Your search keyword '"AL Ramanathan"' showing total 22 results

1. Frontier review on the propensity and repercussion of SARS-CoV-2 migration to aquatic environment

Author

Manish Kumar, Alok Kumar Thakur, Payal Mazumder, Keisuke Kuroda, Sanjeeb Mohapatra, Jörg Rinklebe, Al. Ramanathan, Zeynep Cetecioglu, Sharad Jain, Vinay Kumar Tyagi, Petros Gikas, Sudip Chakraborty, M. Tahmidul Islam, Arslan Ahmad, Anil V. Shah, Arbind Kumar Patel, Toru Watanabe, Meththika Vithanage, Kyle Bibby, Masaaki Kitajima, and Prosun Bhattacharya

Subjects

Coronavirus, COVID-19, Pathways, Water, Groundwater, Hazardous substances and their disposal, TD1020-1066

Abstract

Increased concern has recently emerged pertaining to the occurrence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in aquatic environment during the current coronavirus disease 2019 (COVID-19) pandemic. While infectious SARS-CoV-2 has yet to be identified in the aquatic environment, the virus potentially enters the wastewater stream from patient excretions and a precautionary approach dictates evaluating transmission pathways to ensure public health and safety. Although enveloped viruses have presumed low persistence in water and are generally susceptible to inactivation by environmental stressors, previously identified enveloped viruses persist in the aqueous environment from days to several weeks. Our analysis suggests that not only the surface water, but also groundwater, represent SARS-CoV-2 control points through possible leaching and infiltrations of effluents from health care facilities, sewage, and drainage water. Most fecally transmitted viruses are highly persistent in the aquatic environment, and therefore, the persistence of SARS-CoV-2 in water is essential to inform its fate in water, wastewater and groundwater and subsequent human exposure.

Published

2020

2. Contributors

Author

Ahmed Ibrahimali Abdelpahman, Narsimha Adimalla, Adnan Akber, Ameena Ali, A.S. Aliewi, Muruganantham Arumugam, Atena Bagheri, M. Bagyaraj, Aboneh Bezabih, Harish Bhandary, Paramasivam Chellamuthu Ranganathan, Jianyao Chen, Duba Chena, Pritam Choudhury, Danbobi Chuluke, Sang Yong Chung, S. Deepa, Hussam Eldin Elzain, G. Gnanachandrasamy, B. Gowtham, G.I. Gunarani, Muhammed Haji, Mohamed Hassan, K. Jesuraja, T. Jeyavel Raja Kumar, V.S. Joji, Pradeep Kamaraj, Sivakumar Karthikeyan, Sugumaran Karupiah, Gemechu Kotola, Prabakaran Kulandaisamy, Christina Marcus, Meenal Mategaonkar, Mahalakshmi Mathivanan, Mbanza Missionnaire, P. Muthukumar, Sung-Ho Na, Ata Allah Nadiri, Nagoor Nasir, Sehoon Park, G. Ponnumani, R. Prakash, S.P. Prasood, A. Rajesh Kanna, A. Ramamoorthy, AL. Ramanathan, T. Ramkumar, M. Ranjani, Karuna Rao, Siamak Razzagh, Priyadarsi D. Roy, Chidambaram Sabarathinam, Sina Sadeghfam, Selvam Sekar, Radhakrishnan Selvakumar, Venkatramanan Senapathi, Kumaravel Shunmugam, K. Srinivasamoorthy, Kongeswaran Thangaraj, K.P. Thrivikramji, Meysam Vadiati, Rathinakumar Vedhachalam, S. Veerasingam, R. Venkatachalapathy, P. Vethamony, and K. Vinodh

Published

2022

3. Submarine groundwater discharge as a significant source of nutrients in the coastal zone

Author

Karuna Rao and AL. Ramanathan

Published

2022

4. River Basin Ecohydrology in the Indian Sub-Continent : Sustainable Strategies and Sustenance

Author

Manish Kumar, AL Ramanathan, Sangam Shrestha, Keisuke Kuroda, Santanu Mukherjee, Manish Kumar, AL Ramanathan, Sangam Shrestha, Keisuke Kuroda, and Santanu Mukherjee

Abstract

River Basin Ecohydrology in the Indian Sub-Continent: Sustainable Strategies and Sustenance provides a multidisciplinary approach that focuses on conservation strategies, water quality management in the eco-regions, catchment management practices, estuaries, preservation of in-stream habitat populations, and natural /bioengineering techniques for the sustainable management of ecological resources in the Indian sub-continent. The book provides a unique platform for readers from branches of science and technology, including engineering sciences, agricultural sciences, biogeochemical sciences, hydrogeochemistry, toxicological sciences, social sciences, environmental policy, and governance, etc. to exchange ideas and information at multiple levels on sustainable water management, degradation of marine quality and indicators of ecological degradation. The book's contributors provide impressive and comprehensive information on different management strategies for sustainable restoration of aquatic ecological systems covering vital aspects of hydrogeochemical and geoenvironmental parameters. This book aims to provide a'platform'for scientists and environmental researchers/planners to discuss the environmental degradation, spatial heterogeneity on water quality and aquatic species, methodological approaches on sustainable management of biodiversity, etc. - Presents an extensive collection of eco-hydrological changes in the river basin driven by both nature and anthropological factors - Provides state of the art modeling, data analysis methodologies for complex socio – ecological complexity applied in the Indian Sub-Continent - Includes specific cases of ecohydrology in the river basin, especially from the Indian Sub-Continent

Published

2024

5. Contributors

Author

A.A. Sam, A.A. Shah, AL. Ramanathan, A. Abeynayaka, A. Akber, A. Mukhopadhyay, A. Qadir, Ajit Kumar Vidyarthi, Alejandra Reyes-Márquez, Alok Kumar Thakur, Alok Sagar Gautam, Ana Laura Cervantes Nájera, Anisha Shajan, Arindam Malakar, Arjun Gautam, Arpah bt. Abu Bakar, Arthur James Rathinam, Ash Pachauri, Asmita Deep, Atul Rawat, Balaji Vedharajan, Banajarani Panda, Barbara Kovács, Basanta Baral, Binaya Kumar Mishra, Canesio D. Predo, Chandani Appadoo, D.T. Hung, D. Aaisyah, Damasa B. Magcale-Macandog, Deepak Khare, Deepak Singh, Dhanu Radha Samayamanthula, Drishya Pathak, E. Haramoto, Eri Ikeda, Eugenia López-López, Fadila Al-Salameen, Farhana Zakir, Fatima A. Natuel, Francisco Muñoz Arriola, G. Gnanachandrasamy, Goutham Bharathi, Guadalupe M. Austria-Ortíz, Harish Chandra Nainwal, Henciya Santhaseelan, Jagriti Jain, John Vincent R. Pleto, Joseph G. Campang, José Soto, Juana López-Martínez, Juan Carlos Campos Benhumea, Juan Mayorga, K. Shankar, K. Sirikanchana, Karan Singh, Khandkar-Siddikur Rahman, Komal Mittal, Lubaba Khan, M.V. Prasanna, M. Kitajima, M. Mahalakshmi, M. Navia, M. Tsudaka, Ma. Grechelle Lyn D. Perez, Madhavi Latha Kone, Mahfuza Zaman Ela, Manish Kumar, Mariko Yokoo, Martín Vera Martínez, María Concepción Martínez Rodríguez, Md. Nasif Ahsan, Md. Nazrul Islam, Md. Tanvir Hossain, Montaha Behbehani, Mukta Akter, Mustafa Moinuddin, Muthukumar Krishnan, N.Q. Dinh, N.T.T. Huong, N. Devaraj, Nandakumar Janardhanan, Nazima Habibi, Neha Jaiswal, Nethanel Jireh A. Larida, Norma Patricia Muñoz Sevilla, Nusrat Jahan, P. Ragavan, Pankaj Kumar, Pham Ngoc Bao, Philo Magdalene A, Prabhat Ranjan, Prasun Kumar Gupta, Prosun Bhattacharya, Punarbasu Chaudhuri, R.S. Negi, R. Shalaby, R. Thilagavathi, Rajeev Issar, Ram Kumar, Ravi Bhandari, Ritika Mandhyan, Rozina Akter, Sabarathinam Chidambaram, S. Jayakumar, S. Sahari, Saif Uddin, Sanjeev Kumar, Santhosh Gokul Murugaiah, Sarena Grace L. Quiñones, Sergio Aguíñiga-García, Shailly Kedia, Shamik Chakraborty, Shresth Tayal, Sivakumar Kannan, Sivaperuman Chandrakasan, Sivapuram V.R.K. Prabhakar, Somya Bhatt, Subarna Bhattacharyya, Sudesh Yadav, Suniti Parashar, Sushil Kumar, Swati Singh, T. Setiadi, T. Takeda, Taposhi Rabya Lima, Taufiq-E-Ahmed Shovo, Usha Mina, Vengateshwaran Thasu Dinakaran, Vijeta Rattani, Vu Duc Canh, Xin Zhou, and Yves Christian L. Cabillon

Published

2021

6. Impact of COVID-19 lockdown on real-time DO–BOD variation of river Ganga

Author

Suniti Parashar, Al. Ramanathan, Prabhat Ranjan, and Ajit Kumar Vidyarthi

Subjects

Biochemical oxygen demand, Suspended solids, Animal science, Coronavirus disease 2019 (COVID-19), Environmental science, West bengal, Water quality, Turbidity, River water

Abstract

A comparative assessment of dissolved oxygen (DO) and biochemical oxygen demand (BOD) of river Ganga during prelockdown and lockdown periods was made through analysis of data generated from real-time water quality motoring systems. The concentration data for DO and BOD are examined for (i) prelockdown period (March 15–21, 2020) and (ii) lockdown period (March 22–April 15, 2020). The analysis results show 3%–20% decrease in DO concentration. The slight decrease in DO observed at all locations during the first week after lockdown which may be due to the increased levels of suspended solids and turbidity in the river water because of heavy rains. DO during fourth week of lockdown has shown a decreased value as compared to the prelockdown period at most of the locations. However, in West Bengal the DO has increased in lockdown. BOD value ranged between 1.13 mg/L and 5.56 mg/L during lockdown period, more or less similar to prelockdown range of 1.37–5.58 mg/L. This chapter further discusses the cause of water quality changes during the period of lockdown as compare to prelockdown period.

Published

2021

7. Wastewater discharge and surface water contamination pre- and post- COVID 19—global case studies

Author

Manish Kumar, Alok Kumar Thakur, Prosun Bhattacharya, and Al. Ramanathan

Subjects

Geography, Coronavirus disease 2019 (COVID-19), Wastewater, Transmission (medicine), Environmental health, Pandemic, Sewage treatment, Contamination, Risk assessment, Surface water

Abstract

Global pandemic of SARS-CoV-2 has infected more than 53 million people in more than 190 countries. The major transmission routes of most of the infectious viruses’ including SARS-CoV-2 remain aerosols and droplets. The source of which remains coughing, sneezing, urinary, and intestinal excretions. This book chapter focuses on the latter two sources of water and wastewater contamination with RNA of these contagious viruses. There has been studies regarding the presence of viral RNA of COVID-19 in wastewater in few of the countries like USA, Australia, Netherland, and India. This mainly happens due to the discharge of untreated wastewater from health care facilities and sewage treatment plants. Improper management of the waste has led to the contamination of surface water bodies. Fecal shedding of the virus is common in 50% of the infected individual, and urinal shedding in just around 5%. The former shedding is of the order of 103–105 copies/mL. The wastewater surveillance for SARS-CoV-2 RNA in wastewater gives the figure of 102–106 copies/L. The surveillance already known to track down many diseases, drugs in past has been a boon to the countries, where clinical testing is at a slow pace. Therefore, wastewater-based epidemiology is needed to have a better understanding of the water and wastewater surveillances, for prior detection of SARS-CoV-2 and other pathogens, sought to occur in future. The chapter deals with the occurrences, transport pathways, persistence, and removal of most of the reported infectious viruses in water and wastewater, with a special emphasize on SARS-CoV-2. Developing a proper framework and methodology containing environment and human health risk assessments will help the researchers and policyholders to look up for the alternative options. Even after a number of researches detecting the presence of SARS-CoV-2 in wastewater, there has been a limited knowledge in the potential role of water and wastewater in the transmission of these infectious viruses. A well summarized review would surely help in the assessment of the likely fate of most of these contagious human viruses.

Published

2021

8. Frontier review on the propensity and repercussion of SARS-CoV-2 migration to aquatic environment

Author

Arslan Ahmad, Jörg Rinklebe, Masaaki Kitajima, Prosun Bhattacharya, M. Tahmidul Islam, Meththika Vithanage, Payal Mazumder, Al. Ramanathan, Manish Kumar, Sanjeeb Mohapatra, Zeynep Cetecioglu, Petros Gikas, Arbind Kumar Patel, Kyle Bibby, Sharad K. Jain, Sudip Chakraborty, Vinay Kumar Tyagi, Anil V. Shah, Keisuke Kuroda, Toru Watanabe, and Alok Kumar Thakur

Subjects

medicine.medical_specialty, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), viruses, Sewage, Biology, Article, Environmental health, Pandemic, medicine, Pathways, Effluent, Groundwater, Transmission (medicine), business.industry, Public health, fungi, COVID-19, Water, Coronavirus, Wastewater, lcsh:Hazardous substances and their disposal, Environmental Technology, Milieutechnologie, lcsh:TD1020-1066, business, Surface water

Abstract

Increased concern has recently emerged pertaining to the occurrence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in aquatic environment during the current coronavirus disease 2019 (COVID-19) pandemic. While infectious SARS-CoV-2 has yet to be identified in the aquatic environment, the virus potentially enters the wastewater stream from patient excretions and a precautionary approach dictates evaluating transmission pathways to ensure public health and safety. Although enveloped viruses have presumed low persistence in water and are generally susceptible to inactivation by environmental stressors, previously identified enveloped viruses persist in the aqueous environment from days to several weeks. Our analysis suggests that not only the surface water, but also groundwater, represent SARS-CoV-2 control points through possible leaching and infiltrations of effluents from health care facilities, sewage, and drainage water. Most fecally transmitted viruses are highly persistent in the aquatic environment, and therefore, the persistence of SARS-CoV-2 in water is essential to inform its fate in water, wastewater and groundwater and subsequent human exposure.

Published

2020

9. Regional representation of glaciers in Chandra Basin region, western Himalaya, India

Author

S. Nawaz Ali, Al. Ramanathan, Pratima Pandey, Gopalan Venkataraman, and P. K. Champati Ray

Subjects

Monsoon, Topography, 010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, Himalaya, Earth and Planetary Sciences(all), 02 engineering and technology, Structural basin, 01 natural sciences, Glacier mass balance, Hypsometry, Peru, Benchmark Glacier, Precipitation, Glacier, Geomorphology, Usa, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, lcsh:QE1-996.5, Chhota-Shigri Glacier, Remote sensing, Glacier morphology, 020801 environmental engineering, Multi sensor, lcsh:Geology, Cordillera Blanca, National-Park, Mass-Balance, General Earth and Planetary Sciences, Area ratio, Physical geography, Surface-Energy Balance, Geology, Regional representation

Abstract

Hamtah and Chhota Shigri are two nearby, well monitored glaciers of western Himalaya, lying in the same climatic zone and driven by the same climatic conditions. In this study, topographical characteristics of both the glacier have been explored to understand the role of topography in controlling the glacier response. Further, their topographical characteristics and possible response towards climatic variations have been compared with each other and also with that of the other glaciers in the basin to find out the suitability of these two glaciers to be considered as representative of the region. Multi sensor and multi temporal remote sensing data have been used to carry out to fulfill the objectives. It is found that being in the same climatic zone, the mean accumulation area ratio of Chhota Shigri is 54% and Hamtah is 11% between 1980 and 2014. In comparison to Hamtah, Chhota Shigri glacier has a small upslope area, low compactness ratio indicating the ability of the glacier to receive direct precipitation and solar radiation. The analysis revealed that the Chhota Shigri glacier has a closer resemblance with the other glaciers in the region than Hamtah glacier. Also, the topographical settings of Chhota Shigri glacier are suitable for recording and reflecting year-to-year climatic variations. (C) 2016, China University of Geosciences (Beijing) and Peking University. Production and hosting by Elsevier B.V.

Published

2017

10. Fluoride Contamination in Groundwater—A GIS and Geostatistics Reappraisal

Author

R. Thilagavathi, C. Thivya, Al. Ramanathan, V. Dhanu Radha, Banajarani Panda, M. Arindam, S. Chidambaram, N. Ganesh, and S. Manikandan

Subjects

Environmental science, Geostatistics, Water resource management, Groundwater, Fluoride contamination

Published

2019

11. List of Contributors

Author

Y.P. Abrol, S. Adhikari, T.K. Adhya, S. Agrawal, A. Ahmed, S. Anandan, V.P. Aneja, K.S. Anil, J.S. Arunkumar, D. Balachandar, K. Batabyal, G. Beig, D.K. Benbi, S.K. Bhanja, A. Bhatia, S. Bhattacharya, R. Bhattacharyya, null Bijay-Singh, A.K. Biswas, W. Brownlie, T.K. Chanda, G.N. Chattopadhyay, O.P. Chaturvedi, S. Datta, I. Dev, M.L. Dotaniya, U. Dragosits, J. Drewer, B.S. Dwivedi, A.N. Ganeshamurthy, D. Ganguly, B.N. Ghosh, P.K. Ghosh, S.D. Ghude, N.K.S. Gowda, A.B. Gupta, R. Gupta, S.K. Gupta, B.R. Gurjar, J. Hillier, S. Hooda, C.M. Howard, N. Jain, V. Jain, R. Jeyabaskaran, Pramod Jha, E.J.M. Joy, D. Kalaivanan, V. Kripa, U. Kulshrestha, Dhiraj Kumar, Dinesh Kumar, N. Kumar, R.M. Kumar, S. Kundu, Brij Lal Lakaria, M. Lalitha, S.K. Mahanta, M. Maheswari, S. Maji, A.B. Mandal, B. Mandal, B.P. Meena, M.C. Meena, M. Mohini, A. Moring, M. Muralidhar, A.N.G. Murthy, A. Nagpure, D.R. Nayak, C.N. Neeraja, A. Paneer Selvam, A.S. Panicker, H. Pathak, Ashok K. Patra, E.V.S. Prakasa Rao, C.S. Prasad, R. Prasanna, D. Prema, A. Price, N. Priya, R. Purvaja, K. Puttanna, T.K. Radha, N. Raghuram, S. Rajendiran, A. Ram, S.N. Ram, B. Ramakrishnan, AL. Ramanathan, R. Ramesh, P. Ranjan, D.L.N. Rao, D.S. Reay, R.S. Robin, J. Rudek, T.R. Rupa, S.K. Sahu, V. Sahu, S. Samanta, S.M. Sappal, R. Saraswathy, D. Sarkar, A.K. Shanker, C. Sharma, K. Sharma, A. Singh, G. Singh, Renu Singh, Richa Singh, V.K. Singh, V.V. Singh, U. Skiba, J.U. Smith, S. Sohi, K.R. Sooryanarayana, A. Subba Rao, D. Subrahmanyan, K. Surekha, M.A. Sutton, J. Syama Dayal, M. Tak, R.K. Tewatia, H.S. Thind, A.R. Uthappa, H.J.M. van Grinsven, K.K. Vass, M. Vieno, and S.R. Voleti

Published

2017

12. Reactive Nitrogen Dynamics in the Mangroves of India

Author

Al. Ramanathan, Namrata Priya, Prabhat Ranjan, and Swati Mohan Sappal

Subjects

Water column, Denitrification, Reactive nitrogen, Ecology, Environmental science, Ecosystem, Mangrove, Leaching (agriculture), Monsoon, Surface runoff

Abstract

This chapter reviews the reactive nitrogen dynamics in Indian mangroves’ ecosystems. The available literature reveals that in the Indian mangroves the dissolved inorganic nitrogen (DIN) varies seasonally with higher values during the monsoon season. This is due to higher terrestrial runoff with increased N leaching coupled with decreased productivity. Mangrove litter is the major contributor to DIN pool along with inputs from aquaculture farms, industries, and domestic waste. Isotopic studies conducted in the sediment and water column reveal similar results pointing out the increasing anthropogenic contribution of reactive nitrogen species in the mangrove environment. Denitrification processes prevail in the mangrove sediments and may pose a threat by increased production of greenhouse gases. Nitrous oxide flux in studied Indian mangroves range from 4.4 to 208 μg m −2 h −1 and is dominant in regions with higher terrestrial sources and agricultural runoff.

Published

2017

13. Spectre of SARS-CoV-2 RNA in the ambient urban waters of Ahmedabad and Guwahati: A tale of two Indian cities.

Author

Kumar M, Srivastava V, Mazumder P, Deka JP, Gupta S, Goswami R, Mutiyar PK, Dave S, Mahanta C, Ramanathan AL, and Joshi M

Subjects

Cities, Humans, RNA, Viral, Sanitation, Wastewater, COVID-19, SARS-CoV-2

Abstract

COVID-19 positive patients can egest live SARS-CoV-2 virus and viral genome fragments through faecal matter and urine, raising concerns about viral transmission through the faecal-oral route and/or contaminated aerosolized water. These concerns are amplified in many low- and middle-income countries, where raw sewage is often discharged into surface waterways and open defecation is common. Nonetheless, there has been no evidence of COVID-19 transmission via ambient urban water, and the virus viability in such aquatic matrices is believed to be minimal and not a matter of concern. In this manuscript, we attempt to discern the presence of SARS-CoV-2 genetic material (ORF-1ab, N and S genes) in the urban water (lakes, rivers, and drains) of the two Indian cities viz., Ahmedabad (AMD), in western India with 9 wastewater treatment plants (WWTPs) and Guwahati (GHY), in the north-east of the country with no such treatment facilities. The present study was carried out to establish the applicability of environmental water surveillance (E-wat-Surveillance) of COVID-19 as a potential tool for public health monitoring at the community level. 25.8% and 20% of the urban water samples had detectable SARS-CoV-2 RNA load in AMD and GHY, respectively. N-gene > S-gene > ORF-1ab-gene were readily detected in the urban surface water of AMD, whereas no such observable trend was noticed in the case of GHY. The high concentrations of SARS-CoV-2 genes (e.g., ORF-1ab; 800 copies/L for Sabarmati River, AMD and S-gene; 565 copies/L for Bharalu urban river, GHY) found in urban waters suggest that WWTPs do not always completely remove the virus genetic material and that E-wat-Surveillance of COVID-19 in cities/rural areas with poor sanitation is possible., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

14. Isotopic signatures to address the groundwater recharge in coastal aquifers.

Author

Chidambaram S, Panda B, Keesari T, Prasanna MV, Singh DK, and Ramanathan AL

Subjects

Environmental Monitoring, India, Isotopes analysis, Anthropogenic Effects, Groundwater

Abstract

The dynamics of the coastal aquifers are well-expressed by geochemical and isotopic signatures. Coastal regions often exhibit complex groundwater recharge pattern due to the influence of depression in the Bay of Bengal, tidal variations on surface waters, saline water intrusion and agricultural return flows. In this research, groundwater recharge processes occurring in coastal Tamil Nadu, South India were evaluated using major ion chemistry and environmental isotopes. A total of 170 groundwater samples were collected from shallow and deep aquifers during both post-monsoon (POM) and pre-monsoon (PRM) seasons. The isotopic results showed a wide variation in the shallow groundwater, suggesting contribution from multiple recharge sources. But, the deeper groundwater recharge is mainly from precipitation. The northern part of the study area showed more depleted isotopic values, which rapidly changed towards south from -6.8 to -4.4‰. Alternatively, central and southern parts exhibited relatively enriched isotopic content with variation from -0.58 to -2.7‰. Groundwater was discerned to be brackish to saline with chloride content, 600-2060 mgL -1 and δ 18 O ranging from -5.8 to -4.5‰, suggesting influence of the saline water sources. A minor influence of anthropogenic activities was also observed in the deeper groundwater during PRM, which was confirmed by tritium and Cl - trends. The old groundwater with depleted isotopic content infer recharged by distant sources while modern groundwater with enriched isotopes points to the influence of evaporated recharge., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

15. Source apportionment and health risk assessment of nitrate in foothill aquifers of Western Ghats, South India.

Author

Panda B, Chidambaram S, Snow D, Malakar A, Singh DK, and Ramanathan AL

Subjects

Animals, Anthropogenic Effects, Environmental Monitoring, Humans, Nitrates analysis, Nitrogen Isotopes analysis, Risk Assessment, Groundwater, Water Pollutants, Chemical analysis

Abstract

The present research reports the level of nitrate (NO 3 - ), associated health risks and possible sources of contamination in groundwater from south India. Many samples (32%) are above or approaching the recommended level of NO 3 - for safe drinking water. The correlation analysis indicates different sources of NO 3 - contamination in different regions rather than a common origin. The isotopic measurements provide information about potential nitrogen sources contributing NO 3 - to the groundwater. Based on isotope analysis, the sources of NO 3 - in the groundwater of this region are likely to be from (a) septic sewage (b) organic nitrogen (animal and livestock excreta) (c) sewage (domestic & chemical fertilizers). Among the sample analyzed sewage, manure and septic sewage contribute 46%, 23% and 31% NO 3 - to groundwater. The HQ > 1 indicates non-carcinogenic health risk due to consumption of high NO 3 - in drinking water. Among the studied age groups, infants are exposed to higher risk than children and adults. Results indicate that groundwater of this region is polluted with NO 3 - due to anthropogenic activities. Continuous consumption of such water may pose serious health risk to the residents., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

16. Assessment of toxicity and potential health risk from persistent pesticides and heavy metals along the Delhi stretch of river Yamuna.

Author

Parween M, Ramanathan AL, and Raju NJ

Subjects

Child, China, Ecosystem, Environmental Monitoring, Humans, India, Risk Assessment, Rivers, Metals, Heavy analysis, Metals, Heavy toxicity, Pesticides toxicity, Soil Pollutants analysis

Abstract

The present study aims at the assessment of environmental quality of the most polluted stretch of river Yamuna along the megacity of Delhi. The study was conducted in order to examine toxicity and health hazards associated with persistent pollutants present in the fluvial ecosystem. Eighty four sediment and 56 vegetable samples from same locations were collected from the Delhi segment of river Yamuna flood plain in order to examine 20 organochlorine pesticides (OCPs) and 9 heavy metals (Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb and Zn). Both the organic and inorganic groups of persistent toxic substances were monitored and analysed for the extent of eco-toxicological as well as dietary health risks posed to the local population. Eco-toxicological assessment was done based on sediment quality guidelines, enrichment factor, geo-accumulation index, degree of contamination and Pollution Load Index. The dietary-risk was assessed with the help of translocation factors (TF) of these pollutants in vegetables. Carcinogenic and non-carcinogenic health risks from consumption of vegetables were also investigated. The level of concern for heavy metals was greater than that of OCPs as per the sediment quality guidelines. DDT, Cd, Pb and Zn had maximum concentrations corresponding to level 3 of concern, while Cr and Ni reached up to the highest i.e., 4th level of concern. Sediment samples were found to be enriched and contaminated significantly with Cd and moderately with Pb, as represented respectively by enrichment factors and contamination factors (CF). CF for metals lied in order Zn > Cd > CrNi > PbCu. Pollution load index was highest at the location lying on the exit point of Yamuna in Delhi. TF values greater than 1 were observed in majority of samples analysed for Ni, Cr, Cu and Zn. Spinach topped among vegetables in terms of metal contamination. Cd, Ni and Pb accumulated more in the roots, as against Mn, Zn, Cu and Cr which had higher accumulation in the shoots. Translocation factors were substantially high in vegetables for most of the OCPs, clearly indicating bioaccumulation and potential health risk to the consumers. Health risk to humans was assessed for non-carcinogenic and carcinogenic potentials from ingestion of vegetables. Hazard Quotient (HQ) > 1 due to radish (roots and leaves) and cauliflower consumption in children indicated non-carcinogenic risk. Hazard Index (HI) beyond 1 for all the vegetables (except onion leaves) confirmed substantial cumulative risk. Lifetime cancer risk (LCR) revealed moderate (spinach, radish, beet root and cauliflower) to low (all the others) levels of carcinogenic risk to humans. Cancer risks from γ-HCH, β- HCH, Hept, Hept Ep, Ald, p,p'-DDT, and Cr exposure through the food chain could be well established., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

17. Impact of seasonality on the nutrient concentrations in Gautami-Godavari Estuarine Mangrove Complex, Andhra Pradesh, India.

Author

Rao K, Priya N, and Ramanathan AL

Subjects

Groundwater chemistry, India, Rivers chemistry, Environmental Monitoring methods, Estuaries, Nitrogen analysis, Phosphorus analysis, Seasons, Wetlands

Abstract

Spatiotemporal variations of dissolved nutrients were studied along Gautami-Godavari mangrove ecosystem to delineate their sources and fate. Average values of nitrate (NO 3 - ), dissolved silica (DSi) and phosphate (PO 4 3- ) is 2.09 mg/l, 12.7 mg/l and 0.16 mg/l in wet season and 0.47 mg/l, 6.96 mg/l and 0.29 mg/l in dry season respectively. In wet season river discharge has significant influence on NO 3 - and DSi. In dry season, NO 3 - and PO 4 3- are controlled by groundwater discharge, benthic exchange and various in situ processes owing to sediment redox condition. Mixing model shows net addition of phosphate in Coringa mangroves (95%) and Lower estuary (13%) and net removal of nitrate (24.79%) in Coringa mangrove and in estuary (58.9%). Thus present mangrove acts as net source for phosphate and net sink for nitrate and DSi. Nutrient ratio shows seasonal switching between potential Phosphorus and Nitrogen limitation in wet and dry season respectively., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

18. Trace metal distribution, assessment and enrichment in the surface sediments of Sundarban mangrove ecosystem in India and Bangladesh.

Author

Ranjan P, Ramanathan AL, Kumar A, Singhal RK, Datta D, and Venkatesh M

Subjects

Bangladesh, India, Rivers chemistry, Environmental Monitoring methods, Geologic Sediments chemistry, Metals, Heavy analysis, Trace Elements analysis, Water Pollutants, Chemical analysis, Wetlands

Abstract

Comparative study of trace metals distribution in the surface sediment of Sundarban mangrove ecosystem in India and Bangladesh is one of the primary baseline study done so far. Trace metal distribution assessment covering lower salinity zone to higher salinity zone was done along Matla River (tidal river) in Indian side and freshwater zone to higher salinity zone along Passur River in Bangladesh side of Sundarban; representing anthropogenic influenced area, agricultural area, tourist site and pristine area. Trace metals distribution in the surface sediments of Sundarban mangrove ecosystem shows relatively higher value of trace metals, Co, Cr, Cu, Fe, Ni, Pb and Zn in Indian part when compared to Bangladesh. Enrichment factor shows the highest enrichment of Pb in both parts of Sundarban mangroves. Co, Cr, Cu, Pb and Zn show EF>1 indicates sediment contamination from anthropogenic activities. Cr, Ni and Pb were found to have moderate accumulation in geoaccumulation index with Fe showing high accumulation. Normalized data of trace metals shows 87.5% from Indian site and 80% of Bangladesh site as outlier, indicating anthropogenic influence. Out of total sampling site 50% of Indian and 40% of Bangladesh site show trace metal values enriched more than predicted value of trace metals indicating Indian part have more polluted sites than Bangladesh side of Sundarban, which is also confirmed by enrichment factor, I-geo and normalization values in both the sides., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

19. Concentrations of inorganic arsenic in groundwater, agricultural soils and subsurface sediments from the middle Gangetic plain of Bihar, India.

Author

Kumar M, Ramanathan AL, Rahman MM, and Naidu R

Subjects

India, Soil chemistry, Arsenic analysis, Environmental Monitoring methods, Geologic Sediments chemistry, Groundwater chemistry, Soil Pollutants analysis, Water Pollutants, Chemical analysis

Abstract

Concentrations of inorganic forms [arsenite, As(III) and arsenate, As(V) of arsenic (As) present in groundwater, agricultural soils and subsurface sediments located in the middle Gangetic plain of Bihar, India were determined. Approximately 73% of the groundwater samples (n=19) show As(III) as the dominant species while 27% reveals As(V) was the dominant species. The concentration of As(III) in agricultural soil samples varies from not detectable to 40μg/kg and As(V) was observed as the major species (ranging from 1050 to 6835μg/kg) while the total As concentration varied from 3528 to 14,690μg/kg. Total extracted concentration of As was higher in the subsurface sediments (range 9119-20,056μg/kg in Methrapur and 4788-19,681μg/kg in Harail Chapar) than the agricultural soil, indicating the subsurface sediment as a source of As. Results of X-ray diffraction (XRD) and environmental scanning electron microscope (ESEM) revealed the presence of hematite and goethite throughout the vertical section below while magnetite was observed only in the upper oxidized layer at Methrapur and Harail Chapar. Alteration of Fe-oxides and presence of fibrous goethite indicating presence of diagenetic sediment. Siderite plays a crucial role as sinks to the As in subsurface sediments. The study also concluded that decomposition of organic matter present in dark and grey sections promote the redox conditions and trigger mobilization of As into groundwater., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

20. Elemental composition, distribution and control of biogenic silica in the anthropogenically disturbed and pristine zone inter-tidal sediments of Indian Sundarbans mangrove-estuarine complex.

Author

Dhame S, Kumar A, Ramanathan AL, and Chaudhari P

Subjects

Environmental Monitoring methods, Estuaries, Geologic Sediments chemistry, India, Metals analysis, Spatial Analysis, Water Pollutants, Chemical analysis, Carbon analysis, Geologic Sediments analysis, Phosphorus analysis, Silicon Dioxide analysis, Wetlands

Abstract

Spatial distribution and interrelationship among organic nutrients - silica and carbon - and various lithogenic elements were investigated in the surficial sediments of Matla estuary and Core Zone of Indian Sundarbans Reserve Forest using spatial analysis and multivariate statistics. Biogenic silica (BSi), an important parameter for coastal biogeochemisry, was measured using Si-time alkaline leaching method. BSi concentration ranged from 0.01% to 0.85% with higher concentrations in upstream region of Matla estuary and attenuated values towards the bay, seemingly due to changes in hydrodynamics and land use conditions. Spatial distribution of BSi did not exhibit significant correlation with sediment parameters of organic carbon (OC), elemental composition and clay content. However, it showed significant contrasting trends with total phosphorus (TP) and total silica of human influenced Matla estuary sediments as well as the dissolved silica (DSi) of its surface waters. Anthropogenic influence on sediment geochemistry is discernable with the presence of higher concentrations of organic and inorganic elements in Matla estuary than in Core Zone sediments. Spatial variation trends are often challenging to interpret due to multiple sources of input, varying energy and salinity conditions and constant physical, chemical and biological alterations occurring in the environment. Nonetheless, it is certain that anthropogenic activities have a substantial influence on biogeochemical processes of Sundarbans mangrove-estuarine complex and potentially the coastal ocean., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

21. Arsenic and other elements in drinking water and dietary components from the middle Gangetic plain of Bihar, India: Health risk index.

Author

Kumar M, Rahman MM, Ramanathan AL, and Naidu R

Subjects

Food Contamination analysis, Food Contamination statistics & numerical data, Groundwater chemistry, Hazardous Substances analysis, Humans, India, Vegetables chemistry, Arsenic analysis, Diet statistics & numerical data, Drinking Water chemistry, Environmental Exposure statistics & numerical data, Water Pollutants, Chemical analysis

Abstract

This study investigates the level of contamination and health risk assessment for arsenic (As) and other elements in drinking water, vegetables and other food components in two blocks (Mohiuddinagar and Mohanpur) from the Samastipur district, Bihar, India. Groundwater (80%) samples exceeded the World Health Organization (WHO) guideline value (10μg/L) of As while Mn exceeded the previous WHO limit of 400μg/L in 28% samples. The estimated daily intake of As, Cd, Co, Cr, Cu, Mn, Ni, Pb and Zn from drinking water and food components were 169, 19, 26, 882, 4645, 14582, 474, 1449 and 12,955μg, respectively (estimated exposure 3.70, 0.41, 0.57, 19.61, 103.22, 324.05, 10.53, 32.21 and 287.90μg per kg bw, respectively). Twelve of 15 cooked rice contained high As concentration compared to uncooked rice. Water contributes (67%) considerable As to daily exposure followed by rice and vegetables. Whereas food is the major contributor of other elements to the dietary exposure. Correlation and principal component analysis (PCA) indicated natural source for As but for other elements, presence of diffused anthropogenic activities were responsible. The chronic daily intake (CDI) and health risk index (HRI) were also estimated from the generated data. The HRI were >1 for As in drinking water, vegetables and rice, for Mn in drinking water, vegetables, rice and wheat, for Pb in rice and wheat indicated the potential health risk to the local population. An assessment of As and other elements of other food components should be conducted to understand the actual health hazards caused by ingestion of food in people residing in the middle Gangetic plain., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2016

22. Chemical fractionation and translocation of heavy metals in Canna indica L. grown on industrial waste amended soil.

Author

Bose S, Jain A, Rai V, and Ramanathan AL

Subjects

Chemistry, Physical, Environmental Restoration and Remediation, Principal Component Analysis, Sewage analysis, Industrial Waste analysis, Metals, Heavy chemistry, Plants metabolism, Soil Pollutants analysis

Abstract

A pot experiment was carried out to assess the effect of different amendments of industrial sludge on the growth of Canna indica L. as well as the translocation potential of heavy metals of this plant. The accumulation of metals (Cr, Fe, Cd, Cu, Ni, Zn, Mn and Pb) in different parts of C. indica L. grown on industrial sludge-amended soil increased with time and increasing doses of sludge amendments. Sequential extraction method was followed to estimate the different fractions of heavy metals in sludge-amended soils collected from different periods of this study. The results showed that Mn, Zn, Cd, Cr and Pb were mostly associated with Fe-Mn oxide fraction in all amendments, whereas, Ni was mostly found in residual (RES) fraction. Cu and Fe were found to be higher in organically bounded form (OM) and RES fraction. The metal concentration in C. indica L. after 90 days of experiment started, was in the order of Fe>Cr>Mn>Zn>Ni>Cu>Cd>Pb and the metal translocation was found lesser in shoot. With the increasing percentage of sludge amendments in soil the metal concentrations increased in different parts of plants. Overall, the plant C. indica L. was found to be well adapted in industrial sludge amendments and it may be recommended that this plant was found suitable for phytoremediation of most of the studied metals.

Published

2008