The dynamics of non-methane hydrocarbons and other trace gas fluxes at a subarctic mire in northern Sweden

In the context of climate change, it is important to understand how the terrestrial carbon cycle is interacting with the anthropogenic increase in atmospheric carbon dioxide (CO2) concentration. Boreal and subarctic regions in the northern hemisphere are great carbon pools, as well as they are subje...

Full description

Bibliographic Details
Main Author: Bäckstrand, Kristina
Format: Other/Unknown Material
Language:English
Published: Lunds universitet/Institutionen för naturgeografi och ekosystemvetenskap 2004
Subjects:
geomorfologi
naturgeografi
climatology
cartography
climate change
carbon cycle
physical geography
nodelling
pedology
geomorphology
marklära
kartografi
klimatologi
Earth and Environmental Sciences
Stordalen
Northern Sweden
Subarctic
Online Access:http://lup.lub.lu.se/student-papers/record/1332971
Description
Summary:In the context of climate change, it is important to understand how the terrestrial carbon cycle is interacting with the anthropogenic increase in atmospheric carbon dioxide (CO2) concentration. Boreal and subarctic regions in the northern hemisphere are great carbon pools, as well as they are subject to predicted warming. These facts place them in the absolute frontline of ecosystems that are to be studied in the context of coupled climate models, where the terrestrial carbon cycle is included. In addition to CO2 and methane (CH4), which have been intensively studied regarding carbon cycle and climate, there are other biogenic volatile organic compounds (BVOC) emitted by vegetation that have shown to be of great importance. One group is called non-methane hydrocarbons (NMHCs). Their emissions is a part of the carbon flux in ecosystems, and have an indirect role in determining atmospheric concentration of some greenhouse gases as well as biogenic aerosols. A study of CO2, CH4 and NMHC flux dynamics has been conducted on the subarctic mire Stordalen in northern Sweden. The objective is to contribute to the existing knowledge about exchanges of CO2 and CH4, and primarily to add new knowledge of NMHC emissions from a subarctic ecosystem, which has not earlier been studied. An automatic multichamber system was used to collect high temporal resolution data of CO2 and total hydrocarbon (THC) fluxes from three different sub-ecosystems on the mire: a wet minerotrophic site, a wet intermediate ombro-minerotrophic site and a semiwet ombrotrophic site. Further, manual sampling of CH4 fluxes was conducted approximately three times a week, from mid-June to late August. This gave the possibility to estimate the amount of NMHCs (THC flux -CH4 flux). A temperature dependent respiration model was developed from night time CO2 flux data, and gross primary production (GPP) could be estimated for each sub-ecosystem. Environmental variables as light, temperature, moisture and thaw depth are included in the correlations. The results ...

Similar Items