Abstract
There is interest in using locally available, low cost organic materials to attenuate heavy metals such as Cd, Cr, Cu, Hg, Ni, Pb, and Zn found in surface waters in Peru and other developing regions. Here we mesh Spanish language publications, archived theses, and prior globally available literature to provide a tabulated synthesis of organic materials that hold promise for this application in the developing world. In total, nearly 200 materials were grouped into source categories such as algae and seashells, bacteria and fungi, terrestrial plant-derived materials, and other agricultural and processing materials. This curation was complemented by an assessment of removal potential that can serve as a resource for future studies. We also identified a subset of Peruvian materials that hold particular promise for further investigation, including seashell-based mixed media, fungal blends, lignocellulose-based substrates including sawdust, corn and rice husks, and food residuals including peels from potatoes and avocadoes. Many studies reported percent removal and/or lacked consistent protocols for solid to liquid ratios and defined aqueous concentrations, which limits direct application. However, they hold value as an initial screening methodology informed by local knowledge and insights that could enable adoption for agriculture and other non-potable water reuse applications. While underlying removal mechanisms were presumed to rely on sorptive processes, this should be confirmed in promising materials with subsequent experimentation to quantify active sites and capacities by generating sorption isotherms with a focus on environmental conditions and specific contaminated water properties (pH, temperature, ionic strength, etc.). These organics also hold promise for the pairing of sorption to indirect microbial respiratory processes such as biogenic sulfide complexation. Conversely, there is a need to quantify unwanted contaminant release that could include soluble organic matter and nutrients. In addition to local availability and treatment efficacy, social, technical, economic, and environmental applicability of those materials for large-scale application must be considered to further refine material selection.
Highlights
Heavy metals impair water supplies globally (e.g., [1])
Our analysis focused on treatment technologies and efficiencies related to the removal of the following heavy metals: cadmium, copper, mercury, manganese, nickel, lead, and zinc
We identified 36 studies from southern Peru published within the time period considered, in which 29 new organic materials were assessed for the removal of heavy metals
Summary
Heavy metals impair water supplies globally (e.g., [1]). Heavy metals are a group of elements with high density (generally greater than 6 g/cm3 ) [2] including Cd, Cr, Cu, Hg, Ni, Pb, and Zn. Social, technological, and economic barriers hinder adequate water treatment needed to protect human and ecological health [35] To this end, this literature-based synthesis and tabulation of materials focuses on combining results of studies conducted with organic materials in southern Peru (Arequipa region) with others from developing countries. This literature-based synthesis and tabulation of materials focuses on combining results of studies conducted with organic materials in southern Peru (Arequipa region) with others from developing countries In addition to those available in peer-reviewed English-language literature, we curated and contextualized local findings, many of them in Spanish, including theses housed at the Universidad Nacional de San Agustín de Arequipa (UNSA), other local universities, and federal reports from the Autoridad Nacional del Agua (ANA). This approach enabled us to synthesize what has been learned about the potential application of locally available and inexpensive materials for heavy metal attenuation, curate these studies based on material class and treatment promise and identify a subset of these materials for further study and application
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