The aim of this project is to compile land use and management practices and their observed and measured impacts and effects on vegetation condition. The results provide land managers and researchers with a tool for reporting and monitoring spatial and temporal transformations of Australia’s native vegetated landscapes due to changes in land use and management practices. Following are the details about the Cumberland State Forest, Old Abandoned Arboretum site, NSW, Australia.
Pre-European reference-analogue vegetation: The Cumberland State Forest is part of the Blue Gum High Forest (Daniel Connolly pers comm). It is a tall wet sclerophyll forest found on Wianamatta group Ashfield Shale. Blue Gum High Forest is dominated by Sydney blue gum (Eucalyptus saligna), blackbutt (E. pilularis), and turpentine (Syncarpia glomulifera) with a number of other eucalypts occurring patchily. A sparse open cover of small trees includes a variety of sclerophyllous and mesophyllous species. The ground layer is variable in composition and cover; including ferny, grassy or herbaceous and/or vines and climbers. The characteristics of the ground cover are related to the topgraphic position.
Brief chronology of changes in land use and management:
- 1788- Area managed by indigenous Darug people
- 1788-1824: Region explored, un-modified native forest blue gum/ironbark on shale
- 1825: Parcel selected by Mr Shepherd
- 1860: Tree cover likely to have been thinned - selective logging for fences and housing
- 1826-1907: Grazing stock on native pastures
- 1908: Land parcel cleared and sown to improved pasture, and evidence of chicken farm and fruit orchards
- 1909-1937: Managed as improved pasture and grazing
- 1937-38: Purchased by NSW Forestry Commission
- 1941-42: Remaining native forest trees cleared to establish an arboretum
- 1943-45: Arboretum planted as a future urban working forest
- 1946-73: Arboretum managed for education and demonstration - infilling regrowth native forest observed
- 1974-84: Arboretum increasing managed for recreation - infilling regrowth native forest observed
- 1985-2012: Area managed for recreation (ex-arboretum and regrowth native forest).
Credit
We at TERN acknowledge the Traditional Owners and Custodians throughout Australia, New Zealand and all nations. We honour their profound connections to land, water, biodiversity and culture and pay our respects to their Elders past, present and emerging.
This work was funded by ACEAS, a facility of Terrestrial Ecosystem Research Network (TERN), an Australian Government National Collaborative Research Infrastructure Strategy (NCRIS) project.
Lineage
Information is compiled by year from published and unpublished sources. It includes qualitative and quantitative observations. It represents a structured narrative. Once compiled this narrative is translated into 22 indicators of vegetation condition which are grouped into three condition components: vegetation structure, species composition and regenerative capacity.
The pdf is a compilation of historical land use management of the site using 12 core attributes which describes the transformation of a native vegetation community relative to its reference state.
The spreadsheet provides the scores on the effects of the land management practices on the 22 indicators. Each indicator is scored from 0 to 1 for each year of the historical record; where 1 represents the reference state for each vegetation and environmental indicator, and 0 is where that vegetation indicator and/or ecological function is absent. The spreadsheet is used to sum and weight the indicators into the respective components of vegetation condition i.e. regenerative capacity, species composition and vegetation structure. The weighted transformation scores are then added to produce a single transformation index of vegetation condition for each year of the historical record. The results could be graphed and annotated to show the response of the plant community under different land use and management regimes.
Data Creation
Step 1. Select a representative site in terms of soil and landscape, and pre-European vegetation community.
Step 2: Locate that site using google earth and record its co-ordinates in the VAST-2 Chronology Datasheet
Step 3: Review relevant literature for the site and region, compiling information on land use history and associated land management practices. Simultaneously record for same year effect and impact of those practices on vegetation condition.
Step 4: Identify a group of specialists with ecological knowledge about the site who can revive, validate and identify gaps in the chronology and the accuracy of the data.
Step 5: Translate the observations from step 4 into 22 separately accessed vegetation condition indicators.
Step 6: Circulate the results of scoring of the 22 indicators and their aggregates including the graphs to the specialists identified in the step 4.
Step 7: Send results to Richard Thackway for incorporation into the ACEAS portal.
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