Sentences with phrase «environmental atmospheric sciences»

«We then combined and analyzed the data for each intersection to create high - resolution maps of pollutant concentrations along the blocks,» said Choi, an assistant professor of environmental atmospheric sciences at South Korea's Pusan National University.

The NOAA program is fulfilling the organization's proud history of increasing minority participation in the marine, environmental, and atmospheric sciences.

That?s in addition to the many who remain in geological research in fields that include earth and atmospheric sciences, environmental sciences, marine science, renewable energy, and fossil fuels.

The National Oceanic and Atmospheric Administration (NOAA) is known for its scholarly involvement in fields like oceanography and the weather, but one program seeks to increase minority participation in the marine, environmental, and atmospheric sciences by offering internships and academic courses in these fields.

The BER program contains two main components, biological systems sciences, which fund research such as genomics and advanced biofuel, and earth and environmental systems sciences (EESE), which funds research such as atmospheric monitoring and modeling.

«We found high levels of PCBs in a region of the world where we wouldn't expect to find them,» says Rosalinda Gioia, an atmospheric pollution researcher at Lancaster University, UK, and the lead author of the report of the high levels in Environmental Science & Technology.

«We expect the outcome of this study to support scientifically sound national policy decisions on bioenergy crops development especially with regards to cellulosic grasses,» wrote Atul Jain, professor of atmospheric sciences at U of I, regarding a paper published by the journal Environmental Science & Technology.

«We can use the lightning jump as a nowcasting tool for supercells if the jump is set in the context of that storm's environmental data,» said Dr. Larry Carey, a UAH associate professor in atmospheric science.

A Columbia Engineering team led by Pierre Gentine, professor of earth and environmental engineering, and Adam Sobel, professor of applied physics and applied mathematics and of earth and environmental sciences, has developed a new approach, opposite to climate models, to correct climate model inaccuracies using a high - resolution atmospheric model that more precisely resolves clouds and convection (precipitation) and parameterizes the feedback between convection and atmospheric circulation.

Last week's decision by the Natural Environmental Research Council (NERC) has infuriated scientists in fields ranging from atmospheric and polar sciences to freshwater biology.

Diving deeper into the complex puzzle of mass strandings, the team decided to expand their analysis and include additional oceanographic and atmospheric data sets from NASA's Earth science missions, including Terra, the Sea - viewing Wide Field - of - view Sensor — or SeaWIFS, for short — and Global Precipitation Measurement, as well as the National Oceanic and Atmospheric Administration's Geostationary Operational Environmental Satellite, or GOES, mission.

Research ranges from atmospheric sciences to microbiology, climate, oceanography, environmental chemistry, water management, and international environmental policy.

The data will be especially useful to colleagues such as Lee Murray, an assistant professor of earth and environmental sciences, who builds computer models to predict future changes in atmospheric chemistry.

His research in atmospheric chemistry, climate change and energy has involved him in shaping science and environmental policy at the highest levels nationally and internationally.

Cicerone was an atmospheric scientist whose research placed him at the forefront in shaping science and environmental policy, both nationally and internationally.

The IPCC Third Assessment Report's (TAR's) projections for methane atmospheric concentrations, carbon dioxide emissions and atmospheric concentrations, and resultant temperature increases constitute the greatest fraud in the history of environmental science.

«There is evidence indicating that the drop in the atmospheric CO2 growth rate was probably too big to be explained by a reduction in respiration alone,» said the study's lead author, Lianhong Gu, a researcher at the University of California Berkeley's Department of Environmental Science, Policy and Management.

They lead international research in climate change, natural hazards and volcanology, geography, atmospheric and ocean sciences, geochemistry, natural resource management, ecology, biodiversity conservation, environmental biology, environmental policy, environmental economics, sustainability and geographical information systems.

The Week That Was: 2017-12-02 (December 2, 2017) Brought to You by SEPP (www.SEPP.org) The Science and Environmental Policy Project THIS WEEK: By Ken Haapala, President 38.5 Years of Data: Using atmospheric data collected by satellites from January 1979 to June 2017, John Christy and Richard McNider of the Earth System Science Center at the...

Dr. Singer, an atmospheric and space physicist, served as professor of environmental sciences at the University of Virginia, Charlottesville from 1971 to 1994.

The report's authors include Salvatore Pascale, an associate research scholar in atmospheric and oceanic sciences (AOS); Tom Delworth, a lecturer in geosciences and AOS and research scientist at NOAA's Geophysical Fluid Dynamics Laboratory (GFDL); Sarah Kapnick, a 2004 Princeton alumna and former AOS postdoc who is currently a research physical scientist at GFDL; AOS associate research scholar Hiroyuki Murakami; and Gabriel Vecchi, a professor of geosciences and the Princeton Environmental Institute.

«We're seeing increasing temperatures and relatively little change in average precipitation, but an increase in the variability and the occurrence of both wet and dry extremes,» said Daniel Swain, an atmospheric scientist at Stanford's School of Earth, Energy & Environmental Sciences and the lead author of a new paper published in Science Advances.

The IPCC Third Assessment Report projections for atmospheric methane concentrations, CO2 emissions and atmospheric concentrations, and resultant temperature increases (i.e. 1.4 to 5.8 degrees Celsius from 1990 to 2100) constitute the greatest fraud in the history of environmental science:

Singer is an atmospheric and space physicist, the first director of the U.S. Weather Satellite Center, a research professor at George Mason University (USA) and professor emeritus of environmental science at the University of Virginia (USA).

Dr. Singer, an atmospheric and space physicist, founded the Science and Environmental Policy Project (SEPP) and the Nongovernmental International Panel on Climate Change (NIPCC).

S. Fred Singer is an atmospheric physicist and retired environmental science professor.

After a two - year postdoctoral appointment modeling global sources and sinks of atmospheric CO2, he spent two years as an Assistant Professor in the Donald Bren School of Environmental Science and Management at the University of California at Santa Barbara.

Singer, a leading scientific skeptic of anthropocentric global warming (AGW), is an atmospheric physicist, and founder of the Science and Environmental Policy Project (SEPP), an organization that began challenging the published findings of the UN's Intergovernmental Panel on Climate Change (IPCC) in the 1990s.

To explain the difference between data collected by any other research and HIPPO, the project's chief investigator, Steven Wofsy, a professor of atmospheric and environmental science at Harvard University, said It's like looking at an X-ray from the 60s versus a CAT scan today.

In a paper on the Energy & Environmental Science web site (17/7/12), meteorologist John Ten Hoeve and environmental engineer Mark Jacobson, both at Stanford University in California have calculated that, based on estimates of the radioactive nuclides released at Fukuhima, a three - dimensional global atmospheric model for radioactive fallout patterns and the linear no - threshold (LNT) model for resultant cancers, there would be between 15 and 1100 linked cancer deaths, with their best estimate beinEnvironmental Science web site (17/7/12), meteorologist John Ten Hoeve and environmental engineer Mark Jacobson, both at Stanford University in California have calculated that, based on estimates of the radioactive nuclides released at Fukuhima, a three - dimensional global atmospheric model for radioactive fallout patterns and the linear no - threshold (LNT) model for resultant cancers, there would be between 15 and 1100 linked cancer deaths, with their best estimate beinenvironmental engineer Mark Jacobson, both at Stanford University in California have calculated that, based on estimates of the radioactive nuclides released at Fukuhima, a three - dimensional global atmospheric model for radioactive fallout patterns and the linear no - threshold (LNT) model for resultant cancers, there would be between 15 and 1100 linked cancer deaths, with their best estimate being 130 deaths.

Daniel Swain, a PhD student in environmental earth system science at Stanford University, and colleagues report in Science Advances journal that they analysed the atmospheric circulation patterns that have been coincident with rainfall and temperature extremes in the Golden State's hscience at Stanford University, and colleagues report in Science Advances journal that they analysed the atmospheric circulation patterns that have been coincident with rainfall and temperature extremes in the Golden State's hScience Advances journal that they analysed the atmospheric circulation patterns that have been coincident with rainfall and temperature extremes in the Golden State's history.

We've listened to scientists who know their way around the debate within the atmospheric science and climatological communities and they're concerned that publicity about global warming is driving energy and environmental policy instead of good science.

Dr. DeLonge has a Ph.D. and M.S. in environmental science from the University of Virginia, where she developed expertise in atmospheric science, hydrology, ecosystem science, and numerical modeling.

«We noticed that atmospheric CO2 concentrations hovered close to 190 parts per million (ppm) during much of the last 800,000 years but rarely fell any lower,» says Sarah Eggleston, a researcher at the university's Institute of Environmental Science and Technology.

As the New York Times reported, «The environmental group is also working with Steven C. Wofsy, a professor of atmospheric and environmental science at Harvard, and his colleagues to address the daunting technology challenge of creating an infrared spectrometer that can detect methane plumes on the Earth's surface.»

The Oregon Institute of Science and Medicine has promoted a paper on global warming entitled «Environmental effects of increased atmospheric carbon dioxide», which has had a number of incarnations since 1999.

From my point of view as a mathematician on the fringe of the atmospheric sciences community, the battle is being won, and mostly by an overwhelming popular surge of interest in environmental issues.

He also has a Master of Science in environmental sciences and policy from Johns Hopkins University, where he concentrated his research and study in environmental fate and transport, oceanic and atmospheric processes, hydrology and the ecological effects of pollutants.

Obtain a full - time, entry - level position applying atmospheric science principles to business problems or involving emergency or environmental management support to business or government agencies.