Search for projects with tag "soil moisture"
[ID: 435] Developing soil moisture maps at high spatiotemporal resolution
PI: Francesco Zignol
Digital soil moisture maps are valuable tools to practitioners, stakeholders and researchers for planning forest management and promoting nature conservation. In this project, we evaluate a machine-learning procedure that combines LIDAR-derived terrain and vegetation indices, reanalysis climatological data and in-situ field measurements to develop daily soil moisture maps at 2-meter resolution for 3 study sites in Sweden (Krycklan, Asa, and Grimsö).
[ID: 368] Microclimate measurements (temperature + soil moisture)
PI: Caroline Greiser
The project aims at studying forest microclimate with special focus on soil moisture as a driver for forest understory cooling. We established a network of temperature and soil moisture loggers in each of three SITES regions: Asa, Grimsö and Svartberget. Each network consists of ca. 40 plots, on each plot there is a temperature-soil moisture logger on the ground (TMS4, tomst.com) and a temperature logger at ca. 1.7 m at the nearest tree (Thermologger, tomst.com). Both loggers measure temperature in a 15 min interval. In Asa, we used a subset of the permanent vegetation plots. In Svartberget/Krycklan, we used a subset of Johannes Larson/Mattias Peichl plots, from which we have detailed information on soil and vegetation/forest. We did additional hemispheric canopy cover photos at each logger plot and also did some basic inventory of forest basal area (with a relaskop). We have installed the loggers in May-July 2022 and plan to download their data at least once a year during the snow-free season.
microclimateforest bufferingsoil moisturesoil waterevapotranspiration
[ID: 128] Development of new high-resolution maps for forestry planning
PI: Anneli Ågren
Mapping streams and wetlands from LiDAR data
[ID: 82] Hydrologic connectivity in the boreal landscape
PI: Jana Erdbrügger
Investigating different aspects of hydrologic connectivity in the boreal landscape. The project includes field measurements as well as a modelling approach to identify, quantify and analyse key aspects of hydrologic connectivity.
groundwaterhydrologic connectivitysoil moisturetemporary streamsmodellingtopography