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ACOMS+ 및 학술지 리포지터리 설명회

  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

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  • ENGLISH
  • P-ISSN2287-8327
  • E-ISSN2288-1220
  • SCOPUS, KCI

Allelopathic Effects of Fir Tree (Abies holophylla)

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2004, v.27 no.5, pp.307-310
김영식 (원광보건대학)
길봉섭 (원광대학교)

Abstract

It was found that seed germination and seedling growth of selected species were inhibited by phytotoxic substance released from fir trees. The aqueous extracts of leaves caused significant inhibition in the seed germination of the receptor plants, Whereas seed germination of some species was not inhibited in extracts of leaves, but seedling elongation of the receptor plants was also decreased by the aqueous extract. Dry weight growth was slightly increased in lower concentration of the extract, while that was proportionally inhibited by higher concentration of the extracts. Chemical substances of fir trees were shown the biological toxicity. The GC method was employed for analysis of phytotoxic chemicals and sixteen chemical substances were identified such as benzoic, phenylacetic, etc. Also 33 volatile substances were identified from the fir tree. These chemical compounds are assumed the substances related to allelopathic potential of Abies holophylla plant species.

keywords
Abies holophylla, Allelopathic effect, GC, Water extract, Abies holophylla, Allelopathic effect, GC, Water extract

참고문헌

1.

F.A. and E.L. Rice. 1971. Allelopathic effect of Platanusoccidentalis. J. Bull. Torrey Bot. Club 98,

2.

(1999.) Allelopathy: one component in a multifaced approach to. ecologyPrinciples and Practices in Plant Ecology. CRC,

3.

B.S. 1982. Studies in plant-plant interaction in the community.J. Basic Natural Sci. 1,

4.

B.S. and K.W. Yun. 1992. Allelopathic effects of water extractsof Artemisia princeps var. orientalis on selected plant species.J. Chem. Ecol. 18,

5.

B.S. and Y.J. Yim. 1983. Allelopathic effects of Pinusdensiflora on under growth of red pine forest. J. Chem. Ecol.9,

6.

A. and R.K. Kohli. 1987. Autotoxicity of ragweed parthenium,

7.

M.A.K. and K.T. Killingbeck. 1980. Allelopathic inhibition ofnitrification and nitrifying bacteria in a ponderosa pine,

8.

C.H. 1966. The role of chemical inhibition,

9.

W.H. Muller and B.L. Hains. 1964. Volatile growthinhibitors produced by aromatic shrubs. Science 143,

10.

Adaptation on accident. In J.B.Harbone . Biochemical aspects of plant and animal coevolution, Academic Press. N.Y. pp. 327-342.

11.

C.E.Ⅲ. and E.L. Rice. 1970. Relative effects of knownplant inhibitors on species from first two stage of old succession.Southwest Nat. 15,

12.

A.R. and W.B. Duke. 1978. Allelopathy in agroecosystems.Annu. Rev. Phytopathol. 16,

13.

E.L. and S.K. Pancholy. 1972. Inhibition of nitrification byclimax ecosystems. Am. J. Bot. 59,

14.

R.H. 1971. The chemistry of communities. In E. Sondheimerand J.B. Simeone Biochemical InternationsAmong Plant. National Academy of Science. pp. 10-18.,

Journal of Ecology and Environment