Author(s)

Hadji D. S. Kallon^1,2,3*, Lamin R. Mansaray⁴, Misbah Fida², Pratap Sundar Shrestha²

¹Institute of Environmental Management and Quality Control, Njala University, Njala, Sierra Leone.
²School of Water and Environment, Chang’an University, Xi’an, China.
³Quality Control Laboratory of Njala University, Njala, Sierra Leone.
⁴Department of Surveys and Geo-Informatics, School of Environmental Sciences, Njala University, Njala, Sierra Leone.

Artificial fishponds play a pivotal role in global aquaculture, serving as a source of livelihood and nourishment for many communities. Ensuring the sustained health and productivity of Fishes in these environments relies heavily on water quality management. This assessment was done to determine the water quality of ten artificial fishponds in the south-eastern part of Sierra Leone using twelve physicochemical factors (pH, BOD, EC, TDS, turbidity, COD, Fe²⁺, Mg²⁺, Ca²⁺, NH₃, , and alkalinity) to find out the Water Quality Index (WQI) and spatial distribution of respective parameters. The assessment of artificial fishponds using WQI and Inverse Distant Weighting (IDW) integration represents a relatively underexplored area within the domain of environmental water resources. The WQI was determined using the “Weighted Arithmetic Water Quality Index’’ method. The results of WQI in the study area range from 65.05 to 147.26. Several locations have water quality deemed unsuitable for consumption, while others range from good to very poor. It is essential to address and improve water quality in locations categorized as unsuitable for consumption and very poor to ensure safe and healthy water sources. It was also clear from the calculation that the smaller the mean concentration value of the pH as compared to the ideal value (7), the smaller the WQI value and the better the water quality. To keep the artificial fishpond water in good condition, mass domestic use should be controlled, and draining of surrounding organic matter should be stopped in ponds Bo_001, Kenema_001, and Kenema_002.

Physicochemical Parameters, Water Quality Index, WQI-“Weighted Arithmetic Index Method”

Kallon, H. , Mansaray, L. , Fida, M. and Shrestha, P. (2024) Integrated Analysis of Water Quality in Artificial Fishponds Using WQI and GIS in South-East Sierra Leone. Journal of Geoscience and Environment Protection, 12, 145-163. doi: 10.4236/gep.2024.121010.