Register      Login
Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
RESEARCH ARTICLE

Stability among cyclic change in an Antipodean pond and bolster heath system 1983–2017

J. B. Kirkpatrick https://orcid.org/0000-0003-2763-2692 A * , N. Gibson A and N. Fitzgerald A
+ Author Affiliations
- Author Affiliations

A School of Geography, Planning, and Spatial Sciences, University of Tasmania, Private Bag 78, GPO, Hobart, Tas. 7001, Australia.

* Correspondence to: j.kirkpatrick@utas.edu.au

Handling Editor: Susanna Venn

Australian Journal of Botany 69(8) 610-621 https://doi.org/10.1071/BT21060
Submitted: 11 May 2021  Accepted: 3 September 2021   Published: 9 November 2021

© 2021 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

A long-term study of a bolster heath–pond system at Newdegate Pass, Mount Field, Tasmania, was designed to test a theory of cyclical dynamics and to determine why there was constancy in the proportions of species in stable mosaic bolster heath, while their individual distributions changed. Groups of permanent plots were monitored approximately once every 5 years between 1983 and 2017, in apparently stable, apparently colonising, apparently recovering and apparently degrading bolster heath. The putatively stable sites exhibited an average of 37% spatial turnover in the three early 5-year periods, with reciprocal replacements between many pairs of species; however, there was little evidence of long-term directional change except for expansion of a gymnosperm shrub across the top of the bolster mosaic at one site. This pattern suggests a cyclical succession of species in the stable mosaic; however, the mechanism driving cyclicity remains unclear, with facilitation, competition and stochastic processes being implicated at different times and locations. These cyclic changes were likely to have been largely endogenous, given the variability and autocorrelations in relative growth rates of the stable mosaic over short horizontal distances, conforming with neutral theory. The process of dam vegetation loss after draining was rapid, as was vegetation colonisation of the floor of one dam and recovery from fire. On a putatively colonising site on rocky ground, changes were subdued but directionally consistent with the previously proposed model, which was consistent with all long-term observations.

Keywords: alpine ecology, biogeomorphology, bolster heath, cushion plants, cyclic succession, neutral theory, non-equilibrium models, Tasmania.


References

Bowman WD, Swatling‐Holcomb S (2018) The roles of stochasticity and biotic interactions in the spatial patterning of plant species in alpine communities. Journal of Vegetation Science 29, 25–33.
The roles of stochasticity and biotic interactions in the spatial patterning of plant species in alpine communities.Crossref | GoogleScholarGoogle Scholar |

Bridle KL, Kirkpatrick JB, Cullen P, Shepherd RR (2001) Recovery in alpine heath and grassland following burning and grazing, eastern Central Plateau, Tasmania. Arctic, Antarctic and Alpine Research 33, 348–356.
Recovery in alpine heath and grassland following burning and grazing, eastern Central Plateau, Tasmania.Crossref | GoogleScholarGoogle Scholar |

Bridle KL, Kirkpatrick JB, Gibson N, Balmer J (2017) Establishment report for Tasmanian Wilderness World Heritage Area Climate Change Monitoring Program: Newdegate Pass cushion string fen, Mt Field, Southwest Tasmania. Resource Management and Conservation Division, DPIPWE, Hobart, Nature Conservation Report 2017/03. Department of Primary Industries, Parks, Water and Environment, Hobart, Tas., Australia.

Clarke KR, Gorley RN (2015) ‘PRIMER v7: user manual/tutorial’. (PRIMER-E: Plymouth, UK)

Dickinson KJM, Chague-Goff C, Mark AF, Cullen L (2002) Ecological processes and trophic status of two low-alpine patterned mires, south-central South Island, New Zealand. Austral Ecology 27, 369–384.
Ecological processes and trophic status of two low-alpine patterned mires, south-central South Island, New Zealand.Crossref | GoogleScholarGoogle Scholar |

Fischer H, Kuhn H-W (1984) Diurnal courses of temperatures in cushion plants. Flora 175, 117–134.
Diurnal courses of temperatures in cushion plants.Crossref | GoogleScholarGoogle Scholar |

Gibbs LS (1920) Notes on the phytogeography and flora of the mountain summit plateaux of Tasmania. Journal of Ecology 8, 1–17.
Notes on the phytogeography and flora of the mountain summit plateaux of Tasmania.Crossref | GoogleScholarGoogle Scholar |

Gibson N (1990) The environment and primary production of cushion species at Mt Field and Mt Wellington, Tasmania. Australian Journal of Botany 38, 229–243.
The environment and primary production of cushion species at Mt Field and Mt Wellington, Tasmania.Crossref | GoogleScholarGoogle Scholar |

Gibson N, Hope GS (1986) The origin and evolution of Australasian cushion plants. In ‘Fauna and flora of alpine Australasia: ages and origins’. (Ed. BA Barlow) pp. 63–82. (CSIRO: Melbourne, Vic., Australia)

Gibson N, Kirkpatrick JB (1985) A comparison of the cushion plant communities of New Zealand and Tasmania. New Zealand Journal of Botany 23, 549–566.
A comparison of the cushion plant communities of New Zealand and Tasmania.Crossref | GoogleScholarGoogle Scholar |

Gibson N, Kirkpatrick JB (1992) Dynamics of a Tasmanian cushion heath community. Journal of Vegetation Science 3, 647–654.
Dynamics of a Tasmanian cushion heath community.Crossref | GoogleScholarGoogle Scholar |

Gravel D, Canham CD, Beaudet M, Messier C (2006) Reconciling niche and neutrality: the continuum hypothesis. Ecology Letters 9, 399–409.
Reconciling niche and neutrality: the continuum hypothesis.Crossref | GoogleScholarGoogle Scholar | 16623725PubMed |

Heusser CJ (1982) Palynology of cushion bogs of the Cordillera Palada, Province of Valdivia, Chile. Quaternary Research 17, 71–92.
Palynology of cushion bogs of the Cordillera Palada, Province of Valdivia, Chile.Crossref | GoogleScholarGoogle Scholar |

Hubbell SP (2001) ‘The unified neutral theory of biodiversity and biogeography (MPB-32)’. (Princeton University Press: Princeton, NJ, USA)

Jackson WD (1972) Vegetation of the Central Plateau. In ‘The lake country of Tasmania’. (Ed. MR Banks) pp. 61–85. (Royal Society of Tasmania: Hobart, Tas., Australia)

Kirkpatrick JB (1983) Treeless plant communities of the Tasmanian high country. Proceedings of the Ecological Society of Australia 12, 61–77.

Kirkpatrick JB (1997) ‘Alpine Tasmania: an illustrated guide to the flora and vegetation’. (Oxford University Press: Melbourne, Vic., Australia)

Kirkpatrick JB, Bridle KL, Wild AS (2002) Succession after fire in alpine vegetation on Mount Wellington, Tasmania. Australian Journal of Botany 50, 145–154.
Succession after fire in alpine vegetation on Mount Wellington, Tasmania.Crossref | GoogleScholarGoogle Scholar |

Kirkpatrick JB, Gibson N (1984) Dynamics of a Tasmanian bolster heath string fen. Vegetatio 58, 71–78.
Dynamics of a Tasmanian bolster heath string fen.Crossref | GoogleScholarGoogle Scholar |

Kirkpatrick JB, Minchin PR, Davies JB (1985) Floristic composition and macroenvironmental relationships of Tasmanian vegetation containing bolster plants. Vegetatio 63, 89–96.
Floristic composition and macroenvironmental relationships of Tasmanian vegetation containing bolster plants.Crossref | GoogleScholarGoogle Scholar |

Kirkpatrick JB, Nunez M, Bridle KL, Parry J, Gibson N (2017) Causes and consequences of variation in snow incidence on the high mountains of Tasmania, 1983–2013. Australian Journal of Botany 65, 214–224.
Causes and consequences of variation in snow incidence on the high mountains of Tasmania, 1983–2013.Crossref | GoogleScholarGoogle Scholar |

Mark AF, Wilson JB (2005) Tempo and mode of vegetation dynamics over 50 years in a New Zealand alpine cushion/tussock community. Journal of Vegetation Science 16, 227–236.
Tempo and mode of vegetation dynamics over 50 years in a New Zealand alpine cushion/tussock community.Crossref | GoogleScholarGoogle Scholar |

Martin D (1940) The vegetation of Mt. Wellington, Tasmania, the plant communities and a census of the plants. Papers and Proceedings of the Royal Society Tasmania 9, 97–124.

Mitchell EG, Harris S, Kenchington CG, Vixseboxse P, Roberts L, Clark C, Dennis A, Liu AG, Wilby PR (2019) The importance of neutral over niche processes in structuring Ediacaran early animal communities. Ecology Letters 22, 2028–2038.
The importance of neutral over niche processes in structuring Ediacaran early animal communities.Crossref | GoogleScholarGoogle Scholar | 31515929PubMed |

Moore DM (1983) ‘Flora of Tierra del Fuego’. (Nelson: UK)

Nunez M, Kirkpatrick JB, Nilsson C (1996) Rainfall estimation in south-west Tasmania using satellite images and phytosociological calibration. International Journal of Remote Sensing 17, 1583–1600.
Rainfall estimation in south-west Tasmania using satellite images and phytosociological calibration.Crossref | GoogleScholarGoogle Scholar |

Paradis E, Schliep K (2018) ape 5.0: an environment for modern phylogenetics and evolutionary analyses in R. Bioinformatics 35, 526–528.
ape 5.0: an environment for modern phylogenetics and evolutionary analyses in R.Crossref | GoogleScholarGoogle Scholar |

Schittek K, Forbriger M, Berg D, Hense J, Schäbitz F, Eitel B (2018) Last millennial environmental dynamics in the western Peruvian Andes inferred from the development of a cushion-plant peat hillock. Perspectives in Plant Ecology, Evolution and Systematics 30, 115–124.
Last millennial environmental dynamics in the western Peruvian Andes inferred from the development of a cushion-plant peat hillock.Crossref | GoogleScholarGoogle Scholar |

Schmidt SR, Kleinebecker T, Vogel A, Hölzel N (2010) Interspecific and geographical differences of plant tissue nutrient concentrations along an environmental gradient in Southern Patagonia, Chile. Aquatic Botany 92, 149–156.
Interspecific and geographical differences of plant tissue nutrient concentrations along an environmental gradient in Southern Patagonia, Chile.Crossref | GoogleScholarGoogle Scholar |

Selkirk PM, Seppelt RD, Selkirk DR (1990) ‘Subantarctic Macquarie Island: environment and biology’. (Cambridge University Press: Cambridge, UK)

Sutton CS (1928) A sketch of the vegetation of the Cradle Mountain, Tasmania, and a census of its plants. Papers and Proceedings of the Royal Society of Tasmania, 132–159.

Watt AS (1947) Pattern and process in the plant community. Journal of Ecology 35, 1–10.
Pattern and process in the plant community.Crossref | GoogleScholarGoogle Scholar |

Whinam J, Kirkpatrick JB (1994) The Mt Wellington string bogs, Tasmania. Papers and Proceedings of the Royal Society of Tasmania 128, 63–68.
The Mt Wellington string bogs, Tasmania.Crossref | GoogleScholarGoogle Scholar |