Abstract
Ecophysiological strategies of coastal halophytes from foredunes and salt marshes are discussed. A comparison is made of the factors that limit growth in salt marshes and sand dunes. In salt marshes, zonation and succession are primarily governed by variation in soil salinity, which strongly depends on inundation with seawater. Results are described of experiments which aim at separating salinity and inundation effects on growth, osmotic and mineral relations in a comparison of salt-marsh halophytes. The growth response of plants cannot simply be correlated (and causally explained) with the concentration of Na, Cl, and K in the tissues. Also, the compatible osmotic solutes proline and methylated quaternary ammonium compounds may accumulate both in species with a positive response to increased salinity and in species with a growth reduction under seawater inundation. More likely inadequate adaptation of the plants water potential with these components is partly the cause of retarded growth. Disfunctioning of the plant in this respect may be at three levels: (a) total water potential of the plant, (b) (loss) of turgor pressure potential; (c) regulation at the cellular level.
The ecological importance of some factors in seawater other than sodium chloride is considered. In coastal sand dunes airborne rather than soil salinity limits plant growth, together with the effects of abrasion, sand accretion, drought and the poor nutrient status of the dune sand. Adaptations of sand-dune species to these factors may consist of: large seeds with storage tissue germinating in the dark and seedling growth enough to emerge through the accreted sand. Aerial parts must be resistant to mechanical damage (high wind speed and abrasion), possibly by a sclerophyllous and tough structure. Efficient nutrient uptake, translocation and retranslocation seem to help survive sand-dune species in a nutrient-poor rooting medium.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adams, D. A., 1973. Factors influencing vascular plant zonation in North Carolina salt marshes. Ecology 44: 445–456.
Ahmad, I. & Wainwright, S. J., 1976. Ecotype differences in leaf surface properties of Agrostis stolonifera from salt marsh, spray zone and inland habitats. New Phytol. 76: 361–366.
Ahmad, I., Larher, F. & Stewart, G. R., 1979. Sorbitol, a compatible osmotic solute in Plantago maritima. New Phytol. 82: 671–678.
Albert, R., 1982. Halophyten. In: H. Kinzel (ed.), Pflanzenökologie und Mineralstoffwechsel. Ulmer, Stuttgart.
Albert, R. & Popp, M., 1977. Chemical composition of halophytes from the Neusiedler lake region in Austria. Oecologia (Berl.) 27: 157–170.
Armstrong, W., 1975. Waterlogged soils. In: J. R. Etherington, (ed.) Environment and Plant Ecology. pp. 181–218. Wiley, New York.
Bakker, T. W. M., Klijn, J. A., Zadelhoff, F. J. van, 1979. Duinen en duinvalleien. Pudoc, Wageningen. 201 pp.
Barbour, M. G. & Jong, Th. M. de, 1977. Response of West Coast Beach taxa to salt spray, seawater inundation, and soil salinity. Bull. Torr. Bot. Club 104: 29–34.
Barnes, R. S. K. (ed.), 1977. The Coastline. John Wiley, Chichester.
Beeftink, W. G., 1977. The coastal salt marshes of western and northern Europe: an ecological and phytosociological approach. In: V. J. Chapman (ed.): Wet coastal ecosystems. pp. 109–155.
Beer, S., Shomer-Ilan, A. & Waisel, Y., 1975. Salt-stimulated Phosphoenol-pyruvate carboxylase in Cakile maritima. Physiol. Plant. 34: 293–295.
Bienfait, H. F. & Mark, F. van der, 1983. Phytoferritin and its role in iron metabolism. In: Metals and micronutrients: uptake and utilization by plants (Pierpoint ed.) Academic Press, New York.
Benecke, W., 1930. Zur Biologie der Strand- und Dünenflora, I. Vergleichende Versuche über die Salztoleranz von Ammophila arenaria Link, Elymus arenarius L. und Agriopyrum junceum L. Ber. Dtsche Bot. Ges. 148: 127–139.
Boorman, L. A., 1968. Some aspects of the reproductive biology of Limonium vulgare Mill. and L. humile Mill. Ann. Bot. 32: 803–824.
Borowitzka, L., 1981. Solute accumulation and regulation of cell water activity. In: L. G. Paleg & D. Aspinall (eds.). Physiology and biochemistry of drought resistance in plants. Academic Press, Sydney pp. 97–104.
Breckle, S. W., 1975. Zur Okologie und zu den Mineralstoffver-hältnissen absalzender und nicht absalzender Xerohalophyten. Thesis Bonn, pp. 92–96.
Brümmer, G., 1974. Redoxpotentiale und Redoxprozesse von Mangan-, Eisen- und Schwefel Verbindungen in hydromorphen Boden und Sedimenten. Geoderma 12: 207–222.
Buth, G. J. C., 1985. Decomposition of three halophytes in an Eastern Scheldt salt marsh. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of coastal vegetation. Vegetatio 61/62: 337–356.
Cavalieri, A. J. & Huang, A. H. C., 1981. Accumulation of proline and glycinebetaine in Spartina alterniflora Loisel in response to NaCl and nitrogen in the marsh. Oecologia (Berl.) 49: 224–228.
Chapin III F. S., 1980. The mineral nutrition of wild plants. Ann. Rev. Ecol. Syst. 11: 233–260.
Chapman, V. J., 1974. Salt marshes and salt deserts of the world. In: R. J. Reimold & W. Queen (eds.), Ecology of halophytes. pp. 3–22. Academic Press, London.
Cooper, A., 1982. The effects of salinity and waterlogging on the growth and cation uptake of salt marsh plants. New Phytol. 90: 263–275.
Crawford, R. M. M., 1978. Metabolic adaptations to anoxia. In: D. D. Hook & R. M. M. Crawford (eds.), Anaerobic plant growth. pp.: 119–136. Ann Arbor Science, Ann Arbor.
Dickson, D. M. J., Wyn Jones, R. G. & Davenport, J., 1980. Steady state osmotic adaptation in Ulva lactuca. Planta 150: 158–165.
Dickson, D. M. J., Wyn Jones, R. G. & Davenport, J., 1982. Osmotic adaptation in Ulva lactuca under fluctuating salinity regimes. Planta 155: 409–415.
Edwards, R. S. & Claxton, S. M., 1964. The distribution of air-borne salt of marine origin in the Aberystwyth area. J. Appl. Ecol. 1: 213–263.
Ernst, W. H. O., 1981. Ecological implications of fruit variability in Phleum arenarium L., an annual dune grass. Flora 171: 387–398.
Ernst, W. H. O., 1983a. Anpassungsstrategien einjähriger Dünenpflanzen. Verhandl. Ges. Ökologie II (Mainz 1981) X: 485–495.
Ernst, W. H. O., 1983b. Element nutrition of two contrasted dune annuals. J. Ecol. 71: 197–210.
Flowers, T. J., Troke, P. F. & Yeo, A. R., 1977. The mechanism of salt tolerance in halophytes. Ann. Rev. Plant Physiol. 28: 89–121.
Goldberg, E. D., 1963. I. Chemistry. In: The sea. Ideas and observations on progress in the study of the seas. pp. 4–5. John Wiley Interscience. New York.
Gorham, J., Hughes, L. & Wyn Jones, R. G., 1981. Low-molecular-weight carbohydrates in some salt-stressed plants. Physiol. Plant. 53: 27–33.
Grace, J., 1977. Plant responses to wind. Academic Press, London.
Greenway, H. & Munns, R., 1980. Mechanisms of salt tolerance in nonhalophytes. Ann. Rev. Plant Physiol. 31: 149–190.
Groenendijk, A. M., 1985. Ecological consequences of tidal management for the salt marsh vegetation in: W. G. Beeftink, J. Rozema, A. H. L. Huiskes (eds.), Ecology of Coastal Vegetation. Junk, The Hague. Vegetatio 59/60.
Gutknecht, J. & Dainty, J., 1969. Ionic relationships of marine algae. Oceanogr. Mar. Biol. Ann. Rev. 6: 163–200.
Havill, D. E., Ingold, A. & Pearson, J., 1985. Sulphide tolerance in coastal halophytes. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of coastal vegetation. Junk, The Hague. Vegetatio 59/60.
Heukels, H. & Ooststroom, S. J. van, 1977. Flora van Nederland. Wolters Noordhoff, Groningen.
Hodson, M. J., Smith, M. M., Wainwright & S. J. Öpik, H., 1981. Cation cotolerance in a salt-tolerant clone of Agrostis stolonifera L. New Phytol. 90: 253–2.
Hook, D. D. & Crawford, R. M. M., 1978. Anaerobic plant growth. Ann Arbor Science, Ann Arbor.
Huiskes, A. H. L., 1979. Ammophila arenaria (L.) Link. Biological Flora of the British Isles. J. Ecol. 67: 363–382.
Humphreys, M. O., 1982. The genetic basis of tolerance to salt spray in populations of Festuca rubra L. New Phytol. 91: 287–296.
Ignaciuk, R. & Lee, J. A., 1980. The germination of four annual strand-line species. New Phytol. 84: 581–591.
Ingold, A., 1982. The effects of sulphide toxicity on the distribution of higher plant species in salt marshes. Ph. D. Thesis. Un. of London. 132 pp.
Jefferies, R. L., Davy, A. J. & Rudmik, T., 1979. The growth strategies of coastal halophytes. In: R. L. Jefferies & A. J. Davy (eds.), Ecological processes in coastal environments. pp. 243–268. Blackwell, Oxford.
Jefferies, R. L., 1980. The role of organic solutes in osmo-regulation in halophytes in halophytic higher plants. In: D. W. Rains, R. C. Valentine & A. Hollaender (eds.), Genetic engineering of osmoregulation. pp. 136–154. Plenum, New York.
Joenje, W., 1978. Plant colonization and succession on embanked sand flats. A case study in the Lauwerszeepolder, The Netherlands. Ph.D. Thesis. University Groningen, 160 pp.
John, C. P., Limpinuntana, V. & Greenway, H., 1977. Interaction of salinity and anaerobiosis in barley and rice. J. Exp. Bot. 28: 127–132 (1977).
Jong, T. M. de, 1979. Water and salinity relations of Californian beach species. J. Ecol. 67: 647–663.
Lee, J. A. & Ignaciuk, 1985. The nitrogen nutrition of strandline plants. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of Coastal Vegetation. Vegetatio 61/62: 319–326.
Lewis, D. H., 1980. Boron, lignification and the origin of vascular landplants. A unified hypothesis. New Phytol 84: 209–229.
Liphschitz, N. & Waisel, Y., 1982. Adaptations of plants to saline environments: salt excretion and glandular structure. In: Contributions to the ecology of halophytes (D. N. Sen & K. S. Rajpurohit, eds.) Junk, The Hague. pp. 197–214.
Maarel, E. van der, 1962. Aantekeningen over Cochlearia officinalis L. s.l., Herbariumonderzoek van Cochlearia officinalis L. en C. anglica L. Gorteria 1: 75–79.
Maarel, E. van der, Cock, N. de & Wildt, E. de, 1985. Population-dynamics of some major woody species in relation to long-term succession on the dunes of Voorne, The Netherlands. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of Coastal Vegetation. Vegetatio 61/62: 209–220.
Maarel, E. van der, 1979. Environmental management of coastal dunes in the Netherlands. In: R. L. Jefferies & A. J. Davy (eds.), Ecological Processes in Coastal Environments. pp. 543–570. Blackwell, Oxford.
Mahall, B. E. & Park, R. B., 1976. The ecotone between Spartina foliosa Trin. and Salicornia virginica L. in salt marshes of Northern San Francisco Bay. II. Soil water and salinity. J. Ecol. 64: 793–809.
McClendon, J. H., 1981. The balance of forces generated by the water potential in the cell-wall-matrix-model. Amer. J. Bot., 68: 1263–1268.
Milburn, J. A., 1979. Water Flow in Plants. Longman London.
Paleg, L. G. & Aspinall, D., 1981. Physiology and biochemistry of drought resistance in plants. Academic Press. Sydney.
Ponnamperuma, F. N., 1972. The chemistry of submerged soils. Advan. Agron. 24: 29–96.
Pugh, G. J. F., 1979. The distribution of fungi in coastal regions. In: R. L. Jefferies & A. J. Davy (eds.), Ecological processes in coastal environments. pp. 415–428. Blackwell, Oxford.
Ranwell, D. S., 1972. Ecology of salt-marshes and sand-dunes.
Raven, J. A., 1980. Short and long distance transport of boric acid in plants. New Phytol. 84: 231–249.
Rhebergen, H. & Nelissen, H. J. M., 1985. Population genetics of three Festuca rubra ecotypes. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of coastal vegetation. Junk, The Hague.
Rihan, J. & Gray, A. J., 1985. The ecology of the Hybrid Marram Grass x Calammophila baltica (Flugge) Brand (=x Ammocalagrostis baltica. (Schrad.) P. Fourn) in Britain. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of coastal vegetation. Junk, The Hague. Vegetatio 59/60.
Roozen, A. J. M. & Westhoff, 1985. A study on long-term salt-marsh succession using permanent quadrats. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.), Ecology of coastal vegetation. Vegetatio 61/62: 23–32.
Rozema, J. & Blom, B. N., 1977. Effects of salinity and inundation on the growth of Agrostis stolonifera and Juncus gerardii. J. Ecol. 65: 213–222.
Rozema, J., 1978. On the ecology of some halophytes from a beach plain in the Netherlands. Ph.D. Thesis, Free University, Amsterdam, 191 pp.
Rozema, J. Buizer, D. A. G. & Fabritius, H., 1978a. Population dynamics of Glaux maritima and ecophysiological adaptations to salinity and inundation. Oikos, 30: 539–548.
Rozema, J., Rozema-Dijst, E., Freysen, A. H. J. & Huber, J. J. L., 1978b. Population differentiation within Festuca rubra L. with regard to soil salinity and soil water. Oecologia (Berl.) 34: 329–341.
Rozema, J., Bijl, F., Dueck, T. & Wesselman, H., 1982. Salt-spray stimulated growth in strand-line species. Physiol. Plant. 56: 204–210.
Rozema, J. Dueck, T., Wesselman, H., Bijl, F., 1983a. Nitrogen dependent growth simulation by salt. Acta Oecologia Plant 4: 41–52.
Rozema, J., Maanen, Y. van, Vugts, H. & Leusink, A., 1983b. Airborne and soilborne salinity and the distribution of coastal and inland species of the genus Elytrigia. Acta Bot. Neerl. 32: 447–456.
Rozema, J., Luppes, E. & Broekman, R., 1985. Differential response of salt marsh species to variation of iron and manganese. In: W. G. Beeftink, J. Rozema & A. H. L. Huiskes (eds.). Ecology of Coastal Vegetation. Vegetatio 61/62: 293–302.
Sanders, F. E., Mosse, B. & Tinker, P. B., 1975. Endomycorrhizae, Acad. Press, London.
Schat, H., 1982. On the ecology of some Dutch dune slack plants. Ph.D. Thesis, Free University, Amsterdam. 128 pp.
Singer, C. E. & Havill, D. C., 1985. Manganese as an ecological factor in salt marshes. In: Ecology of Coastal Vegetation (W. G. Beeftink, J. Rozema & A. H. L. Huiskes eds). Vegetatio 61/62: 287–292.
Smirnoff, N. & Stewart, G. R., 1985. Stress metabolites and their role in coastal plants. In: Ecology of Coastal Vegetation (W. G. Beeftink, J. Rozema & A. H. L. Huiskes eds). Vegetatio 61/62: 237–278.
Stewart, G. R., Larher, F., Ahmad, I. & Lee, J. A., 1979. Nitrogen metabolism and salt tolerance in higher plants halophytes. In: R. L. Jefferies & A. J. Davy (eds.), Ecological processes in coastal environments: pp. 229–241. Blackwell, Oxford.
Storey, R., Ahmad, N. & Wyn Jones, R. G., 1977. Taxonomic and ecological aspects of the distribution of glycinebetaine and related compounds in plants. Oecologia (Berl.) 27: 319–322.
Valk, A. G. van der, 1974. Mineral cycling in coastal foredune plant communities in Cape Hatteras National Seashore. Ecology 55: 1349–1358.
Wainwright, S. J., 1980. Plants in relation to salinity. Adv. Bot. 8: 221–259.
Waisel, Y., 1972. Biology of halophytes. Academic Press, New York.
Watkinson, A. R. & Davy, A. J., 1985. Population biology of salt marsh and sand dune annuals. In: Ecology of Coastal Vegetation (W. G. Beeftink, J. Rozema & A. H. L. Huiskes eds.). Vegetatio 61/62: 487–498.
Westhoff, V., 1947. The vegetation of dunes and salt marshes on the Dutch islands of Terschelling, Vlieland and Texel. Ph.D. Thesis, University Utrecht.
Wu, L., 1981. The potential for evolution of salinity tolerance in Agrostis stolonifera L. and Agrostis tenuis Sibth. New Phytol. 89: 471–486.
Wyn Jones, R. G. & Storey, R., 1981. Betaines. In: L. G. Paleg & D. Aspinall (eds.), Physiology and biochemistry of drought resistance in plants. Academic Press, Sydney pp. 171–204.
Author information
Authors and Affiliations
Additional information
Nomenclature follows Heukels & van Ooststroom (1977).
The authors are indebted to Drs T. Dueck for correction of the English text and to Ms D. Hoonhout and Ms S. Richter for typing the manuscript.
Rights and permissions
About this article
Cite this article
Rozema, J., Bijwaard, P., Prast, G. et al. Ecophysiological adaptations of coastal halophytes from foredunes and salt marshes. Vegetatio 62, 499–521 (1985). https://doi.org/10.1007/BF00044777
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00044777