Structural changes in humic substances after long-term fertilization of a calcareous soil with pig slurries |
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| Authors: | Diana E Jiménez-de-Santiago Gonzalo Almendros Àngela D Bosch-Serra |
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| Institution: | 1. Department of Environment, Soil Sciences and Chemistry, University of Lleida, Lleida, Spain;2. Biogeochemistry and Microbial Ecology Department, National Museum of Natural History (MNCN, CSIC), Madrid, Spain |
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| Abstract: | Pig slurries are widely used on calcareous soils in European rainfed systems. Here we assess their impact on the amount of soil organic carbon (SOC) and on the composition of humic-type substances (HTS). Seven doses of slurry (five from fattening pigs and two from sows) ranging from 1.0 to 4.8 Mg ha?1 yr?1 of organic matter were evaluated after a period of 12 years and compared with mineral fertilizer treatment. At the end of the last annual cropping season (September), SOC was quantified, and HTS were isolated by alkaline extraction followed by acid precipitation, and studied by visible spectroscopy (800–400 nm) and Fourier-transformed infrared spectroscopy (4000–400 cm?1). Following the trend in the slurry organic matter applied rates, SOC increased from 9.5 g C kg?1 (mineral treatment) to 13.8 g C kg?1. This SOC increase was equivalent to c. 25.4% of the slurry organic carbon applied. The incorporation of aliphatic structures, mainly polyalkyl, from slurries into the HTS tends to modify the composition of the soil organic matter (SOM), which is reflected in a decrease in the intensity of FT-IR peaks related to aromatic structures. Despite the trend of significant increase in SOC with fattening slurries, mainly from the organic matter rate of 1.6 Mg ha?1 yr?1 (c. 185 kg N ha?1), the composition of the HTS showed an important aliphatic enhancement. The FTIR results showed that using exclusively the relative intensities of specific peaks (alkyl, carboxyl, aromatic and amide groups) as variables for the discriminant analysis, it is possible to identify HA between different groups of soils treated with progressive levels of slurry. Although the new aliphatic components could be considered important to improve soil physical quality, after the incorporation of additional SOM, the spectroscopic characteristics of HTS in soils treated with slurries suggested a weak effect in long-term C sequestration, as the newly incorporated OC forms are not qualitatively similar to the presumably stable native SOM. These potential changes in SOC and SOM composition at field level are constrained by the maximum allowed N rates from organic origin in some agricultural systems. |
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| Keywords: | aliphatic compounds Fourier-transformed infrared spectroscopy organic fertilizers soil organic matter |
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