Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
EDITORIAL

Kakadu’s wetlands: more change is afoot

A. A. Chariton A F , D. Williams B , A. D. L. Steven C and C. M. Finlayson D E
+ Author Affiliations
- Author Affiliations

A Department of Biological Sciences, Macquarie University, Sydney, NSW 2109, Australia.

B Australian Institute of Marine Science, Sustainable Coastal Ecosystems and Industries in Tropical Australia, Arafura Timor Research Facility, Casuarina, NT 0810, Australia.

C CSIRO Oceans and Atmosphere Business Unit, Queensland BioSciences Precinct, St Lucia, Qld 4072, Australia.

D Institute for Land, Water and Society, Charles Sturt University, Albury, NSW 2640, Australia.

E IHE Delft, Institute for Water Education, NL-2601 DA, Delft, Netherlands.

F Corresponding author: anthony.chariton@mq.edu.au

Marine and Freshwater Research 69(7) iii-v https://doi.org/10.1071/MFv69n7_ED
Published: 19 June 2018


References

Adams, V. M., Petty, M., Douglas, M. M., Buckley, Y. M., Ferdinands, K. B., Okazaki, T., Ko, .D. W., and Setterfield, S. A. (2015). Distribution, demography and dispersal model of spatial spread of invasive plant populations with limited data. Methods in Ecology and Evolution 6, 782–794.
Distribution, demography and dispersal model of spatial spread of invasive plant populations with limited data.Crossref | GoogleScholarGoogle Scholar |

Albright, R., Anthony, K. R., Baird, M., Beeden, R., Byrne, M., Collier, C., Dove, S., Fabricius, K., Hoegh-Guldberg, O., Kelly, R. P., and Lough, J. (2016). Ocean acidification: linking science to management solutions using the Great Barrier Reef as a case study. Journal of Environmental Management 182, 641–650.
Ocean acidification: linking science to management solutions using the Great Barrier Reef as a case study.Crossref | GoogleScholarGoogle Scholar |

Baird, D. J., Van den Brink, P. J., Chariton, A. A., Dafforn, K. A., and Johnston, E. L. (2016). New diagnostics for multiply stressed marine and freshwater ecosystems: integrating models, ecoinformatics and big data. Marine and Freshwater Research 67, 391–392.
New diagnostics for multiply stressed marine and freshwater ecosystems: integrating models, ecoinformatics and big data.Crossref | GoogleScholarGoogle Scholar |

Bartolo, R. E., Harford, A. J., Humphrey, C. L., George, A. K., and van Dam, R. A. (2018). Defining the importance of ecological processes for monitoring aquatic habitats for conservation and rehabilitation objectives at the Ranger uranium mine, Kakadu Region, Australia. Marine and Freshwater Research 69, 1026–1046.
Defining the importance of ecological processes for monitoring aquatic habitats for conservation and rehabilitation objectives at the Ranger uranium mine, Kakadu Region, Australia.Crossref | GoogleScholarGoogle Scholar |

Bayliss, B. L., Brennan, K. G., Eliot, I., Finlayson, C. M., Hall, R. N., House, T., Pidgeon, R. W. J., Walden, D., and Waterman, P. (1997). Vulnerability assessment of the possible effects of predicted climate change and sea level rise in the Alligator Rivers Region, Northern Territory, Australia. Supervising Scientist Report 123, Supervising Scientist, Canberra, ACT, Australia.

Bayliss, P., and Ligtermoet, E. (2018). Seasonal habitats, decadal trends in abundance and cultural values of magpie geese (Anseranus semipalmata) on coastal floodplains in the Kakadu Region, northern Australia. Marine and Freshwater Research 69, 1079–1091.
Seasonal habitats, decadal trends in abundance and cultural values of magpie geese (Anseranus semipalmata) on coastal floodplains in the Kakadu Region, northern Australia.Crossref | GoogleScholarGoogle Scholar |

Bayliss, P., Finlayson, C. M., Innes, J., Norman-López, A., Bartolo, R., Harford, A., Petite, N. E., Humphrey, C. L., van Dam, R., Dutra, L. X. C., Woodward, E., Ligtermoet, E., Steven, A., Chariton, A., and Williams, D. K. K. (2018a). An integrated risk-assessment framework for multiple threats to floodplain values in the Kakadu Region, Australia, under a changing climate. Marine and Freshwater Research 69, 1159–1185.
An integrated risk-assessment framework for multiple threats to floodplain values in the Kakadu Region, Australia, under a changing climate.Crossref | GoogleScholarGoogle Scholar |

Bayliss, P., Saunders, K., Dutra, L. X. C., Melo, L. F. C., Hilton, J., Prakash, M., and Woolard, F. (2018b). Assessing sea level-rise risks to coastal floodplains in the Kakadu Region, northern Australia, using a tidally driven hydrodynamic model. Marine and Freshwater Research 69, 1064–1078.
Assessing sea level-rise risks to coastal floodplains in the Kakadu Region, northern Australia, using a tidally driven hydrodynamic model.Crossref | GoogleScholarGoogle Scholar |

Dutra, L. X., Bayliss, P., McGregor, S., Christophersen, P., Scheepers, K., Woodward, E., Ligtermoet, E., and Melo, L. (2018). Understanding climate change adaptation on Kakadu National Park using a combined diagnostic and modelling framework: a case study at Yellow Water wetland. Marine and Freshwater Research 69, 1146–1158.
Understanding climate change adaptation on Kakadu National Park using a combined diagnostic and modelling framework: a case study at Yellow Water wetland.Crossref | GoogleScholarGoogle Scholar |

Erskine, W. D., Saynor, M. J., Boyden, J. M., and Evans, G. (2018). Sediment fluxes and sinks for Magela Creek, Northern Territory, Australia. Marine and Freshwater Research 69, 1018–1025.
Sediment fluxes and sinks for Magela Creek, Northern Territory, Australia.Crossref | GoogleScholarGoogle Scholar |

Finlayson, C. M. (2018). Wetland research and management in the Kakadu region of northern Australia. Marine and Freshwater Research 69, 1007–1017.
Wetland research and management in the Kakadu region of northern Australia.Crossref | GoogleScholarGoogle Scholar |

Finlayson, C. M., Storrs, M. J., and Lindner, G. (1997). Degradation and rehabilitation of wetlands in the Alligator Rivers Region of northern Australia. Wetlands Ecology and Management 5, 19–36.
Degradation and rehabilitation of wetlands in the Alligator Rivers Region of northern Australia.Crossref | GoogleScholarGoogle Scholar |

Finlayson, C. M., Capon, S. J., Rissik, D., Pittock, J., Fisk, G., Davidson, N. C., Bodmin, K. A., Papas, P., Robertson, H. A., Schallenberg, M., Saintilan, N., Edyvane, K., and Bino, G. (2017). Policy considerations for managing wetlands under a changing climate. Marine and Freshwater Research 68, 1803–1815.
Policy considerations for managing wetlands under a changing climate.Crossref | GoogleScholarGoogle Scholar |

Humphrey, C. L., Bishop, K. A., and Dostine, P. L. (2018). Vulnerability of fish and macroinvertebrates to key threats in streams of the Kakadu Region, northern Australia: assemblage dynamics, existing assessments and knowledge needs. Marine and Freshwater Research 69, 1092–1109.
Vulnerability of fish and macroinvertebrates to key threats in streams of the Kakadu Region, northern Australia: assemblage dynamics, existing assessments and knowledge needs.Crossref | GoogleScholarGoogle Scholar |

Lucas, R., Finlayson, C. M., Bartolo, R., Rogers, K., Mitchell, A., Woodroffe, C. D., Asbridge, E., and Ens, E. (2018). Historical perspectives on the mangroves of Kakadu National Park. Marine and Freshwater Research 69, 1047–1063.
Historical perspectives on the mangroves of Kakadu National Park.Crossref | GoogleScholarGoogle Scholar |

Nelson, T. M., Streten, C., Gibb, K. S., and Chariton, A. A. (2015). Saltwater intrusion history shapes the response of eukaryotic communities upon rehydration. The Science of the Total Environment 502, 143–148.
Saltwater intrusion history shapes the response of eukaryotic communities upon rehydration.Crossref | GoogleScholarGoogle Scholar |

Nelson, T. M., Streten, C., Gibb, K. S., and Chariton, A. A. (2018). Bacteria in tropical floodplain soils are sensitive to changes in saltwater. Marine and Freshwater Research 69, 1110–1123.
Bacteria in tropical floodplain soils are sensitive to changes in saltwater.Crossref | GoogleScholarGoogle Scholar |

Pettit, N. E., Bayliss, P., and Bartolo, R. (2018). Primary productivity and species distribution of plants on the Kakadu floodplains and the impact of salt water intrusion. Marine and Freshwater Research 69, 1124–1133.
Primary productivity and species distribution of plants on the Kakadu floodplains and the impact of salt water intrusion.Crossref | GoogleScholarGoogle Scholar |

Stephenson, S., Nelson, T. M., Streten, C., Gibb, K. S., Williams, D., Greenfield, P., and Chariton, A. A. (2018). A baseline survey of soil eukaryotic communities from a World Heritage tropical coastal floodplain under threat from sea-level rise. Marine and Freshwater Research 69, 1134–1145.
A baseline survey of soil eukaryotic communities from a World Heritage tropical coastal floodplain under threat from sea-level rise.Crossref | GoogleScholarGoogle Scholar |

Williams, D. (2014). Recent, rapid evolution of the Lower Mary River estuary and flood plains. In ‘Estuaries of Australia in 2050 and Beyond’. (Ed. E. Wolanski.) pp. 277–287. (Springer.)

Wolff, N. H., Mumby, P. J., Devlin, M., and Anthony, K. R. N. (2018). Vulnerability of the Great Barrier Reef to climate change and local pressures. Global Change Biology 24, 1978–1991.
Vulnerability of the Great Barrier Reef to climate change and local pressures.Crossref | GoogleScholarGoogle Scholar |

Woodroffe, C. D., Chappell, J. M. A., and Thom, B. G. (1986) Geomorphological dynamics and evolution of the South Alligator tidal river and plains, Northern Territory. North Australia Research Unit, Darwin NT, Australia.