Abstract:
Tea production in the Kenyan Ri Valley uses high rates of nitrogenous fertilizer. Nitrates can be discharged to water bodies
through leaching and surface run-off. Nitrate levels above 10 mg/L NO3−–N cause methemoglobinemia which is fatal. A study
to monitor changes in surface water nitrate levels was carried out in ten rivers within a Kenyan tea plantation for three years. Water
samples were obtained before and aer fertilizer application in 2004, 2005, and 2006. Nitrate-nitrogen (NO3−–N) was determined
colorimetrically by the cadmium reduction method using HACH-DR 2400 dataloging spectrophotometer. For the three years, the
highest nitrate-nitrogen levels were in river Temochewa in 2005 during the �rst fertilizer applications (4.9 mg/L to 8.2 mg/L). ere
was no established trend between surface water nitrate levels and the time of fertilizer applications; however, fertilizer application
contributed to an increase in nitrate levels. e initial nitrate-nitrogen levels in most of the rivers were high, indicating that
contamination could have been upstream; hence, further research is required to establish this. Nitrogen-nitrogen levels in the
three years were below the maximum contaminant level of 10 mg/L NO3−–N; however, the rivers should be monitored frequently
