Uncropped field margins to mitigate soil carbon losses in agricultural landscapes

•Woody margins had the largest soil carbon stocks while herbaceous margins had the smallest ones.•Woody margins increased soil carbon stocks of neighbouring crops.•Differences in litter quality and decomposition among margins accounted for variation in soil carbon stocks. Agricultural intensificatio...

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Veröffentlicht in:Agriculture, ecosystems & environment ecosystems & environment, 2014-01, Vol.183, p.60-68
Hauptverfasser: D’Acunto, Luciana, Semmartin, María, Ghersa, Claudio M.
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creator D’Acunto, Luciana
Semmartin, María
Ghersa, Claudio M.
description •Woody margins had the largest soil carbon stocks while herbaceous margins had the smallest ones.•Woody margins increased soil carbon stocks of neighbouring crops.•Differences in litter quality and decomposition among margins accounted for variation in soil carbon stocks. Agricultural intensification is a major cause of habitat transformation. Continuous cropping alters ecosystem services, such as biodiversity and carbon sequestration. Empirical evidence from agricultural lands in Argentina has shown that permanently vegetated areas imbedded in the agricultural matrix (uncropped margins) play a critical role in plant and animal communities compared to the usual situation of crops surrounded by other crops (cultivated margins). However, the potential impact of uncropped margins on their own carbon stocks and fluxes and on those of their neighbouring cropped fields remains unknown. We investigated the impact of uncropped (herbaceous and woody) and cropped margins (cultivated fields) on their own topsoil carbon stocks and fluxes and on those of their neighbouring croplands (soybean fields). We identified soybean fields adjacent to one of three possible margin types: herbaceous or woody permanent vegetation, and field crop, which acted as control because it is the most frequent situation in the region. In each of these margin–soybean pairs, we sampled transects from the margin towards the centre of the soybean field (50m). Woody margins showed the greatest soil carbon content, the least decomposable plant litter and the greatest influence on the neighbouring crop. Conversely, herbaceous margins had the lowest litter accumulation and the most decomposable litter. Only woody margins influenced soil properties in the first metres of the cropped neighbourhood. Centres of soybean fields were similar, irrespective of margin type. The decomposition of common substrates was not affected by margin type. These findings suggest that woody margins are the unique element of the current landscape with a potential to mitigate soil carbon loss from agroecosystems, albeit spatially limited. In contrast, the low biomass and highly decomposable litter of herbaceous margins reveal the urgent need to re-think their current management strategies.
doi_str_mv 10.1016/j.agee.2013.10.022
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We identified soybean fields adjacent to one of three possible margin types: herbaceous or woody permanent vegetation, and field crop, which acted as control because it is the most frequent situation in the region. In each of these margin–soybean pairs, we sampled transects from the margin towards the centre of the soybean field (50m). Woody margins showed the greatest soil carbon content, the least decomposable plant litter and the greatest influence on the neighbouring crop. Conversely, herbaceous margins had the lowest litter accumulation and the most decomposable litter. Only woody margins influenced soil properties in the first metres of the cropped neighbourhood. Centres of soybean fields were similar, irrespective of margin type. The decomposition of common substrates was not affected by margin type. 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subjects Agricultural intensification
Agronomy. Soil science and plant productions
Biological and medical sciences
Carbon
Crops
Decomposition
Farmlands
Field margins
Fundamental and applied biological sciences. Psychology
General agroecology
General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping
General agronomy. Plant production
Generalities. Agricultural and farming systems. Agricultural development
Litter
Neighbouring
Pampas
Soil (material)
Soil erosion, conservation, land management and development
Soil science
Soybeans
title Uncropped field margins to mitigate soil carbon losses in agricultural landscapes
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