References

1. F.A. Nicholson, S.R. Smith, B.J. Alloway, C. Carlton-Smith, B.J. Chambers, An inventory of heavy metal inputs to agricultural soils in England and Wales, Sci. Total Environ., 311 (2003) 205–219.
2. D.R. Smith, P.R. Owens, A.B. Leytem, E.A. Warnemuende, Nutrient losses from manure and fertilizer applications as impacted by time to first runoff event, Environ. Pollut., 147 (2007) 131–137.
3. P. Weiland, Biomass digestion in agriculture: a successful pathway for the energy production and waste treatment in Germany, Eng. Life. Sci., 6 (2006) 302–309.
4. S. Sakar, K. Yetilmezsoy, E. Kocak, Anaerobic digestion technology in poultry and livestock waste treatment-a literature review, Waste Manage. Res., 27 (2009) 13–18.
5. R. Moral, M.D. Perez-Murcia, A. Perez-Espinosa, J. Moreno-Caselles, C. Paredes, B. Rufete, Salinity, organic content, micronutrients and heavy metals in pig slurries from South-eastern Spain, Waste Manage., 28 (2008) 367–371.
6. M. Chen, Y.S. Cui, A review on the resource and bioavailability of heavy metals in biogas fertilizer from the manure of livestock, Chinese J. Soil Sci., 43 (2012) 249–256.
7. L.X. Yao, L.X. Huang, Z.Y. Jiang, Z.H. He, C.M. Zhou, G.L. Li, Investigation of As, Cu and Zn species and concentrations in animal feeds, Environ. Sci., 34 (2013) 732–740.
8. L. Cang, Y.J. Wang, D.M. Zhou, Y.H. Dong, Heavy metals pollution in poultry and livestock feeds and manures under intensive farming in Jiangsu Province, China. J. Environ. Sci. China, 16 (2004) 371–374.
9. F.A. Nicholson, B.J. Chambers, J.R. Williams, R.J. Unwin, Heavy metal contents of livestock feeds and animal manures in England and Wales, Bioresour. Technol., 70 (1999) 23–31.
10. F.S. Zhang, Y.X. Li, M. Yang, W. Li, Content of heavy metals in animal feeds and manures from farms of different scales in northeast china, J. Environ. Res. Public Health Int., 9 (2012) 2658–2668.
11. X. Xiong, Y.X. Li, W. Li, C.Y. Lin, W. Han, M. Yang, Copper content in animal manures and potential risk of soil copper pollution with animal manure use in agriculture, Resour. Conserv. Recycl., 54 (2010) 985–990.
12. C. Lopes, M. Herva, A. Franco-Uría, E. Roca, Inventory of heavy metal content in organic waste applied as fertilizer in agriculture: evaluating the risk of transfer into the food chain, Environ. Sci. Pollut. Res. Int., 18 (2011) 918–939.
13. Q. Zhang, L. Zhang, W. Sang, W. Cheng, Chemical speciation of heavy metals in excess sludge treatment by thermal hydrolysis and anaerobic digestion process, Desal. Wat. Treat., 57 (2016) 12770–12776.
14. J.C. Shi, X.L. Yu, M.K. Zhang, S. Lu, W. Wu, J. Wu, J. Xu, Potential risks of Copper, zinc, and cadmium pollution due to pig manure application in a soil–rice system under intensive farming: a case study of Nanhu, China. J. Environ. Qual., 40 (2011) 1695–1704.
15. C.E. Marcato, E. Pinelli, P. Pouech, P. Winterton, M. Guiresse, Particle size and metal distributions in anaerobically digested pig slurry, Bioresour. Technol., 99 (2008) 2340–2348.
16. H.M. Jin, Z.Z. Chang, Distribution of heavy metal contents and chemical fractions in anaerobically digested manure slurry, Appl. Biochem. Biotechnol., 164 (2011) 268–282.
17. N.M. Zhu, Q. Li, X.J. Guo, H. Zhang, Y. Deng, Sequential extraction of anaerobic digestate sludge for the determination of partitioning of heavy metals, Ecotoxicol. Environ. Saf., 102 (2014) 18–24.
18. A. Cestonaro Amaral, A. Kunz, R.L. Radis Steinmetz, K.C. Justi, Zinc and copper distribution in swine wastewater treated by anaerobic digestion, J. Environ. Manage., 141 (2014) 132–137.
19. P.M. Thanh, B. Ketheesan, Y. Zhouz, D. Stuckey, Trace metal speciation and bioavailability in anaerobic digestion: a review, Biotechnol. Adv., 34 (2015) 122–136.
20. C.E. Marcato, E. Pinelli, M. Cecchi, P. Winterton, M. Guiresse, Bioavailability of Cu and Zn in raw and anaerobically digested pig slurry, Ecotox. Environ. Safe, 72 (2009) 1538–1544.
21. N. Bolan, D. Adriano, S. Mahimairaja, Distribution and bioavailability of trace elements livestock and poultry manure by-products, Crit. Rev. Environ. Sci. Technol., 34 (2004) 291–338.
22. H.M. Jin, Z.Z. Chang, X.M. Ye, Y. Ma, J. Zhu, Physical and chemical characteristics of anaerobically digested slurry from large-scale biogas project in Jiangsu Province. Trans. CSAE, 27 (2011) 291–296.
23. P. Kelderman, A.A. Osman, Effect of redox potential on heavy metal binding forms in polluted canal sediments in Delft (The Netherlands), Water Res., 41 (2007) 4251–4261.
24. F. Zeng, S.L. Huo, B.D. Xi, F.Y. Zan, X. Hu, M.X. Li, Characteristics variations of dissolved organic matter from digested piggery wastewater treatment process, Environ. Sci., 32 (2011) 1687–1695.
25. H.B. Moller, S.G. Sommer, B.K. Ahring, Separation efficiency and particle size distribution in relation to manure type and storage conditions, Bioresour. Technol., 85 (2002) 189–196.
26. O. Popovic, S.L. Jensen, Storage temperature affects distribution of carbon, VFA, ammonia, phosphorus, copper and zinc in raw pig slurry and its separated liquid fraction, Water Res., 46 (2012) 3849–3858.
27. X.G. Liu, B. Dong, L.L. Dai, X.H. Dai, Analysis of chemical speciation and bioavailability of heavy metals in waste activated sludge during anaerobic digestion, J. Agro-Environ. Sci., 31 (2012) 1630–1638.
28. L. Masse, D.I. Massé, V. Beaudette, M. Muir, Size distribution and composition of particles in raw and anaerobically digested swine manure, Trans. ASAE, 48 (2005) 1943−1949.
29. W. Rámirez, X. Domene, O. Ortiz, J.M. Alcañiz, Toxic effects of digested, composted and thermally-dried sewage sludge on three plants, Bioresour. Technol., 99 (2008) 7168–7175.
30. L. Da˛browska, A. Rosin´ska, Change of PCBs and forms of heavy metals in sewage sludge during thermophilic anaerobic digestion, Chemosphere, 88 (2012) 168–173.