Highly sampled measurements in a controlled atmosphere at the Biosphere 2 Landscape Evolution Observatory

Land-atmosphere interactions at different temporal and spatial scales are important for our understanding of the Earth system and its modeling. The Landscape Evolution Observatory (LEO) at Biosphere 2, managed by the University of Arizona, hosts three nearly identical artificial bare-soil hillslopes with dimensions of 11 × 30 m 2 (1 m depth) in a controlled and highly monitored environment within three large greenhouses. These facilities provide a unique opportunity to explore these interactions. The dataset presented here is a subset of the measurements in each LEO’s hillslopes, from 1 July 2015 to 30 June 2019 every 15 minutes, consisting of temperature, water content and heat flux of the soil (at 5 cm depth) for 12 co-located points; temperature, relative humidity and wind speed above ground at 5 locations and 5 different heights ranging from 0.25 m to 9–10 m; 3D wind at 1 location; the four components of radiation at 2 locations; spatially aggregated precipitation rates, total subsurface discharge, and relative water storage; and the measurements from a weather station outside the greenhouses. Measurement(s) temperature of soil • wetness of soil • heat conductivity • atmospheric wind speed • Humidity • temperature of air • longwave radiation • shortwave radiation • atmospheric wind direction • hydrological precipitation process Technology Type(s) thermocouple • dielectrometry • thermopile • anemometer • weather station • pyrgeometer • pyranometer • Flowmeter Device Factor Type(s) replicate hillslope • location • height Sample Characteristic - Environment soil • atmosphere Machine-accessible metadata file describing the reported data: https://doi.org/10.6084/m9.figshare.12881810