Carbon dioxide emissions from semi-arid soils amended with biochar alone or combined with mineral and organic fertilizers.
Title | Carbon dioxide emissions from semi-arid soils amended with biochar alone or combined with mineral and organic fertilizers. |
Publication Type | Journal Article |
Year of Publication | 2014 |
Authors | Fernández, J. M., M. Nieto A., López-de-Sá E. G., Gascó G., Méndez A., & Plaza C. |
Journal | The Science of the total environment |
Volume | 482-483C |
Pagination | 1 - 7 |
Date Published | 2014/// |
Keywords | Biochar, Carbonates, Inorganic C, Mineral fertilizer, Organic amendment, Soil organic matter |
Abstract | Semi-arid soils cover a significant area of Earth's land surface and typically contain large amounts of inorganic C. Determining the effects of biochar additions on CO2 emissions from semi-arid soils is therefore essential for evaluating the potential of biochar as a climate change mitigation strategy. Here, we measured the CO2 that evolved from semi-arid calcareous soils amended with biochar at rates of 0 and 20tha(-1) in a full factorial combination with three different fertilizers (mineral fertilizer, municipal solid waste compost, and sewage sludge) applied at four rates (equivalent to 0, 75, 150, and 225kg potentially available Nha(-1)) during 182days of aerobic incubation. A double exponential model, which describes cumulative CO2 emissions from two active soil C compartments with different turnover rates (one relatively stable and the other more labile), was found to fit very well all the experimental datasets. In general, the organic fertilizers increased the size and decomposition rate of the stable and labile soil C pools. In contrast, biochar addition had no effects on any of the double exponential model parameters and did not interact with the effects ascribed to the type and rate of fertilizer. After 182days of incubation, soil organic and microbial biomass C contents tended to increase with increasing the application rates of organic fertilizer, especially of compost, whereas increasing the rate of mineral fertilizer tended to suppress microbial biomass. Biochar was found to increase both organic and inorganic C contents in soil and not to interact with the effects of type and rate of fertilizer on C fractions. As a whole, our results suggest that the use of biochar as enhancer of semi-arid soils, either alone or combined with mineral and organic fertilizers, is unlikely to increase abiotic and biotic soil CO2 emissions. |
URL | http://dx.doi.org/10.1016/j.scitotenv.2014.02.103http://www.sciencedirect.com/science/article/pii/S0048969714002861 |