Article
Details
Citation
Street LE, Subke J, Sommerkorn M, Sloan V, Ducrotoy H, Phoenix GK & Williams M (2013) The role of mosses in carbon uptake and partitioning in arctic vegetation. New Phytologist, 199 (1), pp. 163-175. https://doi.org/10.1111/nph.12285
Abstract
- The Arctic is already experiencing changes in plant community composition, so understanding the contribution of different vegetation components to carbon (C) cycling is essential in order to accurately quantify ecosystem C balance. Mosses contribute substantially to biomass, but their impact on carbon use efficiency (CUE) - the proportion of gross primary productivity (GPP) incorporated into growth - and aboveground versus belowground C partitioning is poorly known.
- We used 13C pulse-labelling to trace assimilated C in mosses (Sphagnum sect. Acutifolia and Pleurozium schreberi) and in dwarf shrub-P. schreberi vegetation in sub-Arctic Finland. Based on 13C pools and fluxes, we quantified the contribution of mosses to GPP, CUE and partitioning.
- Mosses incorporated 20 ± 9% of total ecosystem GPP into biomass. CUE of Sphagnum was 68-71%, that of P. schreberi was 62-81% and that of dwarf shrub-P. schreberi vegetation was 58-74%. Incorporation of C belowground was 10 ± 2% of GPP, while vascular plants alone incorporated 15 ± 4% of their fixed C belowground.
- We have demonstrated that mosses strongly influence C uptake and retention in Arctic dwarf shrub vegetation. They increase CUE, and the fraction of GPP partitioned aboveground. Arctic C models must include mosses to accurately represent ecosystem C dynamics.
Keywords
belowground;
biomass;
bryophyte;
carbon allocation;
carbon use efficiency;
CO2 flux;
gross primary productivity (GPP);
tundra
; Forest soils Northern Hemisphere;Soil ecology Northern Hemisphere;Soil chemistry Northern Hemisphere;Forests and forestry Northern Hemisphere
Journal
New Phytologist: Volume 199, Issue 1
Status | Published |
---|---|
Publication date | 31/07/2013 |
Date accepted by journal | 14/03/2013 |
URL | |
Publisher | Wiley-Blackwell for New Phytologist Trust |
ISSN | 0028-646X |
eISSN | 1469-8137 |
People (1)
Professor, Biological and Environmental Sciences