This dataset provides information on tree canopy cover percentage and mean canopy height, both at a 10m resolution, for the Elenydd landscape in mid-Wales. The data was derived from LiDAR analysis, which was used to create a vegetation height model for the region. From this model, tree crowns were identified and subsequently processed into two raster datasets: one representing the percentage of tree canopy cover and the other depicting mean canopy height, both specific to the Elenydd landscape. While significant efforts were made to exclude non-vegetative structures, some non-vegetative objects may still be present in the dataset. Full details about this dataset can be found at https://doi.org/10.5285/e358f49d-511c-4136-824b-9edb245d5ac4

This dataset provides information on tree canopy cover percentage and mean canopy height, both at a 10m resolution, for the North Pennines & Dales in northern England. The data was derived from LiDAR analysis, which was used to create a vegetation height model for the region. From this model, tree crowns were identified and subsequently processed into two raster datasets: one representing the percentage of tree canopy cover and the other depicting mean canopy height, both specific to the North Pennines & Dales landscape. While significant efforts were made to exclude non-vegetative structures, some non-vegetative objects may still be present in the dataset. Full details about this dataset can be found at https://doi.org/10.5285/9e3055a3-a56b-4210-9628-4acd096ed9b7

The data describe vegetation outlines and tree tops above 1m in height as polylines and points. Data have been processed from a digital terrain model (DTM) and digital surface model (DSM), converted from raw LiDAR data. The LiDAR dataset was acquired for Cornwall and Devon (all the land west of Exmouth) during the months of July and August 2013. The data were created as part of the Tellus South West project. Full details about this dataset can be found at https://doi.org/10.5285/78dba959-989b-43d4-b4da-efd2506e0c8e

[This dataset is embargoed until April 30, 2026]. The dataset provides meteorological data including air temperature, humidity, solar radiation, and wind speed collected above the canopy at Bobiri Forest Reserve, Ghana between November 2022 and November 2023. Data is at high temporal resolution (10 second). This site is a moist semi-deciduous tropical forest type. The data were collected from a 60m tower adjacent to a plot which was lightly selectively logged over 60 years ago. The forest trees are of a variety of species including both deciduous and evergreen species. Data were collected in order to provide auxiliary data for other studies completed at the site. Full details about this dataset can be found at https://doi.org/10.5285/e891ae90-1917-41b6-a63a-8fe4170253ff

[This dataset is embargoed until April 30, 2026]. The dataset provides image data from a visible light camera positioned on a tower at Bobiri Forest Reserve, Ghana between November 2022 and November 2023. The images are predominately made up of tree canopies (leaves, branches, stems). This site is a moist semi-deciduous tropical forest. The field of view of the camera includes a plot, which was lightly selectively logged over 60 years ago. The trees included in the field of view are of a variety of species including both deciduous and evergreen species. Data were collected to complement additional data on canopy temperature at the same site but can also be used to look at vegetation phenology. Full details about this dataset can be found at https://doi.org/10.5285/f4d2b769-8df8-4fd0-bf75-673926a6977b

The dataset provides visible light images from a camera at the Birmingham Institute for Forest Research Free Air CO2 Enrichment (BIFoR-FACE) experimental site from July 2021 to September 2023. The data are visible light images, predominately of tree canopies (leaves, branches, stems). This site is a mature oak woodland, and the field of view of the camera includes one of the experimental CO2 enrichment plots, and numerous trees in the ambient un-enriched air. The trees included in the field of view are predominantly Quercus robur, with some individuals of Acer pseudoplatanus and Pinus sylvestris. Data were collected to complement additional data on canopy temperature at the same site but can also be used to look at vegetation phenology. Full details about this dataset can be found at https://doi.org/10.5285/4b251915-10af-4bf1-8ad6-be1c65542247