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  5. Examining Soil and Drought Dynamics to Improve Fire Forecasting in the Southern Great Plains
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  7. Examining Soil and Drought Dynamics to Improve Fire Forecasting in the Southern Great Plains 2002-2011

Examining Soil and Drought Dynamics to Improve Fire Forecasting in the Southern Great Plains 2002-2011

Dates

Publication Date
Start Date
2000
End Date
2014

Citation

Zak, J., Scott-Fleming, I., and Gestel, N.V., 2019, Examining Soil and Drought Dynamics to Improve Fire Forecasting in the southern Great Plains 2002-2011.

Summary

Precipitation amounts, and frequencies are major regulators of soil heat-load profiles as the interval between rainfall events allows for increased heat storage during cloudless days. The extreme drought of 2011 and the subsequent Flash Drought that occurred in summer, 2012, developed in part due to soil temperature dynamics across the landscape of the Southern High Plains. For both agroecosystems and natural landscapes within the South-Central Region, soil temperature has a major role in determining the success of annual cropping systems, the ability of perennial plants to either establish or maintain themselves and the ability of the soil bacteria and fungi to carry out important decomposition and nutrient cycling, which are crucial [...]

Contacts

Point of Contact :
John Zak, University and Broadway MS
Originator :
John Zak, Ian Scott-Fleming, Natasja van Gestel
Metadata Contact :
John Zak
Distributor :
GS ScienceBase, U.S. Geological Survey

Attached Files

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Soil, temperatue and moisture 2002-2011.zip 821.87 MB application/zip
Examining Soil and Drought Dynamics to Improve Fire Forecasting in the southern Great Plains 2002-2011.xml
Original FGDC Metadata
View 		41.25 KB application/fgdc+xml

Purpose

There have been numerous fire episodes during the past decade, yet ground-surface conditions that promote fire development are not well known. Fire-facilitating weather conditions result from much more than simple lack of precipitation or specific wind speeds. Instead they are emergent properties governed by how soils store and release heat and dry out litter as a consequence of precipitation patterns, soil type, and land-use. Soil moisture, an important modulator of soil thermal regime, is expected to change as regional climate models predict rainfall patterns to increase in magnitude, but with longer intervals between rain events. The time is now to fine-tune the fire weather forecast predictions using soil temperature, soil moisture and weather conditions for a variety of managed and unmanaged systems in West Texas and Oklahoma. We plan to use long-term data (> 8 years) to provide us with a more solid understanding of drought development conditions (hence, fire weather risk, or additionally, for drought risk) under different scenarios of precipitation size and soil temperature. Knowing when and what areas are and will be prone to develop favorable fire weather conditions during the year will help managers in their decision-making process regarding conservation, fire prevention, or crop production.

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Communities

  • National and Regional Climate Adaptation Science Centers
  • South Central CASC

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