Short-term effects of olive mill by-products on soil organic carbon, total N, C:N ratio and stratification ratios in a Mediterranean olive grove

► Olive leaves and alperujo are valuable soil amendment agents and source of OM and TN. ► Agricultural recycling of olive mill by-products in olive grove soils is possible. ► SOC stratification ratio seems to be a good indicator of soil quality in this area. Olive grove soils in semi-arid Mediterran...

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Published in:Agriculture, ecosystems & environment ecosystems & environment, 2013-01, Vol.165, p.68-73
Main Authors: Lozano-García, B., Parras-Alcántara, L.
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Alperujo
Biological and medical sciences
Conventional tillage
Cropping systems. Cultivation. Soil tillage
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
Olea
Olive mill by-products
Soil C:N ratio
Soil organic matter
Soil tillage
Stratification ratio
Tillage. Tending. Growth control
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Summary:► Olive leaves and alperujo are valuable soil amendment agents and source of OM and TN. ► Agricultural recycling of olive mill by-products in olive grove soils is possible. ► SOC stratification ratio seems to be a good indicator of soil quality in this area. Olive grove soils in semi-arid Mediterranean areas are very poor in organic matter and are exposed to progressive degradation processes. Therefore, additions of the olive mill by-products as organic amendments can improve soil quality and hence mitigate the negative environmental and agronomic limitations of these soils. A field study was conducted to assess the short-term effects of two oil mill by-products [olive leaves and alperujo (a two-phase olive mill waste)] and determine soil organic carbon (SOC), total nitrogen (TN), the C:N ratio, and their stratification across the soil profile, in an area under Mediterranean conditions. The experimental design consisted on three large plots each spanning a 100m×100m area covered with unirrigated olive trees of the Picual variety less than 30 years old under conventional tillage (CT) in the province of Jaen (southern Spain). One of the plots (CT) was used as control plot and the other two were treated with alperujo (CTa) and olive leaves (CTol), respectively. Soil properties were assessed three years after the by-products were applied. Supplying the soil with the by-products increased C and N stocks. Thus, the SOC stock was 75.4Mgha−1 in CT, 91.5Mgha−1 in CTa and 136.3Mgha−1 in CTol; and the TN stock 12.1, 13.9 and 16.1Mgha−1 in CT, CTa and CTol, respectively. SOC, TN and the C:N ratio in the surface horizon were higher in the treated plots (viz. 18.5gCkg−1, 1.4gNkg−1 and 13.2:1 in CTa, and 84.1gCkg−1, 5.7gNkg−1 and 14.7:1 in CTol) than in the control plot (8.9gCkg−1, 0.9gNkg−1 and 9.8:1, respectively). In addition, application of the by-products improved soil quality (the stratification ratio, SR, for SOC was greater than 2). Oil mill by-products such as olive leaves and alperujo are thus potentially useful as soil amendments since they are effective sources of organic matter and nitrogen, improve soil quality and alleviate the environmental and agronomic limitations of Mediterranean agricultural soils, even those under using CT. In addition, the by-products can be recycled on site.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2012.12.007