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Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Determining groundwater dependence of the Cooloola Patterned Fens in south-eastern Queensland, and threats posed by groundwater extraction

Andrew McDougall A B , Sharon Marshall A and Tom Espinoza A
+ Author Affiliations
- Author Affiliations

A Department of Natural Resources and Mines, 16–32 Enterprise Street, Bundaberg, Qld 4670, Australia.

B Corresponding author. Email: andrew.mcdougall@dnrm.qld.gov.au

Marine and Freshwater Research 68(12) 2336-2343 https://doi.org/10.1071/MF16424
Submitted: 23 December 2016  Accepted: 24 April 2017   Published: 27 July 2017

Abstract

Water extraction from the local aquifer and streams for water supply in the Cooloola area of south-eastern Queensland threatens the groundwater flow for an iconic groundwater-dependent ecosystem, the Cooloola Patterned Fens. Water-chemistry samples were collected from within the fens wetland, bores and local streams. The multivariate techniques of hierarchical cluster analysis (HCA), principal component analysis (PCA) and multidimensional scaling (MDS) were used to discriminate aquifer source of water. Water chemistry of the patterned fens complex was associated with perched aquifers atop an underlying peat aquitard, whereas the water chemistry of two nearby creek systems (Searys Creek and Teewah Creek) was more closely associated with the regional aquifer. The present study highlighted the need for better understanding of the hydrogeology of coastal aquifers and the ecosystems dependent on them.

Additional keywords: aquifer, groundwater-dependent ecosystem, groundwater–surface water interaction.


References

Armstrong, T., and Cox, M. (2002). The relationship between groundwater and surface water character and wetland habitats, Bribie Island, Queensland. In ‘Balancing the Groundwater Budget—Proceedings of the 7th IAH National Groundwater Conference’, 12–17 May 2002, Darwin, NT, Australia. (Eds A. K. T. Haig, D. George, and S. Tickell.) (International Association of Hydrogeologists: Darwin, NT, Australia.)

Barr, C., Tibby, J., Marshall, J. C., McGregor, G. B., Moss, P. T., Halverson, G. P., and Fluin, J. (2013). Combining monitoring, models and palaeolimnology to assess ecosystem response to environmental change at monthly to millennial timescales: the stability of Blue Lake, North Stradbroke Island, Australia. Freshwater Biology 58, 1614–1630.
Combining monitoring, models and palaeolimnology to assess ecosystem response to environmental change at monthly to millennial timescales: the stability of Blue Lake, North Stradbroke Island, Australia.Crossref | GoogleScholarGoogle Scholar |

Barron, O. V., Emelyanova, I., Van Niel, T. G., Pollock, D., and Hodgson, G. (2014). Mapping groundwater-dependent ecosystems using remote sensing measures of vegetation and moisture dynamics. Hydrological Processes 28, 372–385.
Mapping groundwater-dependent ecosystems using remote sensing measures of vegetation and moisture dynamics.Crossref | GoogleScholarGoogle Scholar |

Clarke, K. R., and Gorley, R. N. (2006). ‘PRIMER V6: User Manual/Tutorial.’ (PRIMER-E: Plymouth, UK.)

Clarke, K. R., and Warwick, R. M. (2001). ‘Change in Marine Communities: an Approach to Statistical Analysis and Interpretation’, 2nd edn. (PRIMER-E: Plymouth, UK.)

Cook, P. G., Favreau, G., Dighton, J. C., and Tickell, S. (2003). Determining natural groundwater influx to a tropical river using radon, chlorofluorocarbons and ionic environmental tracers. Journal of Hydrology 277, 74–88.
Determining natural groundwater influx to a tropical river using radon, chlorofluorocarbons and ionic environmental tracers.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXjvVOhsr8%3D&md5=c9d6ff0ce7b52be16192c10beb405372CAS |

Cook, P. G., Wood, C., White, T., Simmons, C. T., Fass, T., and Brunner, P. (2008). Groundwater inflow to a shallow, poorly-mixed wetland estimated from a mass balance of radon. Journal of Hydrology 354, 213–226.
Groundwater inflow to a shallow, poorly-mixed wetland estimated from a mass balance of radon.Crossref | GoogleScholarGoogle Scholar |

Department of Environment & Resource Management (2009). Queensland water quality guidelines: version 3. Available at https://www.ehp.qld.gov.au/water/pdf/water-quality-guidelines.pdf [Verified 7 October 2016].

Dudgeon, A. (2013). Resilience of a patterned fen ecosystem, Rainbow Beach, south east Queensland: an applied palaeoecological investigation. B.Sc.(Hons) Thesis, University of Queensland, Brisbane, Qld, Australia.

Eamus, D., Froend, R., Loomes, R., Hose, G., and Murray, B. (2006). A functional methodology for determining the groundwater regime needed to maintain the health of groundwater-dependent vegetation. Australian Journal of Botany 54, 97–114.
A functional methodology for determining the groundwater regime needed to maintain the health of groundwater-dependent vegetation.Crossref | GoogleScholarGoogle Scholar |

Evans, P. A. (1995). ‘Cooloola Area Water Supply Investigations.’ (Water Resources Division, Groundwater Assessment Group, Queensland Department of Primary Industries: Brisbane, Qld, Australia.)

Güler, C., Thyne, G. D., McCray, J. E., and Turner, A. K. (2002). Evaluation of graphical and multivariate statistical methods for classification of water chemistry data. Hydrogeology Journal 10, 455–474.
Evaluation of graphical and multivariate statistical methods for classification of water chemistry data.Crossref | GoogleScholarGoogle Scholar |

Harrington, N., and Cook, P. (2014). Groundwater in Australia. National Centre for Groundwater Research and Training, Australia. Available at http://www.groundwater.com.au/media/W1siZiIsIjIwMTQvMDMvMjUvMDFfNTFfMTNfMTMzX0dyb3VuZHdhdGVyX2luX0F1c3RyxpYV9GSU5BTF9mb3Jfd2ViLnBkZiJdXQ/Groundwater%20in%20Australia_FINAL% 20for%20web.pdf [Verified 7 October 2016].

Hatton, T., and Evans, R. (1998). Dependence of ecosystems on groundwater and its significance to Australia. Available at http://lwa.gov.au/products/pr980270 [Verified 7 October 2016].

Hoehn, E., and Von Gunten, H. R. (1989). Radon in groundwater: a tool to assess infiltration from surface waters to aquifers. Water Resources Research 25, 1795–1803.
Radon in groundwater: a tool to assess infiltration from surface waters to aquifers.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3cXmt1Wqtg%3D%3D&md5=2050257898fe5250c9b9599d38070817CAS |

Jones, M. L. M., Reynolds, B., Brittain, S. A., Norris, D. A., Rhind, P. M., and Jones, R. E. (2006). Complex hydrological controls on wet dune slacks: the importance of local variability. The Science of the Total Environment 372, 266–277.
Complex hydrological controls on wet dune slacks: the importance of local variability.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28Xht1agsb%2FE&md5=00af4d01e34ec6ad9f54611d3d77273bCAS |

Kløve, B., Allan, A., Bertrand, G., Druzynska, E., Ertürk, A., Goldscheider, N., Henry, S., Karakaya, N., Karjalainen, T. P., Koundouri, P., Kupfersberger, H., Kvœrner, J., Lundberg, A., Muotka, T., Preda, E., Pulido-Velazquez, M., and Schipper, P. (2011). Groundwater dependent ecosystems. Part II. Ecosystem services and management in Europe under risk of climate change and land use intensification. Environmental Science & Policy 14, 782–793.
Groundwater dependent ecosystems. Part II. Ecosystem services and management in Europe under risk of climate change and land use intensification.Crossref | GoogleScholarGoogle Scholar |

Leach, L. (2011). Hydrology and physical setting of North Stradbroke Island. Proceedings of the Royal Society of Queensland 117, 21–46.

Lewis, S. E., Sloss, C. R., Murray-Wallace, C. V., Woodroffe, C. D., and Smithers, S. G. (2013). Post-glacial sea-level changes around the Australian margin: a review. Quaternary Science Reviews 74, 115–138.
Post-glacial sea-level changes around the Australian margin: a review.Crossref | GoogleScholarGoogle Scholar |

Moss, P. T., Tibby, J., Shapland, F., Barr, C., and Fairfax, R. (2012). A report into the fire history of the patterned fens of the Great Sandy Region. Report for the Burnett Mary Regional Group, Bundaberg, Qld, Australia.

Moss, P. T., Dudgeon, A., Shapland, F., Withers, L., Brownhall, C., Terzano, D., Petherick, L., and Sloss, C. (2013). Investigation into the vegetation and fire history of the EPBC, Ramsar and WHA wetlands of the Great Sandy Straits, south east Queensland. Report for the Burnett Mary Regional Group, Bundaberg, Qld, Australia.

Moss, P., Tibby, J., Shapland, F., Fairfax, R., Stewart, P., Barr, C., Petherick, L., Gontz, A., and Sloss, C. (2016). Patterned Fen Formation and Development from the Great Sandy Region, south east Queensland, Australia. Marine and Freshwater Research 67, 816–827.
Patterned Fen Formation and Development from the Great Sandy Region, south east Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |

Moya, C. E., Raiber, M., Taulis, M., and Cox, M. E. (2015). Hydrochemical evolution and groundwater flow processes in the Galilee and Eromanga basins, Great Artesian Basin, Australia: a multivariate statistical approach. The Science of the Total Environment 508, 411–426.
Hydrochemical evolution and groundwater flow processes in the Galilee and Eromanga basins, Great Artesian Basin, Australia: a multivariate statistical approach.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC2cXitVSnsLjP&md5=27890995c0c084b08f65b51aa5b4e900CAS |

Nelson, R. (2007). Groundwater dependent ecosystems in law: troubled waters? Asia Pacific Journal of Environmental Law 10, 99–131.

Outridge, P. M., Arthington, A. H., and Miller, G. J. (1989). Limnology of naturally acidic, oligotrophic dune lakes in subtropical Australia, including chlorophyll–phosphorus relationships. Hydrobiologia 179, 39–51.
Limnology of naturally acidic, oligotrophic dune lakes in subtropical Australia, including chlorophyll–phosphorus relationships.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3cXhtFGrsw%3D%3D&md5=60d83d8cf2cc1edc307eb2b63571fc88CAS |

Pusey, B. J., Kennard, M., and Arthington, A. (2004). ‘Freshwater Fishes of North-Eastern Australia.’ (CSIRO Publishing: Melbourne, Vic., Australia; Centre for Riverine Landscapes, Griffith University, Nathan, Qld, Australia.)

Queensland Government (2011). Mary Basin Resource Operations Plan, September 2011. Available at https://www.dnrm.qld.gov.au/__data/assets/pdf_file/0009/107982/mary-rop.pdf [Verified 7 October 2016].

Queensland Government (2016). Water Plan (Mary Basin) 2006, Brisbane. Available at https://www.legislation.qld.gov.au/LEGISLTN/CURRENT/W/WaterReMaryP06.pdf [Verified 4 April 2017].

Reeve, R., and Fergus, I. F. (1982). Black and white waters and their possible relationship to the podzolization process. Australian Journal of Soil Research 21, 59–66.
Black and white waters and their possible relationship to the podzolization process.Crossref | GoogleScholarGoogle Scholar |

Reeve, R., Fergus, I. F., and Thompson, C. H. (1985). ‘Studies in Landscape Dynamics in the Cooloola–Noosa River Area, Queensland. 4. Hydrology and Water Chemistry.’ (Commonwealth Scientific and Industrial Research Organisation: Canberra, ACT, Australia.)

Sadat-Noori, M., Santos, I. R., Tait, D. R., McMahon, A., Kadel, S., and Maher, D. T. (2016). Intermittently closed and open lakes or lagoons (ICOLLs) as groundwater-dominated coastal systems: Evidence from seasonal radon observations. Journal of Hydrology 535, 612–624.
Intermittently closed and open lakes or lagoons (ICOLLs) as groundwater-dominated coastal systems: Evidence from seasonal radon observations.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC28XivVSrurw%3D&md5=fe7e595cf1347a0f0be58090f42f5033CAS |

Sinclair Knight Merz (2001). Environmental water requirements of groundwater dependent ecosystems. Environmental flows initiative technical report number 2. Commonwealth of Australia, Canberra, ACT, Australia. Available at https://www.environment.gov.au/system/files/resources/0e26d1d5-d95a-40f6-ba27-0f67aefc663c/files/groundwater.pdf [Verified 7 October 2016].

Thorburn, P. J., Hatton, T. J., and Walker, G. R. (1993). Combining measurements of transpiration and stable isotopes of water to determine groundwater discharge from forests. Journal of Hydrology 150, 563–587.
Combining measurements of transpiration and stable isotopes of water to determine groundwater discharge from forests.Crossref | GoogleScholarGoogle Scholar |

Timms, B. V. (2001). Large freshwater lakes in arid Australia: a review of their limnology and threats to their future. Lakes and Reservoirs: Research and Management 6, 183–196.
Large freshwater lakes in arid Australia: a review of their limnology and threats to their future.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXntFGkurY%3D&md5=1889319db50530a096d2d5d50bc6346aCAS |

Zar, J. H. (1984). ‘Biostatistical Analysis.’ (Prentice-Hall Inc.: Englewood Cliffs, NJ, USA.)