Impact of pollution on the feeding, bioturbation and biomass of Uca annulipesin Gazi and Mikindani mangroves, Kenya

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dc.contributor.author Owuor, Margaret A.
dc.contributor.author Aloo-obudho, Peninna
dc.contributor.author Cannicci, Stefano
dc.contributor.author Gitundu, James K.
dc.date.accessioned 2019-05-22T08:36:50Z
dc.date.available 2019-05-22T08:36:50Z
dc.date.issued 2017-12
dc.identifier.citation Ocean life, Volume 1, Number 2, December 2017, Pages: 61-68 en_US
dc.identifier.issn 2580-4529
dc.identifier.uri https://smujo.id/ol/article/view/3287/2686
dc.identifier.uri http://repository.seku.ac.ke/handle/123456789/4450
dc.description DOI: 10.13057/oceanlife/o010204 en_US
dc.description.abstract Impact of pollutionon the feeding, bioturbation and biomass of Uca annulipes in Gazi and Mikindani mangroves, Kenya.Ocean Life 1: 61-68. Marine pollution is one of the main anthropogenic factors globally recognized that affect the estuarine and coastal ecosystems. Mangroves received the pollutant since they are intercepting between land and ocean.Despite the utilization of natural mangrove as pollution buffers, how these pollutants might impact the biodiversity of the ecosystems remains agreat question. Here, we aimed at determining the impact of pollution on the feeding, bioturbation, and biomass of the fiddler crab Uca annulipesin two regions, Gazi and Mikindani, all along the Kenya Coast. The mangroves in Mikindani on Tudor creek represented peri-urban mangroves that are heavily impacted by municipal wastewater. Meanwhile, the mangroves in Gazi Bay in the South Coast of Kenya served mangroves not affected by direct sewage input. Furthermore, Crabs U. annulipesare one of the most important groups of mangrove epifauna. We adopted a stratified nested design to investigate the impacts of pollution on the feeding, bioturbation, and biomass of U. annulipes. We applied a layered random sampling approach at each site that spanned in 2 × 2 m2quadrats in desert and Avicenniazones during July, August and October 2005. The data collection depended on each full moon springs and new moon springs. Different parameters were measured, chlorophyll a(Chl a) concentrations in the feeding pellets and unprocessed soils, amount of bioturbated clays(expressed as dry weight of excavated material and feeding pellets), and biomass(dry weight) of U. annulipes. Four-factor Analysis of Variance(ANOVA) tests were applied to determine whether there was a significant difference in feeding, bioturbation, and biomass of U. annulipeswithin the two sites. Our findings show substantial differences inchlorophyllaconcentration in the feeding pellets in the Avicenniazone of the peri-urban mangroves. Moreoverchlorophyllalevel did not vary between theprocessed and unprocessed soils in the Avicenniazone. In Gazi, a significant difference in the bioturbated material was recorded compared to Mikindani. The results demonstrate a consistent increase in crab biomass at the peri-urban site, then the non-urban mangroves. The Avicenniazone of the suburban location had a higher U. annulipesbiomass compared to the non-urban Gazi. There was no association between the mass of bioturbated material and Uca biomass. The results also show that the amount of excavated material did not relate to the Uca biomass. en_US
dc.language.iso en en_US
dc.subject Biomass en_US
dc.subject bioturbation en_US
dc.subject feeding en_US
dc.subject fiddler crab en_US
dc.subject pollution en_US
dc.subject Uca annulipes en_US
dc.title Impact of pollution on the feeding, bioturbation and biomass of Uca annulipesin Gazi and Mikindani mangroves, Kenya en_US
dc.type Article en_US


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