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A Classification of Tasmanian Estuaries and Assessment of their Conservation Significance using Ecological and Physical Attributes, Population and Land Use

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Developer

Tasmanian Aquaculture & Fisheries Institute

Latest documentation

1999

Designed for use in

Tasmania, Australia

Ongoing

No

Assessment purpose

Management effectiveness, Prioritisation, Values/Services

Assessment criteria

Physical and chemical, Management and planning, Fauna

Method type

Desktop

Timescale

Short-medium term – The time taken will depend upon what spatial data is available and what has to be created or collected.

Scale

Region

Wetland system

Estuarine

Description and method logic

Method purpose

To classify and define conservation values of estuarine environments.

Summary

An inventory of Tasmanian estuaries and their catchments was developed to classify and categorise river systems and estuaries into groups based in geomorphological and hydrological attributes. This was then combined with landuse data, species diversity and species status to determine conservation significance.

Method logic

After defining the boundaries of the catchments of Tasmanian estuaries and their associated river systems, estuaries were categorised into a number of groups based on similarities in geomorphological and hydrological attributes. This classification could not be based on biological information as it was not available for all estuaries and biological data typically characterised a site rather than encompassed the range of variation within any estuary.

The adequacy of the physical groups was assessed by comparison with invertebrate and fish data sets. Within each of the defined groups, human population and land use data were then used to assess the level of anthropogenic disturbance to each estuary and the estuary with least disturbance identified. Where more than one estuary within a group was considered 'pristine', the conservation significance of estuaries was separated using land tenure data. Estuaries with a higher percentage of their catchment in national parks were ranked higher than estuaries with other types of reserve, or crown land available for exploitation or private land.  Estuaries were also assigned high conservation significance if they contained anomalously (deviating from what is standard, normal, or expected) high species diversity or included endangered species.

Estuarine habitats in a relatively undisturbed state that encompass the range of habitat types and biological diversity of Tasmanian estuaries were identified. They could be the basis of an integrated state wide system of protected estuarine areas.

Criteria groupings of the method

Classification of estuaries according to physical attributes could be used to assess biological significance. Disturbance could be estimated using population and land use.

Data required

Spatial datasets including catchment boundaries, estuary boundaries, river regulation or diversion, rainfall and runoff, geology, population, land tenure, land type, hydrological data and macroinvertebrate, plant and fish data.

Resources required

Expertise required

Experts, GIS, multivariate analysis.

Materials required

Access to GIS software, spatial datasets including catchment boundaries, estuary boundaries, river regulation or diversion, rainfall and runoff, geology, population, land tenure, land type, hydrological data and macroinvertebrate, plant and fish data.

Method outputs

Outputs

  • Report with recommendations for which estuaries to be included in protected areas, other management actions and future research
  • GIS of datasets used for assessment of conservation significance.

Uses

  • Recommendations for estuarine protected areas.
  • Recommendations for management of individual estuaries.
  • Recommendations for future research.
  • Assessment of development applications affecting estuaries.

Criteria by category

    Physical and chemical

    • Estuary class
      • Geomorphology
      • Salinity distribution
      • Water circulation patterns

    Management and planning

    • Current anthropogenic impacts
      • Land tenure
      • Naturalness index
      • Population density

    Fauna

    • Biological attributes
      • Fish distribution
      • Macroinvertebrate distribution

Review

Recommended user

The method to be used by those with ecological, GIS and assessment knowledge.

The GIS and recommendations are useful for estuary managers, government agencies, local government, developers, NRM bodies, industry groups, and community groups.

Strengths

Standard state wide datasets were used.

Limitations

Biological datasets were limited to invertebrates and fishes.

Case studies

(not documented)

Links


References

  1. Edgar, GJ, Barrett, NS & Graddon, DJ (1999), A Classification of Tasmanian Estuaries and Assessment of their Conservation Significance using Ecological and Physical Attributes, Population and Land Use. [online], Marine Research Laboratories, TAFI, University of Tasmania. Available at: https://eprints.utas.edu.au/1718/.

Last updated: 7 February 2019

This page should be cited as:

Department of Environment, Science and Innovation, Queensland (2019) A Classification of Tasmanian Estuaries and Assessment of their Conservation Significance using Ecological and Physical Attributes, Population and Land Use, WetlandInfo website, accessed 30 August 2024. Available at: https://wetlandinfo.des.qld.gov.au/wetlands/resources/tools/assessment-search-tool/a-classification-of-tasmanian-estuaries-and-assessment-of-their-conservation/

Queensland Government
WetlandInfo   —   Department of Environment, Science and Innovation