8: Projected Change in Spring Precipitation
18.2: Projected Mid-Century Temperature Changes in the Midwest
44.4b: Observed Annual Precipitation
Global land surface extremes of precipitation: Data limitations and trends
31.4a: Observed Number of Very Cold Nights
usgcrp-climate-human-health-assessment-2016 chapter 1 : Climate Change and Human Health
39.1: Observed and Projected Temperature Change
27.6: Projected Change in Winter Precipitation
13.1: Observed and Projected Temperature Change
30.5: Projected Change in Spring Precipitation
6dafc8d5-9e40-4dd6-a63d-d456ec61a551
20.5: Projected Change in Annual Precipitation
11.2: Projected Change in the Number of Very Hot Days
27.5: Observed Number of Extreme Precipitation Events
5.8: Projected Change in Winter Precipitation
14.2a-1: Observed Spring Temperature
16.3c: Observed Annual Precipitation
36.5: Observed Number of Extreme Precipitation Events
2.5: Observed and Projected Change in Seasonal Precipitation
42.6: Observed Summer Precipitaton
46.2b: Observed Number of Very Warm Nights
7.4: Observed Change in Heavy Precipitation
12.4: Observed Number of Very Cold Nights
31.4d: Observed Monsoon Season Precipitation
4.3: Observed Number of Very Warm Nights
49.2d-2: Observed Summer Precipitaton
18.1: Observed and Projected Temperature Change
15.1: Observed and Projected Temperature Change
29.2d: Observed Summer Precipitaton
24.8: Observed and Projected Change in Global Sea Level
39.5: Projected Change in Annual Precipitation
37.4a: Observed Number of Days Below Freezing
18.2b: Observed Number of Days Below Freezing
26.4b: Observed Summer Temperature
10.2c: Observed Summer Precipitation
9.2a: Observed Number of Very Hot Days
Changes in weather and climate extremes: State of knowledge relevant to air and water quality in the United States
cfafefc7-f04f-4cb3-8e7e-2978c92e2ae4
12.8: Projected Change in Spring Precipitation
18.4: Observed Annual Precipitation
nca4 chapter 21 : Midwest
Monitoring and Understanding Trends in Extreme Storms: State of Knowledge
34.4: Observed Number of Very Cold Days
40.2b: Observed Number of Days Below Freezing
fbad1b23-b576-4996-a75a-3fe2a1c8dde9
30.4: Observed Number of Extreme Precipitation Events
35.2b: Observed Number of Very Cold Nights
44.1: Observed and Projected Temperature Change
19.4: Historical Number of Warm Nights
18.5: Total Hurricane Events in Louisiana
44.4a: Observed Number of Very Cold Nights
23.2d: Observed Number of Extreme Precipitation Events
7.5: Projected Change in Spring Precipitation
834f7624-40de-4a09-9ced-faaca30d4d6d
5.1: Observed and Projected Temperature Change
1.3: Projected Changes in Temperature and Precipitation by Mid-Century
CMIP5 Climate Model Analyses: Climate Extremes in the United States
6.5b: Observed Annual Precipitation
7.3: 2-Day Precipitation Events Exceeding 5-Year Recurrence Interval
45.2b: Observed Number of Very Cold Nights
41.5: Annual Snowfall Totals at Menno
13.3d: Observed Annual Precipitation
37.5: End of Season Snow Water Equivalent Depth at Mt. Hood
48.5: Observed Annual Precipitation
43.4a: Observed Number of Days Below Freezing
31.4c: Observed Number of Extreme Precipitation Events
44.7: Projected Change in Winter Precipitation
6.5a: Observed Number of Warm Nights
6.5c-1: Observed Fall Precipitation
22.3: Observed Number of Extreme Precipitation Events
43.4b: Observed Annual Precipitation
30.2b: Observed Number of Very Cold Nights
19.5: Projected Number of Warm Nights
-.1: Global Temperatures Continue to Rise
39.2: Observed Number of Hot Days
1.3: Projected Changes in U.S. Annual Average Temperatures
46.5: Observed Number of Extreme Precipitation Events
991826ea-5f98-45f2-827e-8fdfc48d07fb
49.5: Observed Annual Precipitation
3.7: Lake Mead Water Level at Hoover Dam
18.2e: Observed Number of Extreme Precipitation Events
7.2b: Observed Number of Extreme Precipitation Events
14.4: Observed Annual Precipitation
fe1ad9b9-3516-4623-aa66-4956ceec6891
6.5: Projected Changes in Key Climate Variables Affecting Agricultural Productivity
7.4: Observed Number of Very Cold Nights
12.1: Observed and Projected Temperature Change
Monitoring and Understanding Changes in Heat Waves, Cold Waves, Floods, and Droughts in the United States: State of Knowledge
28.9: Projected Change in Annual Precipitation
24.2a: Observed Number of Extremely Hot Days
A5.14: Temperature Change Varies by Region
29.1: Observed and Projected Temperature Change
24.2b: Observed Number of Days Below Freezing
20.4: Projected Precipitation Change for Puerto Rico
3.1: Observed and Projected Temperature Change
1.2b: Observed Number of Very Warm Nights
36.4: Observed Number of Very Cold Nights
Monitoring and Understanding Changes in Extremes: Extratropical Storms, Winds, and Waves
45.1: Observed and Projected Temperature Change
17.2b-1: Observed Winter Temperature
nca3 chapter 34 : Appendix 4: Frequently Asked Questions
48.6: Observed Number of Extreme Precipitation Events
43.8: Projected Change in Annual Precipitation
34.8: Projected Change in Winter Precipitation
49.6: Observed Number of Extreme Precipitation Events
25.1: Temperature Has Increased Across the Southwest
34.6: Observed Number of Extreme Precipitation Events
3.5: Observed Monsoon Season Precipitation
7.7: Past and Projected Changes in Global Sea Level
31.7: New Mexico Palmer Drought Severity Index
a7c5f0aa-db53-4965-bd56-88e8f7a87a89
39.3a: Observed Number of Warm Nights
34.23: Emissions Levels Determine Temperature Rises
A framework for examining climate-driven changes to the seasonality and geographical range of coastal pathogens and harmful algae
17.2b-2: Observed Summer Temperature
41.3b: Observed Number or Warm Nights
33.3c: Observed Number of Extreme Precipitation Events
44.2: Observed Number of Extremely Hot Days
28.4: Observed Annual Precipitation
21.1: Observed and Projected Temperature Change
44.4b: Observed Annual Precipitation
22.2: Projected Changes in Very Hot Days, Cool Days, and Heavy Precipitation
41.7: Projected Change in Winter Precipitation
16.5: Observed Number of Extreme Precipitation Events
33.2a: Observed Summer Temperature
Temporal variations in frost-free season in the United States: 1895–2000
46.1: Observed and Projected Temperature Change
nca4 chapter A3 : Appendix 3: Data Tools and Scenario Products
44.4c: Observed Number of Extreme Precipitation Events
7.1: Observed and Projected Temperature Change
29.4: Observed Number of Extreme Precipitation Events
2.4: Observed and Projected Changes in Annual Average Temperature
42.1: Observed and Projected Temperature Change
50.4a-2: Observed Summer Temperature
a405fab3-ee62-401c-8d93-347261d9eab9
18.2b: Observed Number of Days Below Freezing
1.4: Projected Change in Spring Precipitation
25.2b: Observed Maximum Summer Temperature
3.3: Observed Number of Extremely Warm Nights
45.2d: Observed Number of Extreme Precipitation Events
27.2b: Observed Summer Temperature
17.5: Observed Number of Extreme Precipitation Events
48.3: Observed Number of Warm Nights
33.2b: Observed Winter Temperature
4.2b: Observed Number of Very Cold Nights
19.2a-2: Observed Summer Temperature
2.17: Observed Change in Very Heavy Precipitation
36.2: Observed Summer Temperature
23.1: Observed and Projected Temperature Change
35.2b: Observed Number of Very Cold Nights
2.5: Projected Change in Average Annual Temperature
44.5: Utah Palmer Drought Severity Index
40.2c: Observed Annual Precipitation
15.6: Projected Change in Spring Precipitation
22.2a: Observed Number of Hot Days
19.1: Observed and Projected Temperature Change
44.3: Observed Number of Very Warm Nights
18.1: Observed and Projected Temperature Change
41.1: Observed and Projected Temperature Change
42.3: Observed Number of Very Warm Nights
7.2c: Observed Annual Precipitation
16.1: Observed and Projected Temperature Change
2.27: Ice Cover in the Great Lakes
2.9: Projected Temperature Change by 2071-2099 (CMIP5 models)
40.2a: Observed Number of Extremely Hot Days
18.2c: Observed Spring Precipitation
1.8: 1700 Years of Global Temperature Change from Proxy Data
41.3a: Observed Number of Extremely Hot Days
33.4: Observed Number of Very Warm Nights
16.2b: Observed Summer Temperature
13.6: Annual Lake-Wide Average Water Levels for Lake Michigan-Huron
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
3.2b-1: Observed Maximum Summer Temperature
4f071049-4952-4e2b-ac40-9942a7752382
1.2a: Observed Number of Very Hot Days
A5.18: Short-Term Variability Versus Long-Term Trend
8.6: Past and Projected Changes in Global Sea Level
Regional Surface Climate Conditions in CMIP3 and CMIP5 for the United States: Differences, Similarities, and Implications for the U.S. National Climate Assessment
1.2c: Observed Annual Precipitation
3.2d: Observed Number of Extreme Precipitation Events
2.6: Projected Change in Average Annual Precipitation
A5.20: Extreme Temperature and Precipitation Events
32.2b: Observed Number of Very Hot Days
16.3a: Observed Number of Very Warm Nights
7447d9e8-b0d8-4009-af97-fce115235283
32.2a-2: Observed Summer Temperature
35.2a: Observed Number of Very Hot Days
19.6: Past and Projected Changes in Global Sea Level
49.2a-1: Observed Winter Temperature
39.3b: Observed Number of Extreme Precipitation Events
33.22: Projected Summertime Precipitation Changes
48.4: Observed Number of Very Cold Nights
15.3a: Observed Spring Precipitation
40.4: Past and Projected Changes in Global Sea Level
1a061197-95cf-47bd-9db4-f661c711a174
50.4d: Observed Number of Extreme Precipitation Events
10.5: Projected Change in Annual Precipitation
19.2b: Observed Number of Hot Days
4.4: Observed Summer Temperature
31.5: Storage Levels in Elephant Butte Reservoir
7.3: Observed Number of Warm Nights
36.3d: Observed Summer Precipitaton
A5.11: Comparison of Climate Models and Observed Temperature Change
46.6: Projected Change in Annual Precipitation
U.S. temperature and drought: Recent anomalies and trends
21.2b: Observed Number of Extreme Precipitation Events
30.1: Observed and Projected Temperature Change
21.2d: Observed Summer Precipitaton
12961b12-f04c-41f6-9603-cdc65291eb89
32.6: Past and Projected Changes in Global Sea Level
10.2d: Observed Number of Extreme Precipitation Events
31.7: New Mexico Palmer Drought Severity Index
50.2: Observed Number of Very Hot Days
37.4d: Observed Number of Extreme Precipitation Events
49.1: Observed and Projected Temperature Change
2.7: Observed U.S. Temperature Change
10.4: Changes in Length of Growing Season
18.5: Total Hurricane Events in Louisiana
46.3: Observed Number of Very Cold Nights
18.3: Observed Number of Very Warm Nights
22.5: Projected Change in Winter Precipitation
15.2d: Observed Number of Very Cold Nights
19.5: Projected Change in Winter Precipitation
3.6: Arizona Palmer Drought Severity Index
29.3: Observed Number of Very Cold Nights
18.3: Observed Number of Very Warm Nights
10.3: Texas Summer 2011: Record Heat and Drought
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
15.5: Observed Number of Extreme Precipitation Events
15.4: Observed Annual Precipitation
Can CGCMs Simulate the Twentieth-Century “Warming Hole” in the Central United States?
44.5: Utah Palmer Drought Severity Index
27.4: Observed Number of Very Cold Nights
5.9: Past and Projected Changes in Global Sea Level
12.6: Observed Number of Extreme Precipitation Events
32.1: Observed and Projected Temperature Change
25.3c: Observed Annual Precipitation
33.3d: Total Hurricane Events in North Carolina
35.2e: Observed Summer Precipitation
34.5: Observed Annual Precipitation
26fc56f4-b4e0-425b-adc8-14c6d961d558
14.2a-2: Observed Summer Temperature
44.3: Observed Number of Very Warm Nights
6.8: Colorado Palmer Drought Severity Index
33.4: Observed Number of Very Warm Nights
usgcrp-climate-human-health-assessment-2016 Appendix 1: Technical Support Document
-.6: Extreme Precipitation Has Increased Across Much of the United States
26.6: Projected Change in Spring Precipitation
7.8: Change in the Number of Days Within Precipitation Percentile Intervals
22cf98ca-20af-4fc0-ba4d-ef7234aa5be5
7.7: Projected Change in Daily, 20-year Extreme Precipitation
19.2: Historical Change in Freeze-Free Season Length
11.3: Projected Change in Number of Days with Heavy Precipitation
39.4: Observed Number of Very Cold Nights
5.6: Storage Levels in the Shasta Dam Reservoir
12.2: Observed Number of Very Hot Days
38.1: Observed and Projected Temperature Change
21.4: Observed Number of Very Cold Nights
29.6: Past and Projected Changes in Global Sea Level
nca4 chapter 2 : Our Changing Climate
44.4c: Observed Number of Extreme Precipitation Events
1.2d: Total Hurricane Events in Alabama, 1900-2013
41.3d: Observed Summer Precipitaton
43.9: Past and Projected Changes in Global Sea Level
9.6: Projected Change in Summer Precipitation
33.6: Observed and Projected Change in Global Sea Level
36.3c: Observed Annual Precipitation
1.5: Past and Projected Changes in Global Sea Level
5.2b: Observed Annual Precipitation
1.3: Observed Number of Extreme Precipitation Events
19.15: Projected Changes in Plant Hardiness Zones
25.10: Projected Increases in Extreme Heat
25.5: Observed Number of Extreme Precipitation Events
35.3: Observed Number of Warm Nights
28.2: Observed Number of Very Hot Days
c6e6a4b8-840f-4d4c-9487-9699fb94dd31
17.5: Projected Change in Number of Nights Below 32°F
33.3c: Observed Number of Extreme Precipitation Events
006264b2-8594-4e09-9430-a1d0cc056ff7
36.1: Observed and Projected Temperature Change
2.4: Emissions Levels Determine Temperature Rises
20.2b: Observed Number of Very Warm Nights
24.2d: Observed Summer Precipitation
27.3d: Observed Summer Precipitaton
25.4: Observed Number of Very Warm Nights
9.2d: Total Hurricane Events in Florida, 1900-2013
1.5: Observed and Projected Change in Global Sea Level
18.2c-2: Observed Fall Precipitation
19.4: Observed Number of Extreme Precipitation Events
21.10: Historical and Projected Annual Number of Days Above 100°F for Chicago
42.7: Projected Change in Spring Precipitation
20.4: Observed Number of Extreme Precipitation Events
50.1: Observed and Projected Temperature Change
32.2c: Observed Number of Warm Nights
8.3: Observed Number of Very Warm Nights
23.4: Projected Increase in Number of Days Above 100°F
37.4c: Observed Annual Precipitation
24.5: Observed Number of Extreme Precipitation Events
49.7: Annual Lake-Wide Average Water Levels for Lake Michigan-Huron
14.2c: Observed Number of Very Warm Nights
18.8: Past and Projected Changes in Global Sea Level
21.2c: Observed Annual Precipitation
Reply to “Comments on ‘Monitoring and understanding trends in extreme storms: State of knowledge’”
46.2d: Observed Summer Precipitaton
nca4 chapter 19 : Southeast
6.2b: Observed Summer Temperature
6.6: End of Season Snow Water Equivalent Depth at Tower
33.6: Past and Projected Changes in Global Sea Level
7.6: Future Projection of Regional Extreme Precipitation of 2-Day Duration and 5 Year Return
38.2a: Observed Number of Hot Days
30.2d: Observed Summer Precipitaton
8.4: Projected Change in Annual Precipitation
19.4: Projected Change in Number of Heavy Precipitation Days
35.2a: Observed Number of Very Hot Days
38.2d: Observed Number of Extreme Precipitation Events
15.2a: Observed Summer Temperature
5.2d: Observed Winter Precipitation
Meteorological Causes of the Secular Variations in Observed Extreme Precipitation Events for the Conterminous United States
Climate Science Special Report: The Fourth National Climate Assessment: Volume I
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
4.1: Observed and Projected Temperature Change
4.3: Increasing Numbers of Cooling Degree Days
35.2c: Observed Annual Precipitation
33.20: Projected Annually-Averaged Temperature C hange
13.5: Observed Number of Extreme Precipitation Events
10.6: Past and Projected Changes in Global Sea Level
26.2d: Observed Number of Extreme Precipitation Events
17.2c: Observed Annual Precipitation
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
Trends in Twentieth-Century U.S. Extreme Snowfall Seasons
83ef5674-8aa8-40fe-8c7e-4f0ac3d140d8
18.7: Ice Cover in the Great Lakes
32.5: Observed Number of Extreme Precipitation Events
48.7: Projected Change in Annual Precipitation
33.2a: Observed Winter Temperature
34.2: Observed Number of Very Hot Days
40.3: Observed Number of Very Warm Nights
21.7: Past and Projected Changes in Global Sea Level
43.1: Observed and Projected Temperature Change
13.3b: Observed Number of Very Warm Nights
Regional Climate Trends and Scenarios for the U.S. National Climate Assessment: Part 7. Climate of Alaska. NOAA Technical Report NESDIS 142-7
22.1: Observed and Projected Temperature Change
3.2a: Observed Number of Extremely Hot Days
26.1: Observed and Projected Temperature Change
9.1: Observed and Projected Temperature Change
14.2b: Observed Number of Very Hot Days
37.3: Observed Number of Very Cold Nights
1.2d: Total Hurricane Events in Alabama
14.3: Observed Number of Very Cold Nights
50.6: Projected Change in Spring Precipitation
4.2c: Observed Annual Precipitation
1.2: Change in Number of Extreme Precipitation Events
1.1: Observed and Projected Temperature Change
25.3a: Observed Number of Extremely Hot Days
49.3: Observed Number of Very Cold Days
31.2: Observed Number of Extremely Hot Days
Impacts, Risks, and Adaptation in the United States: The Fourth National Climate Assessment, Volume II
34.19: Observed and Projected U.S. Temperature Change
47.1: Observed and Projected Temperature Change
16.7: Projected Change in Summer Precipitation
27.3a: Observed Number of Extremely Hot Days
41.3c: Observed Annual Precipitation
20.2d: Observed Annual Precipitation
26.5: End of Season Snow Water Equivalent Depth at Noisy Basin
16.2a: Observed Spring Temperature
44.6: Water Levels in the Great Salt Lake at Saltair Boat Harbor
nca4 chapter A5 : Appendix 5: Frequently Asked Questions
44.4a: Observed Number of Very Cold Nights
6.7: Projected Change in Winter Precipitation
beed84d6-d0f9-4c33-a8d3-808ed6eb6e3b
7.2a: Observed Number of Hot Days
7.2d: Observed Summer Precipitaton
37.1: Observed and Projected Temperature Change
17.4: Observed Number of Very Warm Nights
9.5: Observed Number of Extreme Precipitation Events
24.7: Projected Change in Summer Precipitation
44.4d: April 1 Snow Water Equivalent (SWE) at Ben Lomond Peak, UT
A new look at lake-effect snowfall trends in the Laurentian Great Lakes using a temporally homogeneous data set
4.5: Observed Number of Extreme Precipitation Events
40.1: Observed and Projected Temperature Change
18.2d: Observed Number of Extreme Precipitation Events
c8484765-3d50-48dc-a2e3-09cb56610265
4.2a: Observed Number of Extremely Hot Days
8.2a: Observed Number of Very Hot Days
24.5: Observed Number of Extreme Precipitation Events
38.2c: Observed Annual Precipitation
24.3: Observed Number of Very Warm Nights
19.2: Projected Change in Number of Hot Days
31.1: Observed and Projected Temperature Change
14.2d-2: Observed Summer Precipitaton
41.2a: Observed Winter Temperature
17.6: Projected Change in Spring Precipitation
14.5: Observed Number of Extreme Precipitation Events
17.2a: Observed Number of Extremely Hot Days
25.1: Observed and Projected Temperature Change
15.2b: Observed Number of Very Hot Days
13.2b: Observed Summer Temperature
Trends in Twentieth-Century U.S. Snowfall Using a Quality-Controlled Dataset
A surface energy budget view of the 1988 midwestern United States drought
31.4d: Observed Monsoon Season Precipitation
46.4: Observed Summer Temperature
43.2: Observed Number of Extremely Hot Days
35.1: Observed and Projected Temperature Change
nca3 chapter 2 : Our Changing Climate
23.6: Projected Change in Spring Precipitation
35.4: Observed Number of Extreme Precipitation Events
13.4a: Observed Spring Precipitation
28.5: Nevada Palmer Drought Severity Index
5.2c: Observed Number of Extreme Precipitation Events
21.3: Observed Number of Warm Nights
10.2b: Observed Number of Days Below Freezing
2.11: Projected Changes in Frost-Free Season Length
5.3: Observed Number of Very Warm Nights
2d6fb90b-7d3d-4fce-8f63-36459f80d366
49.8: Projected Change in Spring Precipitation
6.5c-2: Observed Spring Precipitation
41.2b: Observed Summer Temperature
43.3: Observed Number of Very Warm Nights
9.3: Observed Number of Very Warm Nights
6.4: Observed Number of Very Cold Nights
24.7: Projected Change in Summer Precipitation
23.2c: Observed Number of Very Cold Days
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Howard Kunreuther
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National Bureau of Economic Research
University of Pennsylvania
Wharton School of the University of Pennsylvania
Wharton Risk Management and Decision Processes Center
Wharton School of Business Department of Operations and Information Management
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Risk Analysis and Risk Management in an Uncertain World
Risk, Media and Stigma: Unders...
Decision Processes for Low Probability Events: Policy Implications
nca3 chapter 26 : Decision Support: Connecting Science, Risk Perception, and Decisions
Redesigning Flood Insurance
Catastrophe Modeling: A New Ap...
Risk management and climate change
A Methodological Approach for Pricing Flood Insurance and Evaluating Loss Reduction Measures: Application to Texas, Wharton Risk Management Center and CoreLogic, Philadelphia, PA and Santa Ana, CA
Climate Change, Insurability of Large-Scale Disasters and the Emerging Liability Challenge. NBER Working Paper 12821
At War with the Weather: Manag...
Making America more resilient toward natural disasters: A call for action
At War with the Weather: Manag...
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Georges Kunstler
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0000-0002-2544-1940
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Institute for Environmental Science and Technology Research CEMAGREF
Macquarie University Department of Biological Sciences
National Research Institute of Science and Technology for Environment and Agriculture Mountain Ecosystems Research Unit IRSTEA UR EMGR
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Disparity in elevational shifts of European trees in response to recent climate warming
Climate-driven change in plant–insect interactions along elevation gradients
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Joe Kuntz
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City of Stamford Environmental Health Laboratory
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Predictability of swimming prohibitions by observational parameters: A proactive public health policy, Stamford, Connecticut, 1989-2004.
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Kristin Kuntz-Duriseti
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Climate Change Science and Pol...
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Michael Kunz
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0000-0002-0202-9558
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Karlsruhe Institute of Technology Center for Disaster Management and Risk Reduction Technology CEDEM
Karlsruhe Institute of Technology Institute of Meteorology and Climate Research
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Investigation of superstorm Sandy 2012 in a multi-disciplinary approach
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Nino Künzli
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0000-0001-8360-080X
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Autonomous University of Barcelona Catalan Institution for Research and Advanced Studies ICREA
Hospital del Mar Medical Research Institute IMIM
University of Southern California Department of Preventive Medicine
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The effect of air pollution on lung development from 10 to 18 years of age
Health effects of the 2003 southern California wildfires on children
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Tina Kunz-Plapp
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Karlsruhe Institute of Technology Center for Disaster Management and Risk Reduction Technology CEDEM
Karlsruhe Institute of Technology Geophysical Institute GPI
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Investigation of superstorm Sandy 2012 in a multi-disciplinary approach
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Chao-yang Kuo
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0000-0002-5261-5045
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Australian Research Council Centre of Excellence for Coral Reef Studies
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Global warming and recurrent mass bleaching of corals
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Kevin C. Kuo
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University of Michigan Department of Atmospheric, Oceanic and Space Sciences
University of Michigan School of Public Policy
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Record-setting algal bloom in Lake Erie caused by agricultural and meteorological trends consistent with expected future conditions
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Hans Kupfersberger
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0000-0001-6952-7992
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Joanneum Research
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Climate change impacts on groundwater and dependent ecosystems
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Kaarle Kupiainen
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International Institute for Applied Systems Analysis IIASA
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Simultaneously Mitigating Near-Term Climate Change and Improving Human Health and Food Security
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Dane M. Kuppinger
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0000-0003-3818-9948
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Oberlin College and Conservatory Adam Joseph Lewis Center for Environmental Studies
The University of North Carolina at Chapel Hill Department of Biology
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Predicting the post-fire establishment and persistence of an invasive tree species across a complex landscape
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Evan R. Kuras
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University of Massachusetts Amherst Department of Environmental Conservation
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Hot playgrounds and children's health: A multiscale analysis of surface temperatures in Arizona, USA
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Natalie Kurashima
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0000-0002-5241-8025
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Kamehameha Schools
University of Hawai'i at Manoa Department of Botany
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Bringing multiple values to the table: Assessing future land-use and climate change in North Kona, Hawai’i
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Lado Kurdgelashvili
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University of Delaware Center for Energy and Environmental Policy CEEP
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Estimating technical potential for rooftop photovoltaics in California, Arizona and New Jersey
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Jaise Kuriakose
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0000-0002-8536-8984
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The Tyndall Centre for Climate Change Research
University of Manchester Department of Mechanical, Aerospace and Civil Engineering
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What if negative emission technologies fail at scale? Implications of the Paris Agreement for big emitting nations
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E. K. Kurien
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Kerala Agricultural University Academy of Climate Change Education and Research
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Heat stress and dairy cow: Impact on both milk yield and composition
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Pablo Kuri Morales
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Pablo Kuri Morales
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Epidemic dengue and dengue hemorrhagic fever at the Texas–Mexico border: Results of a household-based seroepidemiologic survey, December 2005
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Yoshiaki Kuriyama
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Port and Airport Research Institute
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Coastal vulnerability across the Pacific dominated by El Niño/Southern Oscillation
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Thomas A. Kurkowski
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Scenarios Network for Alaska and Arctic Planning
University of Alaska Fairbanks International Arctic Research Center
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Downscaling of climate model output for Alaskan stakeholders
Consequences of changes in vegetation and snow cover for climate feedbacks in Alaska and northwest Canada
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Sofyan Kurnianto
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Center for International Forestry Research (CIFOR)
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Mangroves among the most carbon-rich forests in the tropics
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Klaus Kurtenbach
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Active and Passive Surveillance and Phylogenetic Analysis of Borrelia burgdorferi Elucidate the Process of Lyme Disease Risk Emergence in Canada
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Nathan Kurtz
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Morgan State University
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CryoSat-2 estimates of Arctic sea ice thickness and volume
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Daniel Kurtzman
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The University of Texas at Austin Bureau of Economic Geology
The University of Texas at Austin Jackson School of Geosciences
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El Niño-Southern Oscillation and Pacific Decadal Oscillation impacts on precipitation in the southern and central United States: Evaluation of spatial distribution and predictions
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Michael J. Kurylo
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National Aeronautics and Space Administration
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SAP 2.4. Trends in Emissions of Ozone-Depleting Substances, Ozone Layer Recovery, and Implications for Ultraviolet Radiation Exposure
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D. Kurz
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Environmental and Economic Costs of Soil Erosion and Conservation Benefits
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Raymond Kurz
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Southwest Florida Water Management District Surface Water Improvement Program
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The effects of seasonal variability and weather on microbial fecal pollution and enteric pathogens in a subtropical estuary
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Werner Kurz
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0000-0003-4576-7849
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Canadian Forest Service
Canadian Forestry Service Pacific Forestry Centre
Natural Resources Canada
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second-state-carbon-cycle-report-soccr2-sustained-assessment-report chapter 2 : The North American Carbon Budget
second-state-carbon-cycle-report-soccr2-sustained-assessment-report chapter 9 : Forests
Forest Carbon Sinks in the Northern Hemisphere
Quantifying the biophysical climate change mitigation potential of Canada's forest sector
A Large and Persistent Carbon Sink in the World's Forests
Assessment of boreal forest historical C dynamics in the Yukon River Basin: relative roles of warming and fire regime change
Mountain pine beetle and forest carbon feedback to climate change
Interannual and spatial impacts of phenological transitions, growing season length, and spring and autumn temperatures on carbon sequestration: A North America flux data synthesis
Risk of natural disturbances makes future contribution of Canada's forests to the global carbon cycle highly uncertain
Relationships between individual-tree mortality and water-balance variables indicate positive trends in water stress-induced tree mortality across North America
Reconciling estimates of the contemporary North American carbon balance among terrestrial biosphere models, atmospheric inversions, and a new approach for estimating net ecosystem exchange from inventory-based data
9.5: Effects of Natural Disturbances on Carbon Dynamics in Canada’s Managed Forests
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Jürgen Kusche
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0000-0001-7069-021X
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University of Bonn Institute of Geodesy and Geoinformation
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Revisiting the contemporary sea-level budget on global and regional scales
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Paul Kushner
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0000-0002-6404-4518
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University of Toronto Department of Physics
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The Community Earth System Model (CESM) large ensemble project: A community resource for studying climate change in the presence of internal climate variability
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Yochanan Kushnir
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0000-0003-3312-5160
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Columbia University Lamont-Doherty Earth Observatory
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Have Aerosols Caused the Observed Atlantic Multidecadal Variability?
Influence of local and remote SST on North Atlantic tropical cyclone potential intensity
Model projections of an imminent transition to a more arid climate in southwestern North America
Climate change in the Fertile Crescent and implications of the recent Syrian drought
Variation of the North Atlantic subtropical high western ridge and its implication to Southeastern US summer precipitation
Would advance knowledge of 1930s SSTs have allowed prediction of the Dust Bowl drought?
Forced and Internal Twentieth-Century SST Trends in the North Atlantic
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