*Review* **Potential Use of Biochar in Pit Latrines as a Faecal Sludge Management Strategy to Reduce Water Resource Contaminations: A Review**

**Matthew Mamera 1,\*, Johan J. van Tol 1, Makhosazana P. Aghoghovwia 1, Alfredo B. J. C. Nhantumbo 2, Lydia M. Chabala 3, Armindo Cambule 2, Hendrix Chalwe 3, Jeronimo C. Mufume <sup>4</sup> and Rogerio B. A. Rafael <sup>2</sup>**


**Abstract:** Faecal sludge management (FSM) in most developing countries is still insufficient. Sanitation challenges within the sub-Saharan region have led to recurring epidemics of water- and sanitation-related diseases. The use of pit latrines has been recognised as an option for on-site sanitation purposes. However, there is also concern that pit latrine leachates may cause harm to human and ecological health. Integrated approaches for improved access to water and sanitation through proper faecal sludge management are needed to address these issues. Biochar a carbon-rich adsorbent produced from any organic biomass when integrated with soil can potentially reduce contamination. The incorporation of biochar in FSM studies has numerous benefits in the control of prospective contaminants (i.e., heavy metals and inorganic and organic pollutants). This review paper evaluated the potential use of biochar in FSM. It was shown from the reviewed articles that biochar is a viable option for faecal sludge management because of its ability to bind contaminants. Challenges and possible sustainable ways to incorporate biochar in pit latrine sludge management were also illustrated. Biochar use as a low-cost adsorbent in wastewater contaminant mitigation can improve the quality of water resources. Biochar-amended sludge can also be repurposed as a useful economical by-product.

**Keywords:** biochar; contaminants; pit latrines; sludge management; sustainable soil conditioner; water quality
