Soil Air Composition and Groundwater Level in a Cultivated Peatland Underlain by Black Schist

ABSTRACT The effect of field hydrology on microbial gas production in a black schist‐based acid sulfate soil was investigated to find out if conditions in the field are conducive to greenhouse gas formation and to see if the overlying peat functions as protection against oxidation of the sulfidic ma...

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Published in	European journal of soil science Vol. 76; no. 3
Main Authors	Mäkelä, Minna, Simojoki, Asko, Kanerva, Sanna, Yli‐Halla, Markku
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.05.2025
Subjects	black schist CO2 greenhouse gas emissions N2O peat
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Abstract	ABSTRACT The effect of field hydrology on microbial gas production in a black schist‐based acid sulfate soil was investigated to find out if conditions in the field are conducive to greenhouse gas formation and to see if the overlying peat functions as protection against oxidation of the sulfidic material. Soil air composition and hydrological conditions were observed in an agricultural peatland, which contains black schists and acid sulfate soil properties beneath a layer of peat 15–60 cm thick at different observation sites. The field was drained with open ditches with 20 m spacing. Groundwater level was high, particularly at low elevations of the field, and the acid sulfate subsoil was at or near saturation for much of the investigated period (15 months). Within the soil profile, CO2 concentration increased and O2 concentration decreased with increasing depth, indicating microbial activity, while the variation of N2O content within the profile was not as clear. The acid sulfate subsoil was predominantly saturated with water and consequently had slow gas exchange and only modest microbial activity. These results explain previous results of unexpectedly low greenhouse gas emissions from this location. They also suggest that a thick peat layer may protect against the oxidation of underlying sulfidic horizons, even if the extent of protection remained inconclusive.
AbstractList	The effect of field hydrology on microbial gas production in a black schist‐based acid sulfate soil was investigated to find out if conditions in the field are conducive to greenhouse gas formation and to see if the overlying peat functions as protection against oxidation of the sulfidic material. Soil air composition and hydrological conditions were observed in an agricultural peatland, which contains black schists and acid sulfate soil properties beneath a layer of peat 15–60 cm thick at different observation sites. The field was drained with open ditches with 20 m spacing. Groundwater level was high, particularly at low elevations of the field, and the acid sulfate subsoil was at or near saturation for much of the investigated period (15 months). Within the soil profile, CO 2 concentration increased and O 2 concentration decreased with increasing depth, indicating microbial activity, while the variation of N 2 O content within the profile was not as clear. The acid sulfate subsoil was predominantly saturated with water and consequently had slow gas exchange and only modest microbial activity. These results explain previous results of unexpectedly low greenhouse gas emissions from this location. They also suggest that a thick peat layer may protect against the oxidation of underlying sulfidic horizons, even if the extent of protection remained inconclusive. ABSTRACT The effect of field hydrology on microbial gas production in a black schist‐based acid sulfate soil was investigated to find out if conditions in the field are conducive to greenhouse gas formation and to see if the overlying peat functions as protection against oxidation of the sulfidic material. Soil air composition and hydrological conditions were observed in an agricultural peatland, which contains black schists and acid sulfate soil properties beneath a layer of peat 15–60 cm thick at different observation sites. The field was drained with open ditches with 20 m spacing. Groundwater level was high, particularly at low elevations of the field, and the acid sulfate subsoil was at or near saturation for much of the investigated period (15 months). Within the soil profile, CO2 concentration increased and O2 concentration decreased with increasing depth, indicating microbial activity, while the variation of N2O content within the profile was not as clear. The acid sulfate subsoil was predominantly saturated with water and consequently had slow gas exchange and only modest microbial activity. These results explain previous results of unexpectedly low greenhouse gas emissions from this location. They also suggest that a thick peat layer may protect against the oxidation of underlying sulfidic horizons, even if the extent of protection remained inconclusive.
Author	Kanerva, Sanna Yli‐Halla, Markku Simojoki, Asko Mäkelä, Minna
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Notes	Funding This work was supported by The Finnish Association of Academic Agronomists and Suoviljelysyhdistys ry—Peat Cultivation Society Finland.
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Snippet	ABSTRACT The effect of field hydrology on microbial gas production in a black schist‐based acid sulfate soil was investigated to find out if conditions in the... The effect of field hydrology on microbial gas production in a black schist‐based acid sulfate soil was investigated to find out if conditions in the field are...
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SubjectTerms	black schist CO2 greenhouse gas emissions N2O peat
Title	Soil Air Composition and Groundwater Level in a Cultivated Peatland Underlain by Black Schist
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