Assessment of tree species resistances to air pollution around a metal-scrap recycling factory using air pollution tolerance index and anticipated performance index
Agrawal M. 1985. Plant factors as indicators of SO2 and O3 pollutants. In: Biological Monitoring of the State of the Environment (Bioindicators). Indian National Science Academy, New Delhi, pp. 225-231.
Agrawal M. 2005. Effects of air pollution on agriculture: An issue of national concern. National Academy of Science Letters 23(3&4): 93-106.
Arnon DI. 1949. Copper enzymes in isolated chloroplasts polyphenol oxidase in Beta vulgaris. Plant Physiology 2(1):1–15.
Begum A, Harikrishna S. 2010. Evaluation of some tree species to absorb air pollutants in three industrial locations of South Bengaluru, India. European Journal of Chemistry 7: 151–156.
Cavanagh J-AE, Zawar-Reza P, Wilson JG. 2009. Spatial attenuation of ambient particulate matter air pollution within an urbanised native forest patch. Urban Forestry & Urban Greening, 8:21-30 doi:http://dx.doi.org/10.1016/j.ufug.2008.10.002
Dedio, W., 1975, Water relations in wheat leaves as screening test for drought resistance. Canadian Journal of Plant Science 55(2), 369-378.
Flowers MD, Fiscus EL, Burkey S. 2007. Photosynthesis, chlorophyll fluorescence and yield of snap bean (Phaseolus vulgaris L.) genotypes differing in sensitivity to ozone. Environmental and Experimental Botany, 61: 190-198.
Gholami, A, Mojiri A, Amini H. 2016. Investigation of the air pollution tolerance index (apti) using some plant species in Ahvaz region. The Journal of Animal & Plant Sciences 26(2): 475-480.
Gupta S, Nayek S, Bhattacharya P. 2011. Effect of air-borne heavy metals on the biochemical signature of tree species in an industrial region, with an emphasis on anticipated performance index. Chemistry and Ecology 27: 381-392.
Han Y, Wang QY, Han GH. 1995. The analysis about SOD activities in leaves of plants and resistance classification of them. Journal of Liaoning University (Natural Sciences Edition) 22: 71-74.
Hill AC. 1971. Vegetation: a sink for atmospheric pollutants. Journal of the Air Pollution Control Association, 21:341-346
Hoque MA, Banu MNA, Okuma E. 2007. Exogenous proline and glycine betaine increase NaCl induced ascorbate–glutathione cycle enzymes activities, and proline improves salt tolerance more than glycinebetaine in tobacco bright yellow-2 suspension cultured cells. Journal of Plant Physiology 164: 1457-1468.
Joshi OP, Pawar K, Wagela DK. 1993. Air quality monitoring of indoor city with special reference to SO2 and tree barks pH. Journal of Environmental Biology 14: 157–162.
Klumpp G, Furlan CM, Domingos M. 2000. Response of stress indicators and growth parameters of Tibouchina pulchra Cogn, exposed to air and soil pollution near the industrial complex of Culoutao, Brazil. Science of the Total Environment 246:79-91.
Lima JS, Fernandez EB. 2000. Mangifera indica and Phaseolus vulgaris in the bioindicator of air pollution in Bahia, Brazil. Ecotoxicology and Environmental Safety 46(3): 275-278.
Liu Y-J, Ding H. 2008. Variation in air pollution tolerance index of plant near a steel factory; implications for landscape-plant species selection for industrial areas. WSEAS Transactions on Environment and Development 4(1): 24-32.
Lohe RN, Tyagi B, Singh V, Tyagi PK, Khanna DR, Bhutian R. 2015. A comparative study for air pollution tolerance index of some terrestrial plant species. Global Journal of Environmental Science and Management 1(4): 315-324.
Masuch G, Kicinski HC, Kettrup A, Boss KS. 1988. Single and combined effects of continuous and discontinuous O3 and SO2 emission on Norway spruce needless. 1. Historical and cytological changes. International Journal of Environmental Analytical Chemistry 32: 213-241.
Mondal D, Gupta S, Datta JK. 2011. Anticipated performance index of some tree species considered for green belt development in urban area. International Research Journal of Plant Science 2(4): 99-106.
Nayak D, Patel DP, Thakare HS, Satashiya K, Shrivastava PK. 2015. Evaluation of air pollution tolerance index of trees. Research in Environment and Life Sciences 8(1): 7-10.
Ninave SY, Chaudhaun PR, Gajghate DG, Tarar JT. 2001. Foliar biochemical features of plants as indicators of air pollution. Bulletin of Environmental Contamination and Toxicology 67: 133-140.
Odilara CA, Egwaikhide PA, Esekheigbe A, Emua SA. 2006. Air pollution tolerance indices (APTI) of some plant species around llupeju industrial area, Lagos. Journal of Engineering Science and Applications 4(2): 97-101.
Ogunkunle CO, Suleiman LB, Oyedeji S, Awotoye OO, Fatoba PO. 2015. Assessing the air pollution tolerance index and anticipated performance index of some tree species for biomonitoring environmental health. Agroforestry Systems 89(3): 447–454.
Ogunrotimi DG, Adereti FK, Eludoyin AO, Awotoye, OO. 2017. Urban air pollution control: selection of trees for ecological monitoring using anticipated performance indices in a medium-size urban area in Southwest Nigeria. Interdisciplinary Environmental Review, 18(1): 40–54.
Ohamian EI. 2013. Scrap iron and steel recycling in Nigeria. Greener Journal of Environmental Sciences and Public Safety 2:1-9.
Omoju O. 2014. Environmental pollution is inevitable in developing countries. In: Breaking Energy, Climate Change Infrastructure International. Available at https://breakingenergy.com/2014/09/23/environmental-pollution-is-inevitable-in-developing-countries/
Padmavathi P, Cherukuri J, Reddy MA. 2013. Impact of air pollution on crops in the vicinity of a power plant: a case study. International Journal of Engineering Research and Technology 2(12): 3641–3651.
Pierre M, Queiroz Q. 1981. Enzymatic and metabolic changes in bean leaves during continuous pollution by necrotic level of SO2. Environmental Pollution 25: 41-51.
Prajapati SK, Tripathi BD. 2008. Anticipated performance index of some tree species considered for green belt development in and around an urban area: a case study of Varaasi city, India. Journal of Environment Management 88:1343–1349.
Prusty BAK, Mishra PC, Azeez PA. 2005. Dust accumulation and leaf pigment content in vegetation near the National Highway at SBP, Orissa, India. Ecotoxicology and Environmental Safety 60: 228-235.
Scholz F, Reck S. 1977. Effects of acids on forest trees as measured by titration invitro inheritance of buffering capacity in Picea- Abies. Water, Air Soil Pollution 8(1): 41-45.
Singh SK, Rao DN, Agrawal M, Pandey J, Narayan D. 1991. Air pollution tolerance index of plants. Journal of Environmental Management 32: 45-55.
Tak AA, Kakde UB. 2017. Assessment of air pollution tolerance index of plants: a comparative study. International Journal of Pharmacy and Pharmaceutical Sciences 9(7): 83-89.
Thakar BK, Mishra PC. 2010. Dust collection potential and air pollution tolerance index of tree vegetation around Vedanta Aluminium Limited, Jharsuguda. The Bioscan 3: 603-612.
Tiwari S, Bansal S, Rai S. 1993. Air pollution tolerance index of some plants in urban areas of Bhopal. Advanced Ecologia 16(1): 1-8.
Tripathi AK, Gautam M. 2007. Biochemical parameters of plants as indicators of air pollution. Journal of Environmental Biology 28(1): 127-132.
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