Browsing by Subject "Eutrophication"
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Item Ecological Study of Rupa Lake, Pokhara Valley, Kaski, Nepal(Department of Botany, 2008) Kunwar, DevendraThe present study was carried out in subtropical Rupa lake, wetland of Pokharavalley, from an ecological and management perspectives.Vegetationanalysis wasdone by quadrat method. Altogether 43 species of aquatic macrophytesrepresenting 26 family and 40 genera were recorded. By growth form, theemergents and the rooted floating leafed species recorded highest and lowestnumber of species respectively.Nelumbo nucifera,Trapa quadrispinosa,Trapabispinosa and Leersia hexandra recorded highest IVI value throughout theexperimental period. Physico-chemical parameters like: water temperature, DO,pH, total nitrogen andPO -Pwere analyzed.The water temperature varied from21.29°C to 23.39°C throughout the experimental period.Parameters like pHandDO recorded higher value in post monsoon period, while temperature, totalnitrogen andPO 4 4 -Precorded higher value in pre monsoon period.On the basis ofPO 4 -P, the lake can be categorized as eutrophic.Biomass ranges from 27.25 g/m to 389.25g/m 2 throughout the experimental period and the highest dry mass valueof 389.25g/m 2 wasobserved at the eastern side during the post monsoon period.Comparatively, higher dry mass value was recorded during the post monsoon period (171.1824.03g/m 2 ) than the pre monsoon (98.351.69g/m ). Amongthe growth form, the highest and lowest biomass was represented by emergents (251.1695.16g/m 2 ),free floating species (104.7628.02g/m 2 ) andsubmergedspecies (48.39 7.27g/m 2 ) respectively; which depicts the decrease inproductivity with the corresponding increase in depth contour. The reportedspeciesposses economic uses and ecological values including their role as a fishfood to human food and sheltering habitat to invertebrate and birds. The nuisanceof aquatic weeds has thwarted the lake to develop as a major ecotouristicdestination by impendingrecreationalandecological values. The principal threatsto the lake include; siltation, eutrophication, agricultural runoff and lake areaencroachment. Suggested management approaches include integrated land useplanning of the shoreline campaigning awareness among general public,demarcation of lake boundary and conservation through wise utilization ofaquatic plant resources. Key words: Siltation, Eutrophication, ConservationBiomass Species diversity, LimnologyItem Status of crocodylus palustris (Mugger Crocodile) Atrani Tal Inside Shuklaphanta Wildlife Reserve, Kanchanpur,Nepal"(Department of Environmental Science, 2010) Bhatt, Harish PrashadThe Crocodylus palustris (Mugger Crocodile) is one of species under the vulnerable list of the CITES. It is semi aquatic, keystone species and top carnivores of wetland ecosystem. Due to habitat destruction and other causes it is threatening in population. So, particular research to get near its condition is necessary. The present study entitled "Status of Crocodylus palustris at Rani Tal inside Shuklaphata Wildlife Reserve, Kanchanpur, Nepal '' was conducted from June I 2008 to June 15 th 2009. The main objective of study was to know the status of Mugger Crocodile by assessing water quality and other factors. The population of Mugger Crocodile was identified by field survey with visual observation along with the questionnaire survey. Continuous survey about 15 days was made in Rani Tal. Impact of surrounding vegetation, Marsh/ floating vegetations and bottom and site soil in Rani Tal also studied together with water quality status. Almost 18 wetlands are found to be main regions for occurrence of Mugger Crocodiles. Total number of Mugger Crocodiles in SWR was estimated to be 59-98 in number. In aspect of Rani Tal, 4 Mugger Crocodiles were found which was decreased number than previous observed according to respondents. The estimated population of Rani Tal dependent Mugger Crocodile from questionnaire survey also was noted to be 2-4. The dam site and inflow site of lake together with laden trees and logs was found to be good habitat for Mugger Crocodile due to winter easier for basking and easier to search food. But nowadays, the area were found to be covering highly with surrounding Marsh vegetation like Phragmites karka, Sachhrum spontanium etc. The eastern side of lake which was previously major basking place of Crocodile now was fully encroached by Phragmites karka and other species. It was reported from questionnaire survey that about 50 years ago, approximately 10-20 Mugger Crocodiles used to occur frequently in study area. Regarding to Mugger Crocodiles in study area, no event of the hunting and poaching was reported. Rani Tal was in safe security but some illegal activities for fishing and other resource collection performed was detected. Poor water quality was detected in Rani Tal which was not appropriate for survival of many aquatic and semi aquatic animals including Crocodylus palustris. The data revealed from the water quality showed the hypereutrophic condition of the lake on the basis of the Nitrogen/Phosphorous and Alkalinity content in the lake. Parameters like seasonal depression in Oxygen, High Total Hardness, High Carbon dioxide, High Orthophosphate High BOD and Ammonia was found to be threat to Mugger Crocodile. Mugger Crocodile here was not only harm by water quality. Here in study site, the blocking free movements of Mugger to downward side of dam toward other wetlands, Encroachment in major habitat like muddy and sandy bank by Phragmites karka, Seasonal drying st of Lake, Illegal fishing, Animal hunting and collection for eggs of animals have been recorded as threats to Mugger Crocodile. The major problem in the lake was addition of the nutrients and sediment from the surroundings which was leading the extensive growth of the macrophytes. Addition of the nutrients from the flooding, sedimentation , siltation, and the leaching from Phosphate and Nitrogen rich bottom and surrounding soil seemed to have caused the eutrophication problem in the lake. Surrounding soil and bottom soil were also responsible in adding nutrients in lake. Closed dam construction at outflow has seemed to aggravate the siltation and helped in vegetation succession in Rani Tal by adding the nutrients, day by day. The siltation and vegetation succession highly by Phragmites Karka, Erianthus ravennae and Sachhrum spontanium was found to have decreased the area of lake. From study, it was also reported that the lake depth has been decreased by 4-6 ft from last 60 years due to high rate of siltation and sedimentation. The area was found to be decreased from 220 ha to 6-7 ha from literature review. The high coverage of native encroaching species Phragmites karka had covered whole marginal area of lake, above 80% coverage without leaving of sandy soil bank, as it is major habitat for Crocodylus palustris. Phragmites karka also had highest relative density among all vegetation in the marsh. The vegetation like Phragmites karka, Erianthus ravennae and Sachhrum spontanium, these three contained of 100% frequency. It’s also reported that about 10-15 years had gone for the invasion of the alien species like Pistia, Alternanthera etc. on the lake. More than 90% coverage of free floating plants with highest coverage of Pistia straiotes was noticed on lake body. The lake surrounding was found to be dominated by the species Shorea robusta together with Dalbergia sisso, Terminalia alata, Cleistocalyx operculata, Garruga pinnata, Syzygium cumini and Sclerchera oleosa with large number of climbers like Bahunia verigata. Similarly surrounding vegetation was also contributing in deteriorating water quality with high litter fall amount. As we know Crocodiles are the top carnivores of ecosystem, the water quality if not in permissible limit, it will directly degrade the lake effecting the flora and fauna. It will disturb the food web structure and directly harm the lake dependent Crocodiles by declining in number of food materials. Therefore proper management of Rani Tal and Rani Tal dependent Mugger Crocodiles should be done in proper time by improving water quality and other factors. Key words: Population, Eutrophication, Threats, Water quality, Invasive species, Vegetation analysis, Bottom and site soil analysis.