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1. A multi-UAS-platform approach to evaluating lake breeze impact on shoreline ozone during WiscoDISCO-21 (Invited)

   Cleary, PA ( December 2021 , Transactions American Geophysical Union)

   The mesoscale meteorology of lake breezes along Lake Michigan impacts local observations of high ozone events. Previous manned aircraft and UAS observations have demonstrated non-uniform ozone concentrations within and above the marine layer over water and within shoreline environments. During the 2021 Wisconsin’s Dynamic Influence of Shoreline Circulations on Ozone (WiscoDISCO21) campaign, two UAS platforms, a fixed-wing (University of Colorado RAAVEN) and a multirotor (DJI M210), were used simultaneously to capture lake breeze during forecasted high ozone events at Chiwaukee Prairie State Natural Area in southeastern Wisconsin from May 21-26, 2021. The RAAVEN platform measured temperature, humidity, and 3-D winds during 2-hour flights following two separate flight patterns up to 3 times per day at altitudes reaching 500 m AGL. The M210 platform measured vertical profiles of temperature, humidity and ozone during 15-minute flights up to 6 times per day at altitudes reaching 120 m AGL near to a WI-DNR ground monitoring station (AIRS ID: 55-059-0019). This campaign was conducted in conjunction with the enhanced ozone monitoring plan from WI-DNR that included Doppler lidar wind profiler observations at the site. The team captured a range of lake breeze events, including development, abatement, and mid-day lake breeze persistence over the course of the campaign. Atmospheric profiles of meteorology and ozone, and comparison of domains across platforms, ground observations, and lidar will be discussed. 

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2. Modeling ozone and atmospheric profiles above a shoreline Lake Michigan site

   Tirado, J. ( March 2022 , Conference proceedings series American Chemical Society)

   The lake breeze effect along the shoreline of lake Michigan has been attributed to causing high tropospheric ozone concentrations at shoreline locations. The 2021 Wisconsin’s Dynamic Influence of Shoreline Circulation on Ozone (WiscoDISCO-21) campaign involved atmospheric measurements over Chiwaukee Prairie State Natural Area in Southeastern Wisconsin from May 21-26, 2021. Three different platforms were used to collect data on this campaign in addition to the regulatory monitor at this site. Two uncrewed aerial systems (UAS), an M210 multirotor copter and the University of Colorado RAAVEN fixed-wing were flown. The RAAVEN flew between 0 and 500 meters above ground level (m AGL) and measured many atmospheric conditions, the most pertinent being temperature, humidity, and winds. The M210 flew between 0 and 120 m AGL and was equipped with a 2B Technologies Personalized Ozone Monitor (POM) which captured ozone concentrations and an Interment Systems iMET-XQ2 meteorology sensor which captured relative humidity, temperature, and pressure. A Lidar Wind Profiler measured backscatter intensities, wind speeds and direction up to 2000 m AGL. Using data from the RAAVEN, the Wisconsin DNR, and the iMET-XQ2, at least one lake breeze was detected every day of the campaign. The largest lake breezes were detected on May 22, 2021, from 17:00-21:38 UTC and on May 24, 2021, from 14:24-22:51 UTC. The presence of the lake breezes correlated with detected temperature inversions measured from the RAAVEN and high ozone events measured from the M210. Lake breezes were investigated with their relationship to vertical profiles measured on the UAS, ozone concentrations, and marine boundary layer height observed with Doppler Lidar and modeled by the High-Resolution Rapid Refresh (HRRR) meteorological model. 

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3. Observations of coastal dynamics during lake breeze at a shoreline impacted by high ozone

   https://doi.org/10.1039/D2EA00101B  

   Tirado, Joseph ; Torti, Akagaonye O. ; Butterworth, Brian J. ; Wangen, Kevin ; Voon, Aidan ; Kies, Benjamin ; Hupy, Joseph P. ; de Boer, Gijs ; Pierce, R. Bradley ; Wagner, Timothy J. ; et al ( March 2023 , Environmental Science: Atmospheres)

   The lake breeze circulation along Lake Michigan is associated with high tropospheric ozone concentrations at shoreline locations. The 2021 Wisconsin's Dynamic Influence of Shoreline Circulation on Ozone (WiscoDISCO-21) campaign involved atmospheric measurements over Chiwaukee Prairie State Natural Area in Southeastern Wisconsin from May 21–26, 2021. Three different platforms, two uncrewed aerial systems (UAS) and a Doppler lidar instrument, were used to collect data on this campaign, supplemented by a ground-based Wisconsin DNR maintained regulatory monitor at the site. A Purdue University M210 multirotor copter, and the University of Colorado RAAVEN fixed-wing aircraft were flown in coordination. Using data from the ground station, RAAVEN and onsite lidar, lake breezes were detected on several days of the campaign. The longest sustained lake breezes during the campaign were detected on May 22, 2021, from 17:00–21:38 UTC and on May 24, 2021, from 14:24–22:51 UTC. The presence of the lake breezes correlated with detected temperature inversions measured from the RAAVEN and high ozone events measured from the M210. Lake breezes were investigated with their relationship to vertical profiles measured on the UAS, ozone concentrations, and marine boundary layer height observed with Doppler lidar to demonstrate a multi-layered lower atmosphere. A buoyant internal boundary layer was observed over land from 40–100 m AGL below highest ozone concentrations. Marine layer extent was investigated through minimum buoyancy and Richardson number analysis, showing limited vertical mixing at altitudes up to 200 m AGL, below easterly lake breeze circulation patterns extending upward to 400 m AGL in the late day. 

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4. University of Nebraska unmanned aerial system (UAS) profiling during the LAPSE-RATE field campaign

   https://doi.org/10.5194/essd-13-2457-2021  

   Islam, Ashraful ; Shankar, Ajay ; Houston, Adam ; Detweiler, Carrick ( January 2021 , Earth System Science Data)

   null (Ed.)

   Abstract. This paper describes the data collected by the University of Nebraska-Lincoln (UNL) as part of the field deployments during the Lower Atmospheric Process Studies at Elevation – a Remotely-piloted Aircraft Team Experiment (LAPSE-RATE) flight campaign in July 2018.The UNL deployed two multirotor unmanned aerial systems (UASs) at multiple sites in the San Luis Valley (Colorado, USA) for data collection to support three science missions: convection initiation, boundary layer transition, and cold air drainage flow.We conducted 172 flights resulting in over 21 h of cumulative flight time.Our novel design for the sensor housing onboard the UAS was employed in these flights to meet the aspiration and shielding requirements of the temperature and humidity sensors and to separate them from the mixed turbulent airflow from the propellers.Data presented in this paper include timestamped temperature and humidity data collected from the sensors, along with the three-dimensional position and velocity of the UAS.Data are quality-controlled and time-synchronized using a zero-order-hold interpolation without additional post-processing.The full dataset is also made available for download at https://doi.org/10.5281/zenodo.4306086 (Islam et al., 2020). 

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5. University of Kentucky measurements of wind, temperature, pressure and humidity in support of LAPSE-RATE using multisite fixed-wing and rotorcraft unmanned aerial systems

   https://doi.org/10.5194/essd-12-1759-2020  

   Bailey, Sean C. ; Sama, Michael P. ; Canter, Caleb A. ; Pampolini, L. Felipe ; Lippay, Zachary S. ; Schuyler, Travis J. ; Hamilton, Jonathan D. ; MacPhee, Sean B. ; Rowe, Isaac S. ; Sanders, Christopher D. ; et al ( January 2020 , Earth System Science Data)

   Abstract. In July 2018, unmanned aerial systems (UASs) were deployed to measure the properties of the lower atmosphere within the San Luis Valley, an elevated valley in Colorado, USA, as part of the Lower Atmospheric Profiling Studies at Elevation – a Remotely-piloted Aircraft Team Experiment (LAPSE-RATE). Measurement objectives included detailing boundary layer transition, canyon cold-air drainage and convection initiation within the valley. Details of the contribution to LAPSE-RATE made by the University of Kentucky are provided here, which include measurements by seven different fixed-wing and rotorcraft UASs totaling over 178 flights with validated data. The data from these coordinated UAS flights consist of thermodynamic and kinematic variables (air temperature, humidity, pressure, wind speed and direction) and include vertical profiles up to 900 m above the ground level and horizontal transects up to 1500 m in length. These measurements have been quality controlled and are openly available in the Zenodo LAPSE-RATE community data repository (https://zenodo.org/communities/lapse-rate/, last access: 23 July 2020), with the University of Kentucky data available at https://doi.org/10.5281/zenodo.3701845 (Bailey et al., 2020). 

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