Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality. / Peacock, M.; Jones, T.G.; Futter, M.N. et al.
Yn: Hydrological Processes, Cyfrol 32, Rhif 26, 30.12.2018, t. 3891-3906.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Peacock, M, Jones, TG, Futter, MN, Freeman, C, Gough, R, Baird, AJ, Green, SM, Chapman, PJ, Holden, J & Evans, CD 2018, 'Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality', Hydrological Processes, cyfrol. 32, rhif 26, tt. 3891-3906. https://doi.org/10.1002/hyp.13297

APA

Peacock, M., Jones, T. G., Futter, M. N., Freeman, C., Gough, R., Baird, A. J., Green, S. M., Chapman, P. J., Holden, J., & Evans, C. D. (2018). Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality. Hydrological Processes, 32(26), 3891-3906. https://doi.org/10.1002/hyp.13297

CBE

Peacock M, Jones TG, Futter MN, Freeman C, Gough R, Baird AJ, Green SM, Chapman PJ, Holden J, Evans CD. 2018. Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality. Hydrological Processes. 32(26):3891-3906. https://doi.org/10.1002/hyp.13297

MLA

VancouverVancouver

Peacock M, Jones TG, Futter MN, Freeman C, Gough R, Baird AJ et al. Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality. Hydrological Processes. 2018 Rhag 30;32(26):3891-3906. Epub 2018 Hyd 9. doi: 10.1002/hyp.13297

Author

Peacock, M. ; Jones, T.G. ; Futter, M.N. et al. / Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality. Yn: Hydrological Processes. 2018 ; Cyfrol 32, Rhif 26. tt. 3891-3906.

RIS

TY - JOUR

T1 - Peatland ditch blocking has no effect on dissolved organic matter (DOM) quality

AU - Peacock, M.

AU - Jones, T.G.

AU - Futter, M.N.

AU - Freeman, C.

AU - Gough, R.

AU - Baird, A.J.

AU - Green, S.M.

AU - Chapman, P.J.

AU - Holden, J.

AU - Evans, C.D.

N1 - doi: 10.1002/hyp.13297

PY - 2018/12/30

Y1 - 2018/12/30

N2 - Abstract The globally widespread drainage of peatlands has often been shown to lead to increased concentrations and fluxes of dissolved organic carbon (DOC) in streams and rivers. Elevated DOC concentrations have implications for carbon cycling, ecosystem functioning and potable water treatment. Peatland rewetting, principally through ditch blocking, is often carried out with the expectation that this will reduce DOC concentrations. Uncertainty still remains as to whether drainage, or its reversal via ditch blocking, will also lead to changes in the molecular composition of DOC/dissolved organic matter (DOM), which have the potential to affect downstream processing and treatability of UK drinking water supplies. To investigate this question, we used a replicated experiment consisting of twelve parallel ditches on an upland bog, and took samples of ditch water, pore water, and overland flow water for four years. After a brief pre-blocking baseline period, eight ditches were blocked using two different methods. A complementary suite of optical metrics, chemical measurements and analytical techniques revealed that ditch blocking had no consistent effect on DOM quality, up to four years after blocking. Where significant differences were found, effect size calculations demonstrated that these differences were small, and would therefore have minimal impact upon water treatability. Furthermore, some differences between ditches were evident before blocking took place, highlighting the need for robust baseline monitoring before intervention. Based on our results from a hillslope-scale experiment, we were unable to identify clear evidence that peatland ditch blocking will deliver benefits in terms of DOM treatability in potable water supplies, although we also did not find any evidence of short-term deterioration in water quality during the restoration period. We conclude that, although peatland restoration can be expected to deliver other benefits such as reduced carbon loss and enhanced biodiversity, it is doubtful whether it will lead to improvements in drinking water treatability.

AB - Abstract The globally widespread drainage of peatlands has often been shown to lead to increased concentrations and fluxes of dissolved organic carbon (DOC) in streams and rivers. Elevated DOC concentrations have implications for carbon cycling, ecosystem functioning and potable water treatment. Peatland rewetting, principally through ditch blocking, is often carried out with the expectation that this will reduce DOC concentrations. Uncertainty still remains as to whether drainage, or its reversal via ditch blocking, will also lead to changes in the molecular composition of DOC/dissolved organic matter (DOM), which have the potential to affect downstream processing and treatability of UK drinking water supplies. To investigate this question, we used a replicated experiment consisting of twelve parallel ditches on an upland bog, and took samples of ditch water, pore water, and overland flow water for four years. After a brief pre-blocking baseline period, eight ditches were blocked using two different methods. A complementary suite of optical metrics, chemical measurements and analytical techniques revealed that ditch blocking had no consistent effect on DOM quality, up to four years after blocking. Where significant differences were found, effect size calculations demonstrated that these differences were small, and would therefore have minimal impact upon water treatability. Furthermore, some differences between ditches were evident before blocking took place, highlighting the need for robust baseline monitoring before intervention. Based on our results from a hillslope-scale experiment, we were unable to identify clear evidence that peatland ditch blocking will deliver benefits in terms of DOM treatability in potable water supplies, although we also did not find any evidence of short-term deterioration in water quality during the restoration period. We conclude that, although peatland restoration can be expected to deliver other benefits such as reduced carbon loss and enhanced biodiversity, it is doubtful whether it will lead to improvements in drinking water treatability.

KW - rewetting

KW - water quality

KW - peatland restoration

KW - dissolved organic carbon

KW - water treatment

KW - carbon cycling

KW - blanket bog

KW - trihalomethanes

U2 - 10.1002/hyp.13297

DO - 10.1002/hyp.13297

M3 - Article

VL - 32

SP - 3891

EP - 3906

JO - Hydrological Processes

JF - Hydrological Processes

SN - 0885-6087

IS - 26

ER -