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Dear all,
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<div>Please join us for a Meteorology seminar this afternoon at 3:00 PM! The seminar will be given by Dr. Olivia Clifton (NASA GISS) and will be held over Zoom. </div>
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<div><b>Speaker</b>: Dr. Olivia Clifton (NASA GISS)</div>
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<div><b>Time</b>: Thursday October 21 @3:00 PM</div>
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<div><b>Zoom Link</b>: <a href="https://fsu.zoom.us/j/92140857520?pwd=WUVzeTMvUGRuTGxEdjRBZERaZ1ZMQT09" id="LPNoLPOWALinkPreview">
https://fsu.zoom.us/j/92140857520?pwd=WUVzeTMvUGRuTGxEdjRBZERaZ1ZMQT09</a></div>
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<div><b>Title</b>: Turbulence-vegetation-chemistry interactions: influences on dry deposition and oxidation</div>
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<div><b>Abstract</b>: Exchanges of reactive gases between the biosphere and atmosphere influence tropospheric chemistry, climate, and ecosystems. Most work focuses on the emissions of reactive gases from the biosphere, but dry deposition happens when gases
are removed from the atmosphere by the biosphere, and ambient chemistry inside vegetation canopies can alter exchanges. Organization in turbulence in the atmospheric boundary layer can spatially separate (“segregates”) air masses, which may cause chemistry
to speed up or slow down relative to the assumption of well-mixed conditions (ubiquitous in analyses of observations and models). Segregation can also influence dry deposition rates when there are correlated fluctuations in the strength of the leaf uptake
and the leaf-level concentrations of the depositing gas. In my talk, I will show results from a novel tool, large eddy simulation coupled to a multilayer canopy model and a simplified chemical mechanism. First, I will show that correlations between ozone (an
air pollutant and potent greenhouse gas with an important depositional sink) and leaf uptake are relatively small, suggesting that estimates of ozone removal can ignore this effect. Low segregation is in part due to counteracting influences from micrometeorological
variations on ozone and leaf uptake individually versus the influence of leaf uptake on ozone. Second, I will show the impact of segregation on the reactivity of the hydroxyl radical (the most important tropospheric oxidant) inside a forest canopy and discuss
how segregation and its impact changes with environmental conditions.</div>
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<div>We hope to see you all there!</div>
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<div>Cheers,</div>
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<div>Zhaohua</div>
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<div>Topic: MET Seminar</div>
<div>Time: Oct 21, 2021 03:00 PM Eastern Time (US and Canada)</div>
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<div>Join Zoom Meeting</div>
<div>https://fsu.zoom.us/j/92140857520?pwd=WUVzeTMvUGRuTGxEdjRBZERaZ1ZMQT09</div>
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<div>Meeting ID: 921 4085 7520</div>
<div>Passcode: 985061</div>
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Eoas-seminar<br>
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