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Phytoremediation potential of native plant species for gaseous pollution from brick kiln

By: Zaffar Iqbal, Maqsood Ahmad, Muhamad Farhan, Zahid Ali Butt, Amina Kanwal, Abdul Wahid

Key Words: Bioremediation, Hydrogen fluoride, Brick kiln, Air pollution tolerance index

J. Bio. Env. Sci. 16(2), 9-16, February 2020.

Certification: jbes 2020 0243 [Generate Certificate]


In developing countries, brick kilns are not well regulated by government agencies. As a result most of the time they are installed near to the cities to reduce transport cost. They use coal, waste plastic, scrap tires, etc as fuel. Brick kiln produces number of toxic pollutant like CO2, SOx, NOx, HF, etc. They produce tons of gaseous pollution which effect near and far settled human population. Phytoremediation is considered the most suitable option for developing countries because of low cost, eco-friendliness and easily manageable. In current study, the purpose was to identify tolerant plant species near the brick kilns by measuring air pollution tolerance index (APTI). Species of trees including Mangifera indica, Morus alba, Acacia nilotica, Eucalyptus globulus, Dalbergia sissoo and Moringa oleifera were selected for sampling. Samples were collected during July and December at 100m, 300m, 500m and 700m distance around the brick kilns from two selected sampling sites. Moringa oleifera (APTI=17.60) was identified as tolerant and a sink of hydrogen fluoride (HF). Whereas, Eucalyptus globules (APTI=9.91) was found sensitive, so it can be used as bio-indicator of HF. This study recommends the plantation of Moringa oleifera around brick kiln for HF phytoremediation.

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Phytoremediation potential of native plant species for gaseous pollution from brick kiln

Achakzai K, Khalid S, Adrees M, Bibi A, Ali S, Nawaz R, Rizwan M. 2017. Air pollution tolerance index of plants around brick kilns in Rawalpindi, Pakistan. Journal of environmental management 190, 252-258.

Adrees M, Ibrahim M, Shah AM, Abbas F, Saleem F, Rizwan M, Hina S, Jabeen F, Ali S. 2016. Gaseous pollutants from brick kiln industry decreased the growth, photosynthesis, and yield of wheat (Triticum aestivum L.). Environmental monitoring and assessment 188, 267.

Agbaire P, Esiefarienrhe E. 2009. Air Pollution tolerance indices (apti) of some plants around Otorogun Gas Plant in Delta State, Nigeria. Journal of Applied Sciences and Environmental Management 13.

Aghajanzadeh T, Hawkesford MJ, De Kok LJ. 2016. Atmospheric H2S and SO2 as sulfur sources for Brassica juncea and Brassica rapa: Regulation of sulfur uptake and assimilation. Environmental and Experimental Botany 124, 1-10.

Agrawal M, Singh S, Singh J, Rao D. 1991. Biomonitoring of air pollution around urban and industrial sites. Journal of Environmental Biology  12, 211-222.

Agrawal S, Tiwari S. 1997. Susceptibility level of few plants on basis of air pollution tolerance index. Indian Forester 123, 319-322.

Aguiar-Silva C, Brandão SE, Domingos M, Bulbovas P. 2016. Antioxidant responses of Atlantic Forest native tree species as indicators of increasing tolerance to oxidative stress when they are exposed to air pollutants and seasonal tropical climate. Ecological indicators 63, 154-164.

Ahmad MN, van den Berg LJ, Shah HU, Masood T, Büker P, Emberson L, Ashmore M. 2012. Hydrogen fluoride damage to vegetation from peri-urban brick kilns in Asia: A growing but unrecognised problem? Environmental pollution 162, 319-324.

Chauhan A. 2010. Tree as bioindicator of automobile pollution in Dehradun City: A case study. New York Science Journal 3, 88-95.

Chouhan A, Iqbal S, Maheshwari R, Bafna A. 2012. Study of air pollution tolerance index of plants growing in Pithampur industrial area sector 1, 2 and 3. Research Journal of Recent Sciences 1, 172-177.

Co HX, Dung NT, Le HA, An DD, Chinh KV, Oanh NTK. 2009. Integrated management strategies for brick kiln emission reduction in Vietnam: a case study. International Journal of Environmental Studies 66, 113-124.

Dwivedi AD, Gopal K. 2010. Biosynthesis of silver and gold nanoparticles using Chenopodium album leaf extract. Colloids and Surfaces A: Physicochemical and Engineering Aspects 369, 27-33.

Escobedo FJ, Wagner JE, Nowak DJ, De la Maza CL, Rodriguez M, Crane DE. 2008. Analyzing the cost effectiveness of Santiago, Chile’s policy of using urban forests to improve air quality. Journal of environmental management 86, 148-157.

Hamraz H, Sadeghi-Niaraki A, Omati M, Noori N. 2014. GIS-based air pollution monitoring using static stations and mobile sensor in Tehran/Iran. International Journal of Scientific Research in Environmental Sciences 2, 435.

Jha S, Nayak A, Sharma Y, Mishra V, Sharma D. 2008. Fluoride accumulation in soil and vegetation in the vicinity of brick fields. Bulletin of Environmental contamination and Toxicology 80, 369-373.

Katiyar V, Dubey P. 2001. Sulphur dioxide sensitivity on two stages of leaf development in a few tropical tree species. Indian Journal of Environment and toxicology 11, 78-81.

Keller T, Schwager H. 1977. Air pollution and ascorbic acid. European Journal of Forest Pathology 7, 338-350.

Khalid S. 2019. Phytomonitoring of air pollution around brick kilns in Balochistan province Pakistan through air pollution index and metal accumulation index. Journal of Cleaner Production.

Khan MR, Khan MM. 2010. Effect of varying concentration of nickel and cobalt on the plant growth and yield of chickpea. Australian Journal of Basic and Applied Sciences 4, 1036-1046.

Kim GS, Pee JH, An JH, Lim CH, Lee CS. 2015. Selection of air pollution tolerant plants through the 20-years-long transplanting experiment in the Yeocheon industrial area, southern Korea. Animal Cells and Systems 19, 208-215.

Kousar H, Nuthan K, Pavithra K, Adamsab M. 2014. Analysis of biochemical parameters as tolerance index of some chosen plant species of Bhadravathi town. Int J Environ Sci 3, 11-16.

Kuddus M, Kumari R, Ramteke PW. 2011. Studies on air pollution tolerance of selected plants in Allahabad city, India. Journal of Environmental Research and Management 2, 042-046.

Laghari SK, Zaidi MA, Razaq G. 2015. Impact of solid waste burning air pollution on some physio-anatomical characteristics of some plants. Pak. J. Bot 47, 225-232.

Leghari SK, Zaidi M. 2013. Effect of air pollution on the leaf morphology of common plant species of Quetta city. Pak. J. Bot 45, 447-454.

Liu YJ, Ding H. 2008. Variation in air pollution tolerance index of plants near a steel factory: Implication for landscape-plant species selection for industrial areas. WSEAS Transactions on Environment and development 4, 24-32.

Nanos GD, Ilias IF. 2007. Effects of inert dust on olive (Olea europaea L.) leaf physiological parameters. Environmental Science and Pollution Research-International 14, 212-214.

Nayak D, Patel D, Thakare H, Satasiya K, Shrivastava P. 2015. Assessment of air pollution tolerance index of selected plants. Indian Forester 141, 372-378.

Paulsamy S, Sivakumar R, Latha N. 2000. Evaluation of air pollution tolerant tree species in Coimbatore city. J. Ecol. Res. Biocon 1, 20-23.

Rai PK, Panda LL. 2014. Dust capturing potential and air pollution tolerance index (APTI) of some road side tree vegetation in Aizawl, Mizoram, India: an Indo-Burma hot spot region. Air Quality, Atmosphere & Health 7, 93-101.

Shannigrahi* A, Fukushima T, Sharma R. 2004. Anticipated air pollution tolerance of some plant species considered for green belt development in and around an industrial/urban area in India: an overview. International journal of environmental studies 61, 125-137.

Zaffar Iqbal, Maqsood Ahmad, Muhamad Farhan, Zahid Ali Butt, Amina Kanwal, Abdul Wahid.
Phytoremediation potential of native plant species for gaseous pollution from brick kiln.
J. Bio. Env. Sci. 16(2), 9-16, February 2020.
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