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dc.contributor.authorErgantara, Rani Ismiarti
dc.contributor.authorKhikmawati, Emy
dc.date.accessioned2020-12-08T04:17:11Z
dc.date.available2020-12-08T04:17:11Z
dc.date.issued2020-07
dc.identifier.citationConklin, P.L., Recent advances in the role and biosynthesis of ascorbic acid in plants. Plant, Cell & Environment, 2001. 24(4): p. 383-394. JIANG, J.-b. and W.-j. HUANG, Using canopy hyperspectral ratio index to retrieve relative water content of wheat under yellow rust stress. Spectroscopy and Spectral Analysis, 2010. 30(7): p. 1939-1943. Lewin, S., Vitamin C: its molecular biology and medical potential. 1976: Academic Press Inc.(London) Ltd. Lima, J.S., E. Fernandes, and W. Fawcett, Mangifera indica and Phaseolus vulgaris in the bioindication of air pollution in Bahia, Brazil. Ecotoxicology and Environmental Safety, 2000. 46(3): p. 275- 278. Prajapati, S.K. and B. Tripathi, 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, 2008. 88(4): p. 1343-1349. Rai, P.K., et al., Comparative assessment of air pollution tolerance index (APTI) in the industrial (Rourkela) and non industrial area (Aizawl) of India: An ecomanagement approach. African journal of environmental science and technology, 2013. 7(10): p. 944-948. SHANNIGRAHI*, A., T. Fukushima, and R. Sharma, 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, 2004. 61(2): p. 125-137. Singh, S., et al., Air pollution tolerance index of plants. Journal of Environmental Management, 1991. 32(1): p. 45-55. Zhang, P.-q., et al., Pollution resistance assessment of existing landscape plants on Beijing streets based on air pollution tolerance index method. Ecotoxicology and Environmental Safety, 2016. 132: p. 212-223.id_ID
dc.identifier.issn2685-8770
dc.identifier.urihttp://hdl.handle.net/11617/12254
dc.description.abstractKecamatan Kemiling berpotensi besar terjadi pencemaran udara akibat kegiatan perindustrian, perdagangan, dan transportasi. Sedangkan saat ini ketersediaan ruang terbuka hijau menurun akibat konversi lahan menjadi pemukiman. Salah satu strategi yang dapat dilakukan adalah mengembangkan ruang terbuka hijau privat melalui penanaman vegetasi tahan emisi sekaligus penyerap emisi. Tujuan penelitian ini adalah mengetahui toleransi jenis tanaman pengisi ruang terbuka hijau privat di Kecamatan Kemiling, Kota Bandar Lampung. Penelitian ini dilakukan dengan mengevaluasi nilai APTI (Air Pollution Tollerance Index) 15 jenis tanaman pengisi RTH privat antara lain Mangifera odorata, Annona muricata, Ficus benjamina, Cyrtostachys renda, Oleina syzygium, Plumeria alba, Aglaonema sp, Saraca asoca, Anredera cordifolia, Pandanus amaryllifolius, Piper betle L, Bouganvillea, Euodia ridleyi, minum Sambac, Rhoeo discolor. Hasil penelitian menunjukkan nilai APTI tertinggi adalah Mangifera odorata dengan kategori cukup toleran (18.938) dan Ficus benjamina dengan kategori sedang (14.946), sedangkan tanaman lain masuk dalam kategori sensitif. Dengan demikian tanaman Mangifera odorata dan Ficus benjamina menjadi tanaman prioritas pengisi RTH Privat di Kecamatan Kemiling.id_ID
dc.language.isootherid_ID
dc.publisherProsiding SNPBS (Seminar Nasional Pendidikan Biologi dan Saintek) Ke-5id_ID
dc.titleNilai APTI (Air Pollution Tollerance Index) Tanaman Pengisi RTH Privat di Kecamatan Kemiling, Kota Bandar Lampungid_ID
dc.typeArticleid_ID


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