50 results
Search Results
2. ABSTRACTS OF PAPERS AT NEW ORLEANS MEETING, DEC. 28-30, 1931 (Concluded)
- Author
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Gray, Richard W., Mitchell, A. J., Humphreys, W. J., and Wurtz, Geo. B.
- Published
- 1932
3. PAPERS OF NOTE.
- Subjects
- *
CLIMATE change , *CARBON dioxide , *AIR pollution , *ATMOSPHERIC temperature , *EMISSION control - Abstract
The article reports on the climate impacts of anthropogenic carbon dioxide emissions. In its Fourth Assessment Report, the Intergovernmental Panel on Climate Change (IPCC) suggests that about 50 percent of a carbon dioxide increase will be removed from the atmosphere within 30 years. It is reported that the logarithmic relationship between carbon dioxide and its radiative forcing implies that the time scale at which atmospheric temperature declines will be longer.
- Published
- 2009
4. Applications of Geostationary Hyperspectral Infrared Sounder Observations: Progress, Challenges, and Future Perspectives.
- Author
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Li, Jun, Menzel, W. Paul, Schmit, Timothy J., and Schmetz, Johannes
- Subjects
NUMERICAL weather forecasting ,ATMOSPHERIC temperature ,GEOSTATIONARY satellites ,METEOROLOGICAL satellites ,ATMOSPHERIC composition - Abstract
A hyperspectral infrared (IR) sounder from geostationary orbit provides nearly continuous measurements of atmospheric thermodynamic and dynamic information within a weather cube, specifically the atmospheric temperature, moisture, and wind information at different pressure levels that are critical for improving high-impact weather (HIW) nowcasting and numerical weather prediction (NWP). Geostationary hyperspectral IR sounders (GeoHIS) have been on board China's Fengyun-4 series since 2016 and will be on board Europe's Meteosat Third Generation (MTG) series in the 2024 time frame; the United States and other countries are also planning to include GeoHIS instruments on their next generation of geostationary weather satellites. Although availability of on-orbit GeoHIS data are limited currently, studies have been conducted and progress has been made on developing the applications of high-temporal-resolution GeoHIS observations. These include but are not limited to deriving three-dimensional wind fields for nowcasting and NWP applications, trending atmospheric instability for warning in preconvective environments, conducting impact studies with data from the experimental Geostationary Interferometric Infrared Sounder (GIIRS) on board Fengyun-4A, preparing observing system simulation experiments (OSSEs), and monitoring diurnal variation of atmospheric composition. This paper provides an overview of the current applications of GeoHIS, discusses the data processing challenges, and provides perspectives on future development. The purpose is to provide direction on utilization of the current and assist preparation for the upcoming GeoHIS observations for nowcasting, NWP and other applications. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
5. Seawater Icicles of the Adriatic Sea.
- Author
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Malačič, Vlado and Žagar, Nedjeljka
- Subjects
COASTS ,SEAS ,ATMOSPHERIC temperature ,SEAWATER ,SALINITY - Abstract
The marine icicles that form on coastal constructions (e.g., piers and railings) are very common in polar and subpolar areas. The occasional formation of icicles in the coastal zones of the Mediterranean Sea occurs in relation to cold-air outbreaks from the polar region, such as the one presented in this paper in February 2018. The air temperatures over the northern Adriatic Sea, the northernmost part of the Mediterranean, dropped below –2.1°C, a necessary condition for seawater to freeze, with salinity between 38.0 and 38.5 PSU. The formation of icicles on the coastal structures was further enabled by the bora wind and related high seas along the coast. Measurements presented in this paper confirm that the icicles in the Bay of Piran in the Gulf of Trieste (45.55°N) were formed from the seawater. The measured salinity level of the melted icicles, around 9 PSU, is a typical value reported for marine icicles in polar regions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
6. The Arctic Cloud Puzzle: Using ACLOUD/PASCAL Multiplatform Observations to Unravel the Role of Clouds and Aerosol Particles in Arctic Amplification.
- Author
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Wendisch, Manfred, Macke, Andreas, Ehrlich, André, Lüpkes, Christof, Mech, Mario, Chechin, Dmitry, Dethloff, Klaus, Velasco, Carola Barrientos, Bozem, Heiko, Brückner, Marlen, Clemen, Hans-Christian, Crewell, Susanne, Donth, Tobias, Dupuy, Regis, Ebell, Kerstin, Egerer, Ulrike, Engelmann, Ronny, Engler, Christa, Eppers, Oliver, and Gehrmann, Martin
- Subjects
AEROSOLS ,AMPLIFICATION reactions ,ATMOSPHERIC temperature ,ATMOSPHERIC aerosols ,SEA ice - Abstract
Clouds play an important role in Arctic amplification. This term represents the recently observed enhanced warming of the Arctic relative to the global increase of near-surface air temperature. However, there are still important knowledge gaps regarding the interplay between Arctic clouds and aerosol particles, and surface properties, as well as turbulent and radiative fluxes that inhibit accurate model simulations of clouds in the Arctic climate system. In an attempt to resolve this so-called Arctic cloud puzzle, two comprehensive and closely coordinated field studies were conducted: the Arctic Cloud Observations Using Airborne Measurements during Polar Day (ACLOUD) aircraft campaign and the Physical Feedbacks of Arctic Boundary Layer, Sea Ice, Cloud and Aerosol (PASCAL) ice breaker expedition. Both observational studies were performed in the framework of the German Arctic Amplification: Climate Relevant Atmospheric and Surface Processes, and Feedback Mechanisms (AC) project. They took place in the vicinity of Svalbard, Norway, in May and June 2017. ACLOUD and PASCAL explored four pieces of the Arctic cloud puzzle: cloud properties, aerosol impact on clouds, atmospheric radiation, and turbulent dynamical processes. The two instrumented Polar 5 and Polar 6 aircraft; the icebreaker Research Vessel (R/V) Polarstern; an ice floe camp including an instrumented tethered balloon; and the permanent ground-based measurement station at Ny-Ålesund, Svalbard, were employed to observe Arctic low- and mid-level mixed-phase clouds and to investigate related atmospheric and surface processes. The Polar 5 aircraft served as a remote sensing observatory examining the clouds from above by downward-looking sensors; the Polar 6 aircraft operated as a flying in situ measurement laboratory sampling inside and below the clouds. Most of the collocated Polar 5/6 flights were conducted either above the R/V Polarstern or over the Ny-Ålesund station, both of which monitored the clouds from below using similar but upward-looking remote sensing techniques as the Polar 5 aircraft. Several of the flights were carried out underneath collocated satellite tracks. The paper motivates the scientific objectives of the ACLOUD/PASCAL observations and describes the measured quantities, retrieved parameters, and the applied complementary instrumentation. Furthermore, it discusses selected measurement results and poses critical research questions to be answered in future papers analyzing the data from the two field campaigns. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
7. The Total Solar Eclipse of 2017: Meteorological Observations from a Statewide Mesonet and Atmospheric Profiling Systems.
- Author
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Mahmood, Rezaul, Schargorodski, Megan, Rappin, Eric, Griffin, Melissa, Collins, Patrick, Knupp, Kevin, Quilligan, Andrew, Wade, Ryan, Cary, Kevin, and Foster, Stuart
- Subjects
TOTAL solar eclipses ,METEOROLOGICAL observations ,ATMOSPHERIC boundary layer ,ATMOSPHERIC temperature ,SOLAR radiation - Abstract
A total solar eclipse traversed the continental United States on 21 August 2017. It was the first such event in 99 years and provided a rare opportunity to observe the atmospheric response from a variety of instrumented observational platforms. This paper discusses the highquality observations collected by the Kentucky Mesonet (www.kymesonet.org), a research-grade meteorological and climatological observation network consisting of 72 stations and measuring air temperature, precipitation, relative humidity, solar radiation, wind speed, and wind direction. The network samples the atmosphere, for most variables, every 3 s and then calculates and records observations every 5 min. During the total solar eclipse, these observations were complemented by observations collected from three atmospheric profiling systems positioned in the path of the eclipse and operated by the University of Alabama in Huntsville (UAH). Observational data demonstrate that solar radiation at the surface dropped from >800 to 0 W m-2, the air temperature decreased by about 4.5°C, and, most interestingly, a land-breeze-sea-breeze-type wind developed. In addition, due to the high density of observations, the network recorded a detailed representation of the spatial variation of surface meteorology. The UAH profiling system captured collapse and reformation of the planetary boundary layer and related changes during the total solar eclipse. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
8. Reply to “Hurricanes and Global Warming Potential Linkages and Consequences”.
- Author
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Pielke Jr., Roger, Landsea, Christopher, Mayfield, Max, Laver, Jim, and Pasch, Richard
- Subjects
CLIMATE change research ,CLIMATOLOGY ,TROPICAL cyclones ,GLOBAL temperature changes ,GLOBAL warming ,ATMOSPHERIC temperature ,HURRICANES ,STORMS ,ENVIRONMENTAL degradation - Abstract
The article presents comments and criticisms on the published paper "Hurricanes and global warming. This is presentation of the views and scientific perspectives as well as the perspectives on structure and function of scientific assessments given by Anthes et al.(2006) and Pielke et al. (2005). The policy action in question here deals with what could be the most effective policy with regards to tropical cyclone that have an impact in the societal vulnerability. There is an on-going investigation on the issues of research in climate changes and tropical cyclones. Also, a brief enumeration on the criticisms by Pielke et al.(2005) and Anthes et al.(2006) is emphasized.
- Published
- 2006
- Full Text
- View/download PDF
9. FLUXNET-CH4 Synthesis Activity: Objectives, Observations, and Future Directions.
- Author
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Knox, Sara H., Jackson, Robert B., Poulter, Benjamin, McNicol, Gavin, Fluet-Chouinard, Etienne, Zhang, Zhen, Hugelius, Gustaf, Bousquet, Philippe, Canadell, Josep G., Saunois, Marielle, Papale, Dario, Chu, Housen, Keenan, Trevor F., Baldocchi, Dennis, Torn, Margaret S., Mammarella, Ivan, Trotta, Carlo, Aurela, Mika, Bohrer, Gil, and Campbell, David I.
- Subjects
- *
SOIL air , *WATER table , *WETLAND soils , *SOIL temperature , *ATMOSPHERIC temperature , *UPLANDS - Abstract
This paper describes the formation of, and initial results for, a new FLUXNET coordination network for ecosystem-scale methane (CH4) measurements at 60 sites globally, organized by the Global Carbon Project in partnership with other initiatives and regional flux tower networks. The objectives of the effort are presented along with an overview of the coverage of eddy covariance (EC) CH4 flux measurements globally, initial results comparing CH4 fluxes across the sites, and future research directions and needs. Annual estimates of net CH4 fluxes across sites ranged from −0.2 ± 0.02 g C m–2 yr–1 for an upland forest site to 114.9 ± 13.4 g C m–2 yr–1 for an estuarine freshwater marsh, with fluxes exceeding 40 g C m–2 yr–1 at multiple sites. Average annual soil and air temperatures were found to be the strongest predictor of annual CH4 flux across wetland sites globally. Water table position was positively correlated with annual CH4 emissions, although only for wetland sites that were not consistently inundated throughout the year. The ratio of annual CH4 fluxes to ecosystem respiration increased significantly with mean site temperature. Uncertainties in annual CH4 estimates due to gap-filling and random errors were on average ±1.6 g C m–2 yr–1 at 95% confidence, with the relative error decreasing exponentially with increasing flux magnitude across sites. Through the analysis and synthesis of a growing EC CH4 flux database, the controls on ecosystem CH4 fluxes can be better understood, used to inform and validate Earth system models, and reconcile differences between land surface model- and atmospheric-based estimates of CH4 emissions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
10. Reply.
- Author
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Sampe, Takeaki and Shang-Ping Xie
- Subjects
WIND measurement ,WIND speed ,ATMOSPHERIC temperature ,TEMPERATURE effect ,FREQUENCY meters ,TEMPERATURE measuring instruments ,CALIBRATION - Abstract
The article presents the authors' views regarding the comments which were introduced in their article on variations in wind frequency using Quick Scatterometer or QuikSCAT relative to sea surface temperature (SST) fronts. They agreed that QuikSCAT cannot be used in measuring wind velocity. Atmospheric stability effect is small under high winds based on their calculations. The authors also cited that calibration experiments on wind observation should be done for its quantitative importance.
- Published
- 2008
- Full Text
- View/download PDF
11. The Uncoordinated Giant: Why U.S. Weather Research and Prediction Are Not Achieving Their Potential.
- Author
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Mass, Clifford
- Subjects
METEOROLOGICAL research ,WEATHER forecasting ,ATMOSPHERIC temperature ,ATMOSPHERIC pressure ,CLIMATOLOGY ,SELECTIVE dissemination of information ,GLOBAL Observing System (Meteorology) ,WEATHER - Abstract
Although the large U.S. meteorological community has made significant strides in weather diagnosis and prediction, progress has been slowed by a lack of cooperation, coordination, and pooling of resources. This paper analyzes such problems in a number of areas, ranging from numerical weather prediction to forecast dissemination, and proposes an alternative approach of greater community involvement in decision making, coupled with closely coordinated research and application, which might facilitate improvement in our ability to predict the weather and to apply weather information to societal needs. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
12. Finger Cooling During Cold Air Exposure.
- Author
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Tikuisis, Peter
- Subjects
FREEZES (Meteorology) ,FINGERS ,ATMOSPHERIC temperature ,COOLING ,METEOROLOGY ,TEMPERATURE - Abstract
This paper presents a method for predicting the onset of finger freezing. It is an extension of a tissue-cooling model originally developed to predict the onset of cheek freezing. The extension to the finger is presented as a more conservative warning of wind chill. Indeed, guidance on the risk of finger freezing is important not only to safeguard the finger, but also because it pertains more closely to susceptible facial features, such as the nose, than if only the risk of cheek freezing was provided. The importance of blood flow to the finger and the modeling of vaso-constriction are demonstrated through cooling predictions that agree reasonably well with several reported observations. Differences in the prediction between the present physiologic-based model and the engineering model used to develop the wind chill index are also discussed. New wind chill charts are presented that tabulate the mean cooling rates and corresponding onset times to freezing of the finger for various combinations of air temperature and wind speed. Results indicate that the surface of the finger cools to its freezing point in approximately one-eighth of the time predicted for the cheek. For combinations that result in the same wind chill temperature (WCT), the rate of finger cooling is faster at the higher wind speed. This asymmetry was previously disclosed through the application of the model to cheek cooling, and it reiterates the ambiguity associated with the reporting of WCT. It is further emphasized that the reporting of onset times to freezing, or safe exposure limits, is a more logical and meaningful alternative to the WCT. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
13. DIMINISHING ANY LINK BETWEEN CLIMATE CHANGE AND SEASONAL HURRICANE ACTIVITY.
- Author
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O'Connor, Lauraleen, Gunzelman, Mark, Samenow, Jason, and Fortune, Michael
- Subjects
HURRICANES ,GLOBAL temperature changes ,GLOBAL warming ,CLIMATE change ,ATMOSPHERIC temperature ,GREENHOUSE effect ,GREENHOUSE gases - Abstract
This article discusses climate change and hurricanes. Papers that appeared in the scholarly journals "Nature" and "Science" during the summer of 2005 raised the question of global warming being the cause of the record-breaking hurricane season of 2005. The article examines that argument, noting that many scientists believe that human-induced climate warming is indeed real. Also discussed is the increasing intensity of hurricanes since 1975, as well as the rise in seas surface temperatures and greenhouse gases in the atmosphere.
- Published
- 2006
14. MSWX: Global 3-Hourly 0.1 ° Bias-Corrected Meteorological Data Including Near-Real-Time Updates and Forecast Ensembles.
- Author
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Beck, Hylke E., van Dijk, Albert I. J. M., Larraondo, Pablo R., McVicar, Tim R., Pan, Ming, Dutra, Emanuel, and Miralles, Diego G.
- Subjects
METEOROLOGICAL precipitation ,DROUGHT forecasting ,ATMOSPHERIC temperature ,SURFACE pressure ,FORECASTING ,LONG-range weather forecasting ,HOT weather conditions - Abstract
We present Multi-Source Weather (MSWX), a seamless global gridded near-surface meteorological product featuring a high 3-hourly 0.1° resolution, near-real-time updates (∼3-h latency), and bias-corrected medium-range (up to 10 days) and long-range (up to 7 months) forecast ensembles. The product includes 10 meteorological variables: precipitation, air temperature, daily minimum and maximum air temperature, surface pressure, relative and specific humidity, wind speed, and downward shortwave and longwave radiation. The historical part of the record starts 1 January 1979 and is based on ERA5 data bias corrected and downscaled using high-resolution reference climatologies. The data extension to within ∼3 h of real time is based on analysis data from GDAS. The 30-member medium-range forecast ensemble is based on GEFS and updated daily. Finally, the 51-member long-range forecast ensemble is based on SEAS5 and updated monthly. The near-real-time and forecast data are statistically harmonized using running-mean and cumulative distribution function-matching approaches to obtain a seamless record covering 1 January 1979 to 7 months from now. MSWX presents new and unique opportunities for hydrological modeling, climate analysis, impact studies, and monitoring and forecasting of droughts, floods, and heatwaves (within the bounds of the caveats and limitations discussed herein). The product is available at www.gloh2o.org/mswx. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
15. THE NEW WIND CHILL EQUIVALENT TEMPERATURE CHART.
- Author
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Osczevski, Randall and Bluestein, Maurice
- Subjects
- *
WIND chill index , *ATMOSPHERIC temperature , *WEATHER , *LOW temperatures - Abstract
The formula used in the U.S. and Canada to express the combined effect of wind and low temperature on how cold it feels was changed in November 2001. Many had felt that the old formula for equivalent temperature, derived in the 1960s from Siple and Passel's flawed but quite useful Wind Chill Index, unnecessarily exaggerated the severity of the weather. The new formula is based on a mathematical model of heat flow from the upwind side of a head-sized cylinder moving at walking speed into the wind. The paper details the assumptions that were made in generating the new wind chill charts. It also points out weaknesses in the concept of wind chill equivalent temperature, including its steady-state character and a seemingly paradoxical effect of the internal thermal resistance of the cylinder on comfort and equivalent temperature. Some improvements and alternatives are suggested. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
16. SOUTHTRAC-GW: An Airborne Field Campaign to Explore Gravity Wave Dynamics at the World's Strongest Hotspot.
- Author
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Rapp, Markus, Kaifler, Bernd, Dörnbrack, Andreas, Gisinger, Sonja, Mixa, Tyler, Reichert, Robert, Kaifler, Natalie, Knobloch, Stefanie, Eckert, Ramona, Wildmann, Norman, Giez, Andreas, Krasauskas, Lukas, Preusse, Peter, Geldenhuys, Markus, Riese, Martin, Woiwode, Wolfgang, Friedl-Vallon, Felix, Sinnhuber, Björn-Martin, de la Torre, Alejandro, and Alexander, Peter
- Subjects
GRAVITY waves ,YTTRIUM aluminum garnet ,POLAR vortex ,ATMOSPHERIC physics ,JET streams ,METEOROLOGICAL research ,ATMOSPHERIC temperature - Published
- 2021
- Full Text
- View/download PDF
17. Minimum Snow/Ice Extent over the Northern Circumpolar Landmass in 2000-19: How Much Snow Survives the Summer Melt?
- Author
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Trishchenko, Alexander P. and Ungureanu, Calin
- Subjects
REMOTE sensing ,REMOTE-sensing images ,IMAGE processing ,ATMOSPHERIC temperature ,TIME series analysis ,SNOW cover - Abstract
A novel satellite image processing technique developed at the Canada Centre for Remote Sensing has been utilized to produce annual time series of the minimum snow/ice (MSI) extent over the northern circumpolar landmass area (9,000 km × 9,000 km) for 2000-19. The information has been derived from the Moderate Resolution Imaging Spectroradiometer 10-day clear-sky composites generated at 250-m spatial resolution over the April-September period. Derived interannual variations agree very well with the warm-season average surface air temperatures from the European reanalysis (ERA5). The region-average correlation coefficient is -0.78. The total MSI extent demonstrated a statistically significant declining trend equal to -1,477 km2 yr-1. Results have been compared with data from the Randolph Glacier Inventory (RGI 6.0). The comparison points to a significant contribution of minimum seasonal snow cover relative to RGI glacierized areas. Quantitative estimates obtained for the first time showed that the region-average snow extent that survives the summer melt and resides outside of RGI area can be as high as 15% (or 53 × 103 km2) while in the northern Canadian Arctic it can reach 41% (or 43 × 103 km2). The derived MSI time series data can be recommended to the glacier and land-cover scientific community as a source of validation data and annual updates of snow and ice maps over the northern circumpolar landmass. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
18. The EUSTACE Project: Delivering Global, Daily Information on Surface Air Temperature.
- Author
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Rayner, Nick A., Auchmann, Renate, Bessembinder, Janette, Brönnimann, Stefan, Brugnara, Yuri, Capponi, Francesco, Carrea, Laura, Dodd, Emma M. A., Ghent, Darren, Good, Elizabeth, Høyer, Jacob L., Kennedy, John J., Kent, Elizabeth C., Killick, Rachel E., van der Linden, Paul, Lindgren, Finn, Madsen, Kristine S., Merchant, Christopher J., Mitchelson, Joel R., and Morice, Colin P.
- Subjects
SURFACE temperature ,ATMOSPHERIC temperature ,WATER temperature ,OCEAN temperature ,SKIN temperature ,SURFACE of the earth ,METEOROLOGICAL stations - Abstract
Day-to-day variations in surface air temperature affect society in many ways, but daily surface air temperature measurements are not available everywhere. Therefore, a global daily picture cannot be achieved with measurements made in situ alone and needs to incorporate estimates from satellite retrievals. This article presents the science developed in the EU Horizon 2020-funded EUSTACE project (2015-19, www.eustaceproject.org) to produce global and European multidecadal ensembles of daily analyses of surface air temperature complementary to those from dynamical reanalyses, integrating different ground-based and satellite-borne data types. Relationships between surface air temperature measurements and satellite-based estimates of surface skin temperature over all surfaces of Earth (land, ocean, ice, and lakes) are quantified. Information contained in the satellite retrievals then helps to estimate air temperature and create global fields in the past, using statistical models of how surface air temperature varies in a connected way from place to place; this needs efficient statistical analysis methods to cope with the considerable data volumes. Daily fields are presented as ensembles to enable propagation of uncertainties through applications. Estimated temperatures and their uncertainties are evaluated against independent measurements and other surface temperature datasets. Achievements in the EUSTACE project have also included fundamental preparatory work useful to others, for example, gathering user requirements, identifying inhomogeneities in daily surface air temperature measurement series from weather stations, carefully quantifying uncertainties in satellite skin and air temperature estimates, exploring the interaction between air temperature and lakes, developing statistical models relevant to non-Gaussian variables, and methods for efficient computation. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
19. AIRS
- Author
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Hartmut H. Aumann, L. Larrabee Strow, Mitch Goldberg, Joel Susskind, John Blaisdell, William L. Smith, Eric Fetzer, Henry E. Revercomb, Bjorn Lambrigtsen, W. W. McMillan, Philip W. Rosenkranz, Sung-Yung Lee, Scott E. Hannon, Murty Divakarla, Walter Wolf, Stephanie Granger, Moustafa T. Chahine, Luke Chen, Edward T. Olsen, Robert Atlas, Thomas S. Pagano, Lihang Zhou, Christopher D. Barnet, John Le Marshall, Fredrick W. Irion, David C. Tobin, Ramesh K. Kakar, Catherine Gautier, David H. Staelin, Eugenia Kalnay, and Larry M. McMillin
- Subjects
Atmospheric Science ,Meteorology ,Weather forecasting ,Atmospheric temperature ,computer.software_genre ,law.invention ,Environmental Modeling Center ,Troposphere ,law ,Greenhouse gas ,Atmospheric Infrared Sounder ,Radiance ,Radiosonde ,Environmental science ,computer - Abstract
This paper discusses the performance of AIRS and examines how it is meeting its operational and research objectives based on the experience of more than 2 yr with AIRS data. We describe the science background and the performance of AIRS in terms of the accuracy and stability of its observed spectral radiances. We examine the validation of the retrieved temperature and water vapor profiles against collocated operational radiosondes, and then we assess the impact thereof on numerical weather forecasting of the assimilation of the AIRS spectra and the retrieved temperature. We close the paper with a discussion on the retrieval of several minor tropospheric constituents from AIRS spectra.
- Published
- 2006
20. The Setup of the MesoVICT Project.
- Author
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Dorninger, Manfred, Gilleland, Eric, Brown, Barbara G., Casati, Barbara, Wilson, Laurence J., Mittermaier, Marion P., and Ebert, Elizabeth E.
- Subjects
NUMERICAL weather forecasting ,PRECIPITATION forecasting ,MESOSCALE convective complexes ,ATMOSPHERIC temperature ,METEOROLOGICAL observations - Abstract
Recent advancements in numerical weather prediction (NWP) and the enhancement of model resolution have created the need for more robust and informative verification methods. In response to these needs, a plethora of spatial verification approaches have been developed in the past two decades. A spatial verification method intercomparison was established in 2007 with the aim of gaining a better understanding of the abilities of the new spatial verification methods to diagnose different types of forecast errors. The project focused on prescribed errors for quantitative precipitation forecasts over the central United States. The intercomparison led to a classification of spatial verification methods and a cataloging of their diagnostic capabilities, providing useful guidance to end users, model developers, and verification scientists. A decade later, NWP systems have continued to increase in resolution, including advances in high-resolution ensembles. This article describes the setup of a second phase of the verification intercomparison, called the Mesoscale Verification Intercomparison over Complex Terrain (MesoVICT). MesoVICT focuses on the application, capability, and enhancement of spatial verification methods to deterministic and ensemble forecasts of precipitation, wind, and temperature over complex terrain. Importantly, this phase also explores the issue of analysis uncertainty through the use of an ensemble of meteorological analyses. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
21. QUANTIFYING THE RAIN-SHADOW EFFECT: Results from the Peak District, British Isles.
- Author
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Stockham, Alexander J., Schultz, David M., Fairman, Jonathan G., and Draude, Adam P.
- Subjects
METEOROLOGICAL precipitation ,RAINFALL ,WEATHER forecasting ,CLIMATOLOGY ,ATMOSPHERIC temperature - Abstract
Although rain shadows (i.e., leeside reductions of precipitation downwind of orography) are commonly described in textbooks, quantitative climatologies of the rain-shadow effect are rare. To test quantitatively a classic rain-shadow locality of the Peak District, United Kingdom, precipitation from 54 observing stations over 30 years (1981-2010) are examined. Under 850-hPa westerlies, annual and daily precipitation amounts are on average higher in Manchester in the west and the Peak District than in Sheffield in the east. More precipitation falls—and falls more frequently—frequently in Manchester than Sheffield on 197 westerly flow days annually. In contrast, more precipitation falls—and falls more frequently—in Sheffield than Manchester on 28 easterly flow days annually. These bulk precipitation statistics support a climatological rain shadow. However, when individual days are investigated, only 17% of westerly flow days occur where daily rainfall data might exhibit the rain-shadow effect (defined here as Manchester with precipitation and Sheffield with no precipitation). In contrast, only 10% of easterly flow days occur where daily rainfall data might exhibit the rain-shadow effect (Sheffield with precipitation and Manchester with no precipitation). Thus, westerly winds are more likely to exhibit a rain-shadow effect than easterly winds. Although the distribution of precipitation observed across the Peak District can sometimes be explained by the rain-shadow effect, the occurrence of the rain-shadow effect by our admittedly strict definition is not as frequent as one might expect to explain the local precipitation climate for which it has sometimes been previously credited. Thus, an attempt to understand the climatological relevance of the rain-shadow effect from one location reveals ambiguity in the definition of a rain shadow and in its interpretation from real rainfall data. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
22. A CALL FOR NEW APPROACHES TO QUANTIFYING BIASES IN OBSERVATIONS OF SEA SURFACE TEMPERATURE.
- Author
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KENT, ELIZABETH C., KENNEDY, JOHN J., SMITH, THOMAS M., SHOJI HIRAHARA, BOYIN HUANG, KAPLAN, ALEXEY, PARKER, DAVID E., ATKINSON, CHRISTOPHER P., BERRY, DAVID I., CARELLA, GIULIA, YOSHIKAZU FUKUDA, MASAYOSHI ISHII, JONES, PHILIP D., LINDGREN, FINN, MERCHANT, CHRISTOPHER J., MORAK-BOZZO, SIMONE, RAYNER, NICK A., VENEMA, VICTOR, SOUICHIRO YASUI, and HUAI-MIN ZHANG
- Subjects
OCEAN temperature ,ATMOSPHERIC temperature ,ACCURACY of measuring instruments ,STATISTICAL bias ,TEMPERATURE measurements ,ESTIMATES - Abstract
The article discusses the bias estimation for sea surface temperature and the recommendations for improving data, observational metadata and uncertainty modeling. It states that sea surface temperature (SST) and land air temperature require adjustments in accounting for changes in depth or height of measurement, instrumentation and siting. It also states that changes of SST will have a major impact on estimates of global surface temperature change.
- Published
- 2017
- Full Text
- View/download PDF
23. GPS Sounding of the Atmosphere from Low Earth Orbit: Preliminary Results
- Author
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Ware, R., Exner, M., Feng, D., Gorbunov, M., Hardy, K., Herman, B., Kuo, Y., Meehan, T., Melbourne, W., Rocken, C., Schreiner, W., Sokolovskiy, S., Solheim, F., Zou, X., Anthes, R., Businger, S., and Trenberth, K.
- Published
- 1996
24. ANALYSIS OF AN OBSERVING SYSTEM EXPERIMENT FOR THE JOINT POLAR SATELLITE SYSTEM.
- Author
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LORD, STEPHEN, GAYNO, GEORGE, and FANGLIN YANG
- Subjects
SATELLITE-based remote sensing ,GLOBAL Observing System (Meteorology) ,GLOBAL Positioning System ,SATELLITE meteorology ,ATMOSPHERIC temperature - Abstract
The article discusses the potential impact of observing system experiment to the withdrawing of data from the afternoon orbit on global forecast skill. Topics discussed include the influence of satellite-based observing system to atmospheric temperature and moisture structure, the Global Navigation Satellite System (GNSS) and Global Observing System (GOS).
- Published
- 2016
- Full Text
- View/download PDF
25. WHAT'S THE TRUE VALUE OF FORECASTS?
- Author
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Millner, Anthony
- Subjects
WEATHER forecasting ,METEOROLOGICAL research ,WEATHER & society ,CLIMATOLOGY -- Social aspects ,ATMOSPHERIC temperature - Abstract
The article discusses the importance of weather forecast valuation. It states that forecast valuation is important in legitimizing meteorological research in a larger society. It also notes that behavior can be a crucial skill in identifying the value that users understand from forecasts. The two traditional approaches to forecast valuation, prescriptive studies and descriptive studies, are presented.
- Published
- 2009
26. BLOWN AWAY.
- Author
-
KELSEY, ERIC, BRIEDE, CYRENA-MARIE, O'BRIEN, KAITLYN, PADHAM, THOMAS, CANN, MATTHEW, DAVIS, LUKE, and CARNE, ALEXANDER
- Subjects
ATMOSPHERIC sciences ,METEOROLOGICAL research ,ATMOSPHERIC temperature ,EARTH sciences ,WEATHER forecasting - Abstract
With extreme winds, rapidly changing weather, and myriad weather conditions during any given month, Mount Washington, New Hampshire (1,917 m MSL), is an ideal location to observe and learn about atmospheric sciences. During the summer of 2013, Mount Washington Observatory (MWO) welcomed a select group of interns to experience life at the "Home of the World's Worst Weather" and develop scientific and meteorological skills. The goals of the internship program are to learn how to observe and forecast mountain weather; develop data analysis and critical thinking skills through individual research projects; and live, work, and collaborate effectively with others at a remote mountain-top observatory. Interns are typically undergraduate students or recent graduates of atmospheric science programs and are selected from a highly competitive field of applicants. The summer 2013 interns worked on a variety of research projects, ranging from developing a forecast tool for the gustiness of wind at the summit to understanding the evolution of atmospheric and environmental conditions that lead to avalanches in nearby Tuckerman Ravine. To accomplish their research projects, the interns learned how hourly weather observations are made, used data analysis software, and practiced critical thinking about their methods and results. Weekly meetings with the interns and the MWO director of research allowed for the sharing of research progress, peer feedback, and practice presenting scientific results. The internships ended with presentations of their scientific research to MWO observers, staff, and observatory members. Post-internship survey responses revealed the program was highly effective at meeting its goals and provided constructive suggestions for future internship programs. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
27. KEY CONCLUSIONS OF THE FIRST INTERNATIONAL URBAN LAND SURFACE MODEL COMPARISON PROJECT.
- Author
-
BEST, M. J. and GRIMMOND, C. S. B.
- Subjects
LAND surface temperature ,URBAN temperature ,PREVENTION of global warming ,ATMOSPHERIC temperature ,URBAN heat islands ,BIOENERGETICS - Abstract
The article discusses the results from the First International Urban Land Surface Model (ULSM) Comparison Project. It compares ULSMs of various complexities to determine the differences in energy balance between rural and urban surfaces and mitigate urban warming. Topics include urban heat island (UHI), city and urban planning, and understanding UHI and energy balance. Key conclusions of the comparisons show that vegetation, soil moisture and bulk albedo are critical to model performance.
- Published
- 2015
- Full Text
- View/download PDF
28. 16. UNDERSTANDING A HOT SUMMER IN CENTRAL EASTERN CHINA: SUMMER 2013 IN CONTEXT OF MULTIMODEL TREND ANALYSIS.
- Author
-
TIANJUN ZHOU, SHUANGMEI MA, and LIWEI ZOU
- Subjects
HEAT waves (Meteorology) ,EFFECT of human beings on climate change ,ATMOSPHERIC temperature ,HEAT - Abstract
The article explores the hot 2013 summer recorded in Central Eastern China, which is the strongest heat wave experienced in the country since 1951 with an average daily mean temperature that was about 3.0 degrees above normal in July and August 2013. Topics discussed include the possible contribution of human activity on the extreme heat recorded and the reason the attributable risk of human influence was lower in China compared to the U.S.
- Published
- 2014
29. WORLD METEOROLOGICAL ORGANIZATION ASSESSMENT OF THE PURPORTED WORLD RECORD 58°C TEMPERATURE EXTREME AT EL AZIZIA, LIBYA (13 SEPTEMBER 1922).
- Author
-
EL FADLI, KHALID I., CERVENY, RANDALL S., BURT, CHRISTOPHER C., EDEN, PHILIP, PARKER, DAVID, BRUNET, MANOLA, PETERSON, THOMAS C., MORDACCHINI, GIANPAOLO, PELINO, VINICIO, BESSEMOULIN, PIERRE, STELLA, JOSÉ LUIS, DRIOUECH, FATIMA, WAHAB, M. M. ABDEL, and PACE, MATTHEW B.
- Subjects
TEMPERATURE ,METEOROLOGY ,CLIMATOLOGY ,ATMOSPHERIC temperature - Abstract
On 13 September 1922, a temperature of 58°C (136.4°F) was purportedly recorded at El Azizia (approximately 40 km south-southwest of Tripoli) in what is now modern-day Libya. That temperature record of 58°C has been cited by numerous world-record sources as the highest recorded temperature for the planet. During 2010-11, a World Meteorological Organization (WMO) Commission of Climatology (CCI) special international panel of meteorological experts conducted an in-depth investigation of this record temperature for the WMO World Archive of Weather and Climate Extremes (http://wmo.asu.edu/). This committee identified five major concerns with the 1922 El Azizia temperature extreme record, specifically 1) potentially problematical instrumentation, 2) a probable new and inexperienced observer at the time of observation, 3) unrepresentative microclimate of the observation site, 4) poor correspondence of the extreme to other locations, and 5) poor comparison to subsequent temperature values recorded at the site. Based on these concerns, the WMO World Archive of Weather and Climate Extremes rejected this temperature extreme of 58°C as the highest temperature officially recorded on the planet. The WMO assessment is that the highest recorded surface temperature of 56.7°C (134°F) was measured on 10 July 1913 at Greenland Ranch (Death Valley), California. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
30. LOCAL CLIMATE ZONES FOR URBAN TEMPERATURE STUDIES.
- Author
-
STEWART, D. and ORKE, T. R.
- Subjects
URBAN temperature ,POPULATION ,CLIMATE change ,URBAN heat islands ,ATMOSPHERIC temperature - Abstract
The article explores urban temperature studies in 2011. Population growth and climate change are two factors significantly affecting the study of urban heat islands, which is a term defined as the atmospheric warmth of a city compared to its countryside. The Local Climate Zone (LCZ) Classification System was used by the authors in observing the heat island effect in all urban areas. They conclude that the system could be used in classification of urban and rural sites for temperature studies.
- Published
- 2012
- Full Text
- View/download PDF
31. LOCAL MINIMUM OF TROPICAL CYCLOGENESIS IN THE EASTERN CARIBBEAN.
- Author
-
Shieh, Owen H. and Colucci, Stephen J.
- Subjects
OCEAN-atmosphere interaction ,ATMOSPHERIC temperature ,CLIMATOLOGY ,HURRICANES ,WEATHER forecasting - Abstract
The study investigates the local climatological minimum of tropical cyclogenesis over the eastern Caribbean Sea. This area, colloquially known by forecasters as the "hurricane graveyard," is located within the deep tropical easterlies. Tropical disturbances emerging from the African continent usually pass through the Lesser Antilles and into the eastern Caribbean. Satellite imagery shows disturbances that frequently exhibit decreasing convection in an area bounded by the islands to the north and east, Venezuela to the south, and roughly 75°W longitude to the west. Quick Scatterometer (QuikSCAT)-derived surface winds during clear-sky conditions frequently show the presence of accelerating easterlies in the central Caribbean as part of the Caribbean low-level jet (CLLJ). Analysis of the National Centers for Environmental Prediction- National Center for Atmospheric Research (NCEP-NCAR) reanalysis project wind fields suggests the presence of an area of persistent low-level mass divergence over the eastern Caribbean. This implies a subsident regime that would weaken convection. Climatologically, this phenomenon reaches peak intensity in July, and then shifts toward the east and weakens during the latter half of the Atlantic hurricane season. This is reflected by the local minimum of tropical cyclogenesis points in the National Hurricane Center's best-track data in the early part of the season. The intensity of the low-level divergence in the eastern Caribbean is shown to be correlated with the Southern Oscillation index. The divergent low-level easterly flow can also enhance the vertical wind shear and help lower sea surface temperatures, further inhibiting tropical cyclogenesis. The local minimum of tropical cyclogenesis in this region has important implications to operational forecasting, because the vast majority of tropical cyclones in the Caribbean eventually affect surrounding landmasses. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
32. THE 1918/19 EL NIÑO.
- Author
-
Giese, Benjamin S., Compo, Gilbert P., Slowey, Niall C., Sardeshmukh, Prashant D., Carton, James A., Ray, Sulagna, and Whitaker, Jeffrey S.
- Subjects
EL Nino ,CLIMATE change ,OCEAN temperature ,ATMOSPHERIC temperature ,DATA modeling ,COMPUTER simulation - Abstract
El Niño is widely recognized as a source of global climate variability. However, because of limited ocean observations during the early part of the twentieth century, little is known about El Niño events prior to the 1950s. An ocean model, driven with surface boundary conditions from a recently completed atmospheric reanalysis of the first half of the twentieth century, is used to provide the first comprehensive description of the structure and evolution of the 1918/19 El Niño. In contrast with previous descriptions, the modeled El Niño is one of the strongest of the twentieth century, comparable in intensity to the prominent events of 1982/83 and 1997/98. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
33. IN THE DRIVER'S SEAT.
- Author
-
Rauber, Robert M., Stevens, Bjorn, Davison, Jennifer, Göke, Sabine, Mayol-Bracero, Olga L., Rogers, David, Zuidema, Paquita, Ochs III, Harry T., Knight, Charles, Jensen, Jorgen, Bereznicki, Sarah, Bordoni, Simona, Caro-Gautier, Humberto, Colón-Robles, Marilé, Deliz, Maylissa, Donaher, Shaunna, Ghate, Virendra, Grzeszczak, Ela, Henry, Colleen, and Hertel, Anne Marie
- Subjects
ACTIVITY programs in education ,EDUCATIONAL programs ,METEOROLOGY ,FLIGHT ,ATMOSPHERIC temperature ,SCIENCE education ,EARTH sciences ,RESEARCH ,SCIENTISTS - Abstract
The Rain in Cumulus over the Ocean (RICO) field campaign carried out a wide array of educational activities, including a major first in a field project—a complete mission, including research flights, planned and executed entirely by students. This article describes the educational opportunities provided to the 24 graduate and 9 undergraduate students who participated in RICO. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
34. Examination of Potential Biases in Air Temperature Caused by Poor Station Locations.
- Author
-
Peterson, Thomas C.
- Subjects
GLOBAL temperature changes ,CLIMATE change ,ATMOSPHERIC temperature ,GLOBAL warming ,METEOROLOGICAL stations ,GEOPHYSICAL observatories ,HOMOGENEITY ,UNIFORMITY - Abstract
Questions have been raised about whether poor siting practices that have existed in recent years at some in situ weather-observing stations are causing a bias in U.S. temperature change analysis. This potential bias was examined using homogeneity-adjusted maximum, minimum, and mean temperature data from five stations in eastern Colorado—two with good current siting and three with poor current siting. No siting-induced bias was found in the homogeneity-adjusted data. Furthermore, the results indicate that homogeneity-adjusted time series from the stations with poor current siting represent the temperature variability and change in the region as a whole quite well because they are very similar to the time series from stations with excellent siting. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
35. State of the Climate in 2005.
- Author
-
Shein, K. A.
- Subjects
WEATHER ,CLIMATOLOGY ,HURRICANES ,METEOROLOGY ,WATER temperature ,OCEAN temperature ,ATMOSPHERIC temperature ,ATMOSPHERIC carbon dioxide - Abstract
The State of the Climate 2005 report summarizes global and regional climate conditions and places them, where possible, into the context of historical records. Descriptions and analyses of notable climatic anomalies, both global and regional, also are presented. According to the Smith and Reynolds global land and ocean surface temperature dataset in use at the NOAA National Climatic Data Center (NCDC), the globally averaged annual mean surface temperature in 2005 was the warmest since the inception of consistent temperature observations in 1880. Unlike the previous record positive anomaly of 1998 (+0.50°C), the 2005 global anomaly of 0.53°C above the 1961–90 mean occurred in the absence of a strong El Niño signal. The record ranking of 2005 was corroborated by a dataset maintained at NASA, while United Kingdom archives placed 2005 second behind 1998. However, statistically, the 2005 global temperature anomaly could not be differentiated from either 1998 or any of the past four years. The majority of the top 10 warmest years on record have occurred in the past decade, and 2005 continues a marked upward trend in globally averaged temperature since the mid-1970s. Lower-tropospheric temperature was the second warmest on record, with northern polar regions the warmest at 1.3°C above the 1979–98 mean. Unlike air temperatures, globally averaged precipitation was near normal relative to the 1961–90 period mean value. The global 2005 anomaly was just -0.87 mm. Over the past 25 years, only 7 years have had above-normal precipitation. Additionally, in 2005, only September–November experienced a positive anomaly. Northern Hemisphere snow cover extent was 0.9 million km
2 below the 36-year average (fifth lowest) and Arctic sea ice extent was record lowest in all months of 2005 except May, resulting in a record lowest annual average Arctic sea ice extent for the year and continuing a roughly 8% yr-1 decline in ice extent. Carbon dioxide (CO2 ) concentrations rose to a global average of 378.9 parts per million (ppm); about 2 ppm over the value from 2004. This record CO2 concentration in 2005 continues a trend toward increased atmospheric CO2 since the preindustrial era values of around 280 ppm. The globally averaged methane (CH4 ) concentration in 2005 was 1774.8 parts per billion (ppb), or 2.8 ppb less than in 2004. Stratospheric ozone over Antarctica reached a minimum of 110 Dobson units (DU) on 29 September. This represented the 10th lowest minimum level in the 20 years of measurement of stratospheric ozone. In the global ocean, sea level was above the 1993–2001 base period mean and rose at a rate of 2.9 ±0.4 mm yr-1 . The largest positive anomalies were in the Tropics and Southern Hemisphere. Globally averaged sea surface temperature (SST) also was above normal in 2005 (relative to the 1971–2002 mean), reflecting the general warming trend in SST observed since 1971. In the Tropics, only a weak warm phase of El Niño materialized, but dissipated by March. A relatively active Madden–Julian oscillation (MJO) resulted in the disruption of normal convective patterns in the tropical Pacific and generated several Kelvin waves in the oceanic mixed layer. In the Atlantic Ocean basin, there was record tropical storm activity, with 27* named storms (15 hurricanes). Three became category 5 storms on the Saffir–Simpson scale, and Hurricane Wilma set a new record for the lowest pressure (882 hPa) recorded in the basin. Both Hurricanes Stan and Katrina had exceptional death tolls, and Katrina became the costliest storm on record. Below-normal tropical storm activity in several other basins resulted in near-normal conditions globally in 2005. Regionally, annual and monthly averaged temperatures were above normal across most of the world. Australia experienced its warmest year on record, as well is its hottest April. For both Russia and Mexico 2005 was the second warmest year on record. Intermittent and delayed monsoons in Africa and East Asia resulted in below-normal precipitation in many areas. Drought continued in much of the Greater Horn of Africa and developed in the central United States. Record severe drought occurred over both the Iberian Peninsula and western Amazonia in 2005. In the Amazon, river levels dropped by as much as 11 m between May and September. Conversely, heavy snows early in 2005 combined with a warm boreal spring to generate widespread flooding in areas of southwest Asia. Canada experienced its wettest year on record in 2005, with flooding in Alberta, Manitoba, and Ontario. In July, the South Asian monsoon delivered a record 944.2 mm of precipitation over 24 h to areas around Mumbai, India. [ABSTRACT FROM AUTHOR]- Published
- 2006
- Full Text
- View/download PDF
36. UNCERTAINTIES IN CLIMATE TRENDS: Lessons from Upper-Air Temperature Records.
- Author
-
Thorne, Peter W., Parker, David E., Christy, John R., and Mears, Carl A.
- Subjects
CLIMATE change ,ATMOSPHERIC temperature ,WEATHER forecasting ,TROPOSPHERE ,METEOROLOGICAL observations - Abstract
Historically, meteorological observations have been made for operational forecasting rather than long-term monitoring purposes, so that there have been numerous changes in instrumentation and procedures. Hence to create climate quality datasets requires the identification, estimation, and removal of many nonclimatic biases from the historical data. Construction of a number of new tropospheric temperature climate datasets has highlighted previously unrecognized uncertainty in multidecadal temperature trends aloft. The choice of dataset can even change the sign of upper-air trends relative to those reported at the surface. So structural uncertainty introduced unintentionally through dataset construction choices is important and needs to be understood and mitigated. A number of ways that this could be addressed for historical records are discussed, as is the question of How it needs to be reduced through future coordinated observing systems with long-term monitoring as a driver, enabling explicit calculation, and removal of nonclimatic biases. Although upper-air temperature records are used to illustrate the arguments, it is strongly believed that the findings are applicable to all long-term climate datasets and variables. A full characterization of observational uncertainty is as vitally important as recent intensive efforts to understand climate model uncertainties if the goal to rigorously reduce the uncertainty regarding both past and future climate changes is to be achieved. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
37. VERTICAL PROFILES OF TEMPERATURE TRENDS.
- Author
-
Thorne, Peter W., Karl, Thomas R., Coleman, Holly, Folland, Chris K., Murray, Bill, Parker, David E., Ramaswamy, V., Rossow, William, Scaife, Adam A., and Tett, Simon F. B.
- Subjects
ATMOSPHERIC temperature ,FORUMS ,CLIMATE change - Abstract
This article highlights the workshop on vertical profiles of temperature trends held in Great Britain on September 13-17, 2004. Technical talks by participants covered a broad range of topics from the latest advances in observational climate records and climate models through efforts to achieve a process-based understanding of the underlying physical mechanisms driving climate change. The workshop focused on the Tropics and tropical processes, as this is generally recognized to be the region of the greatest observational and model uncertainty. An invited talk on the Global Energy and Water Experiment emphasized the importance of considering temperature changes in the context of changes in the energy of the system. Four working groups focused on specific problems that make it a challenge to obtain accurate vertical profiles of temperature trends and to understand their physical causes.
- Published
- 2005
- Full Text
- View/download PDF
38. Satellite Instrument Calibration for Measuring Global Climate Change: Report of a Workshop.
- Author
-
Ohring, George, Wielicki, Bruce, Spencer, Roy, Emery, Bill, and Datla, Raju
- Subjects
CLIMATE change ,METEOROLOGICAL satellites ,SATELLITE meteorology ,CLIMATOLOGY ,ATMOSPHERIC temperature ,METEOROLOGICAL services ,GEOPHYSICAL prediction - Abstract
Measuring the small changes associated with long-term global climate change from space is a daunting task. The satellite instruments must be capable of observing atmospheric and surface temperature trends as small as 0.1°C decade
-1 , ozone changes as little as 1% decade-1 , and variations in the sun's output as tiny as 0.1% decade-1 . To address these problems and recommend directions for improvements in satellite instrument calibration, the National Institute of Standards and Technology (NIST), National Polar-orbiting Operational Environmental Satellite System–Integrated Program Office (NPOESS-IPO), National Oceanic and Atmospheric Administration (NOAA), and National Aeronautics and Space Administration (NASA) organized a workshop at the University of Maryland Inn and Conference Center, College Park, Maryland, 12–14 November 2002. Some 75 scientists participated including researchers who develop and analyze long-term datasets from satellites, experts in the field of satellite instrument calibration, and physicists working on state-of-the-art calibration sources and standards. The workshop defined the absolute accuracies and long-term stabilities of global climate datasets that are needed to detect expected trends, translated these dataset accuracies and stabilities to required satellite instrument accuracies and stabilities, and evaluated the ability of current observing systems to meet these requirements. The workshop's recommendations include a set of basic axioms or overarching principles that must guide high quality climate observations in general, and a road map for improving satellite instrument characterization, calibration, intercalibration, and associated activities to meet the challenge of measuring global climate change. The workshop also recommended that a follow-up workshop be conducted to discuss implementation of the road map developed at this workshop. [ABSTRACT FROM AUTHOR]- Published
- 2005
- Full Text
- View/download PDF
39. A Strategy for Process-Oriented Validation of Coupled Chemistry–Climate Models.
- Author
-
Eyring, V., Harris, N. R. P., Rex, M., Shepherd, T. G., Fahey, D. W., Amanatidis, G. T., Austin, J., Chipperfield, M. P., Dameris, M., Forster, P. M. De F., Gettelman, A., Graf, H. F., Nagashima, T., Newman, P. A., Pawson, S., Prather, M. J., Pyle, J. A., Salawitch, R. J., Santer, B. D., and Waugh, D. W.
- Subjects
ATMOSPHERIC chemistry ,CLIMATE change ,GLOBAL temperature changes ,ATMOSPHERIC temperature ,CLIMATOLOGY ,METEOROLOGY ,EARTH sciences - Abstract
Accurate and reliable predictions and an understanding of future changes in the stratosphere are major aspects of the subject of climate change. Simulating the interaction between chemistry and climate is of particular importance, because continued increases in greenhouse gases and a slow decrease in halogen loading are expected. These both influence the abundance of stratospheric ozone. In recent years a number of coupled chemistry–climate models (CCMs) with different levels of complexity have been developed. They produce a wide range of results concerning the timing and extent of ozone-layer recovery. Interest in reducing this range has created a need to address how the main dynamical, chemical, and physical processes that determine the long-term behavior of ozone are represented in the models and to validate these model processes through comparisons with observations and other models. A set of core validation processes structured around four major topics (transport, dynamics, radiation, and stratospheric chemistry and microphysics) has been developed. Each process is associated with one or more model diagnostics and with relevant datasets that can be used for validation. This approach provides a coherent framework for validating CCMs and can be used as a basis for future assessments. Similar efforts may benefit other modeling communities with a focus on earth science research as their models increase in complexity. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
40. IMPROVING SEASONAL PREDICTION PRACTICES THROUGH ATTRIBUTION OF CLIMATE VARIABILITY.
- Author
-
Barnston, Anthony G., Kumar, Arun, Goddard, Lisa, and Hoerling, Martin P.
- Subjects
ATMOSPHERIC research ,CLIMATOLOGY ,METEOROLOGY ,ATMOSPHERIC models ,ATMOSPHERIC temperature ,TEMPERATURE ,GLOBAL temperature changes - Abstract
The Seasonal Diagnostics Consortium of the Applied Research Centers is engaging in a real-time activity to detect and understand the role of sea surface temperature (SST) anomalies in observed climate anomalies. The activity is aimed to improve practices in seasonal climate forecasting by fully harvesting the accumulated research evidence of the climate's sensitivity to ocean forcing. The approach, in the first phase of the activity, involves performing ensembles of atmospheric general circulation models (AGCMs) at several institutions, using the most recently observed global SST anomalies as prescribed forcings. The runs are routinely updated each month as the latest SST observations become available, adding to the archive of historical simulations spanning the last half-century. The SST-forced signal in the seasonal mean climate is detected through the agreement among ensemble mean anomalies drawn from the simulations of the various AGCMs. The consortium activity also compares the dynamically forced signals with those estimated empirically, based on the observational archive. A comparison of the coordinated simulations with the observed climate anomalies is then made for two principal reasons: 1) to offer an attribution for the ocean's role in the origin of the observed seasonal climate anomalies, and 2) to determine the causes for success or failure of operational seasonal climate predictions, whose tools may be either mainly dynamically or empirically derived. It is expected that routine climate diagnostics and attribution efforts for climate anomalies will help further develop the knowledge base for improving the practice of seasonal climate predictions, and advance understanding of global climate on seasonal to decadal time scales. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
41. CONFERENCE NOTEBOOK.
- Author
-
Alexander, M. Joan, Teitelbaum, H., S. Eckermann, Gille, J., Barnett, J., and Barnett, C.
- Subjects
METEOROLOGICAL satellites ,GLOBAL temperature changes ,ATMOSPHERIC temperature ,MOUNTAIN wave ,WAVELENGTHS ,ENVIRONMENTAL engineering ,LANDFORMS ,INFRARED equipment ,ATMOSPHERIC turbulence - Abstract
The article discusses the availability of high-resolution satellite observations to measure atmospheric temperature and to quantify many properties of mountain waves. It states that atmospheric mountain waves drive changes in the global circulation when they break or dissipate. The Atmospheric Infrared Sounder (AIRS) instrument determines the horizontal wavelength and propagation direction of mountain waves over the southern Andes Mountains. Furthermore, the analysis of high resolution satellite observation gives new and stringent control on mountain wave parametization.
- Published
- 2008
42. Remote Sensing of Tropospheric Temperature and Water Vapor by Integrated Observing Systems
- Author
-
E. R. Westwater
- Subjects
Atmospheric Science ,Radiometer ,Meteorology ,Atmospheric temperature ,law.invention ,Troposphere ,law ,Remote sensing (archaeology) ,Radiosonde ,Calibration ,Environmental science ,Satellite ,Water vapor ,Remote sensing - Abstract
In the last decade, substantial advances have been made in the remote sensing of tropospheric temperature and water vapor. Techniques include measurement of virtual temperature by Radio Acoustic Sounding Systems (RASS), the combination of RASS with satellite soundings, the measurement of precipitable water vapor by Global Positioning Systems, the measurement of water vapor profiles by Raman and differential absorption lidar, and the measurement of both temperature and water vapor profiles by Fourier Transform Infrared Radiometers. However, none of the techniques, by itself, is capable of satisfying most meteorological and climate needs. Thus, determination of profiles from combinations of data and sensors is the only practical way of satisfying these needs. In this paper, some of the techniques used for combining remote sensor data are outlined, some of the current sensors are described, and then examples of data derived from these combinations are presented. The role of the radiosonde in remote sensor evaluation, retrievals, and calibration is discussed. Finally, some of the new possibilities for combined remote sensors are presented.
- Published
- 1997
43. INFLUENCE OF AIRCONDITIONING WASTE HEAT ON AIR TEMPERATURE IN TOKYO.
- Author
-
OHASHI, YUKITAKA, GENCHI, Y., KONDO, H., KIKEGAWA, Y., YOSHIKADO, H., and HIRANO, Y.
- Subjects
ATMOSPHERIC temperature ,AIR conditioning ,TEMPERATURE ,ENVIRONMENTAL engineering of buildings ,WIND speed - Abstract
The article reports on a study conducted to evaluate the influence of air conditioning waste heat on air temperature in Tokyo, Japan. The model consisted of a multilayer urban canopy model (CM) coupled with a building energy analysis model (BEM), and revealed that waste heat generated by air conditioners can alter urban summer temperatures during regular business hours. Additional information detailing other calculations, which took into account such factors as air temperature and atmospheric wind speed, are also presented.
- Published
- 2007
44. Weather and Climate Needs for Lidar Observations from Space and Concepts for Their Realization
- Author
-
David Atlas and C. Lawrence Korb
- Subjects
Atmospheric Science ,Boundary layer ,Lidar ,Atmospheric pressure ,Meteorology ,Atmospheric circulation ,Latent heat ,Environmental science ,Weather and climate ,Atmospheric temperature ,Temperature measurement ,Physics::Atmospheric and Oceanic Physics ,Remote sensing - Abstract
The spectrum of weather and climate needs for lidar observations from space is discussed. This paper focuses mainly on the requirements for winds, temperature, moisture, and pressure. Special emphasis is given to the needs for wind observations and it is shown that winds are required to depict realistically all atmospheric scales in the tropics and the smaller scales at higher latitudes, where both temperature and wind profiles are necessary. The need for means to estimate air-sea exchanges of sensible and latent heat also is noted. Lidar can aid here by measurement of the slope of the boundary layer. Recent theoretical feasibility studies concerning the profiling of temperature, pressure, and humidity by differential absorption lidar (DIAL) from space and expected accuracies are reviewed. Initial ground-based trials provide support for these approaches and also indicate their direct applicability to path-average temperature measurements near the surface. An alternative approach to Doppler lidar wind meas...
- Published
- 1981
45. Impact of Satellite Temperature Sounding Data on Weather Forecasts
- Author
-
George Ohring
- Subjects
Atmospheric Science ,Radiometer ,Meteorology ,Impact test ,Atmospheric temperature ,law.invention ,Depth sounding ,law ,Physics::Space Physics ,Radiosonde ,Environmental science ,Satellite ,Physics::Atmospheric and Oceanic Physics ,Remote sensing - Abstract
The concept of radiometric sounding of atmospheric temperature profiles from satellites was first demonstrated with data gathered by infrared spectrometers on the Nimbus-3 satellite in 1969. Operational satellite sounding over oceanic areas was introduced by the VTPR (Vertical Temperature Profile Radiometer) instrument on the NOAA 2 satellite in 1972. Early evaluations of these new observational data centered on their accuracy compared to data obtained from the conventional radiosonde system. More recent evaluations have focused on the impact of the satellite temperature soundings on numerical weather forecasts. In this paper, we review the results of such impact tests in several countries. On the average, the inclusion of satellite sounding data leads to a small improvement in the numerical forecasts.
- Published
- 1979
46. Satellite Techniques for Observing the Temperature Structure of the Atmosphere
- Author
-
William L. Smith
- Subjects
Atmosphere ,Atmospheric Science ,Depth sounding ,Physical Concepts ,Meteorology ,Thermal ,Environmental science ,Satellite ,Atmospheric temperature ,Remote sensing - Abstract
The importance of global atmospheric temperature soundings determined from satellite radiometric measurements has long been recognized by the scientific community. Several remote sounding techniques have been proposed for determining the thermal structure of the atmosphere. This paper reviews the physical concepts of various satellite sounding methods showing empirical results to demonstrate their viability.
- Published
- 1972
47. Evaluation of NMC Upper-Stratospheric Temperature Analyses Using Rocketsonde and Lidar Data
- Author
-
Finger, F. G., Gelman, M. E., Wild, J. D., Chanin, M. L., Hauchecorne, A., and Miller, A. J.
- Published
- 1993
48. satellite techniques for observing the temperature structure of the atmosphere
- Author
-
Smith, W. L.
- Published
- 1972
49. The Formation of Exhaust Condensation Trails by Jet Aircraft
- Author
-
Appleman, H.
- Published
- 1953
50. Results of Rocket and Meteor Research
- Author
-
Whipple, Fred L.
- Published
- 1952
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