ABSTRACT
An
increase in industrialization, urbanization, and the rising demand for food and
other essentials for human sustainability leads to a rise in the amount of
waste being generated daily by individuals, communities, and nations. In Abia
State, particularly at the central entrance into the city of Umuahia, generated
waste is thrown into open dump sites, causing a severe impact on soil, surface
and ground water qualities. As a result, it has become a probable source of
human health risk. Therefore, this study is aimed at assessing the effect of
solid waste dump sites on surrounding soil and water qualities in Umuwaya Road,
Umuahia, Abia State Nigeria. Three soil samples and three borehole water samples
were collected and analyzed at different points for the groundwater quality and
soil auger for the varying depths of 0-15cm, 15-30cm, 30-45cm respectively
labelled A, B, C and point D served as the control which was collected 1000m
away from the dumpsite. Heavy metals from soil and borehole water were measured
by using flame atomic absorption spectroscopy according to the method of APHA 1995.
The physicochemical properties of the soil and water samples were also
determined following standards. The data was analyzed using the descriptive
SPSS statistical package. The concentration of heavy metals in soil samples
revealed copper (0.01±0.00–0.26±0.07), cadmium (0.00±0.00–0.18±0.01), lead
(0.03±0.01–0.40±0.03), iron (0.06±0.01–0.58± 0.02) and zinc (0.02±0.01–0.20±
0.04). All the water parameters and heavy metals screened in the samples were
within the World Health Organization (WHO) and Nigeria Standard for Drinking
Water Quality (NSDWQ) permissible limits, respectively. More so, it was
observed from the result, that the concentration of the metals increased with
places closer to the dump especially during the dry season and were largely at
a reduced level with soil samples from the control site as well as the physical
properties of water showed that the ground water had more aggregate of sand,
followed by clay and then silt respectively. It is recommended that
indiscriminate waste disposal should be prohibited completely in the capital
city. Waste reduction, Recycling, Re-use and Sorting of all waste types should
be promoted by the citizens of the state for a sustainable future.
ONYEKWERE, O (2024). Assessment Of The Effects Of Solid Waste Dump Sites On Soil And Water Qualities Along Umuwaya Isi-Gate Road Axis, Umuahia, Abia State:- Onyekwere, Precious C.. Mouau.afribary.org: Retrieved Dec 25, 2024, from https://repository.mouau.edu.ng/work/view/assessment-of-the-effects-of-solid-waste-dump-sites-on-soil-and-water-qualities-along-umuwaya-isi-gate-road-axis-umuahia-abia-state-onyekwere-precious-c-7-2
ONYEKWERE, ONYEKWERE. "Assessment Of The Effects Of Solid Waste Dump Sites On Soil And Water Qualities Along Umuwaya Isi-Gate Road Axis, Umuahia, Abia State:- Onyekwere, Precious C." Mouau.afribary.org. Mouau.afribary.org, 23 Apr. 2024, https://repository.mouau.edu.ng/work/view/assessment-of-the-effects-of-solid-waste-dump-sites-on-soil-and-water-qualities-along-umuwaya-isi-gate-road-axis-umuahia-abia-state-onyekwere-precious-c-7-2. Accessed 25 Dec. 2024.
ONYEKWERE, ONYEKWERE. "Assessment Of The Effects Of Solid Waste Dump Sites On Soil And Water Qualities Along Umuwaya Isi-Gate Road Axis, Umuahia, Abia State:- Onyekwere, Precious C.". Mouau.afribary.org, Mouau.afribary.org, 23 Apr. 2024. Web. 25 Dec. 2024. < https://repository.mouau.edu.ng/work/view/assessment-of-the-effects-of-solid-waste-dump-sites-on-soil-and-water-qualities-along-umuwaya-isi-gate-road-axis-umuahia-abia-state-onyekwere-precious-c-7-2 >.
ONYEKWERE, ONYEKWERE. "Assessment Of The Effects Of Solid Waste Dump Sites On Soil And Water Qualities Along Umuwaya Isi-Gate Road Axis, Umuahia, Abia State:- Onyekwere, Precious C." Mouau.afribary.org (2024). Accessed 25 Dec. 2024. https://repository.mouau.edu.ng/work/view/assessment-of-the-effects-of-solid-waste-dump-sites-on-soil-and-water-qualities-along-umuwaya-isi-gate-road-axis-umuahia-abia-state-onyekwere-precious-c-7-2