Abstract
While closed canopy forests have been an important focal point for land cover change monitoring and climate change mitigation, less consideration has been given to methods for large scale measurements of trees outside of forests. Trees outside of forests are an important but often overlooked natural resource throughout sub-Saharan Africa, providing benefits for livelihoods as well as climate change mitigation and adaptation. In this study, the development of an individual tree cover map using very high-resolution remote sensing and a comparison with a new automated machine learning mapping product revealed an important contribution of trees outside of forests to landscape tree cover and carbon stocks in a region where trees outside of forests are important components of livelihood systems. Here, we test and demonstrate the use of allometric scaling from remote sensing crown area to provide estimates of landscape-scale carbon stocks. Prominent biomass and carbon maps from global-scale remote sensing greatly underestimate the “invisible” carbon in these sparse tree-based systems. The measurement of tree cover and carbon in these landscapes has important application in climate change mitigation and adaptation policies.
Highlights
Our aim was to evaluate the magnitude and spatial distribution of aboveground biomass and carbon stocks in individual trees of savanna landscapes in Senegal using very high resolution (VHR) remote sensing data for mapping the crowns of individual trees, upon which a crown-area allometric scaling model was used to estimate tree diameters so that it may be used by standard allometric equations for the region
diameter at breast height (DBH), and sometimes other tree parameters, to estimate tree and landscape carbon stocks regular national inventories based on ground plot sampling
DBH from crown pro area (CPA) is reasonable, the selection of the allometric equation could present other carbon stocks using standard allometric equations based on DBH
Summary
Closed canopy forests have been an important focal point for land cover change monitoring for the last twenty years, and as a result, considerable progress has been made to develop tools and methods applied to these forest ecosystems [1,2,3]. These high carbon ecosystems have been undergoing significant changes due to land use conversion. There has been less consideration and analysis given to carbon stocks and monitoring of landscapes of trees outside of forests (TOF) [4]. The carbon density of these tree systems is low, they usually have significant livelihood dependencies for economically poor rural communities in marginal landscapes that are vulnerable to climate change
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