Macquarie University ResearchOnline

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/17039

Title

Factors controlling the chemical evolution of travertine-depositing rivers of the Barkly karst, northern Australia

Related

Hydrological processes, Vol. 16, Issue 15, p.2941-2962

DOI

10.1002/hyp.1078

Publisher

Wiley

Date

2002

Author/Creator

Drysdale, Russell N

Author/Creator

Taylor, Mark P

Author/Creator

Ihlenfeld, Christian

Description

Groundwaters feeding travertine-depositing rivers of the northeastern segment of the Barkly karst (NW Queensland, Australia) are of comparable chemical composition, allowing a detailed investigation of how the rate of downstream chemical evolution varies from river to river. The discharge, pH, temperature, conductivity and major-ion concentrations of five rivers were determined by standard field and laboratory techniques. The results show that each river experiences similar patterns of downstream chemical evolution, with CO₂ outgassing driving the waters to high levels of calcite supersaturation, which in turn leads to widespread calcium carbonate deposition. However, the rate at which the waters evolve, measured as the loss of CaCO₃ per kilometre, varies from river to river, and depends primarily upon discharge at the time of sampling and stream gradient. For example, Louie Creek (Q = 0·11 m³ s⁻¹) and Carl Creek (Q = 0·50 m³ s⁻¹) have identical stream gradients, but the loss of CaCO₃ per kilometre for Louie Creek is twice that of Carl Creek. The Gregory River (Q = 3·07 m³ s⁻¹), O'Shanassy River (Q = 0·57 m³ s⁻¹) and Lawn Hill Creek (Q = 0·72 m³ s⁻¹) have very similar gradients, but the rate of hydrochemical evolution of the Gregory River is significantly less than either of the other two systems. The results have major implications for travertine deposition: the stream reach required for waters to evolve to critical levels of calcite supersaturation will, all others things being equal, increase with increasing discharge, and the length of reach over which travertine is deposited will also increase with increasing discharge. This implies that fossil travertine deposits preserved well downstream of modern deposition limits are likely to have been formed under higher discharge regimes.

Description

22 page(s)

Subject Keyword

tufa

Subject Keyword

travertine

Subject Keyword

hydrochemistry

Subject Keyword

fluvial geomorphology

Subject Keyword

Barkly karst

Resource Type

journal article

Organisation

Macquarie University. Dept. of Physical Geography

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Identifier

http://hdl.handle.net/1959.14/17039

Identifier

ISSN:0885-6087

Identifier

mq-rm-2002016053

Language

eng

Reviewed

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Subject

"Hydrological processes"

 

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