Schofield, H.K., Pettitt, Timothy, Tappin, A.D., Rollinson, G.K. and Fitzsimons, M.F. (2018) Does Carbon Limitation Reduce Nitrogen Retention in Soil? Environmental Chemistry Letters, 16 (2). pp. 623-630. ISSN 1610-3653 Online: 1610-3661
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Abstract
Artificial soils made from waste materials offer an alternative to imported natural topsoils, notably in large-scale groundwork and reclamation projects. Benefits include diversion of waste from landfill and recycling. Nonetheless, there is limited information on the characteristics needed to support plant growth in the long term, particularly the existence of a sustainable nitrogen reservoir. Therefore, we assessed the efficacy of nitrogen cycling and retention within an artificial soil composed of 25 sand, 10 clay, 32.5 composted bark and 32.5 composted green waste over 52 weeks. Leachate was analysed for nitrogen species and nitrogen concentrations, and two of the soil columns had fertiliser added after 26 and 48 weeks. Results show that nitrate concentrations decreased from 6.73 to 0.36 mg N L−1 after 2 weeks, due to poor retention of this anion in soil, and remained low for 6 months, before increasing up to 5.87 mg N L−1 after week 26. This sharp increase in dissolved nitrate was preceded by a decrease in the ratio of dissolved organic carbon to dissolved organic nitrogen in the soil leachate. This finding indicates that the soil had become carbon-limited, leading to mineralisation of organic nitrogen by soil organisms and excretion of nitrogen. We also found that fertilisation of the soil did not alleviate carbon limitation and nitrogen loss was greater in fertilised soils, indicating nitrogen saturation. After the onset of carbon limitation, the dissolved nitrate concentrations in both the fertilised and unfertilised soils were close to exceeding the European Union threshold of concern for nitrate groundwater and river pollution. Thus, while the deployment of artificial soils is a viable option for landscaping projects, loss of nitrogen may be environmentally significant and soil management protocols must take account of both the carbon and nitrogen status of the substrate. © 2017 Springer International Publishing AG, part of Springer Nature
Item Type: | Article |
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Additional Information: | Staff and students at the University of Worcester can access the full-text via the UW online library search. External users should check availability with their local library or Interlibrary Requests Service. The final publication is available at Springer via http://dx.doi.org/10.1007%2Fs10311-017-0700-9 |
Uncontrolled Discrete Keywords: | artificial soil, nitrogen, nitrate, orgarnic nitrogen, carbon limitation, fertilisation |
Subjects: | Q Science > Q Science (General) Q Science > QD Chemistry |
Divisions: | College of Health, Life and Environmental Sciences > School of Science and the Environment |
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Depositing User: | Karol Kosinski |
Date Deposited: | 17 Jan 2018 09:50 |
Last Modified: | 10 Sep 2020 12:58 |
URI: | https://eprints.worc.ac.uk/id/eprint/6301 |
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