Spatially distributed atmospheric boundary layer properties in Houston - A value-added observational dataset.

In 2022, Houston, TX became a nexus for field campaigns aiming to further our understanding of the feedbacks between convective clouds, aerosols and atmospheric boundary layer (ABL) properties. Houston's proximity to the Gulf of Mexico and Galveston Bay motivated the collection of spatially distributed observations to disentangle coastal and urban processes. This paper presents a value-added ABL dataset derived from observations collected by eight research teams over 46 days between 2 June - 18 September 2022.

The impact of heat and inflow wind variations on vertical transport around a supertall building - The One Vanderbilt field experiment.

The impact skyscrapers have on wind flow remains poorly characterized, thus affecting atmospheric dispersion predictions in dense urban centers. A new mobile observatory equipped with remote sensors controlled by a smart sampling protocol was developed to collect high-resolution (18 m, 15 s) observations throughout the atmospheric layer below 1.5 km.

Spaceborne Cloud and Precipitation Radars: Status, Challenges, and Ways Forward.

Spaceborne radars offer a unique three-dimensional view of the atmospheric components of the Earth's hydrological cycle. Existing and planned spaceborne radar missions provide cloud and precipitation information over the oceans and land difficult to access in remote areas. A careful look into their measurement capabilities indicates considerable gaps that hinder our ability to detect and probe key cloud and precipitation processes.

Relationships Between Precipitation Properties and Large-Scale Conditions During Subsidence at the Eastern North Atlantic Observatory.

Three years of reanalysis and ground-based observations collected at the Eastern North Atlantic (ENA) observatory are analyzed to document the properties of rain and boundary layer clouds and their relationship with the large-scale environment during general subsidence conditions and following cold front passages. Clouds in the wake of cold fronts exhibit on average a 10% higher propensity to precipitate and higher rain-to-cloud fraction than cloud found in general subsidence conditions. Similarities in the seasonal cycle of rain and of large-scale properties suggest that the large-scale conditions created by the cold front passage are responsible for the unique properties of the rain forming in its wake.

Improving cancer pain management through a system wide commitment.

Despite the well documented need for better cancer pain management there is little evidence that conventional educational approaches have improved clinical practice. This article discusses strategies to improve cancer pain management, focusing particular attention to institutional approaches that contain quality assurance (QA) and quality improvement (QI) efforts. An innovative pain management project is described that includes an in-depth evaluation of system and provider strengths and weaknesses; a system-wide commitment to cancer pain management; patient/family, nurse, pharmacist, and physician collaborative teams; use of a Washington State law allowing pharmacist prescriptive authority of narcotics and other drugs within a prescribed treatment protocol; and QA and QI efforts to improve and document performance.