• Reference :1

    Alotaibi, M.D., Alharbi, B.H., Al-Shamsi, M.A., Alshahrani, T.S., Al-Namazi, A.A., Alotaibi, F.S., Qian Y., 2020. Assessing the response of five tree species to air pollution in Riyadh City, Saudi Arabia, for potential green belt application. Environmental Science and Pollution Research 27, 29156–29170.

    Banerjee, S., Banerjee, A., Palit, D., Roy, P., 2019. Assessment of vegetation under air pollution stress in urban industrial area for greenbelt development. International Journal of Environmental Science and Technology 16, 5857–5870.

    Chaudhary, I.J., Rathore, D., 2019. Dust pollution: its removal and effect on foliage physiology of urban trees. Sustainable Cities and Society 51, 101696.

    Escobedo, F.J., Wagner, D.J., Nowak, C.L., Maza, D.L., Rodrigyez, M., Crane, D.E., 2008. Analysing the cost effectiveness of Santiago, Chiles policy of urban forests to improve air quality. Journal of Environmental Biology 29, 377–279.

    Esfahani, A.A., Amini, H.N., Kar, S.S., Hoodaji, M., Shirvani, M., Porsakhi, K., 2013. Assessment of air pollution tolerance index of higher plants suitable for green belt development in East of Esfahan City, Iran. Journal of Ornamental and Horticultural Plants 3, 87–94.

    Gautam, D., Bolia, N.B., 2020. Air pollution: impact and interventions. Air Quality, Atmosphere and Health 13, 209–223.

    Ghafari, S., Kaviani, B., Sedaghathoor, S., Allahyari, M.S., 2020. Assessment of air pollution tolerance index (APTI) for some ornamental woody species in green space of humid temperate region (Rasht, Iran). Environment, Development and Sustainability. https://doi.org/10.1007/s10668-020-00640-1.

    Javanmard, Z., Kouchaksaraei, M.T., Hosseini, S.M., Pandey, A.K., 2020. Assessment of anticipated performance index of some deciduous plant species under dust air pollution. Environmental Science and Pollution Research https://doi.org/10.1007/s11356-020-09957-w.

    Joshi, P.C., Swami, A., 2007. Physiological responses of some tree species under road side automobile pollution stress around city of Haridwar. The Environmentalist 27, 365–374.

    Kapoor, C.S., Bamniya, B.R., Kapoor, K., 2013. Efficient control of air pollution through plants, a cost-effective alternative: studies on Dalbergia sissoo Roxb. Environmental Monitoring and Assessment 185, 7565–7580.

    Karmakar, D., Padhy, P.K., 2019. Air pollution tolerance, anticipated performance indices of plant species for green development in urban industrial area. Chemosphere 237, 124522.

    Kaur, M., Nagpal, A.K., 2017. Evaluation of air pollution tolerance index and anticipated performance index of plants and their application in development of green space along the urban areas. Environmental Science and Pollution Research 24, 18881–18895.

    Mohammadi, A., Mokhtari, M., Arani, A.M., Taghipour, H., Hajizadeh, Y., Fallahzadeh, H., 2018. Biomonitoring levels of airborne metals around Urmia lake using deciduous trees and evaluation of their tolerance for greenbelt development. Environmental Science and Pollution Research 25, 21138–21148.

    Molnar, V.A., Simon, E., Tothmeresz, B., Ninsawat, S., Szaboa, S., 2020. Air pollution induced vegetation stress- the air pollution tolerance index as a quick tool for city health evaluation. Ecological Indicators 113, 106234.

    Nouchi, I., 2002. Plants as bioindicators of air pollutants. Air Pollution and Plant Biotechnology , 41–60.

    Pandey, A.K., Pandey, M., Tripathi, B.D., 2015. Air pollution tolerance index of climber plant species to develop vertical greenery systems in a polluted tropical city. Landscape and Urban Planning 144, 119–127.

    Patel, D., Kumar, J.I., 2018. An evaluation of air pollution tolerance index and anticipated performance index of some tree species considered for green belt development: A case study of Nandesari industrial area, Vadodara, Gujarat, India. Open Journal of Air Pollution 7, 1–13.

    Pathak, V., Tripathi, B.D., Mishra, V.K., 2011. Evaluation of anticipated performance index of some tree species for green belt development to mitigate traffic generated noise. Urban Forestry and Urban Greening 10, 61–66.

    Prajapati, S.K., Tripathi, B.D., 2008. Anticipated performance index of some tree species considered for green belt development in and around an urban area: A case study of Varanasi city, India. Journal of Environmental Management 88, 1343–1349.

    Rai, P.J., Panda, L.L.S., Chutia, B.M., Singh, M.M., 2013. Comparative assessment of Air Pollution Tolerance Index (APTI) in the industrial (Rourkela) and non-industrial area (Aizawl) of India: an eco-management approach. African Journal of Environmental Science and Technology l7, 944–948.

    Roy, A., Bhattacharya, T., Kumari, M., 2020. Air pollution tolerance, metal accumulation and dust capturing capacity of common tropical trees in commercial and industrial sites. Science of the Total Environment 722, 137622.

    Sahu, C., Basti, S., Sahu, S.K., 2020. Air pollution tolerance index (APTI) and expected performance index (EPI) of trees in Sambalpur town of India. SN Applied Science 2, 1327

    Sarasamma, J.D., Narayanan, B.K., 2014. Air quality assessment in the surroundings of KMML industrial area, Chavara in Kerala, South India. Aerosol and Air Quality Research 146, 1769–1778.

    Scholz, F., Reck, S., 1977. Effects of acids on forest trees as measured by titration in vitro inheritance of buffering capacity in Picea-Abies. Water Air and Soil Pollution 8, 41–45.

    Sen, A., Khan, I., Kundu, D., Das, K., Datta, J.K., 2017. Ecophysiological evaluation of tree species for biomonitoring of air quality and identification of air pollution-tolerant species. Environment Monitoring and Assessment 18, 262.

    Sharma, A., Bhardwaj, S.K., Thakur, M., Sharma, U., Sharma, S., 2018. Identification of tolerant plant species growing alongside national highway-21 in himachal pradesh, india. International Journal of Current Microbiology and Applied Sciences 7, 2762–2775.

    Sharma, B., Bhardwaj, S.K., Sharma, S., Nautiyal, R., Kaur, L., Alam, N.M., 2019. Pollution tolerance assessment of temperate woody vegetation growing along the National Highway-5 in Himachal Pradesh, India. Environmental Monitoring Assessment 191, 177.

    Sharma, B., Sharma, S., Bhardwaj, S.K., Kaur, L., Sharma, A., 2017. Evaluation of air pollution tolerance index (APTI) as a tool to monitor pollution and green belt development: A review. Journal of Applied and Natural Science 9, 1637–1643.

    Singh, S., Verma, A., 2007. Phytoremediation of air pollutants: A review. In: Singh, S.N., Tripathi, R.D. (Eds). Environmental Bioremediation Technologies pp 293–314.

    Singh, S.K., Rao, D.N., 1983. Evaluation of plants for their tolerance to air pollution. In: Proceedings symposium on Air Pollution control held at IIT, Delhi, 218–224.

    Singh, S.K., Rao, D.N., Agrawal, M., Pandey, J., Narayan, D., 1991. Air pollution tolerance index of plants. Journal of Environmental Management 32, 45–55.

    Skrynetska, I., Ciepal, R., Kandziora-Ciupa, M., Barczyk, G., Nadgorska-Socha, A., 2018. Ecophysiological responses to environmental pollution of selected plant species in an Industrial Urban Area. International Journal of Environmental Research 12, 255–267.

    Smith, W.H., Staskawicz, B.J., 2020. Removal of atmospheric particles by leaves and twigs of urban trees: Some preliminary observations and assessment of research needs. Environmental Management 1, 317–330.

    Tripathi, A.K., Gautam, M., 2007. Biochemical parameters of plants as indicators of air pollution. Journal of Environmental Pollution28, 127–132.

    Uka, U.N., Belford, J.D., Hogarh, J.N., 2019. Roadside air pollution in a tropical city: physiological and biochemical response from trees. Bulletin of the National Research Centre 43, 90.

    Winner, W.E., Greitner, C.S., 2000. Field methods used for air pollution research with plants. In: Pearcy R.W., Ehleringer, J.R., Mooney, H.A., Rundel, P.W. (Eds), Plant Physiology Ecology, 399–425.

    Yannawar, V.B., Bhosle, A.B., 2014. Air pollution tolerance index of various plant species around Nanded city, Maharshtra, India. Journal of Applied Phtotechnology in Environmental Sanitation 3, 23–28.

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