Abstract
Sphagnum peatmosses play an important part in water table management of many peatland ecosystems. Keeping the ecosystem saturated, they slow the breakdown of organic matter and release of greenhouse gases, facilitating peatland’s function as a carbon sink rather than a carbon source. Although peatland monitoring and restoration programs have increased recently, there are few tools to quantify traits that Sphagnum species display in their ecosystems. Colony density is often described as an important determinant in the establishment and performance in Sphagnum but detailed evidence for this is limited. In this study, we describe an image analysis pipeline that accurately annotates Sphagnum capitula and estimates plant density using open access computer vision packages. The pipeline was validated using images of different Sphagnum species growing in different habitats, taken on different days and with different smartphones. The developed pipeline achieves high accuracy scores, and we demonstrate its utility by estimating colony densities in the field and detecting intra and inter-specific colony densities and their relationship with habitat. This tool will enable ecologists and conservationists to rapidly acquire accurate estimates of Sphagnum density in the field without the need of specialised equipment.
Highlights
In recent years, there has been a renewed interest in the study and restoration of peatlands
We show the accuracy and applicability of the method for images acquired in different sites and for different Sphagnum species
We show that densities of several Sphagnum species are different in the field and quantify how densities differ within the same species growing in different sites
Summary
There has been a renewed interest in the study and restoration of peatlands. Despite its importance in the maintenance of the peat ecosystem, we are only starting to understand how Sphagnum growth and development responds to environmental changes, to drought. Colony density has been shown to have a significant impact on water retention by reducing the amount of free space between individual shoots and trapping moisture below the canopy [9,17,18] This has been suggested for Sphagnum, there is little experimental data. Methods for estimating canopy density are well established for trees and other large plants, but few have been applied to bryophytes [22,23,24] These methods exploit a range of imaging techniques, including aerial photography, satellites, and laser scanning. We show that densities of several Sphagnum species are different in the field and quantify how densities differ within the same species growing in different sites
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