B. Manimekalai scite author profile

Many studies have proven that microplastics are transported from the terrestrial ecosystem to the marine ecosystem. Furthermore, it has been established that a significant quantity is added to the marine ecosystem through river transport and atmospheric deposition. Though several methods exist to estimate the concentration of microplastics in the marine ecosystem, it is very difficult to precisely quantify the pollutants and determine the amount transported from the land to the ocean. The data on the extent of microplastic pollution are influenced by the sampling methods and the time of sampling. An examination of the literature reveals that only limited studies have been conducted to examine the interaction of microplastics and their additives with the marine organisms. Hence, more such studies are warranted to shed light on these interactions. Few modeling studies have been conducted to estimate the future addition of plastics to the marine ecosystem. To obtain better output, appropriate models that consider the current scenario need to be developed. Models help us to understand the sources, transport, sinks, and risks of microplastic pollution. This will enable us to develop appropriate strategies and, measures to reduce plastic littering in the environment, thus marine plastic pollution is minimized in the future.

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Analysis of aged refuse bio adsorbent for heavy metal removal in electroplating effluent

Manimekalai

Sivanesan

2023

International Journal of Environmental Analytical Chemistry

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Analysis of Leachate Contamination Potential of a Municipal Landfill Using Leachate Pollution Index

Manimekalai¹

2014

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Consequence of COVID‐19 occurrences in wastewater with promising recognition and healing technologies: A review

Manimekalai

Arulmozhi

Ammasi

et al. 2022

Env Prog and Sustain Energy

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Presently, the coronavirus (COVID‐19) epidemic presents a major threat to global communal fitness also socio‐financial development. Ignoring worldwide isolation as well as shutdown attempts, the occurrence of COVID‐19 infected patients continues to be extremely large. Nonetheless, COVID‐19's final course, combined with the prevalence of emerging contaminants (antibiotics, pharmaceuticals, nanoplastics, pesticides, and so forth) in wastewater treatment plants (WWTPs), presents a major problem in wastewater situations. The research, therefore, intends near examine an interdisciplinary as well as technical greet to succor COVID‐19 with subsequent COVID cycles of an epidemic as a framework for wastewater treatment settings. This research investigated the potential for wastewater‐based epidemiology to detect SARS‐CoV‐2 also the enzymes happening in wastewater conditions. In addition, a chance for the incorporation into the WWTPs of emerging and robust technologies such as mesmeric nanobiotechnology, electrochemical oxidation, microscopy, and membrane processes to enhance the overall likelihood of environmental consequences of COVID‐19 also strengthen such quality of water is resolved.

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B. Manimekalai

Review on the distribution of microplastics in the oceans and its impacts: Need for modeling-based approach to investigate the transport and risk of microplastic pollution

Analysis of aged refuse bio adsorbent for heavy metal removal in electroplating effluent

Analysis of Leachate Contamination Potential of a Municipal Landfill Using Leachate Pollution Index

Consequence of COVID‐19 occurrences in wastewater with promising recognition and healing technologies: A review

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