Ryan P. Shadbolt scite author profile

Abstract. The Haines Index is an operational tool for evaluating the potential contribution of dry, unstable air to the development of large or erratic plume-dom:inated wildfires. The index has three variants related to surface elevation, and is calculated from temperature and hmnidity measurements at atmospheric pressure levels. To effectively use the Haines Index, fire forecasters and managers must be aware ofthe climatological and statistical characteristics ofthe index for their location. However, a detailed, long-term, and spatially extensive analysis of the index does not currently exist. To meet this need, a 40-year (1961-2000) climatology of the Haines Index was developed for NOlihAmerica. The climatology is based on gridded (2.5" latitude x 2.5 0 longitude) temperature and humidity fields from the NCEP/NCAR reanalysis. The climatology illustrates the large spatial variability in the Haines Index both within and between regions using the different index vmiants. These spatial variations point to the limitations of the index and must be taken into account when using the Haines Index operationally.

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Computing the Low-Elevation Variant of the Haines Index for Fire Weather Forecasts

Potter

Winkler

Wilhelm

et al. 2008

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The Haines index is used in wildfire forecasting and monitoring to evaluate the potential contributions of atmospheric stability and humidity to the behavior of plume-dominated wildfires. The index has three variants ("low," "mid," and "high") that accommodate differences in surface elevation. As originally formulated, the low variant is calculated from temperature observations at the 950-and 850-hPa levels and humidity observations at 850 hPa. In the early 1990s the National Weather Service implemented a new mandatory level for radiosonde observations at 925 hPa. Following this change, measurements at 950 hPa became less frequent. An informal survey of several forecast offices found no formalized adjustment to the calculation of the low Haines index to take into account the nonavailability of 950-hPa measurements. Some sources continue to use 950-hPa temperature, usually interpolated from 925-hPa and surface temperatures, to calculate the low Haines index. Others directly substitute the 925-hPa temperature for the originally specified 950-hPa value. This study employs soundings from the central United States when both 950-and 925-hPa levels were available to investigate the impact of different calculation approaches on the resulting values of the low variant of the Haines index. Results show that direct substitution of 925-hPa temperature for the 950-hPa temperature can dramatically underestimate the potential wildfire severity compared with the original formulation of the Haines index. On the other hand, a low-elevation variant of the Haines index calculated from the interpolated 950-hPa temperature is usually in close agreement with the original formulation of the index.

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Source regions of lower‐tropospheric airflow trajectories for the lower peninsula of Michigan: A 40‐year air mass climatology

Shadbolt¹,

Waller²,

Messina³

et al. 2006

J. Geophys. Res.

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[1] Airflow trajectories were used to create a long-term (40-year) air mass climatology for the lower peninsula of Michigan. The climatology provides a necessary baseline for evaluating the impact of changes in airflow on historical and potential future variations in temperature and precipitation. Five-day back trajectories were calculated four times per day at the 925 hPa level using wind data from the NCEP/NCAR reanalysis fields. A Geographic Information System (GIS) was used to manage and display the large (58,440) volume of trajectories. The analysis revealed spatially coherent airflow pathways, and six resulting air mass source regions were defined. Also evident were large monthly variations in the frequency of trajectories from the major source regions. A residence time analysis performed within a GIS proved to be an efficient and effective means for summarizing the trajectories. Finally, a comparison of the results presented here to those of previous climatological analyses suggests that the choice of methodology has considerable influence on identification of the primary source regions for a location.

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Associating Michigan climate with low-level airflow trajectories and atmospheric teleconnections

Shadbolt¹

2012

Clim. Res.

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The climate of Michigan is influenced by airflow circulation associated with atmospheric teleconnections. Previous studies have investigated mid-level airflow and atmospheric teleconnections, while low-level airflow has had less attention. Analyses of low-level airflow trajectories and atmospheric teleconnection associations are presented for a location in Lower Michigan. Airflow trajectories, which provide an important approach to monitoring changes in atmospheric circulation, are used to represent the low-level circulation during 1950−2011. A 5-day back-trajectory climatology for the 925 hPa pressure level was developed using the National Centers for Environmental Prediction (NCEP) and the National Center for Atmospheric Research (NCAR) reanalysis data archive. Low-level and mid-level circulation associated with the North Atlantic Oscillation (NAO), the Pacific/North American pattern (PNA), and El Niño/La Niña (NINO3.4) highlighted advection of heat and moisture during particular times of the year and the presence of single or simultaneous strong atmospheric teleconnections. The results indicate that airflow associated with teleconnections often differs seasonally. Additionally, trajectory patterns vary, based on whether a single strong teleconnection is present or if 2 strong teleconnections are coexisting. Using low-level airflow anomalies assists in bridging the gap between local-scale climate anomalies, such as temperature and precipitation, and atmospheric teleconnections. While a climatological study is presented here, the knowledge obtained could be applied in modeling and contribute to improved medium-and long-range forecasts.

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Ryan P. Shadbolt

A Long-Term Climatology of Southerly and Northerly Low-Level Jets for the Central United States

Climatological and statistical characteristics of the Haines Index for North America

Computing the Low-Elevation Variant of the Haines Index for Fire Weather Forecasts

Source regions of lower‐tropospheric airflow trajectories for the lower peninsula of Michigan: A 40‐year air mass climatology

Associating Michigan climate with low-level airflow trajectories and atmospheric teleconnections

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