Diversity and identification of aquatic macrophytes of four lakes of Holalkere Region, Chitradurga District, Karnataka, India

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Research Paper 19/04/2023
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Diversity and identification of aquatic macrophytes of four lakes of Holalkere Region, Chitradurga District, Karnataka, India

M. Pallavi
J. Bio. Env. Sci.22( 4), 145-151, April 2023.
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Abstract

The present investigation concerns the diversity of aquatic macrophytes in different lakes in the Holalkere, Chitradurga district of Karnataka. Lakes are the natural habitat of macrophytic plants. Macrophytes are the common features of an aquatic ecosystem. Aquatic macrophytes play a prominent role in ecosystems. Aquatic macrophyte diversity and its role in understanding lake ecosystem dynamics have tremendous significance. Species composition of aquatic macrophytes, seasonal distribution in four lakes in Holalkere viz. Gangasamudra Lake, Gowdihalli Lake, Talikatte Lake and Kudineerakatte Lake were studied during 2019-2021. Fifteen different species of aquatic macrophytes were recorded from the studied lakes which include one free-floating, eight submerged, and six emergent Macrophytes present in the lake basin. Hydrilla verticillate, Polygonum glabrum, Cyperus longus, and Ipomoea fistulosa occur throughout the year. It indicates that aquatic macrophyte species are specific to environmental quality. The present findings revealed that the surface quality of the lakes is productive. The research aimed at describing unknown species is still necessary.

VIEWS 54

Carpenter SR, Lodge DM. 1986. Effects of submersed macrophytes on ecosystem processes. Aquatic Botany 26, 341-370.

Chambers PA, Lacoul P, Murphy KJ, Thomaz SM, Duggan Z. 2010. World Checklist of macrophyte species. Published on the internet: http: //fada.biodiversity.be/group/show/60 accessed.

Chambers report. 126. Energy and Wetlands Research Group, CES, Indian Institute of Science, Bangalore.

Hudon C, Lalonde S, Gagnon P. 2000. Ranking the effects of site exposure, plant growth form, water depth and transparency on aquatic plant biomass. Canadian Journal of Fisheries and Aquatic Sciences 57, 31-42.

Lacoul P, Murphy KJ, Thomaz SM. 2008. Global diversity of aquatic macrophytes in freshwater. Hydrobiologia 595, 9-26.

Sudarshan P, Mahesh MK, Ramachandra TV. 2017. Macrophytes of Bangalore wetlands. ENVIS technical Cook C.D.K., Aquatic and Wetland Plants of India, Oxford University Press. Delhi 22-370. 1996.

Tripathi BD, Shukla SC. 1991. Biological treatment of wastewater by selected aquatic plants. Environmental Pollution 6, 69-78.

Tripathi BD. 1992. Utilization of aquatic plants for sewage treatment, Austrian NFP/UNEP Vienna, Austria, B/BD, 310-1.

Zingel P, Noges P, Tuvikene L, Feldmann T, Jarvalt A, Tonno I, Agasild H, Tammert H, Luup H, Salujoe J, Noges T. 2006. Ecological processes in macrophyte and phytoplankton dominated shallow lakes. Proc. Estonian Academy of Science, Biology, Ecology 55, 4, 280.307.