Magnitude, form and bioavailability of fluvial carbon exports from Irish organic soils under pasture

Organic soils are widespread in Ireland and vulnerable to degradation via drainage for agriculture. The soil-landuse combination of pasture on organic soils may play a disproportionate role in regional C dynamics but is yet to receive study. Fluvial C fluxes and labile organic fractions were determi...

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Bibliographic Details
Published in:Aquatic sciences 2016-07, Vol.78 (3), p.541-560
Main Authors: Barry, C. D., Renou-Wilson, F., Wilson, D., Müller, C., Foy, R. H.
Format: Article
Language:English
Subjects:
Agriculture
Aquatic ecosystems
Bioavailability
Biomedical and Life Sciences
Carbon
Carbon cycle
Carbon dioxide
Ecology
Environmental monitoring
Exports
Freshwater & Marine Ecology
Life Sciences
Limestone
Marine & Freshwater Sciences
Moisture content
Nutrients
Oceanography
Organic matter
Organic soils
Pasture
Pastures
Photolysis
Research Article
Soil water
Soils
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Summary:Organic soils are widespread in Ireland and vulnerable to degradation via drainage for agriculture. The soil-landuse combination of pasture on organic soils may play a disproportionate role in regional C dynamics but is yet to receive study. Fluvial C fluxes and labile organic fractions were determined for two such sites at nested field (c.4 ha) and subcatchment scales (>40 ha); one relatively dry and nutrient rich, the other wetter and nutrient poor. Field scale flux from the nutrient poor site over 2 years was 38.9 ± 6.6 g C m −2 yr −1 with DIC > DOC > POC at 57, 32 and 11 % respectively, and 72 % DIC was comprised of above equilibrium CO 2 . At the nutrient rich site, which overlies limestone geology, field scale export over an individual year was 90.4 g C m −2 with DIC > DOC > POC at 49, 42 and 9 %, but with 90 % DIC as bicarbonate. By comparison with the nutrient poor site, the magnitude and composition of inorganic C exports from the nutrient rich site implied considerable export of soil-respiratory C as bicarbonate, and lower evasion losses due to carbonate system buffering. Labile DOC determined using dark incubations indicated small fractions (5–10 %) available for remineralisation over typical downstream transit times of days to weeks. These fractions are probably conservative as photolysis in the environment can increase the proportion of labile compounds via photocleavage and directly remineralise organic matter. This study demonstrates that monitoring at soil–water interfaces can aid capture of total landscape fluvial fluxes by precluding the need to incorporate prior C evasion, although rapid runoff responses at field scales can necessitate high resolution flow proportional, and hydrograph sampling to constrain uncertainty of flux estimates.
ISSN:1015-1621
1420-9055
DOI:10.1007/s00027-015-0464-x