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Genetic Changes of Cornus controversa with Ozone Exposure  

장석성 (임업연구원 산림유전자원부)
이석우 (임업연구원 산림유전자원부)
이재천 (임업연구원 산림유전자원부)
한심희 (임업연구원 산림유전자원부)
김홍은 (충북대학교 산림과학부)
Publication Information
Korean Journal of Agricultural and Forest Meteorology / v.5, no.4, 2003 , pp. 226-232 More about this Journal
Abstract
To examine the effects of ozone (O$_3$), one of the major air pollutants in the city area, on genetic changes in Cornus controversa Hemsl., we compared genetic structures between sensitive (S) and tolerant (T) tree groups of C. controversa fumigated with ozone using isozyme markers. The genetic structures were measured in terms of allele and genotype frequencies determined at ave polymorphic enzyme loci. Marked genetic differences between the two groups were detected at three loci (Lap-2, Mdh-1 and Skdh-1). Genetic parameters, genetic multiplicity, genetic diversity and heterozygosity showed that the tolerant group retained greater genetic variation than did the sensitive group. Results of the study were congruent with the general expectation that the more heterozygous individuals and/or populations exhibit higher resistance to various stress factors.
Keywords
Giant dogwood; air pollutants; resistance; genetic structure; allozymes;
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1 Bergmann, F. and F. Scholz, 1989: Selection effects of air pollution in Norway spruce (Picea abies) populations. Genetic Effects of Air Pollutants in Forest Tree Populations, F. Scholz, H.-R. Gregorius and D. Rudin, (Eds.), Springer-Verlag, Berlin, 143−160.
2 Gillespie, J. H. and C. H. Langley, 1974: A general model to account for enzyme variation in natural populations, Genetics, 76, 837−884.
3 Jang, S.-S., J.-C. Lee, S.-H. Han and H.-E. Kim, 2003:Selection of ozone tolerant individuals of Cornus controversa, Korean Journal of Agricultural and Forest Meteorology, 5, 6-10.
4 Sokal, R. R. and F. J. Rohlf, 1981: Biometry, 2nd ed. Freeman and Company, New York. 691−778.
5 Lee, S. W., S. Y. Woo, Y. B. Koo and S. K. Lee, 1998: Genetic differences between the tolerant and the sensitive trees in an air polluted Prunus sargentii stand. Journal of Korean Forestry Society, 87, 74−81.
6 Kim, P. G., Y. B. Koo, J. C. Lee, S. W. Bae, Y. S. Yi and Y. M. Cheong, 2001: Chlorophyll content and genetic variation of Ginkgo biloba L. planted on the street in Seoul, Korean Journal of Agricultural and Forest Meteorology, 3, 114−120.
7 Kim. J. J., 2000: Studies on optimum shading for seedling cultivation of Cornus controversa and C. walter, Journal of Korean Forestry Society, 89, 591−597.
8 Gillet, E.M., 1994: GSED: Genetic structures from electrophoresis data. Version 1.0. Abteilung fur Forstgenetik und Forstpflanzenzüchtung, Universitat Gottingen. pp.49.
9 Oleksyn, J., W. Prus-Glowacki, M. Giertych and P. B. Reich, 1994: Relation between genetic diversity and pollution impact in a 1912 experiment with East European Pinus sylvestris provenances, Canadian Journal of Forest Research, 24, 2390−2394.
10 Ruetz, W. F. and F. Bergmann, 1989: Possibilities of identifying autochthonous high-altitude stands of Norway spruce(Picea abies) in the Berchtesgaden Alps. Forstwiss. Centralbl. 108, 164−174.
11 Lee, S. W., F. T. Ledig, and D. R. Johnson, 2002: Genetic variation at allozyme and RAPD markers in Pinus longaeva(Pinaceae) of the White Mountains, California. American Journal of Botany, 89, 566−577.   DOI   ScienceOn
12 Masaki, T., Y. Kominami and T. Nakashizuka, 1994:. Spatial and seasonal patterns of seed dissemination of Cornus controversa in a temperate forest, Ecology, 75, 1903−1910.
13 Rabe, R. and K. H. Kreeb, 1980: Wirkungen von $SO_2$ auf die Enzymaktivität in Pflanzenblättern. Z. Pflanzenphysiol, 97, 215−226.
14 Geburek, T. H., F. Scholz and F. Bergmann, 1986: Variation in aluminum-sensitivity among Picea abies (L.) Karst. seedlings and genetic differences between their mother trees as studied by isozyme-gene-markers, Angew. Bot. 60, 451−460.
15 Gregorius, H.-R., 1986: The importance of genetic multiplicity for tolerance of atmospheric pollution. Proceedings of 18th IUFRO World Congress, Ljubljana, Voi. I. 295−305.
16 Gregorius, H.-R., 1978: The concept of genetic diversity and its formal relationship to heterozygosity and genetic distance, Math. Biosci., 41, 253−271.
17 Cornelissen, J. H. C., 1993: Seedlings growth and morphology of the deciduous tree Cornus controversa in simulated forest gap light environments in subtropical China, Plant Species Biology, 8, 21−27.
18 Skelly, J. M., 1980: Photochemical oxidant impact in mediterranean and temperate forest ecosystem: real and potential effects. Proceedings of the Symposium on Effects of Air Pollutants in Mediterranean and Temperate Forest Ecosystems. June 22−27, Riverside, California, U.S.A. 38−50.
19 Muller-Starck, G., 1989: Genetic implications of environmental stress in adult forest stands of Fagus sylvatica L. Genetic Effects of Air Pollutants in Forest Tree Populations. F. Scholz, H.-R. Gregorius and D. Rudin, (Eds.), Springer-Verlag, Berlin. 127−142.
20 Takahama, U. and M. Nishimura, 1976: Effects of electron donor and acceptors electron transfer mediators, and superoxide dismutase on lipid peroxidation in illuminated chloroplast fragments, Plant and Cell Physiology, 17, 111−118.
21 Liu, E. H., E. M. Iglich, R. R. Sharitz and M. H. Smith, 1990: Population genetic structure of baldcypress(Taxodium distichum) in a thermally affected swamp forest, Silvae Genetica, 39, 129−133.
22 Esterbauer, H. and K. H. Cheeseman, 1990: Determination of aldehydic lipid peroxidation products: malonaldehyde and 4-hydroxynonenal, Methods in Enzymology, 186, 407−421.
23 Geburek, T. H., F. Scholz, W. Knabe and A. Vorneweg, 1987: Genetic studies by isozyme gene loci on tolerance and sensitivity in an air polluted Pinus sylvestris field trial, Silvae Genetica, 36, 49−53.
24 Bergmann, F., H.-R. Gregorius and J. B. Larsen, 1990:Levels of genetic variation in European silver fir(Abies alba) - are they related to species’ decline? Genetica 82,1−10.
25 Bermann, F. 1991: Isozyme gene markers. Genetic Variation in European Populations of Forest Trees, G. Müller-Starck and M. Ziehe (Eds.), Sauerländer’s Verlag, Frankfurt, 67−78.
26 Um, T. W., and D. K. Lee, 2001: Site and growth characteristics of Cornus controversa growing at Mt. Gariwang and Mt. Joongwang located in Pyungchanggun, Kangwon-do, Journal of Korean Forestry Society, 90, 363−372.
27 Muller-Starck, G., 1985: Genetic differences between tolerant and sensitive beeches (Fagus sylvatica L.) in an environmentally stressed forest stand, Silvae Genetica, 34, 241−247.
28 Scholz, F., H.-R. Gregorius and D. Rudin (Eds.), 1989: Genetic Effects of Air Pollutants in Forest Tree Populations. Springer-Verlag, Berlin. 201.
29 Lee, J. C., I. S. Kim, J. K. Yeo, and Y. B. Koo, 2001: Comparing of clonal sensitivity of Populus deltoides to atmospheric ozone with use of visible foliar injury, Journal of Korean Forestry Society, 90, 10−18.
30 Comrie, A. C., 1994: A synoptic climatology of rural ozone pollution at three forest sites in Pennsylvania. Atmospheric Environment, 28, 1601−1614.
31 Park, S.-J., and A.-K. Kang, 1996: Species identification of tripitaka Koreana, Mokchae Konghak, 24, 80−89.
32 Giannini, R. (Ed.), 1991: Effects of Pollution on the Genetic Structure of Forest Tree Populations. Proceedings of Meeting, Rome, April 3, 1990. pp.195.
33 Namkoong, G., 1991: Biodiversity-issues in genetics, forestry and ethics. Forestry Chronicle, 68, 438−443.
34 Weeden, N. F. and J. E. Wendel, 1989: Genetics of plant isozymes. Isozymes in Plant Biology. D. E. Soltis and P. S. Soltis, (Eds.), Dioscorides Press, Portland, Oregon, U.S.A. 46−72.
35 Finkeldey, R. and H.-R. Gregorius, 1994: Genetic resources: selection criteria and design. Conservation and Manipulation of Genetic Resources in Forestry, Z. S. Kim and H. H. Hattemer, (Eds.), Kwang Moon Kag, Seoul, 322−347.
36 Hayes, E. M. and J. M. Skelly, 1977: Transport of ozone from the northeastern United States into Virginia and its effects on eastern white pine. Plant Diseases Report, 61, 778−782.
37 Swofford, D. L. and R. B. Selander, 1989: BIOSYS-1: A computer program for the analysis of allelic variation in population genetics and biochemical systematics. Release 1.7., Illinois Natural Survey, IL.
38 Ziehe, M., H. H. Hattemer, R. Müller-Starck and G. Muller-Starck, 1999:. Genetic structures as indicators for adaptation and adaptational potentials. Forest Genetics and Sustainability, C. Mátiás, (Ed.), Vol. 63. Kluwer Academic Publishers, The Netherlands. 75−89.