Abstract
Some edaphic and meteorological conditions were examined to detect environmental gradients from shoreline to inland at the Kado-ori coast, Ibaraki, Japan, in 1989. Zonal distribution patterns of coastal dune plant species, including three ubiquitous perennials,Calystegia soldanella, Carex kobomugi andIschaemum anthephoroides, were described in relation to the environmental gradients. Environmental gradients were found in water availability, evaporative demand and soil-water salinity. Water availability, evaluated by thickness of capillary water layer, increased from 10 cm at 20 m to 48 cm at 85 m from the shoreline, reflecting the percentage of fine sand. Evaporative demand, which was evaluated by the evaporation rate from a wet black filter paper, decreased with increasing distance from the shoreline. Soil-water salinity was lowest (15 mmol/L) at 85 m from the shoreline and highest (90 mmol/L) at 30m. On the coast,C. soldanella, a salt-tolerant perennial, was distributed mainly in the environmentally harsh area 40–60 m from the shoreline.Ischaemum anthephoroides andC. kobomugi, less salt-tolerant perennials, occurred mainly 70–80 m from the shoreline, where environmental conditions were more hospitable.
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References
Abacus Concepts (1986)Stat View Manual. Brain Power, California.
Abacus Concepts (1989)Super Anova Manual. Brain Power, California.
Barbour M. G. (1978) Salt spray as a microenvironmental factor in the distribution of beach plants at Point Reyes, California.Oecologia 32: 213–224.
Bertness M. D. (1988) Peat accumulation and the success of marsh plants.Ecology 69: 703–713.
Bertness M. D. (1991a) Interspecific interactions among high marsh perennials in a New England salt marsh.Ecology 72: 125–137.
Bertness M. D. (1991b) Zonation ofSpartina patens andSpartina alterniflora in a New England salt marsh.Ecology 72: 138–148.
Bertness M. D. &Ellison A. M. (1987) Determinants of pattern in a New England salt marsh plant community.Ecological Monographs 57: 129–147.
Boyce G. B. (1954) Salt spray community.Ecological Monographs 24: 29–66.
Cowles H. C. (1899a) The ecological relations of the vegetation on the sand dunes of Lake Michigan. Part 1. Geographical relations of the dune floras.Botanical Gazette 27: 95–117.
Cowles H. C. (1899b) The ecological relations of the vegetation on the sand dunes of Lake Michigan.Botanical Gazette 27: 167–202.
Cowles H. C. (1899c) The ecological relations of the vegetation on the sand dunes of Lake Michigan.Botanical Gazette 27: 281–308.
Cowles H. C. (1899d) The ecological relations of the vegetation on the sand dunes of Lake Michigan.Botanical Gazette 27: 361–391.
Davy A. J. &Smith H. (1985) Population differentiation in the life-history characteristics of salt-marsh annuals.Vegetatio 61: 117–125.
Ishikawa S. I., Oikawa T. &Furukawa A. (1991) Responses of photosynthesis, leaf conductance and growth to different salinities in three coastal dune plants.Ecological Research 6: 217–226.
Ishizuka K. (1961) Ecological studies on the vegetation of coastal sand bars. 1. An analysis of vegetation on a recently formed sand bar.Annual Report of the Faculty of Liberal Arts, Iwate University 19: 37–64.
Kachi N. &Hirose T. (1979) Multivariate approaches of the plant communities related with edaphic factors in the dune system at Azigaura, Ibaraki Pref. I. Association-analysis.Japanese Journal of Ecology 29: 17–27.
Long S. P. &Baker N. R. (1986) Saline terrestrial environments. In:Photosynthesis in Contrasting Environments (eds N. K. Baker & S. P. Long), pp. 63–102. Elsevier, Amsterdam.
Maruyama K. &Miura S. (1981) Studies on the soil-vegetation system in the west Niigata coastal sand dune, with special reference to the comparison of affected and controlled areas by wind-blown sand.Bulletin of the Niigata University Forests 14: 43–78 (in Japanese with English summary).
Matsuda A., Kamichika M. &Ando T. (1977) Vertical distribution of temperature near the ground surface in a sand dune area.Bulletin of the Sand Dune Research Institute of Tottori University 16: 9–13 (in Japanese with English summary).
Miura S. &Maruyama K. (1983) Effects of the coastal forest upon soil-vegetation system in sand dune. Examples at Kaetsu-District in Niigata prefecture.Bulletin of the Niigata University Forests 16: 9–36 (in Japanese with English summary).
Nakanishi H. &Fukumoto H. (1987) Zonation of coastal vegetation and coastal topography in Southern Japan.Japanese Journal of Ecology 37: 197–207 (in Japanese with English summary).
Nobuhara H. (1967) Analysis of coastal vegetation on sandy shore by types in Japan.Japanese Journal of Botany 19: 325–351.
Olson J. S. (1958) Rates of succession and soil changes on Southern Lake Michigan sand dunes.Botanical Gazette 119: 125–170.
Park Y. M. (1985) An analysis of the adaptation mechanisms of some coastal dune plants to water stress. MSc thesis, University of Tokyo (in Japanese).
Pennings S. C. &Callaway R. M. (1992) Salt marsh plant zonation: the relative importance of competition and physical factors.Ecology 73: 681–690.
Rode A. A. (1963)Soil and Water. University of Tokyo Press, Tokyo (reprinted in Japanese).
Schat H. (1984) A comparative ecophysiological study on the effects of water logging and submergence on dune slack plants: Growth, survival and mineral nutrition in sand culture experiments.Oecologia 62: 279–286.
Snow A. &Vince S. (1984) Plant zonation in an Alaskan salt marsh. II. An experimental study of the role of edaphic conditions.Journal of Ecology 72: 669–684.
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Ishikawa, SI., Furukawa, A. & Oikawa, T. Zonal plant distribution and edaphic and micrometeorological conditions on a coastal sand dune. Ecol. Res. 10, 259–266 (1995). https://doi.org/10.1007/BF02347851
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DOI: https://doi.org/10.1007/BF02347851