Browsing by Author "Kesavan, Devarayan"

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    ASSESSING THE ECOLOGICAL IMPACT OF PESTICIDES/HERBICIDES ON ALGAL COMMUNITIES: A COMPREHENSIVE REVIEW
    (Elsevier B.V, 2024-03) Mathiyazhagan, Narayanan; Kesavan, Devarayan; Monu, Verma; Manickam, Selvaraj; Hamed A, Ghramh; Sabariswaran, Kandasamy
    The escalating use of pesticides in agriculture for enhanced crop productivity threatens aquatic ecosystems, jeopardizing environmental integrity and human well-being. Pesticides infiltrate water bodies through runoff, chemical spills, and leachate, adversely affecting algae, vital primary producers in marine ecosystems. The repercussions cascade through higher trophic levels, underscoring the need for a comprehensive understanding of the interplay between pesticides, algae, and the broader ecosystem. Algae, susceptible to pesticides via spillage, runoff, and drift, experience disruptions in community structure and function, with certain species metabolizing and bioaccumulating these contaminants. The toxicological mechanisms vary based on the specific pesticide and algal species involved, particularly evident in herbicides' interference with photosynthetic activity in algae. Despite advancements, gaps persist in comprehending the precise toxic effects and mechanisms affecting algae and non-target species. This review consolidates information on the exposure and toxicity of diverse pesticides and herbicides to aquatic algae, elucidating underlying mechanisms. An emphasis is placed on the complex interactions between pesticides/herbicides, nutrient content, and their toxic effects on algae and microbial species. The variability in the harmful impact of a single pesticide across different algae species underscores the necessity for further research. A holistic approach considering these interactions is imperative to enhance predictions of pesticide effects in marine ecosystems. Continued research in this realm is crucial for a nuanced understanding of the repercussions of pesticides and herbicides on aquatic ecosystems, mainly algae.
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    ASSESSING THE ECOLOGICAL IMPACT OF PESTICIDES/HERBICIDES ON ALGAL COMMUNITIES: A COMPREHENSIVE REVIEW (Review)
    (Elsevier, 2024-03) Mathiyazhagan, Narayanan; Kesavan, Devarayan; Monu, Verma; Manickam, Selvaraj; Hamed A, Ghramh; Sabariswaran, Kandasamy
    The escalating use of pesticides in agriculture for enhanced crop productivity threatens aquatic ecosystems, jeopardizing environmental integrity and human well-being. Pesticides infiltrate water bodies through runoff, chemical spills, and leachate, adversely affecting algae, vital primary producers in marine ecosystems. The repercussions cascade through higher trophic levels, underscoring the need for a comprehensive understanding of the interplay between pesticides, algae, and the broader ecosystem. Algae, susceptible to pesticides via spillage, runoff, and drift, experience disruptions in community structure and function, with certain species metabolizing and bioaccumulating these contaminants. The toxicological mechanisms vary based on the specific pesticide and algal species involved, particularly evident in herbicides' interference with photosynthetic activity in algae. Despite advancements, gaps persist in comprehending the precise toxic effects and mechanisms affecting algae and non-target species. This review consolidates information on the exposure and toxicity of diverse pesticides and herbicides to aquatic algae, elucidating underlying mechanisms. An emphasis is placed on the complex interactions between pesticides/herbicides, nutrient content, and their toxic effects on algae and microbial species. The variability in the harmful impact of a single pesticide across different algae species underscores the necessity for further research. A holistic approach considering these interactions is imperative to enhance predictions of pesticide effects in marine ecosystems. Continued research in this realm is crucial for a nuanced understanding of the repercussions of pesticides and herbicides on aquatic ecosystems, mainly algae.
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    THE CURRENT STATE OF ALGAE IN WASTEWATER TREATMENT AND ENERGY CONVERSION: A CRITICAL REVIEW
    (Elsevier, 2023-06) Sabariswaran, Kandasamy; Mathiyazhagan, Narayanan; Rathinam, Raja; Kesavan, Devarayan; R, Kavitha
    Due to the rapid expansion of the global economy and population, there aren't enough water resources accessible for direct human consumption. Therefore, water remediation will unavoidably take center stage on a worldwide platform. The development of microalgae can be supported by several types of wastewater (WW). They might be able to clean up pollutants from industry and urban effluents. Due to its low energy requirements, microalgae's capacity to survive in various environmental circumstances, and the potential to convert WW nutrients into high-value chemicals, microalgae-based wastewater treatment (WWT) has already received attention. Recent studies have reported using microalgae to remove pharmaceutical compounds and pesticides from wastewater produced by industrial and agricultural processes and removing nutrients from wastewater from WWTs. As a result, utilizing microalgae for both wastewater treatment and biofuel production could be a cost-effective solution to these challenges. This review emphasizes recent developments in the production of microalgae for WW cleanup. Additionally, it highlights the current problems and opportunities in the emerging algae-based sector.
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    THE CURRENT STATE OF ALGAE IN WASTEWATER TREATMENT AND ENERGY CONVERSION: A CRITICAL REVIEW
    (Elsevier, 2023-06) Sabariswaran, Kandasamy; Mathiyazhagan, Narayanan; Rathinam, Raja; Kesavan, Devarayan; Kavitha, R
    Due to the rapid expansion of the global economy and population, there aren't enough water resources accessible for direct human consumption. Therefore, water remediation will unavoidably take center stage on a worldwide platform. The development of microalgae can be supported by several types of wastewater (WW). They might be able to clean up pollutants from industry and urban effluents. Due to its low energy requirements, microalgae's capacity to survive in various environmental circumstances, and the potential to convert WW nutrients into high-value chemicals, microalgae-based wastewater treatment (WWT) has already received attention. Recent studies have reported using microalgae to remove pharmaceutical compounds and pesticides from wastewater produced by industrial and agricultural processes and removing nutrients from wastewater from WWTs. As a result, utilizing microalgae for both wastewater treatment and biofuel production could be a cost-effective solution to these challenges. This review emphasizes recent developments in the production of microalgae for WW cleanup. Additionally, it highlights the current problems and opportunities in the emerging algae-based sector.
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    DEVELOPMENT OF PORTABLE COLORIMETER FOR ON-SITE DETERMINATION OF WATER QUALITY IN AQUACULTURE
    (Pigment & Resin Technology, 2022-05-25) Kesavan, Devarayan; Madhan, Kathavarayan; Anand, Theivasigamani; Monikandon, Sukumaran; Sabariswaran, Kandasamy
    This study aims to describe the development of a battery-operated portable colorimeter for on-site determination of water quality in aquaculture.A simple and economical colorimeter is built using light sources of different wavelength and a light-dependent resistor combined with an electrical circuit. The whole system was fabricated as to fit into the pocket or palm for easy handling. The developed portable colorimeter was calibrated for estimation of nitrite. Further, the performance of developed portable colorimeters was compared with the commercially available colorimeter.Three colorimeters with different light sources were developed and calibrated for determination of nitrite in water. Among them, colorimeter with yellow light source exhibited higher potential for determination of nitrite in the range of 0.5–3.5 ppm. Further, the results of the developed colorimeter are comparable with the commercial colorimeter.The portable colorimeter developed in this study exhibits potential for determination of nitrite in aquaculture. Determination of nitrite at low concentrations is important for assessing the quality of culture as well as wastewater in aquaculture industry. The accuracy, portable nature, economy and simple operation of these portable colorimeters offer opportunity for on-site determination of water quality parameters in aquaculture.