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http://dx.doi.org/10.13047/KJEE.2014.28.6.705

Germination of Buried Seeds in Secondary Forest of Basla Zone - Coniferous and Broadleaved Forest of Low Slope, Yesan-gun, Korea -  

Kang, Hee-Kyoung (Dept. of Horticulture, Kongju Nat'l Univ.)
Park, Jun-Young (Dept. of Horticulture, Kongju Nat'l Univ.)
Ahn, Sang-Kyo (Dept. of Horticulture, Kongju Nat'l Univ.)
Cho, Yong-Hyeon (Dept. of Landscape Architecture, Kongju Nat'l Univ.)
Park, Bong-Ju (Dept. of Horticultural Science, Chungbuk Nat'l Univ.)
Kim, Won-Tae (Dept. of Environment and Landscape Architecture, Cheonan Yonam College)
Shin, Kyung-Jun (JangWon Landscape Technology Institute)
Eo, Yang-Joon (JangWon Landscape Technology Institute)
Song, Hong-Seon (Dept. of Plant Resource, Kongju Nat'l Univ.)
Publication Information
Korean Journal of Environment and Ecology / v.28, no.6, 2014 , pp. 705-714 More about this Journal
Abstract
This text was analyzed and investigated the aerial part plants and buried seed plants at coniferous forest and broadleaved forest in Yesan-gun, in order to offer the basic data of potential natural vegetation change on secondary forest. Plants of buried seed germination were consisted of 29 taxa in coniferous forest (28 species, 1 varieties, of 27 genus, 20 families) and 36 taxa in broadleaved forest (34 species, 2 varieties, of 32 genus, 18 families). Family classification of buried seed plant was the most in Compositae, and emergent plot frequency was the highest of Cyperus amuricus in coniferous forest and Crepidiastrum sonchifolium in broadleaved forest. The soil depth of the most plants appearance was 0~10 cm in coniferous forest and 0~5 cm in broadleaved forest, and the soil depth of the most population appearance was 0~2 cm in coniferous forest and broadleaved forest. Population of buried seed germination was decreased according as soil is deep. Crepidiastrum sonchifolium was a plant that population of buried seed germination is the most. Similarity index of the aerial part plants and buried seed plants was low as 0.22, and coniferous forest and broadleaved forest was 0.40.
Keywords
FOREST TYPE; POTENTIAL NATURAL VEGETATION; COMPOSITAE; Crepidiastrum sonchifolium; SOIL DEPTH;
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1 Al-Naib, F.A. and E.L. Rice(1971) Alleopathic effect of Platanus occidentalis. Bull, Torrey Bot. Club, 98 : 75-82.   DOI   ScienceOn
2 Augusto, L., J.L. Dupouey, J.F Picard and J. Ranger(2001) Potential contribution of the seed bank in coniferous plantations to the restoration of native deciduous forest vegetation. Acta Oecologica, 22(2) : 87-89.   DOI
3 Bossuyt, B., M. Heyn and M. Hermy(2002) Seed bank and vegetation composition of frest stands of varying age in central Belgium: consequences for regeneration of ancient forest vegetation. Plant Ecology, 162(1) : 33-48.   DOI
4 Brock, M.A and K.H. Rogers(1998) The regeneration potential of the seed bank of an ephemeral floodplain in South Africa. Aquatic Botany, 61(2) : 123-135.   DOI   ScienceOn
5 Frank, R.M. and L.O. Safford(1970) Lack of viable seeds in the forest floor after clear cutting. Journal of Forestry, 68 : 776-778.
6 Galatowitsh, S.M and A.G Van der Valk(1996) The vegetation of restored and natural prairie wetlands. Ecological application, 6(1) : 102-112.   DOI   ScienceOn
7 Godefroid, S., S.S. Phartyal and N. Koedam(2006) Depth distribution and composition of seed bank under different tree layers in a managed temperate forest ecosystem. Acta Oecologica, 29(3) : 283-292.   DOI
8 Granstrom, A.(1988) Seed banks at six open and afforested heathland sites in southern Sweden. J. App. Ecol., 25(1) : 297-306.   DOI
9 Haag, R.W.(1981) Emergence of seedlings of aquatic macrophytes from lake sediments. Canadian Journal of Botany, 61(1) : 148-156.
10 Harwell, M.C and K.E. Havens(2003) Experimental studies on th recovery potential of submerged aquatic vegetation after flooding and desiccation in a large subtropical lake. Aquatic Botany, 77(2) : 135-151.   DOI   ScienceOn
11 Jalili, A., B. Hamzeh'e, Y. Asri, A. Shirvany, S. Yazdani, M. Khoshnevis, F. Zarrinkamar, M.-A. Ghahramani, R. Safavi, S. Shaw, J.G. Hodgson, K. Thompson, M. Akbarzadeh and M. Pakparvar(2003) Soil seed banks in the arasbaran protected Iran and their significance for conservation management. Biological Conservation, 109(3) : 425-431.   DOI
12 Jobiden, R. and J.R. Thibauit(1981) Allelopathic effects of balsam popular on green alder germination. Bull. Torrey Bot. Club, 108 : 413-418.   DOI
13 Joe, S.H. and K.D. Kim(2008) Comparisons between a forest road with a coniferous plantation and distributed vegetation on the edge of a forest and reclaimed soil seed bank. Kor. J. Env. Eco., 22(4) : 409-419. (in Korean with English abstract)
14 Judd, W.S., C.S. Campbell, E.A. Kellogg and P.F. Stevens(1999) Plant systematics. Sinauer Associates. Sunderland, Massachusetts (USA). pp. 396-401.
15 McGraw, J.B.(1987) Seed bank proporties of an Appalachian sphagnum bog and a model of the depth distributon of viable seeds. Canadian Journal of Botany, 65(10) : 2028-2035.   DOI
16 Kim, Y.M.(2007) Buried Seeds and the emergent species in a natural hardwood stand and plantations of Larix kaempferi and Pinus koraiensis in Mt. Jungwang, Pyungchang-gun, Gangwon Province, Korea. Thesis for the Degree of Master, Graduate School, University of Seoul, 52pp. (in Korean with English abstract)
17 Lee, I.D.(1983) Studies on the improvement of mountainous Pasture, I. Effect of the various litters on germination , establishment , and herbage production of oversown grasses. Journal of the Korean Society of Grassland and Forage Science, 4(1) : 35-40.
18 Martell, A.M.(1979) Selection of conifer seeds by deer mice and red backed voles. Canadian Journal of Forest Research, 9 : 201-204.   DOI
19 Milberg, P.(1993) Seed bank and seedlings emerging after soil disturbance in a wet semi-natural grassland in Sweden. Annales Botannici Fennici, 30(1) : 9-13.
20 Nakagoshi, N.(1985) Buried viable seeds in temperate forests. In J. White (ed.), The Population Structure of Vegetation, 1st ed., Springer, Dordrecht, 551-570.
21 Park, B.K.(1970) Ecological studies on the buried-seed population in the grassland of the Ewha womans University. J.K.R.I.B.L., 5 : 7-15. (in Korean with English abstract)
22 Pickett, S.T.A. and M.J. Mcdonnell(1989) Seed bank dynamics in temperate deciduous forest. In M. A. Leck, V. T. Parker and R. L. Simpson. (eds.), Ecology of Soil Seed Banks, Academic Press, San Diego, 123-145.
23 Putz, F.E. and S. Appanah(1987) Buried seeds, newly dispersed seeds and the dynamics of a lowland forest in Malaysia. Biotropica, 19(4) : 326-333   DOI
24 Roberts, H.A.(1981) Seed banks in soils, In: T. H. Coaker. (ed.), Advances in Applied Biology, Volume 6, Academic Press, London, 1-55.
25 Ruth, A.D., S. Jose, and D.L. Miller(2008) Seed bank dynamics of sand pine scrub and longleaf pine flatwoods of the Gulf Coastal Plain (Florida). Ecol. Res., 26(1) : 19-21.
26 Van der Valk, A.G and C.B. Davis(1979) A reconstruction of the recent vegetational history of a prairie marsh, Eagle Lake, Iowa, from its seed bank. Aquatic Botany, 6 : 29-51.   DOI   ScienceOn
27 Shin, H.T and M.H. Yi(2011) The Relationship between soil seed bank and ground layer of actual vegetation in Korea. Journal of the Environmental Sciences, 20(1) : 127-135. (in Korean with English abstract)   DOI
28 Thompson, K. and J.P. Grime(1979) Seasonal variation in the seed banks herbaceous species in ten contrasting habitats. Journal of Ecology, 67 : 893-921.   DOI   ScienceOn
29 Thompson, K., J. Bakker and R. Bekker(1997) The soil seed bank of North West Europe. Methology, Density and Longivity, Cambridge, Cambridge University Press. 288pp.
30 Wassie, A. and D. Teketay(2006) Soil seed banks in church forests of northern Ethiopia: Implications for the conservation of woody plants. Flora, 201(1) : 32-43.   DOI   ScienceOn
31 Young, K.R.(1985) Deeply buried seeds in a tropical wet forest in Costa Rica. Biotropical, 17(4) : 336-338.   DOI
32 Zhan, X., L. Li and W. Cheng(2007) Restoration of Stipa kryloviisteppes in inner Mongolia of China, Assesment of seed banks and vegetation composition. Journal of Arid Environments, 68(2) : 298-307.   DOI