Advanced search
Publication Cover
Journal of Bryology Volume 17, 1992 - Issue 2
Submit an article Journal homepage
110
Views
82
CrossRef citations to date
0
Altmetric
Original Articles

Mineral nutrient acquisition and retention by bryophytes

J. W. Bates
Pages 223-240 | Published online: 18 Jul 2013

REFERENCES

  • Alpert, P. (1989). Translocation in the nonpolytrichaceous moss Grimmia laevigata. Am. J. Bot. 76, 1524–1529.
  • Andersson, M. (1988). Toxicity and tolerance of aluminium in vascular plants. Water, Air, Soil Pollut. 39, 439–462.
  • Bates, J.W. (1978). The influence of metal availability on the bryophyte and macrolichen vegetation of four rock types on Skye and Rhum. J. Ecol. 66, 457–482.
  • Bates, J.W. (1979). The relationship between physiological vitality and age in shoot segments of Pleurozium schreberi (Brid.) Mitt. J. Bryol. 10, 339–351.
  • Bates, J.W. (1982). The role of exchangeable calcium in saxicolous calcicole and calcifuge mosses. New Phytol. 90, 239–252.
  • Bates, J.W. (1987). Nutrient retention by Pseudoscleropodium purum and its relation to growth. J. Bowl. 14, 565–580.
  • Bates, J.W. (1989). Retention of added K, Ca and P by Pseudoscleropdodium purum growing under an oak canopy. J. Bryol. 15, 589–605.
  • Bates, J.W. (1990). Interception of nutrients in wet deposition by Pseudoscleropodium purum: an experimental study of uptake and retention of potassium and phosphorus. Lindbergia, 15, 93–98.
  • Bates, J.W. & Brown, D.H. (1974). The control of cation levels in seashore and inland mosses. New Phytol. 73,483–495.
  • Bates, J.W. & Farmer, A.M. (1990). An experimental study of calcium acquisition and its effects on the calcifuge moss Pleurozium schreberi. Ann. Bot. 65, 87–96.
  • Brown, D.H. (1982). Mineral nutrition. In: Smith, A.J.E. (ed.), Bryophyte Ecology, pp. 383–444. Chapman & Hall, London.
  • Brown, D.H. (1984). Uptake of mineral elements and their use in pollution monitoring. In: Dyer, A.F. & Duckett, J.G. (eds.), The Experimental Biology of Bryophytes. Academic Press, London.
  • Brown, D.H. & Bates, J.W. (1990). Bryophytes and nutrient cycling. Bot. J. Linn. Soc. 104, 129–147.
  • Brown, D.H. & Buck, G.W. (1979). Desiccation effects and cation distribution in bryophytes. New Phytol. 82,115–125.
  • Brown, D.H. & Wells, J.M. (1988). Sequential elution technique for determining the cellular location of cations. In: Glime, J.M. (ed.), Methods in Bryology, pp. 227–233. Hattori Botanical Laboratory, Nichinan.
  • Buck, G.W. & Brown, D.H. (1977). Cation analysis of bryophytes: the significance of water content and ion location. Bryophytorum Bibliotheca 13, 735–750.
  • Burton, M.A.S. (1990). Terrestrial and aquatic bryophytes as monitors of environmental contaminants in urban and industrial habitats. Bot. J. Linn. Soc. 104, 267–286.
  • Btischer P., Koedam, N. & Neirinckx, L. (1984). Cation-exchange capacity of mosses in relation to soil preference. In: Cram, W.J., Janacek, K., Rybovd, R. & Sigler, K. (eds), Membrane Transport in Plants, pp. 477–478. Academia, Praha.
  • Btischer, P., Koedam, N. & Van Speybroeck, D. (1990). Cation-exchange properties and adaptation to soil acidity in bryophytes. New Phytol. 115, 177–186.
  • Chapin, F.S., Oechel, W.C., Van Cleve, K. & Lawrence, W. (1987). The role of mosses in the phos-phorus cycling of an Alaskan black spruce forest. Oecologia (Berl.) 74, 310–315.
  • Chapin, F.S. & Shaver, G.R. (1988). Differences in carbon and nutrient fractions among arctic growth forms. Oecologia (Berl.) 77, 506–514.
  • Clymo, R.S. (1963). Ion exchange in Sphagnum and its relation to bog ecology. Ann. Bot. 27,309–324.
  • Crittenden, P.D. (1983). The role of lichens in the nutrient economy of subarctic woodlands: nitrogen loss from the nitrogen-fixing lichen Stereocaulon paschale during rainfall. In: Lee, J.A., McNeill, S. & Rorison, I.H. (eds), Nitrogen as an Ecological Factor, pp. 43–68. Blackwell, Oxford.
  • Deising, H. (1987). In vivo studies of the regulation of nitrate reductase in Sphagnum species. Symp. Biol. Hung. 35, 59–69.
  • Farmer, A.M., Bates, J.W. & Bell, J.N.B. (1991). Seasonal variations in acidic pollutant inputs and their effects on the chemistry of stemflow, bark and epiphyte tissues in three oak woodlands in N.W. Britain. New Phytol. 118, 441–451.
  • Farmer, A.M., Bates, J.W. & Bell, J.N.B. (1992). Ecophysiological effects of acid rain on bryophytes and lichens. In: Bates, J.W. & Farmer, A.M. (eds), Bryophytes and Lichens in a Changing Environment, pp. 284-313. Clarendon Press, Oxford.
  • Felle, H. (1989). Val+ antiport in Riccia fluitans: an alternative to the plasma membrane pump for short-term pH regulation? Plant Sci. 61, 9–16.
  • Furness, S.B. & Grime, J.P. (1982a). Growth rate and temperature responses in bryophytes. I. An in-vestigation of Brachythecium rutabulurn. J. Ecol. 70, 513–523.
  • Furness, S.B. & Grime, J.P. (1982b). Growth rate and temperature responses in bryophytes. II. A comparative study of species of contrasted ecology. J. Ecol. 70, 525–536.
  • Inoue, S., Ishida, A. & Kodama, M. (1981). Cellulose and uronic acid contents of cell-wall isolated from gametophytes of some mosses and liverworts. J. Hattori bot. Lab. 49, 141–149.
  • Johannes, E. & Felle, H.H. (1989). The role of Mg' in proton transport by the tonoplast pyrophos-phatase in Riccia fluitans vacuoles. Physiol. Pl. 77,326–331.
  • Koedam, N. & Blocher, P. (1983). Studies on the possible role of cation exchange capacity in the soil preferences of mosses. Plant and Soil, 70, 77–93.
  • Longton, R.E. (1992). The Biology of Polar Bryophytes and Lichens. Cambridge University Press, Cambridge.
  • Longton, R.E. (1992). The role of bryophytes and lichens in terrestrial ecosystems. In: Bates, J.W. & Farmer, A.M. (eds), Bryophytes and Lichens in a Changing Environment, pp. 32–76. Clarendon Press, Oxford.
  • Mabb, L.P. (1989). Uptake and effects of herbicides on the lawn moss Rhytidiadelphus squarrosus. Ph.D. Thesis, University of London.
  • Oechel, W.C. & Van Cleve, K. (1986). The role of bryophytes in nutrient cycling in the Taiga. In: Van Cleve, K., Chapin, F.S., Flanagan, P.W., Viereck, L.A. & Dyrness, C.T. (eds), Forest Ecosystems and the Alaskan Taiga, pp. 121–137. Springer-Verlag, New York.
  • Press, M.C. & Lee, J.A. (1982). Nitrate reductase activity of Sphagnum species in the south Pennines. New Phytol. 92, 487–494.
  • Proctor, M.C.F. (1977). Evidence on the carbon nutrition of moss sporophytes from 14CO2 uptake and subsequent movement of labelled assimilate. J. Bryol. 9, 375–386.
  • Proctor, M.C.F. (1982). “C experiments on the nutrition of liverwort sporophytes: Peilia epiphylla, Cephalozia bicuspidata and Lophocolea heterophylla. J. Bryol. 12, 279–285,
  • Proctor, M.C.F. (1990). The physiological basis of bryophyte production. Bot. J. Linn. Soc. 104,61–77.
  • Raeymaekers, G. (1987). Effects of simulated acidic rain and lead on the biomass, nutrient status, and heavy metal content of Pleurozium schreberi (Brid.) Mitt. J. Hattori bot. Lab. 63, 219–230.
  • Raeymakers, G. & Glime, J.M. (1986). Effects of simulated acidic rain and lead interaction on the phenology and chlorophyll content of Pleurozium schreberi (Brid.) Mitt. J. Hattori bot. Lab. 61, 525–541.
  • Rieley, J.O., Richards, P.W. & Bebbington, A.D.L. (1979). The ecological role of bryophytes in a North Wales Woodland. .1. Ecol. 67, 497–527.
  • Rincon, E. (1988a). The effect of herbaceous litter on bryophyte growth. J. Bryol. 15, 209–217.
  • Rincon, E. (1988b). Effects of initial shoot size on growth of five grassland bryophytes. Bryologist 91, 219–222.
  • Rincon, E. (1990). Growth responses of Brachythecium rutabulum to different litter arrangements. J. Bryol. 16, 120–122.
  • Rincon, E. & Grime, J.P. (1989a). Plasticity and light interception by six bryophytes of contrasted ecology. J. Ecol. 77, 439–446.
  • Rincon, E. & Grime, J.P. (1989b). An analysis of seasonal patterns of bryophyte growth in a natural habitat. J. Ecol. 77, 447–455.
  • Rouzere, C., Koedam, N. & Biischer, P. (1986). Titration of cell wall fractions. 5th Congress of the Federation of European Societies of Plant Physiology, 31 August-4 September 1986, Hamburg, p. 11.77.
  • Rydin, H. & Clymo, R.S. (1989). Transport of carbon and phosphorus compounds about Sphagnum. Proc. R. Soc. Lond. B237, 63–84.
  • Salsac, L. & Lamant, A. (1973). Etude des échanges protons-calcium dans les racines d'une plante calcicole (Féverole) et d'une plante calcifuge (Lupin jaune). Oecol. Plant. 8, 263–278.
  • Skre, O. & Oechel, W.C. (1979). Moss production in a black spruce Picea mariana forest with permafrost near Fairbanks, Alaska, as compared with two permafrost-free stands. Holarctic Ecol. 2,249–254.
  • Stelz, T., Ayadi, A., Monnier, A., Demarty, M. & Thellier, M. (1975). Echange de calcium dans les espaces libres cellularies de végétaux. C.R. Acad. Sc. Paris 169, 1072–1076.
  • Tamm, C.O. (1953). Growth, yield and nutrition in carpets of a forest moss (Hylocomium splendens). Meddel. Stat. Skogsforskn. 43, 1–140.
  • Tamm, C.O. (1964). Growth of Hylocomium splendens in relation to tree canopy. Bryologist 67, 423–426.
  • Thomas, R.J., Schiele, E.M. & Scheirer, D. (1988). Translocation in Polytrichum commune (Bryophyta). I. Conduction and allocation of photoassimilates. Am. J. Bot. 75, 275–281.
  • Trebacz, K., Tarnecki, R. & Zawadski, T. (1989). The effects of ionic channel inhibitors and factors modifying metabolism on the excitability of the liverwort Conocephalum conicum. Physiol. Pl. 75, 24–30.
  • Urban, N.R. & Eisenreich, S.J. (1988). Nitrogen cycling in a forested Minnesota, USA, bog. Can. J. Bot. 66, 434–439.
  • Van Tooren, B.F., Van Dam & During, H.J. (1990). The relative importance of precipitation and soil as sources of nutrients for Calliergonella cuspidata in a chalk grassland. Func. Ecol. 4, 101–107.
  • Wacquant, J.-P. (1968). Capacite d'échange cationique racinaire chez quelques populations d'Anagallis arvensis L. sensu lato. C. R. Acad. Sc. Paris 266, 1580–1582.
  • Wells, J.M. & Brown, D.H. (1987). Factors affecting the kinetics of intracellular and extracellular cadmium uptake by the moss Rhytidiadelphus squarrosus. New Phytol. 105, 123–137.
  • Wells, J.M. & Richardson, D.H.S. (1985). Anion accumulation by the moss Hylocomium splendens: uptake and competition studies involving arsenate, selenate, selenite, phosphate, sulphate and sulphite. New Phytol. 101, 571–583.
  • Woodin, S., Press, M.C. & Lee, J.A. (1985). Nitrate reductase activity in Sphagnum fuscum in relation to wet deposition of nitrate from the atmosphere. New Phytol. 99, 381–388.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.