Title: Functional role of microarthropods in nutrient cycling of mangrove-estuarine ecosystem of Midnapore coast of West Bengal, India
Authors: M.K. Dey, A.K. Hazra, S.K. Chakraborty
Addresses: Zoological Survey of India, Apterygota section, 'M' Block, New Alipore, Kolkata 700053, West Bengal, India. ' Zoological Survey of India, Apterygota section, 'M' Block, New Alipore, Kolkata 700053, West Bengal, India. ' Department of Zoology, Vidyasagar University, Midnapore 721102, West Bengal, India
Abstract: Purpose. The present study is aimed at investigating the diversity and ecology of mangrove litter inhabiting microarthropods with a view to assess their functional role in the nutrient cycling by way of decomposition of mangrove litters. Design/methodology/approach. Samplings were made at monthly intervals for the estimation of ecological parameters, recording fluctuation of population and community structure from the selected study site of Midnapore coast of West Bengal, India. Experimental laboratory studies were also undertaken for assessing the rate of insitu decomposition of selected mangrove plant, Avicennia officinalis (L) and phase wise occurrence of microarthropods in decomposing litter. Findings. A total of 44 species of microarthropods belonging to seven major taxonomic groups viz. Acarina (36.3%), Collembola (27.2%) Coleoptera (10%), Diptera (5.7%), Isopoda (5.1%), Hymenoptera (5%) and other associated litter inhabiting microarthropod fauna (10.6%), displayed distinct seasonal fluctuation with regard to their population density and community structure in relation to fluctuating major physico-chemical parameters. Maximum decomposition was found on twelve months (70%) and that of minimum (34%) was observed on three months. Maximum diversity and density of fauna were recorded during six months to nine months of decomposition. Originality/value. Litter inhabiting soil microarthropods play significant role in the energy flow and nutrient cycling in mangrove ecosystem by breaking leaves for the consumption thereby promote leaching and subsequently enhance biochemical alteration along with associated microbial population.
Keywords: mangroves; nutrient cycling; microarthropods; coastal belt; mangrove-estuarine ecosystems; India; mangrove litter; decomposition; population density; community structure; energy flow; microbial population.
International Journal of Environmental Technology and Management, 2010 Vol.12 No.1, pp.67 - 84
Available online: 03 Dec 2009 *Full-text access for editors Access for subscribers Purchase this article Comment on this article