Author:
Brearley Francis Q.,Mohd Salim Jamilah
Publisher
Springer Nature Switzerland
Reference19 articles.
1. Barkdull, N. M., Carling, G. T., Rey, K., & Yudiantoro, D. F. (2019). Comparison of mercury contamination in four Indonesian watersheds affected by artisanal and small-scale gold mining of varying scale. Water, Air and Soil Pollution, 230(9), 214.
2. Bishop, K., Shanley, J. B., Riscassi, A., et al. (2020). Recent advances in understanding and measurement of mercury in the environment: terrestrial Hg cycling. Science of the Total Environment, 721, 137647. https://doi.org/10.1016/j.scitotenv.2020.137647
3. Brearley, F. Q., Sellan, G., McKendry, D., Sumail, S., & van der Ent A. (2023). Soil mercury along an elevation gradient in northern Borneo. In A. Kallel, M. Barbieri, J. Rodrigo-Comino, H., et al. (Eds.), Selected studies in environmental geosciences and hydrogeosciences (pp. 99–102). Springer, Cham. https://doi.org/10.1007/978-3-031-43803-5_22
4. Dent, D., Bagchi, R., Robinson, D., Majalap-Lee, N., & Burslem, D. F. R. P. (2006). Nutrient fluxes via litterfall and leaf litter decomposition vary across a gradient of soil nutrient supply in a lowland tropical rain forest. Plant and Soil, 288(1–2), 197–215.
5. Fernández-Martínez, R., Loredo, J., Ordóñez, A., & Rucandio, I. (2014). Mercury availability by operationally defined fractionation in granulometric distributions of soils and mine wastes from an abandoned cinnabar mine. Environmental Science: Processes & Impacts, 16(5), 1069–1075.