Mapping Above- and Below-Ground Carbon Pools in Boreal Forests: The Case for Airborne Lidar
نویسندگان
چکیده
A large and growing body of evidence has demonstrated that airborne scanning light detection and ranging (lidar) systems can be an effective tool in measuring and monitoring above-ground forest tree biomass. However, the potential of lidar as an all-round tool for assisting in assessment of carbon (C) stocks in soil and non-tree vegetation components of the forest ecosystem has been given much less attention. Here we combine the use airborne small footprint scanning lidar with fine-scale spatial C data relating to vegetation and the soil surface to describe and contrast the size and spatial distribution of C pools within and among multilayered Norway spruce (Picea abies) stands. Predictor variables from lidar derived metrics delivered precise models of above- and below-ground tree C, which comprised the largest C pool in our study stands. We also found evidence that lidar canopy data correlated well with the variation in field layer C stock, consisting mainly of ericaceous dwarf shrubs and herbaceous plants. However, lidar metrics derived directly from understory echoes did not yield significant models. Furthermore, our results indicate that the variation in both the mosses and soil organic layer C stock plots appears less influenced by differences in stand structure properties than topographical gradients. By using topographical models from lidar ground returns we were able to establish a strong correlation between lidar data and the organic layer C stock at a stand level. Increasing the topographical resolution from plot averages (~2000 m2) towards individual grid cells (1 m2) did not yield consistent models. Our study demonstrates a connection between the size and distribution of different forest C pools and models derived from airborne lidar data, providing a foundation for future research concerning the use of lidar for assessing and monitoring boreal forest C.
منابع مشابه
Biomass Estimation for Boreal Forests Using Field, Lidar and L-band Sar Data
The coupling of LIDAR and SAR for vegetation structure has been investigated in several terrestrial biomes [7, 4, 6]. In this paper, we explore the measurement of biomass in boreal forests. This ecosystem was selected since the boreal biome is environmentally important, yet significantly under-sampled. The boreal forest biome consists of a circumpolar region lying above 50o–60o latitude and ext...
متن کاملHow planting density and grazing intensity affect the above- and below-ground carbon pools in a dryland ecosystem?
Climate change is known as one of the most important environmental challenges. Sequestration of carbon in terrestrial ecosystems is a low-cost option that may be available in the near-term to mitigate increasing atmospheric CO2 concentrations, while providing additional benefits. In this study, we estimated the effects of planting density and grazing intensity on the potential of Atriplex canes...
متن کاملInteractive comment on “Modelling above-ground carbon dynamics using multi-temporal airborne lidar: insights from a Mediterranean woodland” by W. Simonson et al
Referee 1 The paper is clear, scientifically sound, and well written. It represents an important study in the field of biomass and carbon forest monitoring, as few multitemporal lidar studies are available and none in the Mediterranean ecosystem under analysis. The methods are sound and the discussion is interesting. Minor scientific questions are posed below. Response: We are grateful for this...
متن کاملModelling above - ground carbon dynamics using multi - temporal airborne 1 lidar : insights from a Mediterranean woodland
18 Woodlands represent highly significant carbon sinks globally, though could lose this function 19 under future climatic change. Effective large-scale monitoring of these woodlands has a 20 critical role to play in mitigating for, and adapting to, climate change. Mediterranean 21 woodlands have low carbon densities, but represent important global carbon stocks due to 22 their extensiveness and...
متن کاملModelling above-ground carbon dynamics using multi-temporal airborne lidar: insights from a Mediterranean woodland
Woodlands represent highly significant carbon sinks globally, though could lose this function under future climatic change. Effective large-scale monitoring of these woodlands has a critical role to play in mitigating for, and adapting to, climate change. Mediterranean woodlands have low carbon densities, but represent important global carbon stocks due to their extensiveness and are particular...
متن کامل