Assessment of heavy metal pollution in lake sediments of Katedan Industrial Development Area, Hyderabad, India

Govil, P. K.; Sorlie, J. E.; Sujatha, D.; Krishna, A. Keshav; Murthy, N. N.; Mohan, K. Rama

doi:10.1007/s12665-011-1212-8

Cited by 14 publications

(3 citation statements)

References 26 publications

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“…These industries were arranged under small, medium and extensive scale industries. It is seen that most of the industrial parts, chiefly release their effluents into the streams and the solid waste created is discretionarily dumped on open land along lanes and lakes (Govil et al 2012;Krishna and Mohan 2014).…”

Section: Study Areamentioning

confidence: 99%

Assessment of groundwater quality, toxicity and health risk in an industrial area using multivariate statistical methods

2019

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Background: This study investigates the common and anthropogenic activities that impact the science of groundwater in and around an industrial zone and exhibits the utilization of multivariate statistical methods for groundwater quality, toxicity and health risk associated with contaminated industrial sites for proficient administration of water assets. A total of 120 groundwater samples were collected during summer and winter season, and analyzed for their twenty physicochemical constituents including seven toxic heavy metals (pH, EC, total dissolved solids (TDS), F, K, Na, Ca, Mg, Cl, CO 3 , HCO 3 , NO 3 , SO 4 , As, Cd, Cr, Cu, Ni, Pb and Zn). Data obtained was treated using principal component analysis (PCA)/factor analysis (FA), hierarchical cluster analysis (HCA), Correlation coefficient and health risk analysis to find the common pollution source. Results: The results for mean abundance during two seasons for cations and anions were 7 and 6.9 for pH; 1875 and 1527 for TDS; 3 and 3.3 (µs/cm) for EC; 655 and 569 for Ca 2+ ; 59 and 56 for Mg 2+ ; 340 and 211 for Na + ; 5 and 4 mg/L for K + ; 148 and 126 for CO 3 2− 301 and 228 for HCO 3 − ; 289 and 223 for Cl − 0.5 and 0.85 for F − ; 99 and 86 for SO 4 2− 28 and 23 mg/L for NO 3 −. While for heavy metals 18 and 4 for As; 2 and 0.4 for Cd; 29 and 5 for Cr; 17 and 4 for Cu; 25 and 6 for Ni; 82 and 3 for Pb; 953 and 989 µg/L for Zn, respectively. FA identified six dominant factors for each during summer and winter seasons that explained 70.43% and 71.06% of the variance in the dataset. Health risk assessment of chronic daily intake (CDI) and hazard quotient (HQ) during both seasons were in the order Ca > Na > HCO 3 > Cl > CO 3 > SO 4 > Mg > NO 3 > K > F and was as well computed. Conclusion: The significant reasons for water quality degrading in the study area were associated with various natural and anthropogenic sources and their unsystematic apportionment, show that proper land uses, industrial planning, design some remedial techniques and implementation of existing laws to have active groundwater resource management.

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Section: Study Areamentioning

confidence: 99%

Assessment of groundwater quality, toxicity and health risk in an industrial area using multivariate statistical methods

2019

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“…Major contaminated sites in Greater Hyderabad = Tri cities (Hyderabad, Secunderabad and Cyberabad) H Hussain Sagar, J Jawaharnagar, K Katteda M Musi river, N Nakkavagu, P Patancheru Bholakpur area - Abdul et al (2012) Municipal solid waste dumping sites -Jawaharnagar - Ahmed et al 2011;Parth et al 2009Parth et al , 2011 Industrial waste contaminated areas - Ahmed et al (2011), Balanagar, Machender et al (2011 Kattedan - Sekhar et al (2006), Govil et al (2008Govil et al ( , 2012 Hussainsagar lake sediments -PTE -Gurunadha Rao et al (2004Rao et al ( , 2008, Jain et al (2010), Suneela et al (2008), Vikram Reddy et al (2012 Industrially contaminated sites of Hyderabad -Sekhar et al (2003 Patancheru Industrial Area - Dasaram et al (2011), Govil et al (2001 …”

Section: Fig 76mentioning

confidence: 99%

Phytoremediation Crops and Biofuels

Prasad

2015

Sustainable Agriculture Reviews

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Environmental decontamination is an integral part of sustainable development. In recent years there has been growing interest in using plants for decontamination. On the other hand, water, soil and air are increasingly contaminated. Large amounts of toxic waste have been dispersed in thousands of contaminated sites spread all over the globe. These pollutants belong to two main classes: inorganic and organic. The challenge is to develop innovative and costeffective solutions to decontaminate polluted environment. Phytoremediation is emerging as an invaluable tool for environmental cleanup. Various strategies are being applied to reduce the accumulation of toxic metals in plants. Cultivation of edible crops in contaminated soils is a subject of human health concern if the contaminant concentration in the edible parts of crops plant exceed the permissible level. In such cases non-food crop production viz. value chain and value additions appears profitable. In this review: (1) the contamination due to industrial effluents in peri urban region of greater Hyderabad, and (2) the strategies to use contaminated soil and water for raising phytoremediation crops, and generation of value products. Crops and products include medicinal and aromatic plants, ornamental plants, biofuels, tree crops, fiber crops, dyes, and plants for carbon sequestration.

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“…Ahmed et al 2011;Parth et al 2009Parth et al , 2011 Industrial waste contaminated areas - Ahmed et al (2011), Balanagar, Machender et al (2011 Kattedan - Sekhar et al (2006), Govil et al (2008Govil et al ( , 2012 Hussainsagar lake sediments -PTE -Gurunadha Rao et al (2004, Jain et al (2010), Suneela et al (2008), Vikram Industrially contaminated sites of Hyderabad - Sekhar et al (2003 Patancheru Industrial Area - Dasaram et al (2011), Govil et al (2001 Ahmed et al 2011;Parth et al 2009Parth et al , 2011 Industrial waste contaminated areas - Ahmed et al (2011), Balanagar, Machender et al (2011 Kattedan - Sekhar et al (2006), Govil et al (2008Govil et al ( , 2012 Hussainsagar lake sediments -PTE -Gurunadha Rao et al (2004, Jain et al (2010), Suneela et al (2008), Vikram Industrially contaminated sites of Hyderabad - Sekhar et al (2003 Patancheru Industrial Area - Dasaram et al (2011), Govil et al (2001 …”

Section: Study Areamentioning

confidence: 99%

Sustainable Agriculture Reviews

Lichtfouse

2015

Sustainable Agriculture Reviews

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Assessment of heavy metal pollution in lake sediments of Katedan Industrial Development Area, Hyderabad, India

Cited by 14 publications

References 26 publications

Assessment of groundwater quality, toxicity and health risk in an industrial area using multivariate statistical methods

Assessment of groundwater quality, toxicity and health risk in an industrial area using multivariate statistical methods

Phytoremediation Crops and Biofuels

Sustainable Agriculture Reviews

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