Integrated Marine Information System (IMIS)

Data Policy
Persons | Institutes | Publications | Projects | Datasets
[ report an error in this record ]basket (1): add | show Print this page

one publication added to basket [224424]
Groundwater outflow and its linkage to coastal circulation in a mangrove-fringed creek in Kenya
Kitheka, J. U (1998). Groundwater outflow and its linkage to coastal circulation in a mangrove-fringed creek in Kenya. Est., Coast. and Shelf Sci. 47: 63-75
In: Estuarine, Coastal and Shelf Science. Academic Press: London; New York. ISSN 0272-7714; e-ISSN 1096-0015
Peer reviewed article  

Available in  Author 

Keywords
    Earth sciences > Geology > Hydrology
    ISW, Kenya, Mida Creek [Marine Regions]
Author keywords
    groundwater circulation, salinity anomalies, ebb- and flood tide currents, Kenya coast

Author  Top 
  • Kitheka, J. U

Abstract
    Research into groundwater outflow and tidal circulation was undertaken in a 32 km2 mangrove-fringed tropical creek in Kenya. The study involved measurement of the groundwater level, storage and outflow, tidal currents, salinity and temperature. The study shows that groundwater outflow in the creek occurs within the main tidal channels and is not restricted along the shoreline. Groundwater outflow is evidenced by: (1) the occurrence of vertical salinity anomalies; (2) ebb–flood tide salinity differences; (3) occurrence of groundwater in shallow wells a short distance from the mangroves; and (4) enormous groundwater recharge and storage in the Mida basin. Vertical salinity anomalies are characterized by the presence of a lens of low salinity water at the bottom water column and higher salinity at the surface. It is believed that this occurs since no major density differences develop despite vertical salinity differences of up to 1•58, possibly as a result of uniform distribution of water temperature vertically. In drought conditions, seepage reduces and hypersaline conditions (salinity in the range of 36•89 to 38•57) which mask groundwater outflow, develop in the backwater region as a result of intense evaporation and restricted circulation. The strong currents reaching 2•5 m s-1 occur in the frontwater zone and enhance the tidal flushing while lower currents <0•5 m s-1 occur in the backwater zone and promote trapping of water which thereby increase the residence time to 11 days. With flood currents being more dominant than ebb currents in the main creek channel, the seaward export of material derived from groundwater is limited.

All data in the Integrated Marine Information System (IMIS) is subject to the VLIZ privacy policy Top | Author 
[Back]