Crop residues exacerbate the negative effects of extreme flooding on soil quality

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Crop residues exacerbate the negative effects of extreme flooding on soil quality. / Sanchez-Rodriguez, Antonio R.; Hill, Paul W.; Chadwick, David R. et al.
Yn: Biology and Fertility of Soils, Cyfrol 53, Rhif 7, 01.10.2017, t. 751-765.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Sanchez-Rodriguez, AR, Hill, PW, Chadwick, DR & Jones, DL 2017, 'Crop residues exacerbate the negative effects of extreme flooding on soil quality', Biology and Fertility of Soils, cyfrol. 53, rhif 7, tt. 751-765. https://doi.org/10.1007/s00374-017-1214-0

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MLA

Sanchez-Rodriguez, Antonio R. et al. "Crop residues exacerbate the negative effects of extreme flooding on soil quality". Biology and Fertility of Soils. 2017, 53(7). 751-765. https://doi.org/10.1007/s00374-017-1214-0

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Sanchez-Rodriguez AR, Hill PW, Chadwick DR, Jones DL. Crop residues exacerbate the negative effects of extreme flooding on soil quality. Biology and Fertility of Soils. 2017 Hyd 1;53(7):751-765. Epub 2017 Meh 19. doi: 10.1007/s00374-017-1214-0

Author

Sanchez-Rodriguez, Antonio R. ; Hill, Paul W. ; Chadwick, David R. et al. / Crop residues exacerbate the negative effects of extreme flooding on soil quality. Yn: Biology and Fertility of Soils. 2017 ; Cyfrol 53, Rhif 7. tt. 751-765.

RIS

TY - JOUR

T1 - Crop residues exacerbate the negative effects of extreme flooding on soil quality

AU - Sanchez-Rodriguez, Antonio R.

AU - Hill, Paul W.

AU - Chadwick, David R.

AU - Jones, Davey L.

PY - 2017/10/1

Y1 - 2017/10/1

N2 - Extreme flood events are predicted to have a negative impact on soil quality. Currently, there is a lack of information about the effect of agricultural practices on soil functioning and microbial processes under these events. We hypothesized that the impact of flooding on soil quality will be exacerbated when crop residues are present in the soil as they will induce more extreme anaerobicity. A spring extreme flood event (10 °C, 9 weeks) was simulated in mesocosms containing an arable sandy-loam soil low in nutrients. The main treatments were (1) with and without flooding and (2) with and without maize residue addition (8 Mg ha−1). We monitored changes in soil chemical quality indicators (e.g. pH, salinity, Fe3+, P, C, NH4 +, NO3 − and organic N), greenhouse gas (GHG) emissions (CO2, CH4, N2O) and soil microbial community composition (PLFAs) during a prolonged flood period (9 weeks) and an 8-week “recovery” period after flooding. In comparison to the other treatments, flooding in the presence of crop residues resulted in a dramatic drop in soil redox potential. This was associated with the enhanced release of Fe and C into solution and an increase in CH4 emissions. In contrast, maize residues reduced potential nitrate losses and N2O emissions, possibly due to complete denitrification and microbial N immobilization. Both flooding and maize residues stimulated microbial growth and promoted a shift in microbial community composition. Following floodwater removal, most of the soil quality indicators returned to the levels of the control treatment within 5 weeks. After this short recovery phase, no major impact of flooding could be observed on plant growth (maize pot-grown). Overall, we conclude that both extreme flooding and management regime negatively impact upon a range of soil quality indicators (e.g. redox, GHG emissions); however, the soil showed high resilience and recovered quickly after floodwater removal. Further work is required to investigate the impact of repeated extreme flood events on soil quality and function over longer timescales.

AB - Extreme flood events are predicted to have a negative impact on soil quality. Currently, there is a lack of information about the effect of agricultural practices on soil functioning and microbial processes under these events. We hypothesized that the impact of flooding on soil quality will be exacerbated when crop residues are present in the soil as they will induce more extreme anaerobicity. A spring extreme flood event (10 °C, 9 weeks) was simulated in mesocosms containing an arable sandy-loam soil low in nutrients. The main treatments were (1) with and without flooding and (2) with and without maize residue addition (8 Mg ha−1). We monitored changes in soil chemical quality indicators (e.g. pH, salinity, Fe3+, P, C, NH4 +, NO3 − and organic N), greenhouse gas (GHG) emissions (CO2, CH4, N2O) and soil microbial community composition (PLFAs) during a prolonged flood period (9 weeks) and an 8-week “recovery” period after flooding. In comparison to the other treatments, flooding in the presence of crop residues resulted in a dramatic drop in soil redox potential. This was associated with the enhanced release of Fe and C into solution and an increase in CH4 emissions. In contrast, maize residues reduced potential nitrate losses and N2O emissions, possibly due to complete denitrification and microbial N immobilization. Both flooding and maize residues stimulated microbial growth and promoted a shift in microbial community composition. Following floodwater removal, most of the soil quality indicators returned to the levels of the control treatment within 5 weeks. After this short recovery phase, no major impact of flooding could be observed on plant growth (maize pot-grown). Overall, we conclude that both extreme flooding and management regime negatively impact upon a range of soil quality indicators (e.g. redox, GHG emissions); however, the soil showed high resilience and recovered quickly after floodwater removal. Further work is required to investigate the impact of repeated extreme flood events on soil quality and function over longer timescales.

KW - Iron

KW - Nitrogen mineralization

KW - Nutrient cycling

KW - Phosphorus

KW - Methane

KW - Nitrous oxide

KW - Waterlogging

U2 - 10.1007/s00374-017-1214-0

DO - 10.1007/s00374-017-1214-0

M3 - Article

VL - 53

SP - 751

EP - 765

JO - Biology and Fertility of Soils

JF - Biology and Fertility of Soils

SN - 0178-2762

IS - 7

ER -