바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

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

logo

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

Analysis of effects of burning in grasslands with quantifying succession stages by life-history traits in Kirigamine, central Japan

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2013, v.36 no.1, pp.101-112
https://doi.org/10.5141/ecoenv.2013.013
Jun Kato (Kirigamine plant research group, c/o Kato, 1940 Iwamurada)
Mihoko Kawakami (Kirigamine plant research group, c/o Kato, 1940 Iwamurada)

Abstract

To quantitatively analyze the effects of burning, we conducted a vegetation survey in the grasslands in Kirigamine, central Japan. We classified each species into stages of succession based on the life-history traits of the species and defined the score of the species in each stand based on the classification. We weighted the scores with a v-value, the product of coverage and height in the quadrat, and summed them to calculate the index of dynamic status. With these indices, we were able to quantitatively compare the stands in the study area and discern minute differences between the stands with different lengths of restoration periods since the disturbance of burning. These indices correlated with the v-value of trees,suggesting that the disturbance of burning seemed to affect the trees in the stand. We then calculated the growth of the tree species Pinus densiflora to evaluate its contribution to the index of dynamic status.

keywords
Effects of prescribed burning, Grassland succession, Life-history trait, Quantitative analysis

참고문헌

1.

Asano S. 2005. Sadao Asano’s biological flora of Japan. Zenkoku Noson Kyoiku Kyokai, Tokyo. (in Japanese)

2.

Birch CPD, Hutchings MJ. 1999. Clonal segmentation―The development of physiological independence within stolons of Glechoma hederacea L. (Lamiaceae). Plant Ecol. 141: 21–31.

3.

Collins SL, Adams DE. 1983. Succession in grasslands: thirtytwo years of change in a central Oklahoma tallgrass prairie. Vegetatio 51: 181-190.

4.

Connell JH. 1978. Diversity in Tropical Rain Forests and Coral Reefs. Science 199: 1302-1310.

5.

Dölle M, Bernhardt-Römermann M, Parth A, Schmidt W. 2008. Changes in life history trait composition during undisturbed old-field succession. Flora 203:508–522

6.

Hayashi I. 1977. Secondary succession of herbaceous communities in Japan. Jap J Ecol 27: 191-200.

7.

Hayashi I. 1992. Secondary succession of herbaceous communities in Japan: a case study in Sugadaira, Central Japan. Bull Sugadaira Montane Res Cen Tsukuba Univ 12: 1-12.

8.

Hayashi I. 2003. Plant ecology. Kokon Shoin, Tokyo. (in Japanese)

9.

Hoshino T, Masami T. 2011. Illustated sedges of Japan. Heibonsha Tokyo. (in Japanese)

10.

Iijima K, Sado R. 2005. Characteristics of the dominant species in secondary succession: A green area created using soil dressing in the campus on reclaimed land in Tokyo Bay. J Weed Sci Tech 50: 184-192. (in Japanese with English summary)

11.

Kawada K, Vovk AG, Filatova OV, Araki M, Nakamura T, Hayashi I. 2005. Floristic composition and plant biomass production of steppe communities in the vicinity of Kharkiv, Ukraine. Grassl Sci 51: 205–213.

12.

Kobayashi H, Nakamura Y, Watanabe Y. 2003. Analysis of weed vegetation of no-tillage upland fields based on the multiplied dominance ratio. Weed Biol Manage 3: 77–92.

13.

Miyawaki A, Fujiwara M, Okuda S. 1994. Handbook of Japanese vegetation, revised edition. Shibundo, Tokyo. (in Japanese)

14.

KiNOA. 2012. Mean temperature. http://nature2.jp/marsh/ avg.html. Accessed 19 Nov 2012.

15.

Kurihara M, Nakano K, Kumada S, Furuya K. 2002. A study on the traditional land use and its decline on secondary grassland in Kirigamine. Env Infor Sci Extra Papers Env Infor Sci. 16: 115-120. (in Japanese)

16.

Nakamura T, Go T, Wuyunna, Hayashi I. 2000. Effects of grazing on the floristic composition of grassland in Baiyinxile, Xilingole, Inner Mongolia. Grassl Sci 45: 342–350.

17.

Nakano N, Tsutida K. 2004. Ecological studies of Rhododendoron japonicum (A.Gray) Suringar. and the depression effect of the growth by cutting in the Kirigamine Heights,Central Japan. Annal Env Sci Shinshu Univ 26: 22-32. (in Japanese)

18.

Negishi K, Yagi K. 1985. Diurnal and seasonal fluctuations in stem diameter of young Pinus densiflora and Chamaecyparis obtusa trees. Bull Tokyo Univ For 74: 149-164. (in Japanese with English summary)

19.

Nemoto M. 2006. Zasso Gunraku No Dotai to Senni. In: Zasso Seitaigaku (Nemoto M, ed) Asakurashoten, Tokyo. pp 93-127.

20.

Numata M. 1957. Shokubutsu kiko to sono mondaiten. Seibutsukagaku 9: 3-11. (in Japanese)

21.

Numata M. 1961. Seitai sen’i ni okeru mondaiten. Seibutukagaku 13: 146-152. (in Japanese)

22.

Numata M. 1962. Sen’ido to jotaishisu niyoru sochishindan. Kagaku 32: 658-659. (in Japanese)

23.

Numata M. 1969. Progressive and retrogressive gradient of grassland vegetation measured by degree of succession: ecological judgement of grassland condition and trend IV. Vegetatio 19: 96-127.

24.

Numata M. 1990. The ecological encyclopedia of wild plants in Japan. Zenkoku Noson Kyoiku Kyokai, Tokyo. (in Japanese)

25.

Numata M, Yoshizawa N. 1975. Weed flora of Japan illustrated by colour. Zenkoku Noson Kyoiku Kyokai, Tokyo. (in Japanese)

26.

Ogura J. 2009. Recent growth of Pinus densiflora and Castanopsis cuspidate in the woods nearby Kyoto. J Kyoto Seika Univ 35: 143-162. (in Japanese with English abstract)

27.

Okutomi K, Itow S. 1967. Shokusei no chousahou, bunsekiteki sokutei. In: Seitaigaku jisshusho (Seitaigaku Jisshukon’dankai, ed). Asakura Shoten, Tokyo, pp 50-68. (in Japanese)

28.

Osada T. 1993. Illustrated grasses of Japan, enlarged ed. Heibonsha, Tokyo.

29.

Petraitis PS, Latham RE, Niesenbaum RA. 1989. The Maintenance of Species Diversity by Disturbance. Q Rev Biol 64: 393-418.

30.

Pfitzenmeyer CDC. 1962. Arrhenatherum Elatius (L.) J. &. C. Presl (A. Avenaceum Beauv.). J Ecol 50: 235-245.

31.

Prach K. 1990. Plant population. In: Succession in abandoned fields. Studies in Central Bohemia, Czechoslovakia. (Osbornová J, Kovářová M, Lepš J, Prach K, eds) Kluwer Academic Pub, Dordrecht, pp 23-29.

32.

Sada Y, Miura R, Ito M. 1999. Weed biomass estimation based on plant coverage and height. J Weed Sci Tech 44:106-107. (in Japanese)

33.

Shimizu T. 1997. Flora of Nagano Prefecture. Shinano Mainichi Shimbunsha, Nagano. (in Japanese) 

34.

Shimizu T. 2001. Zusetsu Shokubutsu Yogo Jiten. Yasakashobo, Tokyo. (in Japanese)

35.

Tsutida K, Suganuma T. 1978. Seikatukei Sosei. In: Sochi Chosaho Handbook. (Numata M, ed). Tokyo Univ Press, Tokyo, pp 21-24. (in Japanese)

36.

Yiruhan, Hayashi I, Nakamura T, Shiyomi M. 2001. Changes in floristic composition of grasslands according to grazing intensity in inner Mongolia, China. Grassl Sci. 47: 362-369.

37.

Wu CP, Ando M. 2008. Effects of different ground treatments on the establishment and growth of Pinus densiflora seedlings on Daimonji-yama Mountain, Kyoto, Japan. J Jpn Soc Reveget Tech. 34: 623-630. (in Japanese with English abstract)

Journal of Ecology and Environment