Stocktake Sale on now: wide range of books at up to 70% off!
Register      Login
Soil Research Soil Research Society
Soil, land care and environmental research
Shopping Cart: ( empty )
You are here: Home > Journals > SR > SR04014
RESEARCH ARTICLE
Contents Vol 43(8)

Chemical characterisation of bog peat and dried peat of the Australian Alps

S. P. P. Grover A B , B. M. McKenzie A C , J. A. Baldock B D and W. A. Papst A
+ Author Affiliations
- Author Affiliations

A Centre for Applied Alpine Ecology, Department of Agricultural Sciences, La Trobe University, Vic. 3086, Australia.

B CRC for Greenhouse Accounting, GPO Box 475, Canberra, ACT 2601, Australia.

C Current address: Scottish Crop Research Institute, Invergowrie, Dundee DD25DA, Scotland.

D CSIRO Land and Water, PMB 2, Glen Osmond, SA 5064, Australia.

Australian Journal of Soil Research 43(8) 963-971 https://doi.org/10.1071/SR04014
Submitted: 29 January 2004  Accepted: 1 September 2005   Published: 8 December 2005

Abstract

The importance of bogs in the catchment hydrology of the Australian Alps has been long recognised but little studied. Damaged bogs are thought to be the source of dried peats now common throughout the Alps. We described the characteristics of a bog peat and a dried peat, to better understand the relationship between the two. Standard chemical properties of peat were measured: pH, loss on ignition, gravimetric contents of carbon and nitrogen, and electrical conductivity. We also measured the concentrations of total and plant-available elements, and the chemical composition of the organic carbon, leading to a measure of the extent of decomposition. The results suggest that this is a typical Sphagnum bog peat—low pH, high carbon content—and the distribution of carbon groups and other elements reflect the stable water source of this groundwater-fed Sphagnum bog. The properties of the dried peat were most similar to the catotelm (lower layer) of the bog peat. This resemblance, combined with decades of field observations, indicates that dried peat may form from the catotelm of bog peat, after the acrotelm (upper layer) dries and erodes. These results have implications for the management of Alps catchments, and further studies are needed to ascertain the hydrologic and carbon cycling roles of organic soils in the Australian Alps.

Additional keywords: Sphagnum, 13C nuclear magnetic resonance, humified peat.


Acknowledgments

Ken Rowe made valuable contributions to this work, both in the field and through discussions. We thank Joe Edwards and Allan Lee for technical support. Josephine Machunter and Peter Lawrence assisted us with fieldwork. Ron Smernik and Evelyn Krull and anonymous reviewers made helpful comments on the manuscript.


References


Munsell Colour Chart (1948). ‘Munsell colour chart.’ (United States Division of Agriculture)

Armstrong AC, Castle DA (1999) Drainage of organic soils. ‘Agricultural drainage’. (Eds RW Skaggs, J van Schilfgaarde) pp. 1083–1105. (American Society of Agronomy, Crop Society of America, Soil Science Society of America: Madison, WI)

Ashton DH, Williams RJ (1989) Dynamics of sub-alpine vegetation in the Victorian region. ‘The scientific significance of the Australian Alps’. (Ed. R Good) pp. 143–168. (Australian Alps National Parks Liaison Committee: Canberra)

Baldock JA, Oades JM, Nelson PN, Skene TM, Golchin A, Clarke P (1997) Assessing the extent of decomposition of natural organic materials using solid-state 13C NMR spectroscopy. Australian Journal of Soil Research 35, 1061–1083.
Crossref | GoogleScholarGoogle Scholar | open url image1

Baldock JA, Smernik RJ (2002) Chemical composition and bioavailability of thermally altered Pinus resinosa (Red pine) wood. Organic Geochemistry 33, 1093–1109.
Crossref | GoogleScholarGoogle Scholar | open url image1

Bergman I, Lundberg P, Preston CM, Nilsson M (2000) Degradation of 13C-U-glucose in Sphagnum majus litter: response to redox, pH and temperature. Soil Science Society of America Journal 64, 1368–1381. open url image1

Cambell EO (1983) Mires of Australasia. ‘Ecosystems fo the World 4B Mires: Swamp, bog, fen and moor’. (Ed. AJP Gore) pp. 153–179. (Elsevier Scientific Publishing Company: Amsterdam)

Costin AB (1952) Hydrological studies in the Upper Snowy Catchment Area with special reference to the effects of land utilisation. Journal of Soil Conservation Service NSW 8, 5–16. open url image1

Costin, AB (1954). ‘A study of the ecosystems of the Monaro region of NSW with special reference to soil erosion.’ (Government Printer: Sydney)

Costin, AB (1957). ‘High mountain catchments in Victoria in relation to land use.’ (Government Printer: Sydney)

Costin AB (1962a) Ecology of the high plains. Royal Society of Victoria Proceedings 75, 327–337. open url image1

Costin AB (1962b) The soils of the high plains. Royal Society of Victoria Proceedings 75, 291–299. open url image1

Costin AB (1989) The Alps in global perspective. ‘The scientific significance of the Australian Alps’. (Ed. R Good) pp. 7–20. (Australian Alps National Parks Liaison Committee: Canberra)

Costin, AB , Gray, M , Totterdell, C ,  and  Wimbush, D (2000). ‘Kosciuszko alpine flora.’ 2nd edn . (CSIRO Publishing: Melbourne)

Costin, AB , Wimbush, D , Kerr, D ,  and  Gay, LW (1959). ‘Studies in catchment hydrology in the Australian Alps I. Trends in soils and vegetation.’ (CSIRO Plant Industry: Canberra)

Frenzel B (1983) Mires- repositories of climatic information or self-perpetuating ecosystems? ‘Mires: swamp, bog, fen and moor’. (Ed. AJP Gore) pp. 35–65. (Elsevier Scientific Publishing Company: New York)

Good, R (1992). ‘Kosciusko Heritage.’ (National Parks and Wildlife Service of New South Wales: Sydney)

Gore, AJP (1983). ‘Mires: swamp, bog, fen and moor.’ (Elsevier Scientific Publishing Company: New York)

Gorham E (1991) Northern peatlands: role in the carbon cycle and probable responses to climatic warming. Ecological Applications 1, 182–195. open url image1

Hedges JI, Cowie GL, Ertel JR, Barbour FJ, Hatcher PG (1985) Degradation of carbohydrates and lignins in buried woods. Geochimica et Cosmochimica Acta 49, 701–711.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hesse, PR (1971). ‘A textbook of soil chemical analysis.’ (Murray: London)

Ingram HAP (1978) Soil layers in mires: function and terminology. Journal of Soil Science 29, 224–227. open url image1

Isbell, RF (1996). ‘The Australian Soil Classification.’ (CSIRO Publishing: Melbourne)

Lamers LPM, Farhoush C, van Groenendael J, Roelofs JGM (1999) Calcareous groundwater raises bogs; the concept of ombrotrophy revisited. Journal of Ecology 87, 639–648.
Crossref | GoogleScholarGoogle Scholar | open url image1

Malone BS (1985) Status, distribution and ecology of the Baw Baw Frog (Philoria frosti). Arthur Rylah Institute for Environmental Research Report 36, Victoria.

Mansbergh I (1982) Notes on the range extension of the alpine water skink (Sphenomorphus kosciuskoi) in Victoria. The Victorian Naturalist 99, 123–124. open url image1

McDonald, RC , Isbell, RF , Speight, JG , Walker, J ,  and  Hopkins, MS (1990). ‘Australian soil and land survey field handbook.’ 2nd edn . (Inkata Press: Melbourne)

McKenzie, N , Jacquier, D , Isbell, RF ,  and  Brown, K (2004). ‘Australian soils and landscapes: an illustrated compendium.’ (CSIRO Publishing: Melbourne)

Mitchell, RL (1948). ‘The spectrochemical analysis of soils, plants and related materials.’ (Commonwealth Bureau of Soils: Harpenden)

Preston CM, Shipitalo SE, Dudley RL, Fyfe CA, Mathur SP, Levesque M (1987) Comparison of 13C CPMAS NMR and chemical techniques for measuring the degree of decomposition in virgin and cultivated peat profiles. Canadian Journal of Soil Science 67, 187–198. open url image1

Rayment, GE ,  and  Higinson, FR (1992). ‘Australian laboratory handbook of soil and water chemical methods.’ (Inkata Press: Melbourne)

van Rees, H (1984). ‘Behaviour and diet of free-ranging cattle on the Bogong High Plains, Victoria.’ (Department of Conservation, Forests and Lands: East Melbourne)

Shotyk W (1988) Review of the inorganic geochemistry of peats and peatland waters. Earth-Science Reviews 25, 95–176.
Crossref | GoogleScholarGoogle Scholar | open url image1

Shotyk W, Nesbitt HW, Fyfe WS (1990) The behaviour of major and trace elements in complete vertical peat profiles from three Sphagnum bogs. International Journal of Coal Geology 15, 163–190.
Crossref | GoogleScholarGoogle Scholar | open url image1

Verhoeven JTA, Maltby E, Schmitz MB (1990) Nitrogen and phosphorus mineralisation in fens and bogs. Journal of Ecology 78, 713–726. open url image1

Wahren C-HA, Williams RJ, Papst WA (1999) Alpine and subalpine wetland vegetation on the Bogong High Plains, southeastern Australia. Australian Journal of Botany 47, 165–185.
Crossref | GoogleScholarGoogle Scholar | open url image1

Walsh, NG ,  and  Entwistle, TJ (1999). ‘Flora of Victoria.’ (Inkata Press: Melbourne)

Waughman GJ (1980) Chemical aspects of the ecology of some South German peatlands. Journal of Ecology 68, 1025–1046. open url image1

Wells ED (1996) Classification of peatland vegetation in Atlantic Canada. Journal of Vegetation Science 7, 847–878. open url image1

Whinam J, Buxton R (1997) Sphagnum peatlands of Australasia: An assessment of harvesting sustainability. Biological Conservation 82, 21–29.
Crossref | GoogleScholarGoogle Scholar | open url image1

Williams RJ, Costin AB (1994) Alpine and sub-alpine vegetation. ‘Australian vegetation’. 2nd edn(Ed. R Groves) pp. 467–500. (Cambridge University Press: Cambridge, UK)

Wilson, MA (1987). ‘Techniques and applications in geochemistry and soil chemistry.’ (Pergamon Press: Oxford, UK)

Wilson MA, Sawyer J, Hatcher PG, Lerch HE (1989) 1,3,5-Hydroxybenzene structures in mosses. Phytochemistry 28, 1395–1400.
Crossref | GoogleScholarGoogle Scholar | open url image1

Wimbush DJ (1970) Hydrological studies on Sphagnum bogs in the Snowy Mountains. MSc thesis, University of New South Wales, Australia.

Wimbush DJ, Costin AB (1983) Trends in drainage characteristics in the subalpine zone at Kosciusko. Ecological Society of Australia Proceedings 12, 143–154. open url image1

Yu Z, Vitt DH, Campbell ID, Apps MJ (2003) Understanding Holocene peat accumulation patterns of continental fens in western Canada. Canadian Journal of Botany 81, 267–282.
Crossref | GoogleScholarGoogle Scholar | open url image1

Zarcinas, BA (1984). ‘Analysis of soil and plant material by inductively coupled plasma optical emission spectrometry 2. Comparison of digestion procedures for major and trace constituents in plant material.’ (CSIRO Division of Soils: Australia)