Abstract
Salicornia europaea L. is a halophyte that often occupies the lowestand most saline (>3.5% total salt) areas of salt marshes. Atriplexprostrata Boucher is less salt tolerant than S. europaea and oftengrows in a less saline (<2.0% total salts) zone adjacent to S. europaea. The purpose of this experiment was to determine thecompetitive outcome when these two species are grown at differentsalinities to ascertain the extent salinity and competition affect plantzonation. Plants were grown in a de Wit replacement series at 85, 170,and 340 mM NaCl in half-strength Hoagland's no. 2 nutrient solution fortwo months. There was a significant effect of salt concentration,competition, and their interaction on biomass production of S. europaea plants. However, only salt concentration significantly affectedbiomass production of A. prostrata plants. Results of thisexperiment confirmed the results of other studies that demonstrated thatthe more salt tolerant species were less competitive at lower salinities. Atriplex prostrata was the better competitor at 85 mM NaCl, whereasS. europaea was the better competitor at 340 mM NaClbecause growth of A. prostrata was inhibited. At 170 mMNaCl, A. prostrata biomass production decreased more than S. europaea biomass in mixed culture.
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References
Adam, P. 1990. Saltmarsh Ecology. Cambridge University Press, New York.
Allison, S.K. 1996. Recruitment and establishment of salt marsh plants following disturbance by flooding. Amer. Midl. Nat. 136: 23-247.
Badger, K.S. and Ungar, I.A. 1990. Seedling competition and the distribution of Hordeum jubatum L. along a soil salinity gradient. Func. Ecol. 4: 639-644.
Barbour, M.G. 1978. The effect of competition and salinity on the growth of a salt marsh plant species. Oecologia 37: 93-99.
Bertness, M.D. 1991. Interspecific interactions among high marsh perennials in a New England salt marsh. Ecology 72: 125-137.
Bertness M.D. and Hacker S.D. 1994. Physical stress and positive associations among marsh plants. Amer. Nat. 144: 363-372.
Bertness, M.D. and Ming Yeh, S. 1994. Cooperative and competitive interactions in the recruitment of marsh elders. Ecology 75: 2416-2429.
Bertness, M.D., Gough, L. and Shumway, S.W. 1992. Salt tolerances and the distribution of fugitive salt marsh plants. Ecology 73: 1842-1851.
de Wit, C.T. 1960. On competition. Versl. landbouwk. Onderz. 66: 1-82.
Dunson, W.A. and Travis, J. 1991. The role of abiotic factors in community organization. Amer. Nat. 138: 1067-1091.
Ellison, A.M. 1987. Effects of competition, disturbance, and herbivory on Salicornia europaea. Ecology 68: 576-586.
Ernst, W. 1978. Discrepancy between ecological and physiological optima of plant species. Oecol. Plant. 13: 175-188.
Gaudet, C.L. and Keddy, P.A. 1995. Competitive performance and species distribution in shoreline plant communities: a comparative approach. Ecology 76: 280-291.
Goldberg, D.E. 1982. The distribution of evergreen and deciduous trees relative to soil type: an example from the Sierra Madre, Mexico, and a general model. Ecology 63: 942-951.
Grime, J.P. 1979. Plant Strategies and Vegetation Processes. John Wiley, New York.
Hamilton, N.R.S. 1994. Replacement and additive designs for plant competition studies. J. Appl. Ecol. 31: 599-603.
Hintze, J.L. 1995. NCSS (Number Crunching Statistical System), User's guide NCSS 6.0 Statistical System for Windows. NCSS, Kaysville, Utah.
Kenkel, N.C., Mcilraith, A.L., Burchill C.A. and Jones, G. 1991. Competition and response of three plant species to a salinity gradient. Can. J. Bot. 69: 2497-2502.
Kotowski, W.R., van Diggelen and Kleinke, J. 1998. Behavior of wetland plant species along a moisture gradient in two geographically distant areas. Acta Bot. Neerl. 47: 337-349.
McGraw, D.C. and Ungar, I.A. 1981. Growth and survival of the halophyte Salicornia europaea L. under saline field conditions. Ohio J. Sci. 81: 109-113.
McMahon, K.A. and Ungar, I.A. 1978. Phenology, distribution and survival of Atriplex triangularis Willd. in an Ohio salt pan. Amer. Nat. 100: 1-14.
Moore, R.H. 1960. Laboratory Guide for Elementary Plant Physiology. Burgess Publishing Company, Minneapolis, MN.
Rahman, M. and Ungar, I.A. 1994. The effect of competition and salinity on shoot growth and reproductive biomass of Echinochloa crus-galli. Aquatic Bot. 48: 343-353.
Riehl, T.E. and Ungar, I.A. 1983. Growth, water potential and ion accumulation in the inland halophyte Atriplex triangularis under saline field conditions. Acta Oecol. Plant. 4: 27-39.
Ungar, I.A. 1977. The relationship between soil water potential and plant water potential in two inland halophytes under field conditions. Bot. Gazette 138: 498-501.
Ungar, I.A. 1991. Ecophysiology of Vascular Halophytes. CRC Press, Boca Raton.
Ungar, I.A. 1996. Effect of salinity on seed germination, growth, and ion accumulation of Atriplex patula (Chenopodiaceae). Amer. J. Bot. 83: 604-607.
Ungar, I.A. 1998. Are biotic factors significant in influencing the distribution of halophytes in saline habitats? Bot. Rev. 64: 176-199.
Ungar, I.A., Benner, D.K. and McGraw, D.C. 1979. The distribution and growth of Salicornia europaea on an inland salt pan. Ecology 60: 329-336.
Valiela, I. and Rietsma, C.S. 1995. Disturbance of salt marsh vegetation by wrack mats in Great Sippewissett Marsh. Oecologia 102: 106-112.
Wertis, B.A. and Ungar, I.A. 1986. Seed demography and seedling survival in a population of Atriplex triangularis Willd. Amer. Midl. Nat. 116: 152-162.
Wilson, J.B., King, W.M., Sykes, M.T. and Partridge, T.R. 1996. Vegetation zonation as related to the salt tolerance of species of brackish riverbanks. Can. J. Bot. 74: 1079-1085.
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Egan, T.P., Ungar, I.A. Competition between Salicornia europaea and Atriplex prostrata (Chenopodiaceae) along an experimental salinity gradient. Wetlands Ecology and Management 9, 457–461 (2001). https://doi.org/10.1023/A:1012276510818
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DOI: https://doi.org/10.1023/A:1012276510818