ORNAMENTAL PLANTS FOR ENVIRONMENTAL MANAGEMENT AT ROADSIDES IN KATHMANDU VALLEY, NEPAL
DOI:
https://doi.org/10.53808/KUS.SI.2023.ICES.A06-lsKeywords:
Air quality, environments, floral diversity, plants, pollution, roadsidesAbstract
Plant species growing along roadsides in Kathmandu gives the development which is necessities of the good environment. This study determines plantation, coverage, leaves condition of important ornamental species at different sites of Kathmandu. Many Plant species are growing and applicable for bio-indicator and maintaining greenery. Bougainvillea glabra, Callistemon citrinus, Duranta erecta, Euphorbia pulcherrima, Jasminum mesnyi, Lagerstroemia indica, Malvaviscus penduliflorus, Nerium oleander and Rose indica are documented. The heavily polluted sites shows dominance of C. citrinus 73.33±2.08 and N. oleander has 73.7±1.6. The coverage of C. citrinus, D. erecta, J. mesnyi, L. indica and N. oleander has been observed as excellent along the roadside. However B. glabra, E. pulcherrima, M. penduliflorus and R. indica are seen at some places. These trees have the capacity to absorb carbon dioxide and reduce pollution levels. The study sites are heavily, moderately and less polluted sites. Plants in the period of study (2017 to 2022) from the observation and comparison are in further development. Elements analysis of soil and leaves are from ICP-OES (Inductively coupled plasma-optical emission spectrometry) were done. Subsequently, following elements Aluminium, Barilium, Cadmium, Cobalt, Chromium, Copper, Iron, Manganese, Nickel, Lead, Vanidium and Zinc were determined. The dust deposition on plants, chlorophyll content and anatomy of N. oleander was with less deposition of dust and chlorophyll values is increased (0.001547±0.000788 and 2.397±0.299). The stomata and stomatal index of C. citrinus are calculated (33.607± 4.509 and 15.699± 0.898). Evergreen and broad leaf trees have advantageous in environment. The summer in Kathmandu is gorgeous with L. indica flowers while flowers of C. citrinus and N. oleander observed in all seasons of the year. The success programs are recommended from the authority that is evaluated and continued for long term benefit.
Downloads
References
Anju, (2016). Metal toxicity assessment in surface dust of Bhiwadi industrial area in Rajasthan; a Dissertation, Master of Philosophy, School of Environmental Sciences, Jawaharlal Nehru University, New Delhi.
Arnon, D. J. (1949). “Copper enzyme in isolated chloroplast polypheoloxidase in Betavulgaris”. Plant physiology ,24:1-15
Ahmed, K. J., & Yunus, M. (1974). Leaf surface characteristics as indicators of air pollution. Symposium
Amulya, L., Hemnath N. K., & Jagannath, S. (2015). Air pollution impact on micromorphological and biochemical response of Tabernae montanadivaricata L. (Gentianales: Apocynaceae) and Hamelia patens Jacq. (Gentianales: Rubiaceae). Department of studies in Botany, University of Mysore, Mysore, India. Brazilian Journal of Biological Sciences, V. 2, n. 4, pp. 287-294
Bhardwaj, S.K., Pant, K.S., & Rai, T. S. (2016). Determination of leaf dust accumulation on certain plant species grown alongside national highway, Dr Y.S. Parmar University of Horticulture and Forestry, Nauni, Solan, H.P. 173230, India, Vol. 11 (1), 77-82
Chaudhary, R. P., Uprety, Y., Devkota, S., Adhikari, S.. Rai, S. K., & Joshi, S. P. (2020). Plant Biodiversity in Nepal: Status, Conservation Approaches, and Legal Instruments under New Federal Structure, pp. 167-206 Publisher: Botanical Society of Nepal, Kathmandu
Flagella Z., Pastore, D., Campanile, R. G., & Fonzo, N. (1995). The quantum yield of photosynthetic electron transport evaluated by Chlorophyll fluorescence as an indicator of drought tolerance in durum wheat. J AgricSci Cambridge, 125: 325-329.
Gostin, I. (2009).Air pollution effects on the leaf structure of some Fabaceae Species. Universitatea Alexandru, 37 (2) 57-64
Khan, S., Sharma, A., Kumar, V., & Shahzad, B. (2015). Photosynthetic response of plants under different abiotic stresses: A review Journal of Plant Growth Regulation Vol 38, pp 509–531
Khageshwar S. P., Sharma, R., & Hoinkis, J. (2015). Heavy metal contamination of tree leaves. Germany American Journal of Analytical Chemistry, 6, 687-693, SciRes. http://www.scirp.org/journal/ajac http://dx.doi.org/10.4236/ajac.2015.68066
Millennium Ecosystem Assessment (MEA). (2005). Ecosystems and Human Well-Being: Synopsis. Island Press, Washington, DC
Nepal Government (2017). Details of registration of transport up to fiscal year 2046/47-072/73, Nepal Government, Ministry of physical infrastructure and transport department of transport management.
Prajapati, S. K., & Tripathi, B. D. (2008). Seasonal variation of leaf dust accumulation and pigment content in plant species exposed to urban particulates pollution, Journal of environmental quality; Plant and environment interaction, vol. 37, Issue 3 p. 865-870
Rawat, U. S., & Agarwal, N. K. (2015). Biodiversity: Concept, threats and conservation; Environment Conservation Journal ,16 (3) 19-28, ISSN 0972-3099, 2278-5124
Rai, P. K. (2015). Biodiversity of roadside plants and their response to air pollution in an Indo-burma hotspot region: implications for urban ecosystem restoration, Journal of asia-pacific biodiversity 1-9
Rossini, S., Oliva, A., & Espinosa, J. (2007). Monitoring of heavy metals in top soils atmospheric particles and plant leaves to identify possible contamination sources. Microchemical journal, 86 (1), 131-136
Sarma, S. K., & Bhuyan, M. (2017). Impact of dust accumulation on three roadside plants and their adaptive responses at national highway, Academy of scientific and innovative research, CSIR-north east institute of sand technology, Assam, India, Tropical plant research, An international journal,4 (1): 161–167Poudel, K. 2010. Green streets: The trees of Kathmandu, http://ecs.com.np/features/green-streets-the-trees-of-kathmandu
Sharma, A. P., Rai, P. K., & Tripathi, B. D. (2007). Magnetic biomonitoring of roadside tree leaves as a proxy of vehicular pollution. In: Urban planning and environment: strategies and challenges, Lakshmi (Ed.), Mcmillan advanced research series, pp. 326-331
Singh, K. K., & Rai, T. S. (2016). Air pollution tolerance, metal accumulation and dust capturing capacity of common tropical trees in commercial and industrial sites, 4 (1) pp 36-41
Tripathi, A. K., Tiwari, P. B., Mahima & Singh, D. (2009). Assessment of air pollution tolerance index of some trees in Moradabad city, India. J. Environ. Biol., 30, 545-550
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2023 Khulna University Studies
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.