Distribution, abundance, and effect on plant species diversity of Sasa borealis in Korean forests
Background: Sasa borealis (Hack.) Makino, a clonal dwarf bamboo, is widespread in Korean forests. Although S. borealis is native to that country, its growth habit can cause considerable harm when occupying particular areas where it dominates and influences those forested communities. However, few reports have described the extent of its inhibitory effects on the vigor of co-existing plant species. Therefore, we investigated the distribution, abundance, and diversity of other plant species in the communities where this plant occurs in the east-central forests on the Korean Peninsula. Results: S. borealis was most commonly found at an elevational range of 800 to 1,200 m, on gentle, usually lower, and near valley northern slopes. Out of the 13 forest communities based on 447 forest stands that we surveyed, S. borealis was detected in eight communities, mostly where Quercus mongolica dominates. In particular, it was more common in late-successional mixed stands of Q. mongolica, other deciduous species, and the coniferous Abies holophylla. Because of their ability to expand rapidly in the forest, this plant covered more than 50% of the surface in most of our research plots. Species diversity declined significantly (F = 78.7, p = 0.000) as the abundance of S. borealis increased in the herb stratum. The same trend was noted for the total number of species (F = 18.1, p = 0.000) and species evenness (F = 91.5, p = 0.000). Conclusions: These findings clearly demonstrate that S. borealis is a weed pest and severely hinders species diversity. Authorities should be implementing various measures for ecological control to take advantage of declining chance after the recent synchronized massive flowering of S. borealis.
- Kim, H. C., Go, J., Song, J., Kang, J., Woo, S., Kim, T., & Song, C. (2007). Allelopathic effects of water extracts from Sasa quelpaertensis on germination and growth of several plant species. Korea Society of Environment and Ecology., 58-61 (in Korean).
- Kim JY. The structure of the plant community in Seonamsagol (valley), Jogyesan (Mt.) Provincial Park, Suncheon City. Kor. Journal Environmental Eco. 2012;26:593-603. (in Korean).
- Kong, W. S. (2001). Spatio-temporal distributional changes of bamboo. Journal of the Korean Geographical Society., 36, 444-457 (in Korean).
- Kudo, G., Amagai, Y., Hoshino, B., & Kaneko, M. (2011). Invasion of dwarf bamboo into alpine snow-meadows in northern Japan: pattern of expansion and impact on species diversity. Ecology and Evolution, 1, 85-96.
- Lee, D. K. (2010). Korean forests. Seoul: Korea Forest Research Institute.
- Lee K. Classification of forested vegetation and successional development in the Central-Eastern Korean Peninsula. Kangwon National University, Ph.D. thesis. Chuncheon. 2015. (in Korean).
- Lee, K. J., Han, S. S., Kim, J. H., & Kim, E. S. (1996). Forest ecology. Seoul: Hyangmunsa (in Korean).
- Lee, T. B. (2003). Coloured flora of Korea (II). Seoul: Hyangmunsa (in Korean).
- Lee, W. T., & Lim, Y. (2002). Plant geography. Chuncheon: Kangwon National University Press (in Korean).
- Li, H., Nishimura, H., Hasegawa, K., & Mizutani, J. (1992). Allelopathy of Sasa cernua. Journal of Chemical Ecology, 18, 1785-1796.
- Makita, A. (1998). The significance of the mode of clonal growth in the life history of bamboos. Plant Species Biology, 13, 85-92.
- Ministry of Environment. (2017). White paper of environment. Sejong: Ministry of Environment (in Korean).
- Choung, Y., Lee, W. T., Cho, K., Joo, K. Y., Min, B. M., Hyun, J., Lee, K. S., Lee, K., & Seo, A. (2015). Status of wetland vascular plant species in Korea. Journal of Ecology & Environment., 38, 541-544.
- Choung, Y., Lee, K., & Sin, Y. S. (2009). Vegetation. In: Natural resources monitoring in Odaesan National Park. Namwon: Korea National Park Research Institute. (in Korean).
- Choung, Y., No, C. H., & Oh, H. G. (1997). Vegetation. In Second National Ecosystem Survey (Donghae and Samcheok) (pp. 137-167). Incheon: The National Institute of Environmental Research (in Korean).
- Choung, Y., No, C. H., & Oh, H. G. (1998). Vegetation. In Second national ecosystem survey (Chuncheon and Gapyeong) (pp. 147-178). Incheon: The National Institute of Environmental Research (in Korean).
- Choung, Y., & Oh, H. G. (1999). Vegetation. In Second national ecosystem survey (Jeongseon and Taebaek) (pp. 217-251). Incheon: The National Institute of Environmental Research (in Korean).
- Chung, S. M. (2012). Transmission and change of the traditional craft focusing on the example of Bokjori. The Society of Practice Folkloristics., 20, 193-233 (in Korean).
- Hiura, T., Sano, J., & Konno, Y. (1996). Age structure and response to fine-scale disturbances of Abies sachalinensis, Picea jezoensis, Picea glehnii, and Betula ermanii growing under the influence of a dwarf bamboo understory in northern Japan. Canadian Journal of Forest Research, 26, 289-297.
- Jang, H. T., Park, W. J., Kim, N. C., & Park, J. M. (2012). Use of Arundinaria munsuensis Y. Lee as revegetation plant materials of damaged slopes. Journal. Korean Environmental Research and Technology, 15, 133-140 (in Korean).
- Ji, H. Y., & Park, J. H. (2008). Analysis of water retention capacity at Sasa borealis stands in Jirisan National Park. J. Korean Env. Res. & Reveg. Tech, 11, 1-11 (in Korean).
- Kim HC. Ecological characteristics and management methods of Sasa quelpaertensis Nakai. Jeju National University, Ph.D. thesis. Jeju. 2009. (in Korean).
- Ahn, Y. H., Jung, Y. T., & Lee, S. G. (2004). Phytosociological study of weed vegetation around the climbing paths on the ridge of Deogyusan National Park. Kori J. Eco., 18, 191-196 (in Korean).
- Cerny, T., Dolezal, J., Janecek, S., Srutek, M., Valachovic, M., Petrik, P., Altman, J., Bartos, M., & Song, J. S. (2013). Environmental correlates of plant diversity in Korean temperate forests. Acta Oecologica, 47, 37-45.
- Cho, S., Lee, B., & Choung, Y. (2017). Rare nationwide synchronized massive flowering and decline event of Sasa borealis (Hack.) Makino in South Korea. Journal of Plant Biology., 60, 423-430.
- Choung, Y., & Hong, E. J. (2001). Vegetation. In Second national ecosystem survey (Danyang and Yeongwol) (pp. 115-170). Incheon: National Institute of Environmental Research (in Korean).
- Choung, Y., Hwang, T. H., Ej, H., Sin, G. I., & An, S. Y. (2003). Vegetation. In Second national ecosystem survey (Chuncheon and Hwacheon) (pp. 97-139). Incheon: The National Institute of Environmental Research (in Korean).
- Choung, Y., Hwang, T. H., & Hong, E. J. (2002). Vegetation. In Second national ecosystem survey (Inje and Sokcho) (pp. 85-125). Incheon: National Institute of Environmental Research (in Korean).
- Choung, Y., & Kim, B. Y. (2013). Vegetation. In Third national ecosystem survey (Inje and Yangyang) (pp. 1-37). Incheon: The National Institute of Environmental Research (in Korean).
- Choung, Y., Kim, S. Y., & An, S. Y. (2004). Vegetation. In Natural resource survey of Odaesan National Park (pp. 193-244). Namwon: Korea National Park Research Institute (in Korean).
- Choung, Y., & Lee, K. (2012). Vegetation. In The third national ecosystem survey (Jeongseon and Taebaek) (pp. 1-7). Incheon: The National Institute of Environmental Research (in Korean).
- Choung, Y., Lee, K., Lee, Y. H., & Kim, B. Y. (2013). Vegetation. In Sanho cave research report in Jeongseon (pp. 37-44). Chuncheon: Korea Cave Research Institute (in Korean).
- Choung, Y., Lee, W. T., Cho, K., Joo, K. Y., Min, B. M., Hyun, J., & Lee, K. S. (2012). Categorizing vascular plant species occurring in wetland ecosystems of the Korean peninsula. Chuncheon: Center for Aquatic Ecosystem Restoration.
- Abe, M., Miguchi, H., & Nakashizuka, T. (2001). An interactive effect of simultaneous death of dwarf bamboo, canopy gap, and predatory rodents on beech regeneration. Oecologia, 127, 281-286.
- Nakashizuka, T. (1988). Regeneration of beech (Fagus crenata) after the simultaneous death of undergrowing dwarf bamboo (Sasa kurilensis). Ecological Research, 3, 21-35.
- Narukawa, Y., & Yamamoto, S. (2002). Effects of dwarf bamboo (Sasa sp.) and forest floor microsites on conifer seedling recruitment in a subalpine forest, Japan. Forest Ecology and Management, 163, 61-70.
- Northeastern Asia Biodiversity Institute. (2017). Study for management system of Sasa quelpaertensis. Jeju: World Heritage Office.
- Oh, K. K., Jee, Y. K., Shim, H. Y., & Kim, S. H. (2005). Monitoring the development process of edge vegetation structure in deciduous broad-leaved forest (2)-focused on the case study from the Baegunsan Research Forest, Seoul National University. Kor. J. Env. Eco., 19, 258-268 (in Korean).
- Oshima, Y. (1961). Ecological studies of Sasa communities. I. Productive structure of some of the Sasa communities in Japan. Bot Mag Tokyo, 74, 199-210.
- Park, S. G. (2013). An analysis of Sasa borealis' growth properties and positional environmental factors in Jirisan National Park. J. Korean Env. Res. Tech., 16, 53-61 (in Korean).
- Park, S. G., Yi, M. H., Yoon, J. W., & Sin, H. T. (2012). Environmental factors and growth properties of Sasa borealis (Hack.) Makino community and effect its distribution on the development of lower vegetation in Jirisan National Park. Kor. J. Env. Eco., 26, 82-90 (in Korean).
- SPSS. (2013). IBM SPSS statistics for windows, version 22.0. Armonk: IBM Corp.
- Yuruki, T., Ohga, S., & Aragami, K. (1987). Ecological studies of suzutake (Sasa borealis), 4: individual growth and photosynthesis. Bull Kyushu Univ For., 57, 9-15.
- Peck, J. E. (2016). Multivariate analysis for ecologist: step-by-step. Oregon: MjM Software Design.
- Saitoh, T., Seiwa, K., & Nishiwaki, A. (2002). Importance of physiological integration of dwarf bamboo to persistence in forest understorey: a field experiment. Journal of Ecology, 90, 78-85.
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