| dc.description.abstract | Thiba River Basin provides vital resources and supports high levels of biodiversity.
However, human land use including agriculture has led to widespread water pollution,
habitat degradation and biodiversity loss, thereby jeopardizing both biodiversity and
ecosystem services. In order to meet increasing demand for clean water, sustainable use
and conservation of available water resources is therefore paramount. This study
assessed the effects of agricultural nutrients influx on water quality, Phytoplankters
diversity and fish biomass in Thiba River Basin for proper management and sustainable
utilization. The study area was stratified into three distinct agroecological zones based
on different anthropogenic activities. Ecological survey design was used in the study.
Sampling was done during the wet and dry seasons in seven stations. Water samples
were collected and analyzed for temperature, transparency, pH, electrical conductivity
(EC), salinity, total dissolved solutes (TDS) and dissolved oxygen (DO). Physical
parameters were measured in situ using a digital meter model YSI Professional plus,
USA. Biological oxygen demand (BOD) was determined using Winkler’s five days
method. Nutrients analysed were phosphates, nitrates, nitrites and ammonia. These
were analysed using standard procedures as outlined by Matsche and Kreuzinger
(2001). Identification of the algae was done using standard morphological
characterization. Determination of Phytoplankters abundance and diversity was done
using the Shannon-Weiner Diversity Index (H1
). The Body Condition Index of fish was
assessed using Fulton’s Condition Factor (K). The data was analyzed using computer
software SPSS version 22.0. The statistical tools used were Ronald Fisher’s One Way
Analysis of Variance (ANOVA) and Pearson’s correlation for the variables. Significant
differences were accepted at p≤0.05. All water parameters showed both spatial and
temporal variations with statistically significant differences (p˂0.01). Temperatures
ranged from 13.60C to 29.040C due to climatic changes along the agroecological zones.
The pH ranged from 7.24 to 7.46. Dissolved oxygen values ranged from 6.39 mg/l
(Ndindiruku) to 8.58 mg/l. (Kimunye). EC ranged from 21.25 µScm-1
at the reference
site during the wet season to 163.94 µScm-1
at the rice irrigation scheme site during dry
season. The pattern of TDS, Salinity and Turbidity values along the river was similar
to that of EC. The highest values of BOD (3.49 mg/l) were recorded at the rice irrigation
scheme during the wet season and the lowest (0.22 mg/l) at the reference site. There
was a high peak of all nutrient levels at the rice irrigation scheme zone which was
attributed to the extensive use of inorganic fertilizers. Microalgae from the divisions of
Chlorophyta, Cyanobacteria and Charophyta were present in the dam throughout the
year though with distinct difference in densities between the wet season when densities
were low and dry season when their densities were high. This indicates that distribution,
periodicity, diversity and abundance of microalgae are highly influenced by seasonal
variations in water physicochemical parameters. Toxic microalgae Genera identified
were Nostoc, Oscillatoria, Anabaena and Microcystis. Microcystis and Oscillatoria had
a very high positive correlation (r = 1.00). The mean K-Factors during the wet season
were 1.25, 1.89 and 0.70 for Common carp (Cyprinus carpio), Tilapia (Oreochromis
niloticus) and Catfish (Clarias gariepinus), respectively. During the dry season the K Factor increased to 1.42, 2.12 and 1.04, respectively probably due to high levels of
agricultural nutrients that increased primary productivity. This study concludes that
anthropogenic activities especially agriculture along the study site are the main factors
of Thiba River pollution hence a major threat to human, livestock and aquatic
organisms. Environmental protection laws should be enforced by the government. | en_US |
