Habit–Dependent Vapor Growth Modulates Arctic Supercooled Water Occurrence

Habit–Dependent Vapor Growth Modulates Arctic Supercooled Water Occurrence

We present an analysis of long-term data collected at Utqiagvik, Alaska, to explore the impacts of cloud processes on the probability of finding supercooled water given cloud temperature, P(L|T), in the topmost unseeded liquid-bearing layers. P(L|T) has local minima at temperatures around –6°C and –...

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Bibliographic Details
Published in:Geophysical research letters Vol. 48; no. 10
Main Authors: Silber, Israel, McGlynn, Paul S., Harrington, Jerry Y., Verlinde, Johannes
Format: Journal Article
Language:English
Published: United States American Geophysical Union 11-05-2021
Subjects:
Arctic
ENVIRONMENTAL SCIENCES
ice habit
liquid water occurrence
mixed phase clouds
primary ice
supercooled clouds
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Summary:We present an analysis of long-term data collected at Utqiagvik, Alaska, to explore the impacts of cloud processes on the probability of finding supercooled water given cloud temperature, P(L|T), in the topmost unseeded liquid-bearing layers. P(L|T) has local minima at temperatures around –6°C and –15°C. Simulations using habit-evolving ice microphysics models suggest that these minima are the result of efficient vapor growth by non-isometric habits found at these temperatures. Here, we conclude that habit-dependent vapor growth of ice crystals modulates the macrophysical occurrence of supercooled water in polar clouds, the effect of which should be included in model parametrizations to avoid biases and/or error compensation. Our methodology is adaptable for spherical ice treatments implemented in models (example parametrizations provided), amenable for use with satellite measurements to give global impartial observational targets for model evaluations, and may allow empirical characterization of bulk responses to seeding and possibly secondary ice effects.
Bibliography:USDOE Office of Science (SC), Biological and Environmental Research (BER)
SC0021004; SC0018046; AGS-1824243; DE‐SC0018046; DE‐SC0021004
National Science Foundation (NSF)
ISSN:0094-8276
1944-8007