Abstract
Waste from stone and aggregate quarrying industry represents a serious environmental and economic problem in view of the difficulties related to its disposal, especially of the finest fraction. Although some attempts have been made to investigate possible reuse of these materials, little is known about their potential as components of a cultivation substrate. Their low physical and chemical fertility require the mixing with other materials to improve the general properties. The aim of this study was to evaluate if such a prospect product can be employed within the quarry for its environmental rehabilitation. Samples from gangue saw with abrasive shot (GSS), from diamond frame saw (DSS), and mixed sludge (MS)—from gangue and DSS—were collected and mixed with compost, green manure, and soil material. The resulting mixtures were further composted, distributed on parcels within the quarry area and sowed. The original materials and the mixtures were analyzed for metals and hydrocarbons (TPH) and for their phytotoxicity. The parcels were sampled and analyzed after 8 years. The results show that mixing with foreign materials can improve the overall quality and fertility of the sludge and that the mixture is not phytotoxic. Most metals concentrations decreased on mixing and further diminished after 8 years. TPH content was drastically reduced and fertility parameters tend toward equilibrium. This indicates that the residual sludge can be employed for quarrying rehabilitation after improvement of its fertility and of its environmental quality.
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References
Anonymous (2013) Stone Sector. Ed. Internazionale Marmi e Macchine Carrara. pp. 96. http://issuu.com/thetis/docs/stone_sector_2013?e=2145441/5284009. Accessed 15 July 2014
ASTM Standard D421–85 (2007) Standard practice for dry preparation of soil samples for particle-size analysis and determination of soil constants. ASTM International, West Conshohocken. doi:10.1520/D0421-85R07
ASTM Standard D422–63 (2007) Standard test method for particle-size analysis of soils. ASTM International, West Conshohocken. doi:10.1520/D0422-63R07
Balint R, Nechifor G, Ajmone-Marsan F (2014) Leaching potential of heavy metals from contaminated soils under anoxia. Environ Sci Process Impacts 16:211–219
Barisone G, Bottino G, Coccolo V, Compagnoni R, Del Greco O, Mastrangelo F, Sandrone R, Zucchetti S (1979) Il bacino estrattivo della “Pietra di Luserna” (Alpi Cozie). Atti del Convegno su “La Pietra di Luserna”, Luserna San Giovanni, 15 luglio 1979, 11–26 e Not. Ass. Mineraria Subalpina, 5 (3–4), 35–50
Barrientos V, Delgado J, Navarro V, Juncosa R, Falcón I, Vázquez A (2010) Characterization and geochemical–geotechnical properties of granite sawdust produced by the dimension stone industry of O Porriño (Pontevedra, Spain). Q J Eng Geol Hydrogeol 43:141–155
Bending NAD, McRae SG, Moffat AJ (1999) Soil forming materials: their use in land reclamation. The Stationery Office, London, p 237
Bonoli A, Dall’Ara A (2012) A bioremediation case of an ex-quarry area restored by paper sludge. J Biotechnol 157:499–504
Brodckom F (2001) Codice di buona pratica ambientale nell’industria estrattiva europea. Edizioni PEI srl., Parma, pp. 120
Burragato F, Mecella G, Scandella P (1999) Waste muds from processing of the siliceous sands from Priverno: potential use for environmental rehabilitation. 2nd National Congress “Valorisation and recycling of industrial wastes”. L’Aquila, 5–8 July 1999
Castillejo JM, Castello R (2010) Influence of the application rate of an organic amendment (Municipal Solid Waste (MSW) Compost) on gypsum quarry rehabilitation in semiarid environments. Arid Land Research and Management 24:344–364. doi:10.1080/15324982.2010.502920 (ISSN: 1532-4982 print/1532-4990 on line)
Ceruti F (2013) Il settore estrattivo in Italia. Analisi e valutazione delle strategie competitive per lo sviluppo sostenibile. (Doctoral Thesis, Università degli Studi di Milano-Bicocca, 2013). http://hdl.handle.net/10281/41871
Dino GA (2004) La gestione degli scarti dell’industria dei lapidei. (Doctoral Thesis, DIGET – Politecnico di Torino, 4 giugno 2004). pp. 222
Dino GA, Fiora L, Fornaro M, Gambelli E, Sandrone R (2003) Sludge production and management in the Italian Granite Stone Industry: an example from two granite basins in the Alps. In: Erdogan Y (ed) “Industrial Minerals and Building Stones” Congress, IMBS 2003, Istanbul, 15–18 September 2003, pp 147–158
Dino GA, Fornaro M, Corio E, Fornaro E (2006) Residual sludge management: a possible reuse as loam. The 10th IAEG Congress. Engineering geology for tomorrow’s cities, Nottingham, 6–10 September 2006. paper number 600, pp. 10
Dino GA, Fornaro M, Passarella I (2012) Innovative treatment and valorisation of waste coming from dimensional stones working plants: Piedmont samples. 4th International Conference on Engineering for Waste and Biomass Valorisation, Porto, September 10–13, 2012. pp. 6. In Congess Procedia (CD ROM)
Dino GA, Clemente P, Lasagna M, De Luca DA (2013) Residual sludge from dimension stones: characterisation for their exploitation in civil and environmental applications. Energy Procedia 40:507–514. doi:10.1016/j.egypro.2013.08.058
ISO 10381–1,2:2002 Soil quality—Sampling
ISO 10694:1995 Soil quality—Determination of organic and total carbon after dry combustion (elementary analysis)
ISO 13878:1998 Soil quality—Determination of total nitrogen content by dry combustion (elemental analysis)
ISO 16703:2004 Soil quality—Determination of content of hydrocarbon in the range C10 to C40 by gas chromatography
Luodes H, Kauppila PM, Luodes N, Aatos S, Kallioinen J, Luukkanen S, Aalto J (2012) Characteristics and the environmental acceptability of the natural stone quarrying waste rocks. Bull Eng Geol Environ 71:257–261. doi:10.1007/s10064-011-0398-z
Milgrom T (2008) Environmental aspects of rehabilitating abandoned quarries: Israel as a case study. Landsc Urban Plan 87:172–179
Ministero dell’Ambiente (2006) Norme in materia ambientale. Decreto Legislativo 3 aprile 2006, n. 152. Published in the Gazzetta Ufficiale n. 88 del 14 aprile 2006—Supplemento Ordinario n. 96
Mipaf—Ministero per le Politiche Agricole e Forestali (1999) Metodi ufficiali di analisi chimica del suolo. DM del 13/09/99, Gazzetta Ufficiale n. 248 del 21 Oct 1999
Neri AC, Sanchez LE (2010) A procedure to evaluate environmental rehabilitation in limestone quarries. J Environ Manage 91:2225–2237
Rauret G, López-Sánchez JF, Sahuquillo A, Rubio R, Davidson CM, Ure A, Quevauviller Ph (1999) Improvement of the BCR three step sequential extraction procedure prior to the certification of new sediment and soil reference materials. J Environ Monit 1:57–61
Reimann C, Flem B, Arnoldussen A, Englmaier P, Finne TE, Koller F, Nordgulen Ø (2008) The biosphere: A homogeniser of Pb-isotope signals. Appl Geochem 23(4):705–722
Sandrone R, Barla G, Bianco G, Compagnoni R, Giani GP (1982) Planning of quarrying operations in the “Pietra di Luserna” basin (Western Italian Alps). Proceedings 4th International Congress I.A.E.G., New Delhi, 10–15 December 1982, 1: 413–424
Sandrone R, Cadoppi P, Sacchi R, Vialon P (1993) The Dora-Maira Massif. In: von Raumer JF, Neubauer F (eds) Pre-Mesozoic geology in the Alps. Springer, Berlin, pp 317–325
Sandrone R, Alciati L, De Rossi A, Fiora L, Radicci MT (2000) Estrazione, lavorazione e impieghi della Pietra di Luserna. In: Proceedings “Quarry-Laboratory-Monument” International Congress, Pavia, 2: 41–49
Sivrikaya O, Kıyıldı KR, Karaca Z (2014) Recycling waste from natural stone processing plants to stabilise clayey soil. Environ Earth Sci 71:4397–4407
Sort X, Alcañiz JM (1996) Contribution of sewage sludge to erosion control in the rehabilitation of limestone quarries. Land Degrad Dev 7:69–76
Vialon P (1966) Etude géologique du Massif Cristallin Dora-Maira (Alpes Cottiennes internes, Italie), Trav Lab Géol Grenoble Mém, 4: 293
Acknowledgments
The ACEA Pinerolese company, Pinerolo (TO) is gratefully acknowledged for providing the MSW compost and the facility for conducting the preparation of the mixes. The collaboration of the Reviplant nursery, CORIVER branch, Moncalieri-(TO), with the germination and yield tests is also acknowledged. We are grateful to Prof. M. Fornaro, Eng. E. Fornaro and Eng. E. Corio for their precious help throughout the study.
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Dino, G.A., Passarella, I. & Ajmone-Marsan, F. Quarry rehabilitation employing treated residual sludge from dimension stone working plant. Environ Earth Sci 73, 7157–7164 (2015). https://doi.org/10.1007/s12665-014-3895-0
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DOI: https://doi.org/10.1007/s12665-014-3895-0