Mwashote1, Benjamin M., and Isaac O. Jumba2

1Kenya Marine and Fisheries Research Institute, P. O. Box 81651 Mombasa, Kenya, Tel: +254-(0)11- 475153/4 & 472527, Cellular phone: +254-(0)733-752371, Fax: +254-(0)11-475157, E-mails: bmwashote@kmfri.co.ke, benmwashote@ilovejesus.net and 2Chemistry Department, University of Nairobi, P.O. Box 30197 Nairobi, Kenya

 

Quantitative aspects of inorganic nutrient fluxes in the Gazi Bay (Kenya): implications for coastal ecosystems

 

Fluxes of dissolved inorganic nutrients: NH4+, NO2-, NO3-, PO43- and Si(OH)4 from nearshore sediments of Gazi Bay were measured in situ within mangrove, seagrass and coral reef biotopes using benthic flux bell-jar chambers of cross-sectional area 0.066m2 and volume 0.0132m3. The objectives were: (1) to determine the influence of benthic fluxes, fluvial discharge and seasonal variations on the nutrient budget in the Bay waters; (2) to determine the effect of tidal and spatial variations on nutrient loads in the water column and (3) to establish the relative importance of the nutrient sources with regard to total community production of the Bay.

 

The directly measured fluxes ranged from -270 to +148 mmol NH4+-N/m2/h; -60 to +63 mmol NO2--N/m2/h; -79 to +41 mmol NO3--N/m2/h; -79 to +75 mmol PO43--P/m2/h and +30 to +350 mmol Si(OH)4-Si/m2/h for and respectively. It was established that benthic fluxes are the major sources of dissolved inorganic NH4+, NO2- and Si(OH)4 while fluvial sources are important for NO3- and PO43- into Gazi Bay waters. Seasonal variations had an appreciable effect on the PO43- fluxes, N:Si ratio, river nutrient discharge, plankton productivity and important environmental factors such as salinity and temperature. Tidal and spatial variations had no significant effect on nutrient concentrations and net fluxes within the water column. The results imply that benthic fluxes are largely responsible for the nutrient dynamics of the nearshore coastal ecosystems especially where direct terrestrial inputs do not contribute significantly to the nutrient budget.