Add to ORKGIn this thesis, I establish and explore the role of phenology in understanding the rapidly changing environment of a subarctic peatland. First, I demonstrate how digital repeat photography can be used to characterize and differentiate distinct plant communities using two years of images. Each habitat is composed of different plant functional groups, promoting the individualistic approach to characterization that near-earth remote sensing tools can provide. The camera-product Relative Greenness successfully characterized interannual variability in seasonal growth for each habitat type. Across habitats, there was a direct relationship between advancement of spring onset and active season growth though this overall pattern showed habitat-speci...
The term phenology refers to both the seasonal rhythms of plants and animals, and the study of these...
The global terrestrial carbon cycle is driven by the photosynthetic process, whereby chemical energy...
International audiencePlant phenological development is orchestrated through subtle changes in photo...
Digital repeat photography is an emerging platform for monitoring land surface phenology. Despite th...
High Arctic ecosystems are experiencing some of the earliest and most extreme changes in climate as ...
The role of plant phenology as a regulator for gross ecosystem productivity (GEP) in peatlands is em...
Manual collection of accurate phenology data is time-consuming and expensive. In this study, we inve...
Plant phenology research has gained increasing attention because of the sensitivity of phenology to ...
ArticleIn peatlands plant growth and senescence affect annual ecosystem carbon dioxide (CO2) exchang...
The continuous and automated monitoring of canopy phenology is of increasing scientific interest for...
Tree–grass ecosystems are widely distributed. However, their phenology has not yet been fully charac...
Phenology is the study of the timing of natural events such as the schedule of plant life-cycle even...
Digital repeat photography has become a widely used tool for assessing the annual course of vegetati...
Plant phenology drives the timing, magnitude, and variability in biosphere-atmosphere exchanges. Our...
The term phenology refers to both the seasonal rhythms of plants and animals, and the study of these...
The global terrestrial carbon cycle is driven by the photosynthetic process, whereby chemical energy...
International audiencePlant phenological development is orchestrated through subtle changes in photo...
Digital repeat photography is an emerging platform for monitoring land surface phenology. Despite th...
High Arctic ecosystems are experiencing some of the earliest and most extreme changes in climate as ...
The role of plant phenology as a regulator for gross ecosystem productivity (GEP) in peatlands is em...
Manual collection of accurate phenology data is time-consuming and expensive. In this study, we inve...
Plant phenology research has gained increasing attention because of the sensitivity of phenology to ...
ArticleIn peatlands plant growth and senescence affect annual ecosystem carbon dioxide (CO2) exchang...
The continuous and automated monitoring of canopy phenology is of increasing scientific interest for...
Tree–grass ecosystems are widely distributed. However, their phenology has not yet been fully charac...
Phenology is the study of the timing of natural events such as the schedule of plant life-cycle even...
Digital repeat photography has become a widely used tool for assessing the annual course of vegetati...
Plant phenology drives the timing, magnitude, and variability in biosphere-atmosphere exchanges. Our...
The term phenology refers to both the seasonal rhythms of plants and animals, and the study of these...
The global terrestrial carbon cycle is driven by the photosynthetic process, whereby chemical energy...
International audiencePlant phenological development is orchestrated through subtle changes in photo...