Abstract
Abstract. The near-pristine bog ecosystems of Tierra del Fuego in southernmost Patagonia have so far not been studied in terms of their current carbon dioxide (CO2) sink strength. CO2 flux data from Southern Hemisphere peatlands are scarce in general. In this study, we present CO2 net ecosystem exchange (NEE) fluxes from two Fuegian bog ecosystems with contrasting vegetation communities. One site is located in a glaciogenic valley and developed as a peat moss-dominated raised bog, and the other site is a vascular plant-dominated cushion bog located at the coast of the Beagle Channel. We measured NEE fluxes with two identical eddy covariance (EC) setups at both sites for more than 2 years. With the EC method, we were able to observe NEE fluxes on an ecosystem level and at high temporal resolution. Using a mechanistic modeling approach, we estimated daily NEE models to gap fill and partition the half-hourly net CO2 fluxes into components related to photosynthetic uptake (gross primary production, GPP) and to total ecosystem respiration (TER). We found a larger relative variability of annual NEE sums between both years at the moss-dominated site. A warm and dry first year led to comparably high TER sums. Photosynthesis was also promoted by warmer conditions but less strongly than TER with respect to absolute and relative GPP changes. The annual NEE carbon (C) uptake was more than 3 times smaller in the warm year. Close to the sea at the cushion bog site, the mean temperature difference between both observed years was less pronounced, and TER stayed on similar levels. A higher amount of available radiation in the second observed year led to an increase in GPP (5 %) and NEE (35 %) C uptake. The average annual NEE-C uptake of the cushion bog (-122±76 gm-2a-1, n=2) was more than 4 times larger than the average uptake of the moss-dominated bog (-27±28 gm-2a-1, n=2).
Highlights
Peatlands cover a comparably small area of the Earth’s land surface, they store large amounts of carbon (Yu et al, 2010)
Quality filtering of the bulk model parameter time series resulted in 290 Pmax, α and Rbase values from 2 d window fits for Moat and 155 for Pipo
Contrasting vegetation communities developed at the sites: the raised bog is dominated by the peat moss S. magellanicum and the cushion bog by the vascular plant A. pumila, which is characterized by a dense root system
Summary
Peatlands cover a comparably small area of the Earth’s land surface, they store large amounts of carbon (Yu et al, 2010). The Magellanic Moorland, which covers an area of 44 000 km of coastal Patagonia in Chile and Argentina, is one of the most notable peatland complexes south of the Equator and belongs to the world’s largest wetlands (Fraser and Keddy, 2005). Significant parts of the Magellanic Moorland are dominated by a unique type of bog ecosystem, which is exclusive to the Southern Hemisphere.
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