Thematische Bibliographien / Loktak / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Loktak“

Autor: Grafiati
Veröffentlicht am 18. Mai 2024

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1

LAISHRAM, JOGESH. „ENVIRONMENTAL ISSUES AND ENVIRONMENTAL CONSCIOUSNESS OF THE PEOPLE RESIDING IN THE PERIPHERY OF THE LOKTAK LAKE, MANIPUR, INDIA“. Pollution Research 41, Nr. 04 (2022): 1193–98. http://dx.doi.org/10.53550/pr.2022.v41i04.007.

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The present study was conducted in the periphery of the Loktak by interviewing with 300 selected respondents using purposive sampling technique to assess the environmental issues of the Loktak lake and its surrounding areas and also to assess the environmental consciousness of the people living in and around the lake. All (100%) respondents reported the natural resources of Loktak lake is declining and most of them (28.33%) felt that the decline of the natural resources of Loktak lake was found to be pollution of the lake water. In the overall percentage of major environmental issues of the areas or villages in and around the Loktak lake water pollution (37%) was highest. The study found that the highest percentage in terms of the level of environmental consciousness people had was “Average” (87.33%). Improvement of education, organizing effective awareness programmes for the conservation and sustainable management of the Loktak lake and its surrounding environment, seeking alternative means of livelihoods are suggested.
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2

Sharma, B. K., und Sumita Sharma. „Zooplankton diversity of Loktak Lake, Manipur, India“. Journal of Threatened Taxa 3, Nr. 5 (26.05.2011): 1745–55. http://dx.doi.org/10.11609/jott.o2457.1745-55.

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3

Randhir Singh, N., N. S. Singh, J. K. Garg und T. V. R. Murthy. „Loktak notified Wetland ecosystem and its catchment“. Journal of the Indian Society of Remote Sensing 28, Nr. 2-3 (Juni 2000): 159–69. http://dx.doi.org/10.1007/bf02989900.

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4

Sophia Devi, Sagolshem, und Khundrakpam Moirangleima. „Fishing Techniques Used by the Fisherwomen of Loktak Lake Manipur“. International Journal of Science and Research (IJSR) 12, Nr. 11 (05.11.2023): 835–39. http://dx.doi.org/10.21275/sr231111204202.

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5

Singh, C. R., J. R. Thompson, J. R. French, D. G. Kingston und A. W. Mackay. „Modelling the impact of prescribed global warming on water resources of headwater catchments of the Irrawaddy River and their implications for Loktak Lake, northeast India“. Hydrology and Earth System Sciences Discussions 7, Nr. 3 (07.05.2010): 2781–828. http://dx.doi.org/10.5194/hessd-7-2781-2010.

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Abstract. Climate change is likely to have major implications for wetland ecosystems, which will include altered water level regimes due to modifications in local and catchment hydrology. However, substantial uncertainty exists in the precise impacts of climate change on wetlands due in part due to uncertainty in GCM projections. This paper explores the impacts of climate change upon river discharge within three sub-catchments of Loktak Lake, an internationally important wetland in northeast India. This is achieved by running pattern-scaled GCM output through distributed hydrological models (developed using MIKE SHE) of each sub-catchment. The impacts of climate change upon water levels within Loktak Lake are subsequently investigated using a water balance model. Two groups of climate change scenarios are investigated. Group 1 uses results from seven different GCMs for an increase in global mean temperature of 2 °C, the purported threshold of "dangerous" climate change, whilst Group 2 is based on results from the HadCM3 GCM for increases in global mean temperature between 1 °C and 6 °C. Results from the Group 1 scenarios show varying responses between the three sub-catchments. The majority of scenario-sub-catchment combinations (13 out of 21) indicate increases in discharge which vary from <1% to 42% although, in some cases, discharge decreases by as much as 20%. Six of the GCMs suggest overall increases in river flow to Loktak Lake (2–27%) whilst the other results in a modest (6%) decline. In contrast, the Group 2 scenarios lead to an almost linear increase in total river flow to Loktak Lake with increasing temperature (up to 27% for 6 °C), although two sub-catchments experience reductions in mean discharge for the smallest temperature increases. In all but one Group 1 scenario, and all the Group 2 scenarios, Loktak Lake water levels are higher, regularly reaching the top of a downstream hydropower barrage that impounds the lake and necessitating the release of water for barrage structural stability. Although elevated water levels may permit enhanced abstraction for irrigation and domestic uses, future increases in hydropower generation are limited by existing infrastructure. The higher water levels are likely to exacerbate existing ecological deterioration within the lake as well as enhancing problems of flooding of lakeside communities.
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6

Singh, C. R., J. R. Thompson, J. R. French, D. G. Kingston und A. W. Mackay. „Modelling the impact of prescribed global warming on runoff from headwater catchments of the Irrawaddy River and their implications for the water level regime of Loktak Lake, northeast India“. Hydrology and Earth System Sciences 14, Nr. 9 (13.09.2010): 1745–65. http://dx.doi.org/10.5194/hess-14-1745-2010.

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Abstract. Climate change is likely to have major implications for wetland ecosystems, which will include altered water level regimes due to modifications in local and catchment hydrology. However, substantial uncertainty exists in the precise impacts of climate change on wetlands due in part to uncertainty in GCM projections. This paper explores the impacts of climate change upon river discharge within three sub-catchments of Loktak Lake, an internationally important wetland in northeast India. This is achieved by running pattern-scaled GCM output through distributed hydrological models (developed using MIKE SHE) of each sub-catchment. The impacts of climate change upon water levels within Loktak Lake are subsequently investigated using a water balance model. Two groups of climate change scenarios are investigated. Group 1 uses results from seven different GCMs for an increase in global mean temperature of 2 °C, the purported threshold of ''dangerous'' climate change, whilst Group 2 is based on results from the HadCM3 GCM for increases in global mean temperature between 1 °C and 6 °C. Results from the Group 1 scenarios show varying responses between the three sub-catchments. The majority of scenario-sub-catchment combinations (13 out of 21) indicate increases in discharge which vary from <1% to 42% although, in some cases, discharge decreases by as much as 20%. Six of the GCMs suggest overall increases in river flow to Loktak Lake (2–27%) whilst the other results in a modest (6%) decline. In contrast, the Group 2 scenarios lead to an almost linear increase in total river flow to Loktak Lake with increasing temperature (up to 27% for 6 °C), although two sub-catchments experience reductions in mean discharge for the smallest temperature increases. In all but one Group 1 scenario, and all the Group 2 scenarios, Loktak Lake water levels are higher, regularly reaching the top of a downstream hydropower barrage that impounds the lake and necessitating the release of water for barrage structural stability. Although elevated water levels may permit enhanced abstraction for irrigation and domestic uses, future increases in hydropower generation are limited by existing infrastructure. The higher water levels are likely to exacerbate existing ecological deterioration within the lake as well as enhancing problems of flooding of lakeside communities.
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7

Puranik, Sampada, Rajesh Ramavadh Pal, Ravi Prabhakar More und Hemant J. Purohit. „Metagenomic approach to characterize soil microbial diversity of Phumdi at Loktak Lake“. Water Science and Technology 74, Nr. 9 (09.08.2016): 2075–86. http://dx.doi.org/10.2166/wst.2016.370.

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Loktak, one of the largest freshwater lakes of India, is known for floating islands (Phumdi), being made up of a heterogeneous biomass of vegetation and soil. This ecological site represents an exclusive environmental habitat wherein the rhizospheric microbial community of Phumdi plays a key role in biogeochemical cycling of nutrients. A culture-independent whole genome shotgun sequencing based metagenomic approach was employed to unravel the composition of the microbial community and its corresponding functional potential at this environmental habitat. Proteobacteria (51%) was found to be the most dominant bacterial phylum followed by Acidobacteria (10%), Actinobacteria (9%) and Bacteroidetes (7%). Furthermore, Loktak metagenome data were compared with available metagenomes from four other aquatic habitats, varying from pristine to highly polluted eutrophic habitats. The comparative metagenomics approach aided by statistical analysis revealed that Candidatus Solibacter, Bradyrhizobium, Candidatus Koribacter, Pedosphaera, Methylobacterium, Anaeromyxobacter, Sorangium, Opitutus and Acidobacterium genera are selectively dominant at this habitat. Correspondingly, 12 different functional categories were found to be exclusively prevalent at Phumdi compared to other freshwater habitats. These differential features have been attributed to the unique habitat at Phumdi and correlated to the phenomenon of bioremediation at Loktak Lake.
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8

Singh, N. K. Sharat, M. Sudarshan, A. Chakraborty, Ch Bino Devi, Th Brojendro Singh und N. Rajmuhon Singh. „Biomonitoring of Fresh Water of Loktak Lake, India“. European Journal of Sustainable Development 3, Nr. 1 (01.02.2014): 179–88. http://dx.doi.org/10.14207/ejsd.2014.v3n1p179.

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9

Devi, Rajkumari Supriya, Kunja Bihari Satapathy und Sanjeet Kumar. „Ethnobotanical Plants of Phumdi, Loktak Lake, Manipur, India“. Asian Pacific Journal of Health Sciences 9, Nr. 4 (20.06.2022): 77–80. http://dx.doi.org/10.21276/apjhs.2022.9.4.16.

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Loktak is the largest natural freshwater lake in the North-Eastern region of India playing an important role in the ecological and economic security of the region. It is also known for “Phumdi,” a heterogeneous mass of soil, vegetation and organic matter at various stages of decomposition. For the fishing purposes, local communities make a ring with “Phumdi” mass called “Athaphum” measuring 500 ft in diameter, a traditional practice popular since last 200 years. It is further interesting to report that these also harbor a rich flora of medicinal herbs. Keeping the importance of its medicinal wealth, an attempt was made to survey 20 different “Athaphum” of the lake to explore and document the diversity of medicinal plants of the fresh water lake. Extensive floristic survey in the study area revealed the occurrence of over 89 plant species in and around “Athaphum” and “Phumdis.” Among them, five plants (Blumea mollis, Ludwigia repens, Rumex nepalensis, Oenanthe javanica, and Carex riparia) were selected for phytochemical screening to validate their therapeutic claims. All the selected plants were found to be enriched with phenolic compounds. On the basis of their ethnobotanical claims and results of phytochemical analysis, R. nepalensis and O. javanica could be recommended as potential nutraceutical for being a popular food plant among the local inhabitants.
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10

Khundrakpam, Padmabati. „Economic valuation of environment with reference to Loktak Lake“. Asian Journal of Research in Social Sciences and Humanities 11, Nr. 12 (2021): 185–91. http://dx.doi.org/10.5958/2249-7315.2021.00353.1.

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11

Singh, Abha Lakshmi, und Moirang Leima Khundrakpam. „Phumdi proliferation: a case study of Loktak lake, Manipur“. Water and Environment Journal 25, Nr. 1 (09.02.2011): 99–105. http://dx.doi.org/10.1111/j.1747-6593.2009.00197.x.

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12

L Geetabali Devi, AK Nirmala Devi und Huidrom Chitra Devi. „Non-Conventional food Plants available in and around Loktak Lake, Bishnupur (Manipur)“. Journal of Agriculture and Ecology 16 (27.07.2023): 88–93. http://dx.doi.org/10.58628/jae-2316-217.

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Loktak Lake is the largest fresh water lake in North East India. The lake is situated at Moirang in the Bishnupur District, Manipur about 48 km to South from Imphal city. This Lake extends about 287 km2. Loktak Lake has an indispensable relationship with the people of the state since time immemorial from socio- cultural and economic viewpoints. Many edible plants are available in and around the Lake. The food plants which are not commonly available in the market and those which are not commonly utilized as food throughout the country are considered as non-conventional food plants. There are various plants which grow in the lake as submerged, free floating, rooted with floating leaves, emergents, etc. and some are found to grow on the floating humus (Phum). The main food of the Brow Antlered Deer (Rucervus eldi eldi) which is found only in Keibul Lamjao National Wildlife Sanctuary near the Loktak Lake is a variety of young shoots of grasses, herbaceous plants, Zizania latifolia, etc. Some important non-conventional food plants available in and around the Lake are Hedichium flavum (Loklei), Alpinia allughas (Pullei), Euryale ferox (Thangjing), Nymphaea stellata (Thariktha), Nymphaea alba (Tharo angouba), Oenanthe javanica (Komprek), Ipomoea aquatica (Kolamni), Nelumbo nucifera (Thambou, Thamchet and Thamna khenjong), Sagittaria sagittifolia (Koukha), Trapa bispinosa (Heikak) Zizania latifolia (kambong) etc. Some plants such as Ipomoea aquatica (Kolamni) and Alpinia allughas (Pullei), Neptunia oleracea (Eshing Ekaithabi), Ludwigia adscendens (Eshing Kundo), etc. have medicinal importance. These food plants are very rich in vitamins and minerals.
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13

Kangabam, Rajiv Das, Yumnam Silla, Gunajit Goswami und Madhumita Barooah. „Bacterial Operational Taxonomic Units Replace the Interactive Roles of Other Operational Taxonomic Units Under Strong Environmental Changes“. Current Genomics 21, Nr. 7 (22.10.2020): 512–24. http://dx.doi.org/10.2174/1389202921999200716104355.

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Background: Microorganisms are an important component of an aquatic ecosystem and play a critical role in the biogeochemical cycle which influences the circulation of the materials and maintains the balance in aquatic ecosystems. Objective: The seasonal variation along with the impact of anthropogenic activities, water quality, bacterial community composition and dynamics in the Loktak Lake, the largest freshwater lake of North East India, located in the Indo-Burma hotspot region was assessed during post-monsoon and winter season through metagenome analysis. Methods: Five soil samples were collected during Post-monsoon and winter season from the Loktak Lake that had undergone different anthropogenic impacts. The metagenomic DNA of the soil samples was extracted using commercial metagenomic DNA extraction kits following the manufacturer’s instruction. The extracted DNA was used to prepare the NGS library and sequenced in the Illumina MiSeq platform. Results: Metagenomics analysis reveals Proteobacteria as the predominant community followed by Acidobacteria and Actinobacteria. The presence of these groups of bacteria indicates nitrogen fixation, oxidation of iron, sulfur, methane, and source of novel antibiotic candidates. The bacterial members belonging to different groups were involved in various biogeochemical processes, including fixation of carbon and nitrogen, producing streptomycin, gramicidin and perform oxidation of sulfur, sulfide, ammonia, and methane. Conclusion: The outcome of this study provides a valuable dataset representing a seasonal profile across various land use and analysis, targeting at establishing an understanding of how the microbial communities vary across the land use and the role of keystone taxa. The findings may contribute to searches for microbial bio-indicators as biodiversity markers for improving the aquatic ecosystem of the Loktak Lake.
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14

Singh, R. R., und K. J. Singh. „Box turtles in and adjacent to Loktak Lake, Manipur – India“. Taprobanica 4, Nr. 2 (14.11.2012): 103–4. http://dx.doi.org/10.47605/tapro.v4i2.77.

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Manipur is a biodiversity rich state located in the northeastern part of India that borders Myanmar. Situated within the western portion of the Indo-Burma biodiversity hotspot, the state has a large number of endemic and endangered species. The state is also prone to habitat destruction due to rapid clearing of forest for shifting cultivation, which is a common practice in the hill districts for agriculture and collection of firewood and timber. In the valley districts, the entire forest areas were converted to agricultural fields leaving only a few remaining green spaces, such as the sacred groves locally known as Umang Lais, small hillocks, and Keibul Lamjao National Park.
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Singh, Rajkumar Robindro, und Kharaijam Jibankumar Singh. „Box turtles in and adjacent to Loktak Lake, Manipur – India“. TAPROBANICA: The Journal of Asian Biodiversity 4, Nr. 2 (25.12.2012): 103. http://dx.doi.org/10.4038/tapro.v4i2.5063.

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16

Singh, L. Shantikumar Singh, Indra Baruah . und T. C. Bora . „Actinomycetes of Loktak Habitat: Isolation and Screening for Antimicrobial Activities“. Biotechnology(Faisalabad) 5, Nr. 2 (15.03.2006): 217–21. http://dx.doi.org/10.3923/biotech.2006.217.221.

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17

Singh, W. Roshan, und Ajay S. Kalamdhad. „Potential for composting of green phumdi biomass of Loktak lake“. Ecological Engineering 67 (Juni 2014): 119–26. http://dx.doi.org/10.1016/j.ecoleng.2014.03.086.

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18

Kumar, Avnish, Bijoy Biswas, Ramandeep Kaur, Bhavya B. Krishna und Bhaskar Thallada. „Predicting the decomposition mechanism of Loktak biomass using Py-GC/MS“. Environmental Technology & Innovation 23 (August 2021): 101735. http://dx.doi.org/10.1016/j.eti.2021.101735.

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19

Awasthi, Ayushi, Gaje Singh, Vaibhav Dhyani, Jitendra Kumar, Yenumula Sudhakara Reddy, V. P. Adarsh, Anoop Puthiyamadam et al. „Co-pyrolysis of phumdi and para grass biomass from Loktak Lake“. Bioresource Technology 285 (August 2019): 121308. http://dx.doi.org/10.1016/j.biortech.2019.03.147.

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20

Laishram, Jogesh. „A Study on the Bioresources of the Loktak Lake, Manipur (India) for Livelihood by the People Living in Five Villages Located in and Around the Lake“. Current World Environment 16, Nr. 3 (31.12.2021): 928–41. http://dx.doi.org/10.12944/cwe.16.3.23.

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In this paper different bioresources of the Loktak lake linked to the livelihood of the communities residing in the periphery of the lake is investigated using questionnaire survey and purposive sampling technique in 300 households from five selected villages. Identification of species and data analysis was taken up using appropriate methodologies. In all 38 type of fishes, 1 type of prawn, 2 type of mollusca, 1 type of mussel, 16 type of vegetables, 8 type of fodders, 6 type of fuelwoods, 3 type of thatch grasses, 12 type of plants with medicinal properties and 2 type of handicraft items were found used by the villagers from Loktak lake for consumption and household earning. People of the survey villages were found to be poor and depended on the lake’s resources for consumption and household financial earning. In some of these villages certain bioresources has been responded to be lost. The resources of the lake have been found degrading because of several anthropogenic activities. Suitable policies and conservation measures involving the villagers needed to be adopted urgently by the concerned authorities for the protection and long term management of the lake and its bioresources.
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21

Santaram S. Oinam, und R. S. Khoiyangbam. „CHANGING LANDSCAPE OF LOKTAK LAKE AND ITS IMPACTS ON LOCAL PEOPLE’S LIVELIHOOD“. Researchers World : Journal of Arts, Science and Commerce VIII, Nr. 4 (01.10.2017): 124–32. http://dx.doi.org/10.18843/rwjasc/v8i4/15.

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22

Khwairakpam, Eliza, Rakesh Khosa, Ashvani Gosain, Arvind Nema, Shashi Mathur und Basant Yadav. „Modeling Simulation of River Discharge of Loktak Lake Catchment in Northeast India“. Journal of Hydrologic Engineering 23, Nr. 8 (August 2018): 05018014. http://dx.doi.org/10.1061/(asce)he.1943-5584.0001674.

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23

Sharma, B. K. „Composition, abundance and ecology of phytoplankton communities of Loktak Lake, Manipur, India“. Journal of Threatened Taxa 1, Nr. 8 (26.08.2009): 401–10. http://dx.doi.org/10.11609/jott.o2193.401-10.

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24

Sahoo, Dinabandhu, Sabeela Beevi Ummalyma, Aswini Kumar Okram, Rajeev K. Sukumaran, Emrin George und Ashok Pandey. „Potential of Brachiaria mutica (Para grass) for bioethanol production from Loktak Lake“. Bioresource Technology 242 (Oktober 2017): 133–38. http://dx.doi.org/10.1016/j.biortech.2017.03.047.

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25

Ranibala, Th, M. Shomorendra und Devashish Kar. „Seasonal variation of the nematode Camallanus anabantis in the fish Anabas testudineus in Loktak Lake, Manipur, India“. Journal of Applied and Natural Science 5, Nr. 2 (01.12.2013): 397–99. http://dx.doi.org/10.31018/jans.v5i2.340.

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The present paper deals with the study of the seasonal variation on the occurrence of the Nematode Camallanus anabantis from the fish host Anabas testudineus from Loktak Lake, Manipur during May 2010- April 2011. A total of 460 number of A. testudineus has been sampled for the parasite infection and 335 fishes (71 %) has been found to be infected with the nematode thereby indicating high prevalence of infection of the nematode parasites in the fish.
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26

Devi, R. K. Memsana. „Pesticides and toxicity on aquatic larvae: A study on loktak lake Catchment area“. ACADEMICIA: An International Multidisciplinary Research Journal 11, Nr. 9 (2021): 904–13. http://dx.doi.org/10.5958/2249-7137.2021.02018.8.

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27

Sharma, B. K., und Sumita Sharma. „Diversity of microcrustacea (Crustacea: Branchiopoda) of Loktak Lake, a Ramsar site, Manipur, India“. Journal of Threatened Taxa 01, Nr. 11 (26.11.2009): 541–48. http://dx.doi.org/10.11609/jott.o2231.541-8.

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28

Das Kangabam, Rajiv, Sarojini Devi Bhoominathan, Suganthi Kanagaraj und Munisamy Govindaraju. „Development of a water quality index (WQI) for the Loktak Lake in India“. Applied Water Science 7, Nr. 6 (26.06.2017): 2907–18. http://dx.doi.org/10.1007/s13201-017-0579-4.

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29

Singh, K. J., und Shibayan Sarkar. „Development of GIUH for the Catchment Contributing to Loktak Lake, North East India“. Journal of the Indian Society of Remote Sensing 41, Nr. 2 (29.05.2012): 447–59. http://dx.doi.org/10.1007/s12524-012-0219-2.

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30

Ranga Reddy, Yenumula. „Tropodiaptomus signatus Kiefer, 1982, a little-known species from Loktak Lake, Manipur State, India (Copepoda, Calanoida, Diaptomidae)“. Crustaceana 86, Nr. 13-14 (2013): 1675–88. http://dx.doi.org/10.1163/15685403-00003244.

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Tropodiaptomus signatus Kiefer, 1982, is a rare, little-known Indian species. Nothing is known about its type locality/distribution or about its morphological variation. This species is now being reported from Loktak Lake in Manipur state (northeastern India). The original account of this species is supplemented with a special emphasis on the wide morphological variation observed in the male fifth pair of legs. Further, it has now been recognised that this species has closest morphological and biogeographical affinities with its north Indian congener, Tropodiaptomus mutatus Kiefer, 1936.
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Lakshmi Devi, Nongmaithem Bijaya. „Study of fishers’ socioeconomic and cultural profile around the Loktak lake of Manipur, India“. IOSR Journal of Agriculture and Veterinary Science 1, Nr. 5 (2012): 48–56. http://dx.doi.org/10.9790/2380-0154856.

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32

Haripriya, Maibam, und Potsangbam Kumar Sing. „Flowering Calendar of the Macrophytes of Keibul Lamjao National Park, Loktak Lake, Manipur, India“. Research Journal of Botany 12, Nr. 1 (15.12.2017): 14–22. http://dx.doi.org/10.3923/rjb.2017.14.22.

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33

Devi, Maibam Haripriya, und Potsangbam Kumar Singh. „Flowering Calendar of the Macrophytes of Keibul Lamjao National Park, Loktak Lake, Manipur, India“. IRA-International Journal of Applied Sciences (ISSN 2455-4499) 4, Nr. 2 (06.09.2016): 305. http://dx.doi.org/10.21013/jas.v4.n2.p11.

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<div><p><em>Flowering calendar of a particular area will give the information of the period and duration of flowering among plants. The purpose of the study is to investigate the presence of the habitat of some dominant macrophytes in Keibul Lamjao National Park (a Ramsar site) which have ethnobotanical relationships with human beings (the lake dwellers in particular and tourist in general) and wild animals. Flowering calendar of six study sites viz., Keibul, Nongmaikhong, Kumbi, Khordak, Sargam and Toyaching were studied and monthly flowering calendars were taken for two year period (2010 to 2011). Flowering calendars of the macrophytes were surveyed by following standard methodologies and comparison of the stages of flowering period of 6 study sites was incorporated. Maximum number of flowering plants (44) was recorded in Sargam, Khordak (32), Kumbi (30), Nongmaikhong (29) during the period September to November. Whereas, Toyaching reached 35, Keibul recorded lowest plant numbers (14) during the period June to August. Four plant species viz., Ageratum conyzoides, Alternanthera philoxeroides, Leersia hexandra and Hedychium coronarium were found throughout the year in all the 6 sites. From the findings, it can be concluded that flowering calendar will give the information of plants which are used as fodder for the wild animals like Sangai (Rucervus eldii eldii McClelland), an endangered deer species in this globe and ethnobotanically important plants of the lake dwellers as food, medicinal plants and allergens, thereby maintaining health status of man and animals. Conservation is required by controlling the human anthropogenic harassments, thereby maintaining the luxuriant growth of the seasonal and perennial, macrophytes observed during the study of flowering calendar, so as to maintain and conserve the natural flora and fauna of the park.</em></p></div>
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34

Takhelmayum, Kiranbala, und Susmita Gupta. „Distribution of aquatic insects in phumdis (floating island) of Loktak Lake, Manipur, northeastern India“. Journal of Threatened Taxa 3, Nr. 6 (26.06.2011): 1856–61. http://dx.doi.org/10.11609/jott.o2526.1856-61.

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35

Geetakumari, K., und C. Basudha. „Parambassis waikhomi, a new species of glassfish (Teleostei: Ambassidae) from Loktak Lake, northeastern India“. Journal of Threatened Taxa 04, Nr. 14 (26.11.2012): 3327–32. http://dx.doi.org/10.11609/jott.o3060.3327-32.

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36

Ningombam, Banita, und Sabitry Bordoloi. „Amphibian fauna of Loktak lake, Manipur, India with ten new records for the state“. Zoos' Print Journal 22, Nr. 5 (21.04.2007): 2688–90. http://dx.doi.org/10.11609/jott.zpj.1557.2688-90.

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37

Laishram, Jogesh. „Comparative Study on the Quantity of Bioresources Collected from the Loktak Lake Manipur, India“. Advances in Zoology and Botany 11, Nr. 6 (Dezember 2023): 416–25. http://dx.doi.org/10.13189/azb.2023.110602.

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38

Sharma, ArunkumarB, und NabadwipS Singh. „Assessment of natural background gamma radiation levels in and around Loktak Lake of Manipur, India“. Radiation Protection and Environment 41, Nr. 2 (2018): 94. http://dx.doi.org/10.4103/rpe.rpe_32_17.

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39

Sharma, B. K. „Notes on rare and interesting rotifers (Rotifera: Eurotatoria) from Loktak Lake, Manipur - a Ramsar site“. Zoos' Print Journal 22, Nr. 9 (21.08.2007): 2816–20. http://dx.doi.org/10.11609/jott.zpj.1742.2816-20.

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40

Datta, Krishanu. „Loktak Lake: a Potential Site to Become the First UNESCO Global Geopark (UGGp) in India“. Journal of the Geological Society of India 99, Nr. 7 (06.07.2023): 1032. http://dx.doi.org/10.1007/s12594-023-2426-6.

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41

Meitei, M. D., und M. N. V. Prasad. „Phoomdi– a unique plant biosystem of Loktak lake, Manipur, North-East India: Traditional and ecological knowledge“. Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 149, Nr. 4 (07.01.2014): 777–87. http://dx.doi.org/10.1080/11263504.2013.870250.

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42

Singh, C. R., J. R. Thompson, D. G. Kingston und J. R. French. „Modelling water-level options for ecosystem services and assessment of climate change: Loktak Lake, northeast India“. Hydrological Sciences Journal 56, Nr. 8 (Dezember 2011): 1518–42. http://dx.doi.org/10.1080/02626667.2011.631012.

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43

Bhatia, B., H. L. Sarkar, D. K. Banerjee und Inamul Haq. „Association between some planktonic species and physicochemical characteristics of the water of Loktak Lake, Manipur, India“. International Journal of Environmental Studies 26, Nr. 1-2 (Oktober 1985): 111–23. http://dx.doi.org/10.1080/00207238508710249.

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44

Alam, Wazir, und Ranu Jajo Laishram. „Estimation of rainfall-runoff potential using SCS-CN and geospatial approach for Loktak Lake Watershed, India“. International Journal of Hydrology Science and Technology 18, Nr. 1 (2024): 77–105. http://dx.doi.org/10.1504/ijhst.2024.10063863.

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45

Kar, S. K., Surendra Prasad und Gopendra Kumar. „Quaternary sediments of Indo-Gangetic, Brahmaputra and adjoining inland basins and the problem of demarcation of Pleistocene-Holocene Boundary“. Journal of Palaeosciences 46, Nr. (1-2) (31.12.1997): 196–210. http://dx.doi.org/10.54991/jop.1997.1340.

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The Quaternary sediments deposited in the Indo-Gangetic, Brahmaputra and adjoining smaller inland basins and Duns formed after the Middle Pleistocene Himalayan Orogenic Movement (HOM-4), are fluvial-fluviolacustrine and or lacustrine in nature. A synthesis of the available data in the Brahmaputra Basin and its comparison with that of the Indo-Gangetic Basin and Duns suggests two cycles of sedimentation, separated by a period of erosion and non-deposition and continuous in inland basins, such as Bhimtal-Naukuchia Tal, Hawalbagh in Kumaun region in Uttar Pradesh and Loktak Lake in Manipur. The sediments of the first cycle which terminated in late Upper Pleistocene are, in general, oxidised and referred to as the Older Alluvium, while that of the second assigned to Holocene, is unoxidised grey in color and constitutes the Newer Alluvium.
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46

Nautiyal, C. M., und M. S. Chauhan. „Late Holocene vegetation and climate change in Loktak Lake region, Manipur, based on pollen and chemical evidence“. Journal of Palaeosciences 58, Nr. (1-3) (31.12.2009): 21–28. http://dx.doi.org/10.54991/jop.2009.78.

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The pollen and elemental analyses from a 73 cm deep sediment profile from Loktak Lake region, Manipur have provided insight into the changing vegetation and climatic scenario in the region during the Late Holocene. The investigation has revealed that between 1650 and 600 yr B.P., open vegetation comprising largely grasses and heathland taxa Asteraceae, Chenopodiaceae/Amaranthaceae, etc. with sprinkle of trees viz., Holoptelea, Symplocos, Acacia, etc. occurred in the region adjoining to the lake. The good profusion of ferns, fungal and algal remains as well as presence of aquatics implies that a humid climate prevailed in the region. The low C/N ratio also corroborates such climatic condition. The retrieval of Cerealia and other cultural pollen taxa denotes some sort of agricultural practice in the vicinity of the lake. From 600 yr B.P. to Present the expansion of open vegetation and a contemporary reduction of trees infer the inception of a less humid climate probably owing to reduction in monsoon precipitation. This is also evidenced by a sharp decline in ferns, fungal and aquatic elements. However, the agricultural practice continued with same pace, as before since the culture pollen taxa do not show any distinct alteration.
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47

Sahoo, Dinabandhu, Sabeela Beevi Ummalyma, Aswini Kumar Okram, Ashok Pandey, Meena Sankar und Rajeev K. Sukumaran. „Effect of dilute acid pretreatment of wild rice grass (Zizania latifolia) from Loktak Lake for enzymatic hydrolysis“. Bioresource Technology 253 (April 2018): 252–55. http://dx.doi.org/10.1016/j.biortech.2018.01.048.

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48

Talukdar, Swapan, Shahfahad, Somnath Bera, Mohd Waseem Naikoo, G. V. Ramana, Santanu Mallik, Potsangbam Albino Kumar und Atiqur Rahman. „Optimisation and interpretation of machine and deep learning models for improved water quality management in Lake Loktak“. Journal of Environmental Management 351 (Februar 2024): 119866. http://dx.doi.org/10.1016/j.jenvman.2023.119866.

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49

Roshan Singh, W., Shashi Kumar Pankaj, Jiwan Singh und Ajay S. Kalamdhad. „Reduction of bioavailability of heavy metals during vermicomposting of phumdi biomass of Loktak Lake (India) using Eisenia fetida“. Chemical Speciation & Bioavailability 26, Nr. 3 (Januar 2014): 158–66. http://dx.doi.org/10.3184/095422914x14043211756226.

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50

Das Kangabam, Rajiv, Muthu Selvaraj und Muniswamy Govindaraju. „Assessment of land use land cover changes in Loktak Lake in Indo-Burma Biodiversity Hotspot using geospatial techniques“. Egyptian Journal of Remote Sensing and Space Science 22, Nr. 2 (August 2019): 137–43. http://dx.doi.org/10.1016/j.ejrs.2018.04.005.

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