Chemometric Studies of Multielemental Composition of Few Seagrasses from Gulf of Mannar, India

Rengasamy, Kannan R.R.; Rajasekaran, A.; Anantharaman, P.

doi:10.1007/s12011-010-8911-y

Cited by 17 publications

(4 citation statements)

References 54 publications

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“…Cu and Zn accumulation in the seagrass are less than maximum permissible limits prescribed for seafood for human consumption (10 mg/kg, 50 mg/kg respectively) in India [12]. Similar to the studies of Ragupathi Raja Kannan et al, [13] the levels of essential elements like Fe, Mn, Cu and Zn were higher than the level of non-essential elements like Pb Since, unlike other types of contaminants heavy metals cannot be eliminated as they occur naturally all over the world. Most of the metals play a vital role in the biological metabolism such as Fe (hemoglobin, SOD, CAT), Cu (respiratory pigments), Zn (SOD), Co (Vitamin B12), Mo and Mn (enzyme cofactor) [14].…”

Section: Resultssupporting

confidence: 69%

Integrated Environmental Risk Assessment Using Biomarkers in Marine Plants of the Gulf of Mannar, India

Nagarani

Anand

2014

APCBEE Procedia

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The purpose of this study was to explore a possible relationship between inorganic metals and oxidative stress in marine plants of south east coast of India. The investigation was carried out during the low tides in Pudumadam, Mandapam, Pamban and Keelakarai coastal areas. The distribution of elements such as phosphorus, nitrogen, lead (Pb), manganese (Mn), iron (Fe), copper (Cu), and zinc (Zn) were determined in the marine plants and its surrounding seawater. An atomic absorption spectrometer, Varian Model SPECTRAA was used to determine the level of heavy metals. The impact of metals on the metabolism of the plants was determined by the level of antioxidant response. Low levels of Mn, Cu were observed in Pudumadam species. The thiobarbutric acid reactive substances formation in the marine plants showed a positive correlation with the trace element selected sites, which indicates the contamination of sewage and industrial pollution in these waters.

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Section: Resultssupporting

confidence: 69%

Integrated Environmental Risk Assessment Using Biomarkers in Marine Plants of the Gulf of Mannar, India

Nagarani

Anand

2014

APCBEE Procedia

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“…According to WHO, the concentration of trace elements must be controlled in medicinal plants in order to meet the quality assurance. Thus, the investigation of toxic and trace elements in food and medicinal plants has been targeted (Gomez et al, 2007;Kara, 2009;Maiga, Diallo, Bye, & Paulsen, 2005;Nookabkaew, Rangkadilok & Satayavivad, 2006;Ragupathi Raja Kannan, Arumugam, & Anantharaman, 2011). …”

Section: Introductionmentioning

confidence: 99%

Determination of element contents in herbal drugs: Chemometric approach

et al. 2012

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“…Seagrass tissues; This study References Min (mg kg -1 ) Max (mg kg -1 ) Min (mg kg -1 ) Max (mg kg Jagtap, 1983;Mathevan, 1990;Kannan et al, 1992;Nobi et al, 2010;Kannan et al, 2011;Govindaswamy et al, 2011;Gopinath et al, 2011;Sudharsan et al, 2012;Thangaradjou et al, 2013;Immaculate et al, 2018;Arisekar et T. hemprichii (N) T. hemprichii (B) Jagtap, 1983;Mathevan, 1990;Kannan et al, 1992;Nobi et al, 2010;Govindaswamy et al, 2011;Kannan et al, 2011;Sudharsan et al, 2012;Thangaradjou et al, 2013;Arisekar et al, 2021 Mathevan, 1990;Kannan et al, 1992;Nobi et al, 2010;Kannan et al, 2011;Gopinath et al, 2011;Sudharsan et al, 2012;Govindaswamy et al, 2012;Thangaradjou et al, 2013;Immaculate et al, 2018;Gopi et al, 2020;Arisekar et al,…”

Section: Seagrassmentioning

confidence: 89%

“…A recent review on trace metal bioindicator potential of India's marine macrophytes (e.g., seagrasses and saltmarshes), have suggested that seagrass are better bioindicators of trace metal accumulations than saltmarsh plants that inhabit similar intertidal zones (Mishra and Farooq, 2022;Nazneen et al, 2022). Small seagrass species like Halophila ovalis, Halophila beccarii and Halodule uninervis were found to be better bioindicators of various trace metals due to their higher growth rates and gorilla way of meadow expansion (Arisekar et al, 2021;Govindasamy & Azariah, 1999;Jagtap, 1983;Nazneen et al, 2022;Ragupathi Raja Kannan et al, 2011;Sachithanandam et al, 2020a) . However, bioindicator potential of large seagrass species like Enhalus acoroides and Syringodium isoetifolium may be higher than the small seagrass species, but data on trace metal accumulations in these big seagrasses that are present below 5m depth are very low in India (Arisekar et al, 2021;Nobi et al, 2010;Thangaradjou et al, 2010) .…”

Section: Introductionmentioning

confidence: 99%

Seagrass Ecosystems of Tropical Islands As Bioindicator of Anthropogenic Trace Metal Contamination

Mishra,

Dey

et al. 2024

Preprint

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The bioindicator potential of seagrass ecosystems in coastal trace metal monitoring is low for tropical island ecosystems. This study evaluated the bioindicator potential of six seagrass species exposed to anthropogenic trace metal pollution in the Andaman and Nicobar Islands (ANI) of India. Sediment and seagrass biomass, samples were analyzed for trace metals (Co, Cr, Cu, Fe, Mg, Mn, Ni, Pb, Zn) from four locations of ANI exposed to anthropogenic contamination. Geo accumulation Index values indicated moderate trace metal contamination in seagrass sediment. Seagrass trace metal accumulation from sediment was both species-specific and location- specific for ANI. Small seagrass species such as H. ovalis, H. beccarii and H. uninervis accumulated the maximum concentration of six trace metals (Cr, Cu, Fe, Ni, Pb, Zn) in their tissues compared to big seagrass species like T. hemprichii and E. acoroides of ANI. This study indicates leaves of small seagrass and roots of big seagrass species can serve as short- and long-term bioindicators respectively, of coastal trace metal contamination in tropical islands of ANI.

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Chemometric Studies of Multielemental Composition of Few Seagrasses from Gulf of Mannar, India

Cited by 17 publications

References 54 publications

Integrated Environmental Risk Assessment Using Biomarkers in Marine Plants of the Gulf of Mannar, India

Integrated Environmental Risk Assessment Using Biomarkers in Marine Plants of the Gulf of Mannar, India

Determination of element contents in herbal drugs: Chemometric approach

Seagrass Ecosystems of Tropical Islands As Bioindicator of Anthropogenic Trace Metal Contamination

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