Topic
Climate change
About: Climate change is a research topic. Over the lifetime, 99222 publications have been published within this topic receiving 3572006 citations.
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Illinois State University1, York University2, California University of Pennsylvania3, Washington State University4, United States Geological Survey5, Norwegian Institute for Air Research6, University of Wisconsin-Madison7, Uppsala University8, University of Konstanz9, University at Albany, SUNY10, Leibniz Association11, University of Waikato12, University of Helsinki13, University of Minnesota14, Indian Ministry of Environment and Forests15, Colorado State University16, University of Adelaide17, Marine Institute of Memorial University of Newfoundland18, University of Innsbruck19, University of Florida20, Cornell University21, International Institute for Sustainable Development22, California Institute of Technology23, Irkutsk State University24, Estonian University of Life Sciences25, Ritsumeikan University26, Finnish Environment Institute27, Great Lakes Environmental Research Laboratory28, Swiss Federal Institute of Aquatic Science and Technology29, University of California, Santa Barbara30, University of Hamburg31, Russian Academy of Sciences32, Royal Museum for Central Africa33, National Research Council34, Ontario Ministry of the Environment35, University of New Hampshire36, University of Washington37, University of California, Davis38, Melikşah University39, University of Vienna40, National Institute of Water and Atmospheric Research41, University of Eastern Finland42, Seqwater43, Miami University44, Chinese Academy of Sciences45
TL;DR: In the first worldwide synthesis of in situ and satellite-derived lake data, this paper found that lake summer surface water temperatures rose rapidly (global mean = 0.34°C decade−1) between 1985 and 2009.
Abstract: In this first worldwide synthesis of in situ and satellite-derived lake data, we find that lake summer surface water temperatures rose rapidly (global mean = 0.34°C decade−1) between 1985 and 2009. Our analyses show that surface water warming rates are dependent on combinations of climate and local characteristics, rather than just lake location, leading to the counterintuitive result that regional consistency in lake warming is the exception, rather than the rule. The most rapidly warming lakes are widely geographically distributed, and their warming is associated with interactions among different climatic factors—from seasonally ice-covered lakes in areas where temperature and solar radiation are increasing while cloud cover is diminishing (0.72°C decade−1) to ice-free lakes experiencing increases in air temperature and solar radiation (0.53°C decade−1). The pervasive and rapid warming observed here signals the urgent need to incorporate climate impacts into vulnerability assessments and adaptation efforts for lakes.
822 citations
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TL;DR: The Global Soil Moisture Data Bank (GSOMoisture) as mentioned in this paper is a web site dedicated to collection, dissemination, and analysis of soil moisture data from around the globe.
Abstract: Soil moisture is an important variable in the climate system. Understanding and predicting variations of surface temperature, drought, and flood depend critically on knowledge of soil moisture variations, as do impacts of climate change and weather forecasting. An observational dataset of actual in situ measurements is crucial for climatological analysis, for model development and evaluation, and as ground truth for remote sensing. To that end, the Global Soil Moisture Data Bank, a Web site (http://climate.envsci.rutgers.edu/soil—moisture) dedicated to collection, dissemination, and analysis of soil moisture data from around the globe, is described. The data bank currently has soil moisture observations for over 600 stations from a large variety of global climates, including the former Soviet Union, China, Mongolia, India, and the United States. Most of the data are in situ gravimetric observations of soil moisture; all extend for at least 6 years and most for more than 15 years. Most of the stat...
821 citations
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TL;DR: Greenland ice-core records provide an exceptionally clear picture of many aspects of abrupt climate changes, and particularly of those associated with the Younger Dryas event, as reviewed here as mentioned in this paper.
817 citations
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University of Florida1, Katholieke Universiteit Leuven2, Queensland Museum3, James Cook University4, University of Melbourne5, University of Queensland6, Chinese Academy of Sciences7, BirdLife International8, University of Cambridge9, Zoological Society of London10, Norwegian Polar Institute11, University of Hong Kong12, Sapienza University of Rome13, Stellenbosch University14, University of British Columbia15, University of Hawaii16, National University of Singapore17, Wildlife Conservation Society18
TL;DR: The full range and scale of climate change effects on global biodiversity that have been observed in natural systems are described, and a set of core ecological processes that underpin ecosystem functioning and support services to people are identified.
Abstract: Most ecological processes now show responses to anthropogenic climate change. In terrestrial, freshwater, and marine ecosystems, species are changing genetically, physiologically, morphologically, and phenologically and are shifting their distributions, which affects food webs and results in new interactions. Disruptions scale from the gene to the ecosystem and have documented consequences for people, including unpredictable fisheries and crop yields, loss of genetic diversity in wild crop varieties, and increasing impacts of pests and diseases. In addition to the more easily observed changes, such as shifts in flowering phenology, we argue that many hidden dynamics, such as genetic changes, are also taking place. Understanding shifts in ecological processes can guide human adaptation strategies. In addition to reducing greenhouse gases, climate action and policy must therefore focus equally on strategies that safeguard biodiversity and ecosystems.
815 citations
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TL;DR: The authors conducted an empirical analysis of the factors affecting U.S. public concern about the threat of climate change between January 2002 and December 2010, using data from 74 separate surveys over a 9-year period.
Abstract: This paper conducts an empirical analysis of the factors affecting U.S. public concern about the threat of climate change between January 2002 and December 2010. Utilizing Stimson’s method of constructing aggregate opinion measures, data from 74 separate surveys over a 9-year period are used to construct quarterly measures of public concern over global climate change. We examine five factors that should account for changes in levels of concern: 1) extreme weather events, 2) public access to accurate scientific information, 3) media coverage, 4) elite cues, and 5) movement/countermovement advocacy. A time-series analysis indicates that elite cues and structural economic factors have the largest effect on the level of public concern about climate change. While media coverage exerts an important influence, this coverage is itself largely a function of elite cues and economic factors. Weather extremes have no effect on aggregate public opinion. Promulgation of scientific information to the public on climate change has a minimal effect. The implication would seem to be that information-based science advocacy has had only a minor effect on public concern, while political mobilization by elites and advocacy groups is critical in influencing climate change concern.
814 citations