Your search keyword '"Mace L. Bentley"' showing total 15 results

1. A spatiotemporal analysis of lightning in the Bangkok Metropolitan Region

Author

Jinda Sae-Jung, Sara Kaminski, Mace L. Bentley, and Charlotte C. Terry

Subjects

Geography, Meteorology, Spatiotemporal Analysis, Geography, Planning and Development, Metropolitan area, Lightning

Published

2021

2. Urban-induced thunderstorm modification in the Southeast United States

Author

J. Anthony Stallins, Walker S. Ashley, and Mace L. Bentley

Subjects

Feed back, Convection, Atmospheric Science, Global and Planetary Change, Meteorology, Land cover, Radar reflectivity, Lightning, law.invention, law, Climatology, Urbanization, Thunderstorm, Environmental science, Radar

Abstract

This study provides the first climatological synthesis of how urbanization augments warm-season convection among a range of cities in the southeastern U.S. By comparing the location of convection in these cities and adjacent control regions via high-resolution, radar reflectivity and lightning data, we illustrate that demographic and land-use changes feed back to local atmospheric processes that promote thunderstorm formation and persistence. Composite radar data for a 10-year, June–August period are stratified according to specific “medium” and “high” reflectivity thresholds. As surrogates for potentially strong (medium reflectivity) and severe (high reflectivity) thunderstorms, these radar climatologies can be used to determine if cities are inducing more intense events. Results demonstrate positive urban amplification of thunderstorm frequency and intensity for major cities. Mid-sized cities investigated had more subtle urban effects, suggesting that the urban influences on thunderstorm development and strength are muted by land cover and climatological controls. By examining cities of various sizes, as well as rural counterparts, the investigation determined that the degree of urban thunderstorm augmentation corresponds to the geometry of the urban footprint. The research provides a methodological template for continued monitoring of anthropogenically forced and/or modified thunderstorms.

Published

2011

3. Synoptic environments favourable for urban convection in Atlanta, Georgia

Author

Mace L. Bentley, Walker S. Ashley, and J. Anthony Stallins

Subjects

Convection, Atmospheric Science, Atlanta, biology, Meteorology, Climatology, Thunderstorm, Environmental science, biology.organism_classification, Lightning, Reflectivity

Abstract

An examination of synoptic environments conducive to urban thunderstorm development surrounding Atlanta, Georgia, was conducted. Synoptic environmental characteristics were evaluated utilising regional analyses of heights, winds, temperature, and moisture characteristics as well as several thermodynamic variables. A flexible beta cluster analysis was used in order to identify disparate groupings of common synoptic and thermodynamic environments. These groupings were then further analysed through the production of synoptic composites, radar, and lightning distributions. Although the analysis stratified the data by days with weak synoptic flow and maritime tropical airmass characteristics, enough variation existed within the synoptic and thermodynamically grouped parameters to identify four distinct environments present during urban thunderstorms. Environments exhibiting moderate thermodynamic instability were found to produce the highest flash rates and most frequent composite reflectivity days. Copyright © 2011 Royal Meteorological Society

Published

2011

4. The Atlanta Thunderstorm Effect

Author

Mace L. Bentley, Tony Stallins, and Walker S. Ashley

Subjects

Atlanta, biology, Meteorology, Thunderstorm, Environmental science, Tornado, biology.organism_classification, Lightning

Abstract

“lightning accounts for more deaths than hurricanes and tornadoes combined” Although nearly everyone is fascinated by lightning, some of us are terrified, while others are drawn to its elusive beau...

Published

2010

5. Climatological radar delineation of urban convection for Atlanta, Georgia

Author

Walker S. Ashley, Mace L. Bentley, and J. Anthony Stallins

Subjects

Convection, Atmospheric Science, Meteorology, biology, Downtown, National weather service, Warm season, biology.organism_classification, Urban expansion, law.invention, Atlanta, law, Climatology, Thunderstorm, Environmental science, Radar

Abstract

The distribution of warm season (June through August) thunderstorm activity surrounding Atlanta, Georgia from 1997 to 2006 was determined utilizing composite reflectivity data obtained from the network of National Weather Service radars. The radar data, at 2 km and 5 min spatial and temporal resolutions, allows for high resolution analyses of urban convective trends when grid averaged over a 10-year period. Maxima of medium- to high-reflectivity episodes were identified to the north of and within downtown Atlanta and immediately east of the primary urban expansion of the central business district (CBD). Additional enhanced, high-reflectivity areas are found in southern Fulton and Clayton counties, located south of downtown Atlanta. These regions are also collocated with high-density urban expansion south of the Atlanta CBD. The research presented is the most comprehensive spatial and temporal analysis of grid averaged composite reflectivity data for urban convection conducted to date. Copyright © 2009 Royal Meteorological Society

Published

2009

6. Concurrent Cloud-to-Ground Lightning and Precipitation Enhancement in the Atlanta, Georgia (United States), Urban Region

Author

Mace L. Bentley, L. S. Rose, and J. A. Stallins

Subjects

Lightning detection, biology, Meteorology, Wind direction, biology.organism_classification, Lightning, Wind speed, law.invention, Atlanta, law, Climatology, Thunderstorm, Weather modification, General Earth and Planetary Sciences, Environmental science, Precipitation

Abstract

This study explores how the Atlanta, Georgia (United States), urban region influences warm-season (May through September) cloud-to-ground lightning flashes and precipitation. Eight years (1995–2003) of flashes from the National Lightning Detection Network and mean accumulated precipitation from the North American Regional Reanalysis model were mapped under seven different wind speed and direction combinations derived from cluster analysis. Overlays of these data affirmed a consistent coupling of lightning and precipitation enhancement around Atlanta. Maxima in precipitation and lightning shifted in response to changes in wind direction. Differences in the patterns of flash metrics (flash counts versus thunderstorm counts), the absence of any strong urban signal in the flashes of individual thunderstorms, and the scales over which flashes and precipitation enhancement developed are discussed in light of their support for land-cover- and aerosol-based mechanisms of urban weather modification. This study verifies Atlanta’s propensity to conjointly enhance cloud-to-ground lightning and precipitation production in the absence of strong synoptic forcing. However, because of variability in aerosol characteristics and the dynamics of land use change, it may be a simplification to assume that this observed enhancement will be persistent across all scales of analysis.

Published

2008

7. Urban lightning climatology and GIS: An analytical framework from the case study of Atlanta, Georgia

Author

J. Anthony Stallins and Mace L. Bentley

Subjects

Hardware_MEMORYSTRUCTURES, biology, Land use, Meteorology, Geography, Planning and Development, Forestry, Urban land, biology.organism_classification, Lightning, Flash (photography), Atlanta, Geography, Tourism, Leisure and Hospitality Management, Climatology, Thunderstorm, Urban heat island, Air mass, General Environmental Science

Abstract

There are three underdeveloped components of urban cloud-to-ground lightning studies: (1) the integration of multiple flash descriptors into more informative summary metrics of flash production, (2) the comparison of flash patterns by thunderstorm type, and (3) the correspondence of urban flashes with underlying land use. We used a GIS to integrate these components as part of an analysis of warm season (May–September) flashes for Atlanta, Georgia, a sprawling region in the thunderstorm-prone southeastern US. Our integrated metric of flash counts and flash days demarcated two large contiguous areas of high flash production in northeast Atlanta. Flashes which developed under conditions related to local surface heating and air mass instability more closely corresponded to urban land uses. Frontally-produced lightning was infrequent over the central city. Instead, peaks in production shifted to the periphery of the urban core, an observation suggestive of building barrier effects.

Published

2006

8. Lightning at 'The Master's': An Evaluation of April Thunderstorms in and Near the Augusta National Golf Club

Author

J. Anthony Stallins, Mace L. Bentley, and Lauren M. Lee

Subjects

Atmospheric Science, Geography, Meteorology, Earth and Planetary Sciences (miscellaneous), Thunderstorm, General Earth and Planetary Sciences, Master s, Golf club, Lightning, General Environmental Science

Abstract

April lightning production in Richmond County, Georgia, from 1995 to 2003 is considered with regard to the associated risk to golfers and spectators at the Master's Golf Tournament and courses throughout the county. An examination of the April lightning climatology of Georgia, focusing on Richmond County, reveals a minimum in lightning activity during the time of the tournament (the first full week of April). A discriminant analysis of Richmond County lightning production utilizes several meteorological variables in order to discern between three categories of April lightning days: little or no lightning activity, minimal lightning activity, and high lightning activity. The analysis distinguishes relatively well between the categories with only 13.5% of the events misclassified. A composite regional analysis of the three lightning categories illustrates the environmental differences between these events. Although the little or no lightning and high lightning categories are somewhat similar environmentally...

Published

2006

9. Midwestern High Dew Point Events 1960-2000

Author

David Changnon, Mike Sandstrom, and Mace L. Bentley

Subjects

Atmospheric Science, Dew point, Meteorology, Diurnal cycle, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Environmental science, Atmospheric sciences, General Environmental Science, Event (probability theory)

Abstract

Daily average dew points (DADPs) computed for 46 Midwestern first-order stations (FOS) were examined from 1960 to 2000 to identify and characterize extreme warm-season high dew point events. To be classified as an extreme event, more than 50% of the FOS had to experience a DADP of 22°C (72°F) or higher for two or more consecutive days within the event. Nine events were found to have occurred during the 41-year period. The length of the events varied from 5 to 13 days, while the number of stations involved in each event ranged from 24 to 40. Two summers, 1995 and 1999, each experienced two events. Event intensity, based on the percentage of all station hours during each event with dew points ≥ 22°C, was greatest in the events that occurred in the 1990s. An examination of the event diurnal cycle identified that: (1) the minimum number of stations experiencing an hourly dew point value ≥ 22°C occurred at 0300 and 0600 local time, while the maximum number of stations meeting this dew point threshold generally...

Published

2006

10. Climatology of cloud-to-ground lightning in Georgia, USA, 1992-2003

Author

Mace L. Bentley and J. A. Stallins

Subjects

Atmospheric Science, Convective instability, Meteorology, Climatology, Environmental science, Atmospheric electricity, Forcing (mathematics), Land cover, Cloud to ground, Lightning

Abstract

A 12-year climatology of lightning cloud-to-ground flash activity for Georgia revealed the existence of three primary regions of high lightning activity: the area surrounding the Atlanta Metropolitan Statistical Area, east-central Georgia along the fall line, and along the Atlantic coast. Over 8.2 million ground flashes were identified during the climatology. July was the most active lightning month and December was the least active. Annual, seasonal, and diurnal distributions of cloud-to-ground flashes were also examined. These patterns illustrated the interacting effects of land cover, topography, and convective instability in enhancing lightning activity throughout Georgia. A synoptic analysis of the ten highest lightning days during the summer and winter revealed the importance of frontal boundaries in organizing convection and high lightning activity during both seasons. The prominence of convective instability during the summer and strong dynamical forcing in the winter was also found to lead to outbreaks of high lightning activity. Copyright  2005 Royal Meteorological Society.

Published

2005

11. A Multiscale Observational Case Study of the Development of an Isolated High Plains Tornadic Supercell

Author

Michael S. Buban, Mace L. Bentley, and Stonie R. Cooper

Subjects

Atmospheric Science, Satellite observation, Meteorology, Climatology, Thunderstorm, Mesoscale meteorology, Environmental science, Local environment, Supercell, Tornadogenesis, Tornado

Abstract

On 21 May 1995, a strong tornado developed with an isolated supercell in southwestern Nebraska. Largescale conditions were not supportive of a tornadic thunderstorm outbreak; however, evidence suggests significant mesoscale enhancements produced a local environment favorable for strong tornado formation. This case study illustrates the importance of ‘‘situation awareness’’ and illustrates how mesoscale enhancements must be anticipated by forecasters in order to properly assess rapidly changing atmospheric conditions.

Published

2002

12. Using Landsat to Identify Thunderstorm Damage in Agricultural Regions

Author

Thomas L. Mote, Paporn Thebpanya, and Mace L. Bentley

Subjects

Atmospheric Science, Satellite observation, Meteorology, Agriculture, business.industry, Climatology, Thunderstorm, Environmental science, Vegetation, business, Normalized Difference Vegetation Index

Abstract

During 12 and 18 August 1999, severe thunderstorms produced damaging winds and hail that caused an estimated $50 million in damage to agriculture in west-central Illinois. Landsat-7 imagery was obtained to determine the arealextent of damage and produce a crop damage dollar estimate. The normalized difference vegetation index (NDVI) was calculated for images taken “before” and “after” the severe thunderstorm events in order to examine the changes in NDVI, or vegetation vigor. A differenced image was also produced by subtracting the NDVI of the two images. Landsat-7 data was found to be useful for identifying the areal extent of severe thunderstorm damage in west-central Illinois. In comparing the detection of damage produced by high winds and hail, it was found that hail damage was considerably easier to identify. This is due to the fact that large hail typically destroys the crops while high winds blow over corn plants that can remain rooted and survive. Additionally, county estimates of dollar ...

Published

2002

13. A synoptic climatology of derecho producing mesoscale convective systems in the North-Central Plains

Author

Mace L. Bentley, Stephen F. Byrd, and Thomas L. Mote

Subjects

Convection, Atmospheric Science, Derecho, Meteorology, Convective instability, Synoptic scale meteorology, Climatology, Ridge (meteorology), Thunderstorm, Mesoscale meteorology, Storm, Geology

Abstract

Synoptic-scale environments favourable for producing derechos, or widespread convectively induced windstorms, in the North-Central Plains are examined with the goal of providing pattern-recognition/diagnosis techniques. Fifteen derechos were identified across the North-Central Plains region during 1986–1995. The synoptic environment at the initiation, mid-point and decay of each derecho was then evaluated using surface, upper-air and National Center for Atmospheric Research (NCAR)/National Center for Environmental Prediction (NCEP) reanalysis datasets. Results suggest that the synoptic environment is critical in maintaining derecho producing mesoscale convective systems (DMCSs). The synoptic environment in place downstream of the MCS initiation region determines the movement and potential strength of the system. Circulation around surface low pressure increased the instability gradient and maximized leading edge convergence in the initiation region of nearly all events regardless of DMCS location or movement. Other commonalities in the environments of these events include the presence of a weak thermal boundary, high convective instability and a layer of dry low-to-mid-tropospheric air. Of the two corridors sampled, northeastward moving derechos tend to initiate east of synoptic-scale troughs, while southeastward moving derechos form on the northeast periphery of a synoptic-scale ridge. Other differences between these two DMCS events are also discussed. Copyright © 2000 Royal Meteorological Society

Published

2000

14. A SYNOPTIC CLIMATOLOGY OF COOL-SEASON DERECHO EVENTS

Author

Thomas L. Mote and Mace L. Bentley

Subjects

Atmospheric Science, Derecho, Meteorology, Climatology, Earth and Planetary Sciences (miscellaneous), Mesoscale meteorology, General Earth and Planetary Sciences, Environmental science, Cool season, Forcing (mathematics), Tornado, General Environmental Science, Synoptic climatology

Abstract

Synoptic-scale environments favorable for producing derechos in the cool season (September through February) are examined with the goal of providing useful techniques for identifying commonalities within derecho activity corridors. Fourteen derechos were identified from two activity corridors located in the southeastern United States and Atlantic seaboard regions between 1986 and 1995. The synoptic environment at the initiation and midpoint of each derecho was then evaluated using surface, upper-air, and the NCAR/NCEP reanalysis data sets. Models are provided in order to illustrate the synoptic-scale environment and to assist meteorologists in recognizing conditions favorable for cool-season derecho formation. Marginal instability and strong synoptic-scale forcing characterized the environments of events in both corridors. The overall synoptic patterns associated with cool-season derecho-producing mesoscale convective systems (DMCSs) resembled environments found with cool-season tornado episodes. Recognit...

Published

2000

15. The 8 and 9 July 1993 Nebraska Derecho: An Observational Study and Comparison to the Climatology of Related Mesoscale Convective Systems

Author

Mace L. Bentley and Stonie R. Cooper

Subjects

Atmospheric Science, Mesoscale convective system, Derecho, Meteorology, Climatology, Synoptic scale meteorology, Thunderstorm, Mesoscale meteorology, Storm, Observational study, Warm season, Geology

Abstract

This study addresses a particularly damaging derecho that occurred on 8 and 9 July 1993. This progressive, warm season derecho organized in northeastern Colorado and swept through Nebraska and Kansas before dissipating in western Iowa. Records indicate this was one of the costliest single storms in Nebraska’s history. A detailed analysis was conducted to determine which synoptic and mesoscale processes initiated, sustained, and dissipated the derecho. Research has provided insights into derecho environments and structure; however, observational studies using comprehensive datasets are necessary for comparative examinations. This study presents several unique characteristics of the derecho-producing mesoscale convective system, including multiscale interactions and observational data with strong temporal relevance to the event. It is both the climatological and unique characteristics that are examined in this investigation.

Published

1997