Exploring the impact of airtanker drops on in-stand temperature and relative humidity

Background There has been little quantification of the extent and duration of micrometeorological changes within a forest after airtanker drops of water-based suppressant. It has been speculated that a period of prolonged relative humidity – referred to as a ‘relative humidity (RH) bubble’ – tempora...

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Veröffentlicht in:	International journal of wildland fire 2023-06, Vol.32 (8), p.1269-1276
Hauptverfasser:	Wheatley, Melanie, Cotton-Gagnon, Anne, Boucher, Jonathan, Wotton, B. Mike, McFayden, Colin B., Jurko, Natasha, Robinson, Jason
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container_title	International journal of wildland fire
container_volume	32
creator	Wheatley, Melanie Cotton-Gagnon, Anne Boucher, Jonathan Wotton, B. Mike McFayden, Colin B. Jurko, Natasha Robinson, Jason
description	Background There has been little quantification of the extent and duration of micrometeorological changes within a forest after airtanker drops of water-based suppressant. It has been speculated that a period of prolonged relative humidity – referred to as a ‘relative humidity (RH) bubble’ – temporarily exists in the canopy understorey post-drop. Aims We quantify the RH bubble from the drops of five airtankers commonly used by wildland fire management organisations in Canada. Methods We measured airtankers dropping water, foam concentrates, and gel enhancers in a mature jack pine stand. We examined the duration of change in RH and temperature using Generalised Additive Models, and the consequence of these changes on fine fuel moisture. Key results The average maximum RH increased and temperature decreased, indicating that the effects of the ‘RH bubble’ in-stand lasted from 25 to 76 min, depending upon the airtanker type and load configuration. Conclusion Airtanker drops cause an in-stand increase in RH and decrease in temperature, but this ambient change has a limited effect on potential fire behaviour. Implications The direct effect of water wetting the fuel is the most impactful effect of an airtanker drop. The ‘RH bubble’ created, though observable, does not change fine fuel moisture enough to impact fire behaviour.
doi_str_mv	10.1071/WF22218
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Mike ; McFayden, Colin B. ; Jurko, Natasha ; Robinson, Jason</creator><creatorcontrib>Wheatley, Melanie ; Cotton-Gagnon, Anne ; Boucher, Jonathan ; Wotton, B. Mike ; McFayden, Colin B. ; Jurko, Natasha ; Robinson, Jason</creatorcontrib><description>Background There has been little quantification of the extent and duration of micrometeorological changes within a forest after airtanker drops of water-based suppressant. It has been speculated that a period of prolonged relative humidity – referred to as a ‘relative humidity (RH) bubble’ – temporarily exists in the canopy understorey post-drop. Aims We quantify the RH bubble from the drops of five airtankers commonly used by wildland fire management organisations in Canada. Methods We measured airtankers dropping water, foam concentrates, and gel enhancers in a mature jack pine stand. We examined the duration of change in RH and temperature using Generalised Additive Models, and the consequence of these changes on fine fuel moisture. Key results The average maximum RH increased and temperature decreased, indicating that the effects of the ‘RH bubble’ in-stand lasted from 25 to 76 min, depending upon the airtanker type and load configuration. Conclusion Airtanker drops cause an in-stand increase in RH and decrease in temperature, but this ambient change has a limited effect on potential fire behaviour. Implications The direct effect of water wetting the fuel is the most impactful effect of an airtanker drop. 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We examined the duration of change in RH and temperature using Generalised Additive Models, and the consequence of these changes on fine fuel moisture. Key results The average maximum RH increased and temperature decreased, indicating that the effects of the ‘RH bubble’ in-stand lasted from 25 to 76 min, depending upon the airtanker type and load configuration. Conclusion Airtanker drops cause an in-stand increase in RH and decrease in temperature, but this ambient change has a limited effect on potential fire behaviour. Implications The direct effect of water wetting the fuel is the most impactful effect of an airtanker drop. 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Mike</creatorcontrib><creatorcontrib>McFayden, Colin B.</creatorcontrib><creatorcontrib>Jurko, Natasha</creatorcontrib><creatorcontrib>Robinson, Jason</creatorcontrib><collection>CrossRef</collection><jtitle>International journal of wildland fire</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Wheatley, Melanie</au><au>Cotton-Gagnon, Anne</au><au>Boucher, Jonathan</au><au>Wotton, B. 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Methods We measured airtankers dropping water, foam concentrates, and gel enhancers in a mature jack pine stand. We examined the duration of change in RH and temperature using Generalised Additive Models, and the consequence of these changes on fine fuel moisture. Key results The average maximum RH increased and temperature decreased, indicating that the effects of the ‘RH bubble’ in-stand lasted from 25 to 76 min, depending upon the airtanker type and load configuration. Conclusion Airtanker drops cause an in-stand increase in RH and decrease in temperature, but this ambient change has a limited effect on potential fire behaviour. Implications The direct effect of water wetting the fuel is the most impactful effect of an airtanker drop. The ‘RH bubble’ created, though observable, does not change fine fuel moisture enough to impact fire behaviour.</abstract><doi>10.1071/WF22218</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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title	Exploring the impact of airtanker drops on in-stand temperature and relative humidity
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