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- P-ISSN2287-8327
- E-ISSN2288-1220
- SCOPUS, KCI
ISSN : 2287-8327
Floristic composition and species richness of soil seed bank in three abandoned rice paddies along a seral gradient in Gwangneung Forest Biosphere Reserve, South Korea
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Abstract
Background: We sought to understand the relationship between the seed bank and vegetation in abandoned rice paddies in South Korea, in order to guide management of these sites. We investigated the floristic composition and species richness of the soil seed bank and ground vegetation in former paddies along three seral gradients (wet meadow, young forest, and mature forest) in Gwangneung Forest Biosphere Reserve. Results: Seed bank samples contained 59 species, of which the dominant families were Cyperaceae, Gramineae, and Polygonaceae. Species richness and seedling density (59 taxa and 19,121 germinants from all samples) were high. Carex spp. (11, 921 germinants) were the dominant taxa. The species composition in the seed bank changed gradually as the land transitioned from wet meadow to mature forest. Sørensen’s index of similarity between above- and below-ground vegetation was 29.3% for wet meadow, 10.8% for young forest, and 2.1% for mature forest. Germinant density also declined, with 10, 256 germinants for wet meadow, 6445 germinants for young forest, and 2420 germinants for mature forest. Conclusions: Changes in aboveground environment and life history traits such as amphicarpic plants, likely affect the composition of soil seed bank species. Abandoned paddy fields may be good sites for restoration of wetland forest and conservation of wetland habitat. Some intervention may be required to promote the recovery of a natural species assemblage.
- keywords
- Biosphere reserve, Rice paddy, Secondary succession, Soil seed bank, Wetland
Reference
Bossuyt, B., & Hermy, M. (2001). Influence of land use history on seed banks in European temperate forest ecosystems: a review. Ecography, 24, 225-238.
Byun, C. H., Kwon, G. J., Lee, D. W., Wojdak, J. M., & Kim, J. G. (2008). Ecological assessment of plant succession and water quality in abandoned rice fields. Journal of Ecology and Environment, 31, 213-223.
Chambers, J. C. (2000). Seed movements and seedling fates in disturbed sagebrush steppe ecosystems: implications for restoration. Ecological Applications, 10, 1400-1413.
Chambers JC, & JA, M. M. (1994). A day in the life of a seed: movements and fates of seeds and their implications for natural and managed systems. Annual Review of Ecology and Systematics, 25, 263-292.
Cho, Y. C., Kim, K. S., Pi, J. H., & Lee, C. S. (2016). Restoration effects influenced by plant species and landscape context in Young-il region, Southeast Korea: structural and compositional assessment on restored forest. Journal of Ecology and Environmental, 39, 1-10.
Cho, Y. C., Shin, H. C., Kim, S. S., & Lee, C. S. (2007). Dynamics and conservation of the Gwangneung national forest in central Korea: a national model for forest restoration. Journal of Plant Biology, 50, 615-625.
Comin, F. A., Romero, J. A., Hernandez, O., & Menendez, M. (2001). Restoration of wetlands from abandoned rice fields for nutrient removal, and biological community and landscape diversity. Restoration Ecology, 9, 201-208.
De Andrade, L. A. Z., & Miranda, H. S. (2014). The dynamics of the soil seed bank after a fire event in a woody savanna in central Brazil. Plant Ecology, 215, 1199-1209.
Dufrene, M., & Legendre, P. (1997). Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs, 67, 345-366.
Falinska, K. (1999). Seed bank dynamics in abandoned meadows during a 20-year period in the Bialowieza National Park. Journal of Ecology, 87, 461-475.
FAO. (2015). Statistical pocketbook. World food and agriculture. Rome: FAO.
Foster, B. L., & Tilman, D. (2000). Dynamic and static views of succession: testing the descriptive power of the chronosequence approach. Plant Ecology, 146, 1-10.
Fujioka, M., Armacost Jr., J. W., Yoshida, H., & Maeda, T. (2001). Value of fallow farmlands as summer habitats for waterbirds in a Japanese rural area. Ecological Research, 16, 555-567.
Halpern, C. B., Evans, S. A., & Nielson, S. (1999). Soil seed banks in young, closed-canopy forests of the Olympic Peninsula, Washington: potential contributions to understory reinitiation. Canadian Journal of Botany, 77, 992-935.
Harwell, M. C., & Havens, K. E. (2003). Experimental studies on the recovery potential of submerged aquatic vegetation after flooding and desiccation in a large subtropical lake. Aquatic Botany, 77, 131-151.
Hopfensperger, K. N. (2007). A review of similarity between seed bank and standing vegetation across ecosystems. Oikos, 116, 1438-1448.
Keddy, P. A., Wisheu, I. C., Shipley, B., & Gaudet, C. (1989). Seed banks and vegetation management for conservation: toward predictive community ecology. In M. A. Leck, V. T. Parker, & R. L. Simpson (Eds.), Ecology of soil seed banks (pp. 347-363). San Diego: Academic Press.
Kim, D. J. (2017). Ecology and environment of Chosun dynasty. Seoul: Pureunryeoksa (Blue History Pub) (in Korean, title is not official translation).
Kim, J. H., Nam, J. M., & Kim, J. G. (2016). Effects of nutrient availability on the amphicarpic traits of Persicaria thunbergii. Aquatic Botany, 131, 45-50.
Korean Plant Names Index. Korea National Arboretum, Pocheon. http://www.nature.go.kr/main/Main.do. Accessed 10 Jul 2017.
Kurechi, M. (2007). Restoring rice paddy wetland environments and the local sustainable society-Project for achieving co-existence of rice paddy agricultural with waterbirds at Kabukuri-numa, Miyagi Prefecture, Japan. Global Environmental Research, 11, 141-152.
Lang, N. L., & Halpern, C. B. (2007). The soil seed bank of a montane meadow: consequences of conifer encroachment and implications for restoration. Canadian Journal of Botany, 85, 557-569.
Lee, C. S., You, Y. H., & Robinson, G. R. (2002). Secondary succession and natural habitat restoration in abandoned rice fields of central Korea. Restoration Ecology, 10, 306-314.
Lee, S. M., Cho, Y. C., Shin, H. C., Oh, W. S., Seol, E. S., Park, S. A., & Lee, C. S. (2008). Successional changes in seed banks in abandoned rice fields in Gwangneung, central Korea. Journal of Ecology and Field Biology, 31, 269-276.
Lee, T. B. (1985). Illustrated Flora of Korea. Seoul: Hyangmoonsa (in Korean).
Leicht-Young, S. A., Pavlovic, N. B., Grundel, R., & Frohnapple, K. J. (2009). A comparison of seed banks across a sand dune successional gradient at Lake Michigan dunes (Indiana, USA). Plant Ecology, 202, 299-308.
Li, E. H., Liu, G. H., Li, W., Yuan, L. Y., & Li, S. C. (2008). The seed-bank of a lakeshore wetland in Lake Honghu: implications for restoration. Plant Ecology, 195, 69-76.
Lim, J. W., Shin, J. H., Jin, G. Z., Chun, J. H., & Oh, J. S. (2003). Forest structure, site characteristics and carbon budget of the Gwangneung natural forest in Korea. Korean Journal of Agricultural and Forest Meteorology, 5, 101-109.
Looney, P. B., & Gibson, D. J. (1995). The relationship between the soil seed bank and above-ground vegetation of a coastal barrier island. Journal of Vegetation Science, 6, 825-836.
Lopez-Marino, A., Luis-Calabuig, E., Fillat, F., & Bermudez, F. F. (2000). Floristic composition of established vegetation and the soil seed bank in pasture communities under different traditional management regimes. Agriculture, Ecosystems and Environment, 78, 273-282.
Ma, M., Zhou, X., & Du, G. (2011). Soil seed bank dynamics in alpine wetlands succession on the Tibetan Plateau. Plant and Soil, 346, 19-28.
Ma, M., Zhou, X., Qi, W., Liu, K., Jia, P., & Du, G. (2013). Seasonal dynamics of the plant community and soil seed bank along a successional gradient in a subalpine meadow on the Tibetan plateau. PLoS One, 8, e80220.
McCune, B., & Grace, J. B. (2002). Analysis of ecological communities. Oregon: MjM Software Design.
McCune, B., & Mefford, M. J. (1999). PC-ORD. Version 4.0. Multivariate analysis of ecological data. Oregon: MjM Software Design.
Ministry of Agriculture and Forestry. (2006). Agriculture and forestry statistical yearbook. Gwacheon: Ministry of Agriculture and Forestry.
Moore, H. I., & Burr, S. (1948). The control of rushes on newly reseeded land in Yorkshire. Journal of the British Grassland Society, 3, 283.
Mueller-Dombois, D., & Ellenberg, H. (1974). Aims and methods of vegetation ecology. New York: Wiley.
Olano, J. M., Caballero, I., Laskurain, N. A., Loidi, J., & Escudero, A. (2002). Seed bank spatial pattern in a temperate secondary forest. Journal of Vegetation Science, 13, 775-784.
Park, S. H. (1995). Colored illustrations of naturalized plants of Korea. Seoul: Ilchokak press (in Korean).
Pickett, S. T. A., & McDonnell, M. J. (1989). Seed dynamics in temperate deciduous forest. In M. A. Leck, V. T. Parker, & R. L. Simpson (Eds.), Ecology of soil seed banks (pp. 123-145). San Diego: Academic Press.
Plue, J., Van Gils, B., Peppler-Lisbach, C., De Schrijver, A., Verheyen, K., & Hermy, M. (2010). Seed-bank convergence under different tree species during forest development. Perspectives in Plant Ecology, Evolution and Systematics, 12, 211-218.
Prach, K. (2003). Spontaneous succession in Central-European man-made habitats: what information can be used in restoration practices? Applied Vegetation Science, 6, 125-129.
Rhee, S. Y., Kang, H. K., & Lee, S. (2009). The abandoned farmlands status and management in rural area. Journal of Korean Society of Rural Planning, 15, 15-29 (in Korean with English abstract).
Richards, P. W., & Clapham, A. R. (1941). Juncus effusus L. (Juncus communis <TEX>${\beta}$</TEX> effusus E. Mey). Journal of Ecology, 19, 375-380.
Richter, R., & Stromberg, J. C. (2005). Soil seed banks of two montane riparian areas: implications for restoration. Biodiversity and Conservation, 14, 993-1016.
Ryang, H. S., Kim, D. S., & Park, S. H. (2004). Weeds of Korea. Seoul: Rijeon Agricultural Resources Publications;. (in Korean).
Savadogo, P., Sanou, L., Dayamba, S. D., Bognounou, F., & Thiombiano, A. (2017). Relationships between soil seed banks and above-ground vegetation along a disturbance gradient in the W National Park trans-boundary biosphere reserve, West Africa. Journal of Plant Ecology, 10, 349-363.
Schmidt, I., Leuschner, C., Molder, A., & Schmidt, W. (2009). Structure and composition of the seed bank in monospecific and tree species-rich temperate broad-leaved forests. Forest Ecology and Management, 257, 695-702.
Sokal, R. R., & Rohlf, F. J. (1981). Biometry. San Francisco: WH Freeman.
SPSS Inc. SPSS 12.0 for windows. 2003.
Thompson, K. (2000). The functional ecology of soil seed banks. In M. Fenner (Ed. ), Seeds: The ecology of regeneration in plant communities (pp. 231-258). Wallingford: CAB International.
Thompson, K., & Grime, J. P. (1979). Seasonal variation in the seed banks of herbaceous species in ten contrasting habitats. Journal of Ecology, 67, 893- 921.
van der Valk, A. B. (1981). Succession in wetlands: a Gleasonian approach. Ecology. , 62, 688-696.
Yamada, S., Kitagawa, Y., & Okubo, S. (2013). A comparative study of the seed banks of abandoned paddy fields along a chronosequence in Japan. Agriculture, Ecosystems & Environment, 176, 70-78.
Yamada, S., Okubo, S., Kitagawa, Y., & Takeuchi, K. (2002). Extensive cultivation management in wet-follow paddy fields on the Tama Hills. Journal of the Japanese Institute of Landscape Architecture, 65, 290-293 (in Japanese with English abstract).
Yamada, S., Okubo, S., Kitagawa, Y., & Takeuchi, K. (2007). Restoration of weed communities in abandoned rice paddy fields in the Tama Hills, central Japan. Agriculture, Ecosystems & Environment, 119, 88-102.
Yang, D., & Li, W. (2013). Soil seed bank and aboveground vegetation along a successional gradient on the shores of an oxbow. Aquatic Botany, 110, 67-77.
Yoon, J. Y., Kim, H., Nam, J. M., & Kim, J. G. (2011). Optimal environmental range for Juncus effusus, an important species in an endangered insect species (Nannopya pygmaea) habitat in Korea. Journal of Ecology and Field Biology, 34, 223-235.
Zabinski, C. A., Wojtowicz, T., & Cole, D. N. (2000). The effect of recreation disturbance on subalpine seed banks in the Rocky Mountains of Montana. Canadian Journal of Botany, 78, 577-582.
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