Effect of fluoride pollution on genetic variability of<i>Larix gmelinii</i>(Pinaceae) in East Siberia

Козыренко, М. М.; Artyukova, E. V.; Шмаков, В. Н.; Konstantinov, Yu. M.

doi:10.1007/s10310-007-0031-y

Cited by 12 publications

(3 citation statements)

References 17 publications

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“…Plants by using their roots absorb fluoride from soil and then transport it to different organs, mainly the leaves via xylematic flow (Davison and Weinstein 1998). Different researchers had shown bioconcentration of fluoride from soil and water to plants at various degrees (Fornasiero 2001;Kalinic et al 2005;Kozyrenko et al 2007;Saini et al 2013). Thus, consumption of food, vegetables, and fruits is becoming another potent route for fluoride entry into human food chain along with the present drinking water pathway.…”

Section: Fluoride Contamination In Soilmentioning

confidence: 99%

A study to investigate fluoride contamination and fluoride exposure dose assessment in lateritic zones of West Bengal, India

Samal

Bhattacharya²,

Mallick

et al. 2014

Environ Sci Pollut Res

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To assess the status of severity of fluoride contamination in lateritic Bankura and Purulia districts of West Bengal, concentrations of fluoride in different water sources and agricultural field soils were investigated. The fluoride content (mg/l) was observed to differ with aquifer depths: 0.19-0.47 in dug wells, 0.01-0.17 in shallow tube wells, and 0.07-1.6 in deep tube wells. Fluoride within the World Health Organization (WHO) prescribed range (1.0-1.5 mg/l) was estimated only in ~17% of the total collected water samples while ~67% showed <0.7 mg/l fluoride and thus may impede in the production and maintenance of healthy teeth and bones of the residents, especially children. Fluoride in water was found to be significantly correlated (r = 0.63) with pH. The exposure dose of fluoride (mg/kg/day) from drinking water in infants, children, and adults was estimated in the ranges 0.02-0.53, 0.01-0.24, and 0.01-0.14, respectively against the standard value of 0.05. A clear risk of dental fluorosis is apparent in infants and children of the study area. The fluoride in soil (55-399 mg/kg) was detected to be significantly correlated with the fluoride content in deep tube wells and soil pH (r = 0.56 and 0.71, respectively). The relationships of soil fluoride with total hardness and that with phosphate were not significant. There is a high possibility of bioaccumulation of fluoride from contaminated soil and water of the study area to cultivated crops. This will enhance the quantity of fluoride intake into human food chain in addition to drinking water pathway.

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Section: Fluoride Contamination In Soilmentioning

confidence: 99%

A study to investigate fluoride contamination and fluoride exposure dose assessment in lateritic zones of West Bengal, India

Samal

Bhattacharya²,

Mallick

et al. 2014

Environ Sci Pollut Res

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“…Кінцевим накопичувачем забруднювачів, що потрапляють у навколишнє середовище, є ґрунт, на який осаджуються газоподібні забруднювачі й аерозолі з атмосфери, потрапляють тверді відходи промисловості. Забруднення ґрунту чинить значний негативний вплив на фізіолого-біохімічні процеси [11,15,17,18,[22][23][24][25]28], ростові параметри [3,12,19] та продуктивність [21] рослин. Разом з тим, рослини відіграють важливу роль в оптимізації навколишнього середовища, будучи природним фільтром.…”

Section: забрудненняunclassified

The Growth Parameters of Some Species of Lawn Grasses Under Conditions of Complex Fluoride and Sulfite Soil Pollution

Prysedskyj¹

2017

VLUBS

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“…Такі характеристики визначають небезпеку не тільки для України, а і для суміжних країн. Забруднення довкілля спричиняє зміни анатомічної будови (Sharma et al, 1980) значне обмеження процесів життєдіяльності рослин (Soda, 2000;Dizengremel, 2001;Madan, 2015), пригнічує стійкість до несприятливих умов (Geisa, 2016), знижує їх продуктивність (Pack, 1971;Ganatsasa et al, 2011), викликає зменшення генетичної мінливості, таксономічного різноманіття та загибель рослин (Amundson, 1990;Kozyrenko, 2007).…”

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Influence of air pollution by compounds of fluorine, sulphur and nitrogen on changes of peroxidase and polyphenol oxidase activity in the leaves of trees and bushes

Prysedsky

2017

Biosys. divers.

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Productive activity of man results in contamination of the environment which causes substantial damage to ecosystems, upsetting their balance, species composition, etc. Within industrial areas, plants suffer significant harm. At the same time, plant organisms play an important role in optimization of the environment, performing sanitaryhygienic, landscaping and aesthetic functions. In this context, we investigated the influence of industrial contamination of air by fluorine, sulphur and nitrogen compounds on the activity of peroxidase and polyphenoloxidase in ten types of arboreal and shrub plants which differ in their resistance to air pollution. Our research was conducted on the basis of a full multivariate experiment with two levels of factors. Peroxidase activity was determined by a colorimetric method according to the duration of oxidization of benzidine. For determination of polyphenoloxidase activity we determined the duration of oxidization of p-phenilendiamin according to the change in optical density of the solution. Pollutants have a significant influence on activity of the investigated enzymes in the leaves of the plant species studied, which depends on the resistance of the plants to contamination, and also the composition and concentrations of pollutants. With resistant species (Ligustrum vulgare L., Quercus robur L., Lonicera tatarica L., Eleagnus angustifolia L., Philadelphus coronaria L.) peroxidase activity either did not change or rose by 11.2-64.1% compared to the control. depending on the composition of pollutants, their concentrations and the duration of their activity. Polyphenoloxidase activity in these plants did not significantly change in most variants of the experiment, although high concentrations of pollutants resulted in suppression of the activity of this enzyme by 26.1-37.6%. In species with variable tolerance which did not experience damage, peroxidase function did not change. Species sensitive to pollutants (Sorbus aucuparia L., Fraxinus lanceolata Borkh) were characterized by the significant decline in peroxidase and polyphenoloxidase activity, by 18.7-79.1% and 20.5-71.2% respectively, depending on the duration of action of the gases in all variants of the experiment. In species with variable tolerance (Aesculus hippocastanum L., Acer negundo L., Populus simonii Carriere) the reaction to the pollutants was ambiguous in nature and depended on the presence of damage. If the leaves of these plants did not show visible damage (necrosis), then activity of the enzymes did not change. When there was damage to leaf laminae this index decreased in relation to control by 17.3-60.1% for peroxidase and 24.7-57.3% for polyphenoloxidase. Significant negative linear correlation was found between activity of antioxidant enzymes and damage to leaves of the investigated plants: the coefficients of correlation were-0.385 between peroxidase activity and damage and-0.130 between polyphenoloxidase activity and damage. The character of changes in peroxidase and polyphenoloxidase activity show that t...

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Effect of fluoride pollution on genetic variability ofLarix gmelinii(Pinaceae) in East Siberia

Cited by 12 publications

References 17 publications

A study to investigate fluoride contamination and fluoride exposure dose assessment in lateritic zones of West Bengal, India

A study to investigate fluoride contamination and fluoride exposure dose assessment in lateritic zones of West Bengal, India

The Growth Parameters of Some Species of Lawn Grasses Under Conditions of Complex Fluoride and Sulfite Soil Pollution

Influence of air pollution by compounds of fluorine, sulphur and nitrogen on changes of peroxidase and polyphenol oxidase activity in the leaves of trees and bushes

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