최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Journal of environmental science international = 한국환경과학회지, v.24 no.12, 2015년, pp.1583 - 1590
강광철 (충북대학교 화학과) , 주진희 (건국대학교 녹색기술융합학과)
The aim of this study was to examine the morphological responses of Hosta longipes, an ornamental plants for heavy metal contaminated soils in urban landscaping, to heavy metals Cd, Pb, and Zn. Plants were grown in artificial soil amended with Cd, Pb, and Zn at concentation of 0, 100, 250, and 500 m...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
비비추의 분포지역은? | ) Matsum.) 는 넓은 잎을 가진 백합과 다년생 식물로, 주로 중국, 한국, 일본 등과 같은 동아시아의 온대와 아열대지방에 분포한다(Grenfell, 1996). 비비추는 반그늘 또는 직사광선에서도 잘 자라며, 다양한 품종이 개발되어 있어 조경및 정원용 지피식물로 인기가 매우 높다(Zhang et al. | |
식물정화기술을 사용할 때 선택하는 식물의 기준은 무엇인가? | 식물정화기술(phytoremediation)이란 식물을 이용해 오염물질을 제거 안정화 무독화하는 녹색기술로서, 다른 기술에 비해 저렴할 뿐 아니라 비침습성으로 상호보완적이며 환경친화적인 정화법으로 알려져 있다 (Prabhat, 2008). 이러한 기술에 있어 식물의 선택기준은 크게 두 가지로, 첫째는 토양 내에 있는 오염물질을 제거할 수 있는 식물이어야 하며, 둘째로 식재되는 식물이 비록 오염된 토양에서 자랄지라도, 외관적으로 아름 다운 관상식물(ornamental plants)이어야 한다는 것이다 (Gladkov et al., 2011). | |
식물정화기술이란 무엇인가? | 식물정화기술(phytoremediation)이란 식물을 이용해 오염물질을 제거 안정화 무독화하는 녹색기술로서, 다른 기술에 비해 저렴할 뿐 아니라 비침습성으로 상호보완적이며 환경친화적인 정화법으로 알려져 있다 (Prabhat, 2008). 이러한 기술에 있어 식물의 선택기준은 크게 두 가지로, 첫째는 토양 내에 있는 오염물질을 제거할 수 있는 식물이어야 하며, 둘째로 식재되는 식물이 비록 오염된 토양에서 자랄지라도, 외관적으로 아름 다운 관상식물(ornamental plants)이어야 한다는 것이다 (Gladkov et al. |
Anthony, G. K., Singh, B., Bhatia, N. P., 2006, Heavy metal tolerance in common fern species, Austral. J. Bot., 55(1), 63-73.
Caldelas, C., Bort, J., Febrero, A., 2012, Ultrastructure and subcellular distribution of Cr in Iris pseudacorus L. using TEM and X-ray microanalysis, Cell Biol. Toxicol., 28, 57-68.
Chung, Y. C., and Chung, Y. H., 1988, A taxonomic study of the genus Hosta in Korea, Kor. J. Plant Tax., 18(2), 161-172.
Clemens, S., 2006, Toxic metal accumulation, responses to exposure and mechanisms of tolerance in plants, Biochimie., 88, 1707-1719.
Clijsters, H., Van-Assche, F., 1985, Inhibition of photosynthesis by heavy metals, Photosyn. Res., 7, 31-40.
Cunningham, S. D., Berti, W. R., Huang, J. W., 1995, Phytoremediation of contaminated soils, Trends in Biotechnology, 131, 393-397.
Daniela, I. O., Schindler, V., Lavado, R. S., 2012, Heavy metal availability in Pelargonium hortorum rhizosphere: interactions, uptake and plant accumulation, Journal of Plant Nutrition., 35, 1374-1386.
Deng, H., Ye, Z. H., Wong, M. H., 2006, Lead and zinc accumulation and tolerance in populations of six wetland plants, Environ Pollut., 141, 69-80.
Dhir, B., Sharmila, P., Saradhi, P. P., 2008, Photosynthetic performance of Salvinia natas exposed to chromium and zinc rich wastewater, Bras. J. Plant Physiol., 20, 61-70.
Gladkova, E. A., Gladkova, O. N., Glushetskaya, L. S., 2011, Estimation of heavy metal resistance in the second generation of creeping bent grass (Agrostis solonifera) obtained by cell selection for resistance to these contaminants and the ability of this plant to accumulate heavy metal, Applied Biochemistry and Microbiology, 47(8), 776-779.
Grenfell, D., 1996, The Gardener's Guide to Growing Hostas, Portland: Timber.
Han Y., Yuan, H., Huang, S., Guo, Z., Xia, B., Gu, J., 2007, Cadmium tolerance and accumulation by two species of Iris, Ecotoxicol., 16, 557-563.
Izabella, F. and Agnieszka, B., 2011, The growth and reproductive effort of Betula pendula Roth in a heavy-metals polluted area, Polish J. of Environ. Stud., 20(4), 1097-1101.
Janik, E., Maksymiec, W., Mazur, R., Garstka, M., Gruszecki, W. I., 2010, Structural and functional modifications of the major light-harvesting complex II in cadmium or copper treated Secale cereale, Plant Cell Physiol., 51, 1330-1340.
Lee, S. C., Kim, W. S., 2011, Cadmium accumulation and tolerance of Iris pseudacorus and Acorus calamus as aquatic plants native to Korea, Kor. J. Hort. Sci. Technol., 29(5), 413-419.
Lee, A. R., Bae, B. H., 2014, Improved germination and seedling growth of Echinochloa crus-galli var. frumentacea in heavy metal contaminated medium by inoculation of a multiple-plant growth promoting rhizobacterium (m-PGPR), J. Soil & Groundwater Env., 16(5), 9-17.
Lin, W., Xiao, T., Zhou, W., Ning, Z., 2014, Pb, Zn, and Cd distribution and migration at a historical zinc smelting site, Pol. J. Environ. Stud., 24(2), 575-583.
Liu, J. N., Zhou, Q. X., Sun, T., Ma, L. Q., Wang, S., 2008, Growth responses of three ornamental plants to Cd and Cd-Pb stress and their metal accumulation characteristics, Journal of Hazardous Materials, 151(1), 261-267.
Marshner, H., 1995, Mineral Nutrition of Higher Plants, London: Academic.
Malecka, A., Piechalak, A., Hanc, A., Baralkiewicz, D., Tomaszewska, B., 2012, Antioxidative defense system in Pisum sativum roots exposed to heavy metals (Pb, Cu, Cd, Zn), Plo. J. Environ. Stud., 21(6), 1721-1730.
Ministry of Environment, 2009, Soil monitoring system and survey results on 2009.
Nagase, A., Dunnett, N., 2010, Drought tolerance in different vegetation types for extensive green roofs: effect of watering and diversity. Landscape and Urban planning, 97(4), 318-327.
Prasad, M. N. V., Strzalka., K., 1999, Impact of heavy metal on photosynthesis, Springer, Berlin.
Prabhat, K. R., 2008, Heavy metal pollution in aquatic ecosystems and its phytoremediation using wetland plants: an ecosustainable approach, International Journal of Phytoremediation, 10, 133-160.
Samecka, C. A., Kolon, K., Kempers, A., 2009, Short shoots of Betula pendula Roth as bioindicators of urban environmental pollution in Wroclaw (Poland), Trees, 20, 923.
Shelmerdine, A., Black, C., McGrath, S., Young, S., 2009, Modelling phytoremediation by the hyperaccumulat2082ing fern, Pteris vittata, of soils historically contaminated with arsenic, Environmental Pollution, 157, 1589-1596.
Song, J. H., Jin, H. Y., Ahn, T. H., 2010, A study on physicochemical properties of artificial substrates and changes of plant growth in tropical plant resources research center of Korea national arboretum, J. Korean Env. Res. Tech., 13(2), 52-62.
Sun, Y., Zhou, Q., Xu, Y., Wang, L., Liang, X., 2011, Phytoremediation for co-contaminated soils of benzo [a]pyrene (B[a]P) and heavy metals using ornamental plant Tagetes patula, Journal of Hazardous Materials, 186, 2075-2082.
Uveges, J. L., Corbett, A. L., Mal, T. K., 2002, Effects of lead contamination on the growth of Lythrum salicaria (purple loosestrife), Environ Pollut., 120, 319-323.
Zhang, J. Z., Wang, W., Sun, G. F., Liu, H. Z., Li, X. D., 2011, Photosynthesis of Hosta under light and controlled-release nitrogen fertilizer, Russian Journal of Plant Physiology, 58(2), 261-270.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.