Greenhouse gas emissions from intensively managed peat soils in an arable production system

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Greenhouse gas emissions from intensively managed peat soils in an arable production system. / Taft, Helen; Cross, Paul; Edwards-Jones, Gareth et al.
In: Agriculture, Ecosystems and Environment, Vol. 237, 16.01.2017, p. 162.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Taft, H, Cross, P, Edwards-Jones, G, Moorhouse, ER & Jones, D 2017, 'Greenhouse gas emissions from intensively managed peat soils in an arable production system', Agriculture, Ecosystems and Environment, vol. 237, pp. 162. https://doi.org/10.1016/j.agee.2016.11.015

APA

Taft, H., Cross, P., Edwards-Jones, G., Moorhouse, E. R., & Jones, D. (2017). Greenhouse gas emissions from intensively managed peat soils in an arable production system. Agriculture, Ecosystems and Environment, 237, 162. https://doi.org/10.1016/j.agee.2016.11.015

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MLA

VancouverVancouver

Taft H, Cross P, Edwards-Jones G, Moorhouse ER, Jones D. Greenhouse gas emissions from intensively managed peat soils in an arable production system. Agriculture, Ecosystems and Environment. 2017 Jan 16;237:162. Epub 2016 Dec 28. doi: 10.1016/j.agee.2016.11.015

Author

Taft, Helen ; Cross, Paul ; Edwards-Jones, Gareth et al. / Greenhouse gas emissions from intensively managed peat soils in an arable production system. In: Agriculture, Ecosystems and Environment. 2017 ; Vol. 237. pp. 162.

RIS

TY - JOUR

T1 - Greenhouse gas emissions from intensively managed peat soils in an arable production system

AU - Taft, Helen

AU - Cross, Paul

AU - Edwards-Jones, Gareth

AU - Moorhouse, E.R.

AU - Jones, David

PY - 2017/1/16

Y1 - 2017/1/16

N2 - Organic-rich, eutrophic peat soils (Histosols) represent a major store of carbon (C) within the terrestrial biosphere. However, these soils are also highly susceptible to damage, particularly when used for intensive agricultural production. Sustainable management of such soils is contingent upon improved understanding of the impact of their management on the environment. In this context, we report the first annual budget of greenhouse gas emissions from temperate peat soils under intensive horticultural production. Fluxes of CO2, N2O and CH4 were measured using static chambers on three farms along an organic matter loss gradient (∼20%, ∼35%, and ∼70% soil organic matter (SOM) content respectively), under a number of commercially important crops in similar rotations. Cumulative annual fluxes of CO2 in fallow and cropped soils were large and ranged from 13.0 ± 2.4 to 30.9 ± 2.5 t CO2-e ha−1 y−1, showing a general increase with SOM, and on cropped compared to bare soils. Annual emissions of N2O varied from 5.0 ± 0.7 to 13.9 ± 1.9 t CO2-e ha−1 y−1, and CH4 from −0.02 ± 0.08 to 0.04 ± 0.02 t CO2-e ha−1 y−1; neither showed a significant relationship with either SOM content or cropping. Distinct seasonal patterns of CO2 and N2O fluxes were observed, corresponding to significant correlations between emissions and soil and air temperature, soil moisture content, water table depth, and soil nitrate on some soil types. No discernible seasonal pattern in CH4 fluxes was observed, and very few significant correlations with soil environmental variables were found. Compared to emissions estimates suggested in IPCC inventory guidelines for cultivated peat soils, the observed emissions in this study were relatively high, and net annual fluxes of CO2 and CH4 are equivalent to a loss of soil depth of 0.33–0.75 cm y−1. We conclude that arable farming is promoting extreme mineralization of the soil’s organic carbon reserves and that a change in land use or management regime is needed to protect and preserve this natural capital.

AB - Organic-rich, eutrophic peat soils (Histosols) represent a major store of carbon (C) within the terrestrial biosphere. However, these soils are also highly susceptible to damage, particularly when used for intensive agricultural production. Sustainable management of such soils is contingent upon improved understanding of the impact of their management on the environment. In this context, we report the first annual budget of greenhouse gas emissions from temperate peat soils under intensive horticultural production. Fluxes of CO2, N2O and CH4 were measured using static chambers on three farms along an organic matter loss gradient (∼20%, ∼35%, and ∼70% soil organic matter (SOM) content respectively), under a number of commercially important crops in similar rotations. Cumulative annual fluxes of CO2 in fallow and cropped soils were large and ranged from 13.0 ± 2.4 to 30.9 ± 2.5 t CO2-e ha−1 y−1, showing a general increase with SOM, and on cropped compared to bare soils. Annual emissions of N2O varied from 5.0 ± 0.7 to 13.9 ± 1.9 t CO2-e ha−1 y−1, and CH4 from −0.02 ± 0.08 to 0.04 ± 0.02 t CO2-e ha−1 y−1; neither showed a significant relationship with either SOM content or cropping. Distinct seasonal patterns of CO2 and N2O fluxes were observed, corresponding to significant correlations between emissions and soil and air temperature, soil moisture content, water table depth, and soil nitrate on some soil types. No discernible seasonal pattern in CH4 fluxes was observed, and very few significant correlations with soil environmental variables were found. Compared to emissions estimates suggested in IPCC inventory guidelines for cultivated peat soils, the observed emissions in this study were relatively high, and net annual fluxes of CO2 and CH4 are equivalent to a loss of soil depth of 0.33–0.75 cm y−1. We conclude that arable farming is promoting extreme mineralization of the soil’s organic carbon reserves and that a change in land use or management regime is needed to protect and preserve this natural capital.

KW - Carbon dioxide, Food security, Horticulture, Methane, Nitrous oxide, Soil nutrient cycling

U2 - 10.1016/j.agee.2016.11.015

DO - 10.1016/j.agee.2016.11.015

M3 - Article

VL - 237

SP - 162

JO - Agriculture, Ecosystems and Environment

JF - Agriculture, Ecosystems and Environment

SN - 0167-8809

ER -