Cybertracker on Angas Downs

comments Comments Off on Cybertracker on Angas Downs
By , June 26, 2010 10:20 am
Cybertracker is software built for field monitoring and data capture that enables non-literate Indigenous trackers to collect spatial data such as wildlife tracking, location of environmental and infrastructure damage, feral animal control and cultural and historical sites. Observations can be entered with simple lists tailored using relevant information fields and species lists. It is used widely across Indigenous Ranger groups in Australia. Australian Wildlife Services currently facilitate a Cybertracker program on Angas Downs, where the Angas Downs Indigenous Rangers implement wildlife and other information tracking using a TDS Nomad. The aims of implementing Cybertracker on Angas Downs IPA are to:
  • involve the Rangers in monitoring native and feral species on Angas Downs, including kuka (game) species
  • progress involvement in sustainable wildlife management
  • combine Indigenous knowledge with science to monitor environmental factors.
Australian Wildlife Services are able to tailor the Cybertracker program to suit any GPS unit containing Windows Mobile software for any purpose or area. See

Australian Wildlife Services GIS Capabilities

comments Comments Off on Australian Wildlife Services GIS Capabilities
By , June 25, 2010 11:52 am
Australian Wildlife Services staff have a range of GIS and mapping capabilities including use of products ArcInfo, MapInfo, Manifold and Cybertracker.

GIS Services Available

  • Spatial data capture, analysis and management
  • Professional spatial representation of remotely sensed and ground truthed data to meet client objectives
  • Map delineation, digitisation, georeferencing of ground-truthed data
  • Analysis of remotely sensed data for classification, mapping and evaluation/monitoring of environmental factors (vegetation, landuse, fire etc)
  • Boolean logic; multi evaluation criteria and objective assessments and models to support decision-making.

Examples of spatial analysis projects:

  • Wildlife population and biodiversity density assessment analysis and mapping
  • Vegetation classification, analysis and thematic mapping
  • Cultural and management data capture
  • Soil mapping, water resource mapping
  • Development of flight lines for aerial surveys and conduct of aerial surveys.
For map examples and more information download AWS's GIS Capabilities: AWS GIS Capability (954 downloads)

Survey and fieldwork at Angas Downs

comments Comments Off on Survey and fieldwork at Angas Downs
By , May 28, 2010 4:32 pm
AWS has conducted five field trips to Angas Downs in the last year. Activities involved: training Indigenous Anangu Rangers to track and survey native animals, birds and sand tracks, landscape health assessment techniques such as Landscape Function Analysis, installation and monitoring of photo points and water quality monitoring. Aerial surveys for kangaroo and camel populations were conducted in June 2010 and pitfall trapping for smaller animals and reptiles is planned to occur later in 2010. Australian Wildlife Services understands the advantage of combining science and traditional knowledge to monitor and protect the landscape and wildlife. Listening to what Indigenous people want from their landscape is vital to this. A report summarising field work completed in 2009 has been compiled. Download the 2009 Angas Downs monitoring report Angas Downs Monitoring 2009 (943 downloads) See also Angas Downs Cybertracker, Reptile Surveys, LFA and Soil Carbon.

Tourism opportunities for Indigenous Communities in central Australia, Angas Downs

comments Comments Off on Tourism opportunities for Indigenous Communities in central Australia, Angas Downs
By , May 28, 2010 4:26 pm
AWS has been providing advice and support in development of small scale, tourism ventures on Angas Downs Indigenous Protected Area (IPA) by members of the Imanpa community who own the property. Angas Downs is on the main road to Uluri National Park and Watarrka National Park and has many thousands of visitors cross it each week. AWS has produced a set of posters to be displayed in the Mt Ebenezer Roadhouse on the Lasseter Hwy. They detail the IPA and management, the rich natural resources, ranger works, tourism enterprises, and pastoral and aboriginal histories. This resource provides information to tourists and local Anangu people from Imanpa about Angas Downs Indigenous Protected Area. Led by members of the Imanpa community, AWS has helped coordinate a few trial tour runs through the property including Rotary groups interested in culture, education and philanthropic activities overseas University Students interested in environmental and wildlife studies. AWS particpated in a workshop called ‘Stepping Stones’ at the Imanpa community in May 2010 to help develop tourism on Angas Downs along the lines of tag along 4WD cultural/historical tours and student groups, using a similar structure to Anangu Tours at Uluru. More details of Angas Downs IPA in Angas Downs IPA Plan of Management (978 downloads)

Biodiversity Offsetting Recommendations: Endangered Yellow Box Blakely’s Red Gum Woodland

comments Comments Off on Biodiversity Offsetting Recommendations: Endangered Yellow Box Blakely’s Red Gum Woodland
By , May 28, 2010 4:23 pm
Australian Wildlife Services have recently been involved in providing sound revegetation and rehabilitation recommendations to offset disturbance of endangered Yellow Box Blakely’s Red Gum Woodland in the Googong Foreshores area (ACT/NSW). Rehabilitation and revegetation was to occur in an adjacent poor condition, cleared woodland area to the disturbance. There were three main limiting factors to successful development of good condition box woodland identified by AWS: overgrazing by eastern grey kangaroos, widespread occurrence of weed species including many noxious species, and the likelihood that soil seed stocks of native species were degraded. In order to allow the successful offset and development of good condition Grassy Yellow Box Red Gum Woodland, a scope of works was provided. Management actions recommended included construction of a kangaroo deterrent fence, a targeted and robust weed control program and direct seeding of target tree, shrub and ground cover species. Works are to be commenced later in 2010.

Indigenous wildlife management – scientific research support

comments Comments Off on Indigenous wildlife management – scientific research support
By , May 20, 2010 11:34 am
In an opinion piece in the Journal Wildlife Research published in May 2010 AWS outlines how science could play a greater role in ensuring that Indigenous wildlife harvesting is sustainable. The paper discusses the role of Indigenous wildlife use in helping to address community health and employment challenges facing Indigenous Australians in remote and rural areas. An abstract is available on the CSIRO website at   The full paper is available from our downloads - Indigenous wildlife management in Australia to enable sustainable use (549 downloads) We are anticipate that the paper will lead to positive outcomes for Indigenous wildlife managers and a re-distribution of investments to what we hear Indigenous people saying is a high priority.

Camels and Greenhouse Gases

comments Comments Off on Camels and Greenhouse Gases
By , February 8, 2010 10:21 am
A story on the front page of  The Australian on 8 February referred to AWS. It discusses methane emissions from camels and cars and follows a request by John Cobb MP to the Parliamentary Library to do an estimate. The Australian journalist sought comment from Sen Wong's office and was presented with a much lower figure.  The journalist then asked AWS  for an independent estimate. AWS makes the point that the issue is much more complicated than a simple comparison of cars and camels and that calculations contain many doubtful assumptions, including extrapolating the diet of domestic camels to wild camels.  Advocates of  ‘direct action’ using greenhouse gas reduction as a justification, need to consider the emissions produced by control. (This may be where the discrepancy between Sen Wong's office and the Library comes in) Detailed planning and consideration has been under way for some time in regard to the camel management. Advocates of ‘direct action’ need, at the very least to consider
  • dialogue and agreement with landholders, noting that most of the camels are on Aboriginal land
  • a long-term strategy that would address the return of camels which will result from an inability to remove them all
  • the ecological consequences of leaving large numbers of carcasses in the landscape - assuming direct action means helicopter gunships
  • the presentational problems which aerial shooting presents – (even though it can be done relatively humanely)
  • a market based solution, for example subsidised camel capture, mobile abattoirs, including  through Indigenous owned businesses?
In addition more research is needed on GHG gas emissions from animals not under the Kyoto protocol. DAFF and MLA are spending $28m on projects to make cattle more like kangaroos, including introducing kangaroo gut microorganisms into cattle. A modest investment in kangaroos (and camels) would seem to be a complementary investment worth the risk.

Methane emissions from animals

comments Comments Off on Methane emissions from animals
By , January 14, 2010 12:13 pm
An article in The Australian recently revisted AWS  interest in the potential of kangaroos as producers of low emission meat compart to other species. It contained a table with an incorrect legend that had been inserted by a sub-editor.  The correct table and legend follows:

Emissions from animals

Animal No. Animals 1999 Enteric methane (CH4 Gg/yr) Enteric methane (CO2e Gg/yr) Enteric methane/head (CO2e tonnes/animal/yr)
1999 Data from Australia’s National Greenhouse Gas Inventory Only domesticated animals counted, average of State values
Dairy cattle 3141200 339.74 7134.54 2.27
Beef - pasture 23291900 1739.90 36537.90 1.57
Beef - feedlot 558100 41.69 875.49 1.57
Buffalo 8600 0.47 9.87 1.15
Sheep 116800400 773.08 16234.68 0.14
Goats 201700 1.01 21.21 0.11
Cattle and Llamas 1500 0.07 1.47 0.98
Horses 220300 3.96 83.16 0.38
Donkeys/mules 200 0.00 0.00 0.00
Pigs 2626600 2.88 60.48 0.02
Poultry 88694800 0.00 0.00 0.00
Deer 3200 0.03 0.63 0.20
Ostriches/emus 147900 1.58 33.18 0.22
Other 126700 0.63 13.23 0.10
2005 Data from National Greenhouse Gas Inventory Only domesticated animals were counted, average of State values
Dairy cattle 3058554 347.73 7302.26 2.39
Beef 23224139 1847.23 38791.80 1.67
Beef - feedlot 1318089 101.61 2133.86 1.62
Sheep 101124878 681.45 14310.48 0.14
Goats 461491 2.31 48.46 0.11
Horses 221043 3.98 83.55 0.38
Deer 59469 0.64 13.36 0.22
Buffalo 6207 0.34 7.17 1.16
Donkeys/Mules 289 0.00 0.06 0.21
Emus/Ostriches 73788 0.37 7.75 0.11
Alpacas 2066 0.02 0.43 0.21
Camels 1846 0.08 1.78 0.97
Poultry 78187040 0.00 0.00 0.00
Pigs 2537859 3.69 77.43 0.03
Kangaroos 34000000[1] 0.003[2]

[1] The average number of kangaroos from 2001 to 2006) in the selected commercial kangaroo harvest area (Department of the Environment 2007). [2] Kempton, T.J., Murray R.M., Leng R.A. (1976) Methane production and digestibility measurements in the grey kangaroos and sheep. Aust J Biol Sci 29, 209–214.

Kangaroo farming and the carbon economy

comments Comments Off on Kangaroo farming and the carbon economy
By , January 11, 2010 5:05 pm
AWS is working with a Kangaroo Management Cooperative of pastoralists and kangaroo harvesters in central Queensland.  We are examining if lower dependence on cattle as meat producers can reduce greenhouse gases (GHG) in the atmosphere. Lowering total grazing pressure will also reduce water consumption and can drought proof properties. Ruminant livestock produce the GHG methane and so contribute to global warming and biodiversity reduction. Methane from the foregut of cattle and sheep constitutes 11% of Australia’s total GHG. Kangaroos, on the other hand, are non-ruminant forestomach fermenters that produce negligible amounts of methane. AWS is considering offsets generated from emissions sources in Australia not counted toward Australia’s Kyoto Protocol target, where they meet eligibility criteria and use a methodology that has been approved under the National Carbon Offset Standard. The Standard is intended to ensure that consumers have confidence in the voluntary carbon offset market and the integrity of the carbon offset and carbon neutral products they purchase. Income from carbon offsetting such emissions has the potential to improve financial viability of pastoral enterprises and ensure greater resilience in face of recurring droughts. It could establish alternative income streams. Plant growth of both trees, shrubs and native C4 grasses once lower stocking rates are established will sequester carbon in forest, rangeland vegetation and soil. Reducing grazing pressure will lead to reduced soil degradation, an increase in water quality and an increase in habitats and wildlife corridors. Biodiversity will increase, both in species abundance and the number of individuals in populations, particularly in highly important riparian environments. AWS has prepared a Project Information Note as part of our analysis and development of the offset project for presentation to the carbon market.  Our objective is a robust and transparent audit model that provides confidence. Independent audit validates the eligibility and robustness of offset project methodologies, and the amount of emissions reductions offset projects achieve. More details on kangaroos, cattle and opportunities are also in the AWS paper on our publications page.

Estimating rates of logging using landsat and gis technology

comments Comments Off on Estimating rates of logging using landsat and gis technology
By , December 11, 2009 3:38 pm
In November 2009, AWS was commissioned to remotely assess logging rates of an area under a selective logging regime. By extrapolating the rate of logging to an intact adjacent rainforest estimations of potential carbon savings which would accrue from altered forest management that prevents logging may be possible. Using Geographic Information Systems (GIS) to analyse remotely sensed data (Landsat ETM), logging disturbance was detected. Data from six Landsat ETM images (1989-2009) and Forest Inventory Mapping (FIM) were used to calculate the logging rate of the merchantable forest. Applying the Reference Area rate of logging to the Project Area, we estimated the potential forest disturbance due to logging in the Project Area. GIS analysis of remotely sensed data was found to be an appropriate method for detecting forest canopy change and disturbance. Landsat ETM images with low cloud cover were adequate to discern change through time. Nevertheless there were significant methodological constraints and assumptions that introduce errors in the assessment, but they were made conservatively and therefore are likely to lead to underestimates rather than overestimates.