Population monitoring of small and declining brush-tailed rock wallaby (Petrogale penicillata) colonies at the extreme of their range using faecal DNA sampling
- Authors: Piggott, Maxine , Hansen, Birgita , Soderquist, Todd , Eldridge, Mark , Taylor, Andrea
- Date: 2018
- Type: Text , Journal article
- Relation: Australian Mammalogy Vol. 40, no. 1 (2018), p. 58-66
- Full Text: false
- Reviewed:
- Description: Obtaining much-needed information on population parameters such as abundance and genetic diversity can be difficult for small and declining populations. The brush-tailed rock-wallaby (Petrogale penicillata) is an endangered and cryptic species with many colonies in decline. The Warrumbungle National Park (NP) in New South Wales contains a declining metapopulation of P. penicillata at the western (inland) extreme of the species' current range. Loss of these colonies would cause substantial range contraction and probable loss of regional genetic diversity in the Central Evolutionary Significance Unit (ESU). We used non-invasive genetic methods to identify individuals from faecal DNA from five colonies in the Warrumbungle NP. We identified a minimum of 21 individuals, with the largest colony containing seven individuals. The Warrumbungle NP colonies showed significant intercolony structuring and we were able to detect a single dispersal event. Comparison of genetic diversity to other Central ESU colonies shows that loss of the Warrumbungle NP population will result in loss of unique diversity from this region. The minimum number of animals and genetic diversity information obtained in this study was used to support management actions of herbivore control and translocation in the Warrumbungle NP population. © Australian Mammal Society 2018.
170 years of Latham's Snipe Gallinago hardwickii arrivals in New South Wales and the Australian Capital Territory show no change in arrival date
- Authors: Wilson, David , Hansen, Birgita , Honan, Jodie , Chamberlain, Richard
- Date: 2017
- Type: Text , Journal article
- Relation: Australian Field Ornithology Vol. 34, no. (2017), p. 76-79
- Full Text: false
- Reviewed:
- Description: An understanding of migration phenology is critical to the conservation of long-distance migrants. Latham's Snipe Gallinago hardwickii is a cryptic, dispersed migratory wader that breeds in northern Japan during the austral winter and migrates to Australia for the non-breeding period. Records of this species for New South Wales (NSW) and the Australian Capital Territory (ACT) were extracted from a range of data sources including hunting reports, the Atlas of Living Australia, eBird and citizen science records, generating a dataset of first-arrival dates for 170 years (1846-2016). The first record in each year, corresponding to the expected arrival period of Latham's Snipe on southward migration, was used to infer the date of first arrival. These dates were analysed using simple linear regression against Julian day to test the hypothesis that changes in climate (i.e. increasing mean annual temperature) might result in a corresponding shift in arrival dates. The mean Julian day of first arrivals in NSW and the ACT was 14 August ± 9 days, with no significant change over the 170-year span of records. This suggests that migration phenology of Latham's Snipe has not been strongly influenced by changing large-scale climatic conditions at either the breeding or non-breeding grounds.
Conservation without borders - Solutions to declines of migratory shorebirds in the East Asian-Australasian Flyway
- Authors: Szabo, Judit , Choi, Chi-Yeung , Clemens, Robert , Hansen, Birgita
- Date: 2016
- Type: Text , Journal article , Review
- Relation: Emu Vol. 116, no. 2 (2016), p. 215-221
- Full Text: false
- Reviewed:
- Description: Globally, populations of migratory shorebirds are threatened and declining rapidly. This is especially true for those using the East Asian-Australasian Flyway (EAAF), where loss of intertidal mudflats in crucial staging areas, especially around the Yellow Sea, is considered to be the primary driver of declines. The conservation of migratory shorebirds faces considerable challenges, including competing demands on wetland habitats, compounded by differing economic priorities, jurisdictions and attitudes towards wildlife among the countries along shorebird migratory routes. A key aspect of addressing these challenges is to protect more habitat and improve management of shorebird habitat, both in protected and unprotected areas. This ultimately requires stronger commitments from national governments, for instance by enforcing and strengthening multilateral and bilateral agreements. However, economic drivers for development Erode the effectiveness of these policy tools. Here, we highlight the socio-political approaches needed to ensure implementation of conservation actions. The success of these actions will hinge on stronger engagement of citizens and governments in habitat protection and shorebird monitoring. One part of this strategy is to increase awareness in communities and governments of shorebird issues through international collaboration, knowledge sharing, capacity-building and support for local action (of both citizens and government officials). International actions mediated among flyway partners, for example bilateral agreements on the preservation of intertidal mudflats and co-funding to support this, are critical to halting shorebird population declines. © BirdLife Australia 2016.
Biometrics, sexing criteria, age-structure and moult of Sooty Oystercatchers in south-eastern and north-western Australia
- Authors: Hansen, Birgita , Minton, Clive , Jessop, Rosalind , Collins, Peter
- Date: 2009
- Type: Text , Journal article
- Relation: Emu Vol. 109, no. 1 (2009), p. 25-33
- Full Text: false
- Reviewed:
- Description: Since 1980, 856 Sooty Oystercatchers (Haematopus fuliginosus) have been caught and banded in Australia by the Victorian Wader Study Group (n=801, from southern Australia) and the Australasian Wader Studies Group (n=55 birds, all from north-western Australia). The biometric data collected were analysed for differences between sexes and ages and for geographical differences. Females were larger than males in all biometric dimensions, in all age-groups and in both geographical regions. For both subspecies - H. f. fuliginosus in south-eastern Australia and H. f. opthalmicus in north-western Australia - length of bill (exposed culmen) was the most discriminating parameter for determination of sex. Weights of adult females increased markedly towards the end of the moulting period. In south-eastern Australia, adult males considerably outnumber adult females in catches. Furthermore, adult males also outnumbered adult females in late autumn-early winter samples; at other times, and in other age-groups, the sex-ratio was more evenly balanced. Differential survival or spatial distribution of females and males are proposed as the mechanisms causing male-biased tertiary sex-ratios in catches. South-eastern Australian birds were larger and heavier than their northern counterparts. Furthermore, comparisons between Sooty Oystercatchers and the sympatric congener, the Australian Pied Oystercatcher (H. longirostris) showed the former to be significantly larger and heavier in both parts of the country. © Royal Australasian Orinthologists Union 2009.