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Assessment of Colour Changes in Lonar Lake, Buldhana District, Maharashtra, India using Remote Sensing Data
This communication presents results of a preliminary study to understand and assess the colour changes in Lonar lake, Buldhana district, Maharashtra, India, using remote sensing data of recent years (2019 and 2020). In addition, the study has utilized IMD gridded weather data and spectral profiles of algal pigments from the published literature. In order to verify whether the colour change is a cyclic event, long-term satellite data of Landsat 8-OLI and Sentinel 2-MSI sensors from 2014 onwards were analysed using spectral response in red and green bands. It was observed that even though a cyclic pattern exists, the colour change events occurred only during the 2019 and 2020 periods. The present analysis showed a change in colour of the lake from green to brown twice during April–June 2019. However, in 2020, there was a change in colour of the lake from green to brown and eventually to pinkish-red, which was not observed earlier. Rainfall and temperature were used to identify possible causes of abiotic stress on algae population of the lake. The study observed light rainfall and reduction in temperature just prior to the colour change event during both the years. In the absence of field data, the published literature on absorption spectra of different algal pigments was reviewed to identify pigments causing brown- and red-coloured appearance of the lake. Though cause of stress on the algae population is not known and is to be precisely identified by field surveys, the change in colour of Lonar lake appears to be caused by pigment(s), like phycoerythrin and carotenoids. However, this needs to be verified in the ground through water quality analysis.
Keywords
Colour Changes, Lake Water, Pigments, Remote Sensing, Water Quality Analysis.
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- Lonar lake’s change of colour leaves people surprised, experts feel salinity and algae are the reasons. The Economic Times, retrieved 17 June 2020; https://economictimes.indiatimes.com/magazines/panache/lonar-lakes-change-of-colour-leaves-people-surprised-experts-feel-salinity-and-algae-are-the-reasons/articleshow/76315-427.cms
- Change in colour of Lonar lake: Bombay HC convenes special sitting to issue directions to authorities. Hindustan Times, retrieved 17 June 2020; https://www.hindustantimes.com/mumbai-news/change-in-colour-of-lonar-lake-bombay-hc-convenes-specials-ittingto-issue-directions-to-authorities/story-N4ytTBe9P4A27-MmloAqnjO.html
- Milton, D. J., Dube, A. and Gupta, S. S., Deposition of ejecta at Lonar Crater. Meteoritics, 1975, 10, 456.
- Basavaiah, N. et al., Physicochemical analyses of surface sediments from the Lonar Lake, central India – implications for palaeoenvironmental reconstruction. Fundam. Appl. Limnol., 2014, 184/1, 51–68.
- Badve, R. M., Kumaran, K. P. N. and Rajshekhar, C., Eutrophication of Lonar Lake, Maharashtra. Curr. Sci., 1993, 65, 347–351.
- Waghmode, A. and Kumbhar, R., Study of blue-green algae from Lonar Lake. Indian J. Fundam. Appl. Life Sci., 2016, 6(2), 69–73.
- Ciferri, O., Spirulina, the edible microorganism. Microbiol. Rev., 1983, 47(4), 551–578.
- Tebbs, E., Remedios, J. and Harper, D., Remote sensing of chlorophyll-a as a measure of cyanobacterial biomass in Lake Bogoria, a hypertrophic, saline–alkaline, flamingo lake, using Landsat ETM +. Remote Sensing Environ., 2013, 135, 92–106.
- Jensen, J. R., Remote Sensing of the Environment: An Earth Resource Perspective, Pearson Prentice Hall, Upper Saddle River, 2007, 2nd edn.
- Sharma, G., Kumar, M., Ali, M. I. and Jasuja, N. D., Effect of carbon content, salinity and pH on Spirulina platensis for Phycocyanin, Allophycocyanin and Phycoerythrin Accumulation. Microb. Biochem. Technol., 2014, 6(4), 202–206.
- Ben-Amotz, A. and Avron, M., On the factors which determine massive β -carotene accumulation in the halotolerant alga Dunaliella bardawil. Plant Physiol., 1983, 72(3), 593–597.
- Rodríguez, H., Rivas, J., Guerrero, M. G. and Losada, M., Enhancement of phycobiliprotein production in nitrogen-fixing cyanobacteria. J. Biotechnol., 1991, 20(3), 263–270.
- Algae Research Supply, Lighting for algae cultures. Retrieved 25 June 2020; https://algaeresearchsupply.com/pages/lighting-foralgaecultures
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