Bryophytes display allelopathic interactions with tree species in native forest ecosystems

Oikos

Volumn 120, Issue 8, 2011, Pages 1272-1280

  Michel, Pascale ^a   Burritt, David J ^b   Lee, William G ^a  

^a LANDCARE RESEARCH   (New Zealand)

^b UNIVERSITY OF OTAGO   (New Zealand)

Author keywords

[No Author keywords available]

Indexed keywords

ALLELOPATHY; BRYOPHYTE; DICOTYLEDON; ENVIRONMENTAL FACTOR; FOREST ECOSYSTEM; GERMINATION; GROWTH; INHIBITOR; LEACHATE; NATIVE SPECIES; NICHE; REGENERATION; SEEDLING; SOLUBILIZATION; SPECIES DIVERSITY; TERRESTRIAL ECOSYSTEM; TOXICITY;

NEW ZEALAND;

BRYOPHYTA; BRYOPHYTES; DENDROHYPOPTERYGIUM; FUCHSIA; FUCHSIA EXCORTICATA; LACTUCA; LACTUCA SATIVA; LEPIDOZIA; MARCHANTIOPHYTA; MELICYTUS; MELICYTUS RAMIFLORUS; ONAGRACEAE; VIOLACEAE;

EID: 79960648957     PISSN: 00301299     EISSN: 16000706     Source Type: Journal    
DOI: 10.1111/j.1600-0706.2010.19148.x     Document Type: Article

References (54)

1. Allan Herbarium. 2000. Ngā Tipu o Aotearoa - New Zealand Plants. Landcare Research database, New Zealand. <> accessed 5 November 2010.
2. An M. et al. 2002. Mathematical modelling of residue allelopathy: the effects of intrinsic and extrinsic factors. Plant Soil 246: 11-22.
3. Asakawa Y. A. 2007. Biologically active compounds from bryophytes. Pure Appl. Chem. 79: 557-580.
4. Ayres E. et al. 2006. Direct uptake of soil nitrogen by mosses. Biol. Lett. 2: 286-288.
5. Bates J. W. 1995. Numerical analysis of bryophyte-environment relationships in a low-land English flora. Fragm. Florist. Geobot. 40: 471-490.
6. Bates J. W. 2009. Mineral nutrition and substratum ecology. - In: Goffinet B. and Shaw A. J. (eds), Bryophyte biology. Cambridge Univ. Press, pp. 300-356.
7. Blanco J. A. 2007. The representation of allelopathy in ecosystem-level forest models. Ecol. Model. 209: 65-77.
8. Broadhurst R. B. and Jones W. T. 1978. Analysis of condensed tannins using acidified vanillin. J. Sci. Food Agric. 29: 788-794.
9. Callaghan D. A. and Ashton P. A. 2008. Bryophyte distribution and environment across an oceanic temperate landscape. J. Bryol. 30: 23-35.
10. Carleton T. J. and Read D. J. 1991. Ectomycorrhizas and nutrient transfer in conifer-feather moss ecosystems. Can. J. Bot. 69: 778-785.
11. Cornelissen J. H. C. et al. 2007. Comparative cryptogam ecology: a review of bryophyte and lichen traits that drive biochemistry. Ann. Bot. 99: 987-1001.
12. Coxson D. S. 1991. Nutrient release from epiphytic bryophytes in tropical montane forest (Guadeloupe). Can. J. Bot. 69: 2122-2129.
13. Darby B. J. et al. 2007. Soil nematode communities are ecologically more mature beneath late- than early-successional stage biological soil crusts. Appl. Soil Ecol. 35: 203-212.
14. Darby J. B. et al. 2010. Impact of biological soil crusts and desert plants on soil microfaunal community composition. Plant Soil 328: 421-431.
15. Delach A. and Kimmerer R. W. 2002. The effect of Polytrichum piliferum on seed germination and establishment on iron mine tailings in New York. Bryologist 105: 249-255.
16. Gabriel R. and Bates J. W. 2005. Bryophyte community composition and habitat specificity in the natural forests of Terceira, Azores. Plant Ecol. 177: 125-1544.
17. Glime J. M. 2006. Bryophyte ecology.
18. Herben T. and Wagnerová M. 2004. Effects of bryophyte removal and fertilization on established plants in a mountain grassland: changes of a fine-scale spatial pattern. Lindbergia 29: 33-39.
19. Hill M. O. and Dominguez-Lozano F. 1994. A numerical analysis of the distribution of liverworts in Great Britain. - In: Hill M. O. et al. (eds), Atlas of the bryophytes of Britain and Ireland; Vol. 3: Moss (Diplolepidae). Haley Books, Colchester, pp. 11-20.
20. Inderjit 1996. Plant phenolics in allelopathy. Bot. Rev. 62: 186-202.
21. Inderjit and del Moral R. 1997. Is separating resource competition from allelopathy realistic? Bot. Rev. 63: 221-230.
22. Kato-Noguchi H. et al. 2009. Allelopathy of the moss Hypnum plumaeforme by the production of mamilactone A and B. Weed Res. 49: 621-627.
23. Kato-Noguchi H. et al. 2010. Allelopathy and allelopathic substance in the moss Rhynchostegium pallidifolium. J. Plant Physiol. 167: 468-471.
24. Lindo Z. and Gonzalez A. 2010. The Bryosphere: an integral and influential component of the earth's biosphere. Ecosystems 13: 612-627.
25. Longton R. E. 1992. The role of bryophytes and lichens in terrestrial ecosystems. - In: Bates J. W. and Farmer A. M. (eds), Bryophytes and lichens in a changing environment. Oxford Univ. Press, pp. 32-76.
26. Menninger H. L. and Palmer M. A. 2006. Restoring ecological communities: from theory to practice. - In: Falk D. A. et al. (eds), Foundations of restoration ecology. Island Press, pp. 88-112.
27. Michel P. et al. 2011. Species-environment relationships of mosses in New Zealand indigenous forest and shrubland ecosystems. Plant Ecol. 212: 353-367.
28. Nguyen P. M. et al. 2010. Potassium rate alters the antioxidant capacity and phenolic concentration of basil (Ocimum basilicum L.) leaves. Food Chem. 123: 1235-1241.
29. Oliver M. J. 2009. Biochemical and molecular mechanisms of desiccation tolerance in bryophytes. - In: Goffinet B. and Shaw A. J. (eds), Bryophyte biology. Cambridge Univ. Press, pp. 269-297.
30. Parvez S. S. et al. 2003. Tamarindus indica L. leaf is source of allelopathic substance. Plant Growth Reg. 40: 107-115.
31. Parvez S. S. et al. 2004. Differential allelopathic expression of bark and seed of Tamarindus indica L. Plant Growth Reg. 42: 245-252.
32. Pfeiffer T. 2003. Terricolous bryophyte vegetation of New Zealand temperate rain forests: communities, adaptive strategies and divergence patterns. - Bryophytorum Bibliotheca 59, Gebruder Borntraeger, Berlin, Germany.
33. Pharo E. J. et al. 2005. Predicting bryophyte diversity in grassland and eucalypt-dominated remnants in subhumid Tasmania. J. Biogeogr. 32: 2015-2024.
34. Redfield E. et al. 2002. Comparative diversity and composition of cyanobacteria in three predominant soil crusts of the Colorado Plateau. FEMS Microbiol. Ecol. 40: 55-63.
35. Reigosa M. J. and Pazos-Maldivo E. 2007. Phytotoxic Effects of 21 plant secondary metabolites on Arabidopsis thaliana germination and root growth. J. Chem. Ecol. 33: 1456-1466.
36. Reigosa M. J. et al. 1999a. Ecophysiology approach in allelopathy. Crit. Rev. Plant Sci. 18: 577-608.
37. Reigosa M. J. et al. 1999b. Effect of phenolic compounds on the germination of six weeds species. Plant Growth Reg. 28: 83-89.
38. Rice E. L. 1984. Allelopathy, 2nd ed. - Academic Press.
39. Rydin H. 1997. Competition among bryophytes. Adv. Bryol. 6: 135-168.
40. Rydin H. 2009. Population and community ecology of bryophytes. - In: Goffinet B. and Shaw A. J. (eds), Bryophyte biology, 2nd ed. Cambridge Univ. Press, pp. 393-444.
41. Sedia E. G. and Ehrenfeld J. G. 2003. Lichens and mosses promote alternate stable plant communities in the New Jersey pinelands. Oikos 100: 447-458.
42. Serpe M. D. et al. 2006. Germination and seed water status of four grasses on moss-dominated biological soil crusts from arid lands. Plant Ecol. 185: 163-178.
43. Sharma A. et al. 2009. The allelopathic potential of bryophyte extract on seed germination and seedling growth of Bidens biternata. Nature Sci. 7: 30-38.
44. Slack N. G. 1997. Niche theory and practice: bryophyte studies. Adv. Bryol. 6: 169-204.
45. Startsev N. A. and Lieffers V. J. 2006. Dynamics of mineral nitrogen released from feathermoss after dehydration or handling stress. Bryologist 109: 551-559.
46. Tsubota H. et al. 2006. Preliminary study on allelopathic activity of bryophytes under laboratory conditions using the sandwich method. J. Hattori Bot. Lab. 100: 517-525.
47. Turetsky M. R. 2003. The role of bryophytes in carbon and nitrohen cycling. Bryologist 106: 395-409.
48. Vanderpoorten A. et al. 2005. A GIS-based survey for the conservation of bryophytes at landscape scale. Biol. Conserv. 121: 189-194.
49. van Tooren B. F. 1988. The fate of seeds after dispersal in chalk grassland: the role of the bryophyte layer. Oikos 53: 41-48.
50. Wardle D. A. et al. 1998. An ecosystem-level perspective of allelopathy. Biol. Rev. 73: 305-319.
51. Waterman S. and Mole P. G. 1994. Analysis of phenolic plant metabolites. - Blackwell.
52. Weidenhamer J. D. et al. 1989. Density-dependent phytotoxicity: distinguishing resource competition and allelopathic interference in plants. J. Appl. Ecol. 26: 613-624.
53. Xie C.-F. and Lou H.-X. 2009. Secondary metabolites in bryophytes: an ecological aspect. Chem Biodiv. 6: 303-311.
54. Zamfir M. 2000. Effects of bryophytes and lichens on seedling emergence of alvar plants: evidence from greenhouse experiments. Oikos 88: 603-611.