Rational application of treated sewage sludge with urea increases GHG mitigation opportunities in Mediterranean soils

•After 20-years of TSS application to Mediterranean soils, soil enzyme activities and C and N contents are increased.•The studied doses of TSS induce GHG fluxes, change soil microbial structure and cause crop lodging.•The application of TSS with urea induces carbon sequestration and increases fertil...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2017-02, Vol.238, p.114-127
Main Authors: Calleja-Cervantes, M.E., Aparicio-Tejo, P.M., Villadas, P.J., Irigoyen, I., Irañeta, J., Fernández-González, A.J., Fernández-López, M., Menéndez, S.
Format: Article
Language:English
Subjects:
16s
Agrochemicals
Air pollution
Ammonium
Annual variations
Bacteria
Bacterial diversity
Biological activity
Carbon dioxide
Carbon sequestration
Communities
Community structure
Crops
Data processing
Denitrification
Deoxyribonucleic acid
DNA
Emissions
Emissions control
Enzymes
Erosion
Evaluation
Fertilization
Fertilizers
Gene sequencing
GHG emissions
Greenhouse effect
Greenhouse gases
Hydroxyapatite
Lodging
Mediterranean soils
Metabolism
Microbial activity
Mineral fertilizers
Mitigation
Nitrates
Nitrification
Nitrogen
Nucleotide sequence
Nutrients
Organic matter
Seasonal variations
Sewage sludge
Sewage treatment
Sludge
Sludge digestion
Soil amendment
Soil enzymes
Soil erosion
Soil microorganisms
Soil structure
Soils
Studies
Treated sewage
Urea
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Summary:•After 20-years of TSS application to Mediterranean soils, soil enzyme activities and C and N contents are increased.•The studied doses of TSS induce GHG fluxes, change soil microbial structure and cause crop lodging.•The application of TSS with urea induces carbon sequestration and increases fertility, whilst maintaining GHG emissions.•TSS application to soil is a viable option for waste recycling as long as doses remain rational. Mediterranean soils, which are carbonate-rich and organic matter-poor, are prone to erosion and important carbon losses due to seasonal changes associated with dry summers and wet winters. The use of thermophilic digested sewage sludge (TSS) in these agricultural systems, as a soil amendment, has been acknowledged as an interesting way to supply organic matter and nutrients. Data on the long-term evaluation of TSS applied to Mediterranean soils are scarce. Moreover, the effect of the application is unpredictable because of the intrinsic variation in the TSS. The scope of this study was to determine whether the continued application of TSS for 20 years leads to increased carbon sequestration in the soil without affecting emissions of greenhouse gases. To conduct this evaluation, the doses applied since 1992 have been as follows: 40tha−1 and 80tha−1 every year, and 40tha−1 every 3 years, plus annual mineral N fertilization depending on the crop. A control without TSS or mineral fertilization and a treatment with only mineral N fertilizer were also evaluated. In this case, urea was used as the mineral treatment. The TSS doses were applied annually in October, while the mineral was split into one dose around January and another in March. The chemical parameters, greenhouse gas emissions, nitrate and ammonium concentrations of the soil were measured during the crop cycle. The bacterial community and enzymes in the soil were surveyed 15days after the last annual application and at harvest. Fifteen days after fertilization with TSS and urea, nitrification and denitrification potentials were measured. The 80tha−1yr−1 dose yielded the most significant increase in total carbon, organic matter content, P2O5, and total nitrogen. This same treatment significantly increased GHG emissions for all gases concerned. Similar results were found in the 40tha−13yr−1 and urea for CO2 and CO2eq ha−1. TSS application increased soil enzyme activities. According to the microbial diversity results, 80% of the DNA sequences corresponded to 6 main phyla: (fr
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2016.09.021