Patterns and trends in two decades of research on Nepal’s mammalian fauna (2000–2019) : examining the past for future implications
- Authors: Bist, Bhuwan , Ghimire, Prashant , Nishan, K. , Poudel, Buddi , Wright, Wendy
- Date: 2021
- Type: Text , Journal article , Review
- Relation: Biodiversity and Conservation Vol. 30, no. 13 (2021), p. 3763-3790
- Full Text: false
- Reviewed:
- Description: Nepal is a global biodiversity hotspot, supporting 213 mammal species with diverse habitats across various landscape types, from the lowland Terai to the high Himalayas. Studies of Nepal’s mammalian fauna are not evenly distributed and better understanding of past biases towards some species, research themes and locations can provide better strategic direction for future research investments. Therefore, we reviewed 575 scientific articles on mammals in Nepal, published between 2000 and 2019 and compiled these in March 2020, to examine trends, patterns and gaps, and pave future plans for mammalian research in Nepal. A positive increase in the number of publications (β = 0.27 ± 0.02SD, P < 0.00) was observed, with a more than threefold increase between 2010 and 2019 compared to 2000–2009 (t = − 6.26, df = 12.21, P < 0.000). Analysis of these documents revealed that mammalian researches favored large flagship, threatened species of carnivores inside Nepal’s protected area system. Geographically, mammalian research was not uniform in Nepal, as most studies were concentrated in Bagmati Province and in the Terai and Chure region. Baseline surveys and ecological studies were more common types of research, while studies on the impact of climate change and wildlife trade and poaching, are scant, which deserves a future look. While these studies shape current mammalogy in Nepal, studies of small, uncharismatic species, and in areas outside protected areas and other provinces except Bagmati, Lumbini and Province One are severely lacking. The research identified habitat loss, degradation and human-wildlife conflict as the major threats to the survival of mammalian species in Nepal. Therefore, redesigning and strict implementation of policies based on habitat management and human-wildlife co-existence, including other threat mitigation measures, are warranted. To address knowledge gaps, the prioritization of future research and funding should be focused on relatively unexplored research themes and under-researched provinces. This approach will help to re-align the research focus with the current need, and assist to fully understand and effectively conserve the wealth of mammalian diversity that Nepal holds. © 2021, The Author(s), under exclusive licence to Springer Nature B.V. Correction to: Patterns and trends in two decades of research on Nepal’s mammalian fauna (2000–2019): examining the past for future implications (Biodiversity and Conservation, (2021), 30, 13, (3763-3790), 10.1007/s10531-021-02289-2) Biodiversity and Conservation, Volume 30, Issue 13, Pages 3791 - 3792, November 2021
A DNA toolbox for non-invasive genetic studies of sambar deer (Rusa unicolor)
- Authors: Davies, Chris , Wright, Wendy , Wedrowicz, Faye , Hogan, Fiona
- Date: 2020
- Type: Text , Journal article
- Relation: Australian Mammalogy Vol. 42, no. 1 (2020), p. 58-66
- Full Text:
- Reviewed:
- Description: Invasive sambar deer (Rusa unicolor) are having significant detrimental impacts on natural environments in south-eastern Australia. Little, however, is known about their ecology, limiting evidence-based management strategies directed at reducing deer impacts. Genetic data, generated from DNA isolated from deer scats, can be used to fill ecological knowledge gaps. This study outlines a non-invasive genetic sampling strategy by which good-quality DNA from a single deer scat can be used to determine (1) species of origin, (2) sex and (3) a unique DNA profile. DNA from deer tissue and sambar deer scat samples were used to develop and optimise molecular methods to collect reliable genetic information. A DNA toolbox is presented that describes how to find, collect and store scat samples, isolate DNA and use molecular markers to generate informative genetic data. Generating genetic data using this approach will support studies aimed at acquiring ecological knowledge about sambar deer. Such knowledge will be critical for developing evidence-based recommendations to improve on-ground management decisions for sambar deer.
Detectability and activity patterns of sambar deer (Rusa unicolor) in Baw Baw National Park, Victoria
- Authors: Davies, Christopher , Wright, Wendy , Hogan, Fiona , Davies, Hugh
- Date: 2020
- Type: Text , Journal article
- Relation: Australian Mammalogy Vol. 42, no. 3 (2020), p. 312-320
- Full Text: false
- Reviewed:
- Description: Introduced sambar deer (Rusa unicolor) are increasing in abundance and distribution across much of south-eastern Australia and causing damage to native ecosystems. However, the current paucity of knowledge surrounding many aspects of sambar deer ecology is limiting our capacity to make informed management decisions, and properly gauge the extent of deer impacts. Here we investigate correlates of sambar deer detectability and describe activity patterns of sambar deer in Baw Baw National Park (BBNP) to inform control operations. Camera traps were deployed in BBNP between October and December 2016. We used an occupancy modelling framework to investigate sambar deer detectability and camera trap record time stamps to determine sambar deer activity patterns. Sambar deer were found to be significantly more detectable near roads and in areas of sparse tree density and displayed strong crepuscular activity patterns. Control operations carried out along roads at dawn and dusk could be effective, at least in the short term. Likewise, aerial culling could be an effective control option for sambar deer populations in BBNP. This study highlights the utility of camera trap data to inform the application of control operations for cryptic invasive species. © 2020 Australian Mammal Society.
Predicting deer-vehicle collision risk across Victoria, Australia
- Authors: Davies, Christopher , Wright, Wendy , Hogan, Fiona , Visintin, Casey
- Date: 2020
- Type: Text , Journal article
- Relation: Australian Mammalogy Vol. 42, no. 3 (2020), p. 293-301
- Full Text: false
- Reviewed:
- Description: The risk of deer-vehicle collisions (DVCs) is increasing in south-east Australia as populations of introduced deer expand rapidly. There are no investigations of the spatial and temporal patterns of DVC or predictions of where such collisions are most likely to occur. Here, we use an analytical framework to model deer distribution and vehicle movements in order to predict DVC risk across the State of Victoria. We modelled the occurrence of deer using existing occurrence records and geographic climatic variables. We estimated patterns of vehicular movements from records of average annual daily traffic and speeds. Given the low number of DVCs reported in Victoria, we used a generalised linear regression model fitted to DVCs in California, USA. The fitted model coefficients suggested high collision risk on road segments with high predicted deer occurrence, moderate traffic volume and high traffic speed. We used the California deer model to predict collision risk on Victorian roads and validated the predictions with two independent datasets of DVC records from Victoria. The California deer model performed well when comparing predictions of collision risk to the independent DVC datasets and generated plausible DVC risk predictions across the State of Victoria. © 2020 Australian Mammal Society.
- Description: This research was supported by an Australian Government Research Training Program (RTP) scholarship and Federation University Australia’s School of Health and Life Science.
Lower Jinsha Valley bird study
- Authors: Wright, Wendy , Federation University Australia
- Date: 2011-2013
- Type: Text , Technical report
- Full Text: false
- Description: This study represents a systematic bird survey in part of the Lower Jinsha Valley, in Western China. The intention of the study is to document the bird fauna of the area before it undergoes significant environmental transformation. The study area will be affected by the construction of a series of large hydropower dams along the Jinsha (Yangtze) River. Flooding of the valleys in this area will be to an elevation of 825m and will result in the inundation of substantial areas of farmland and much of the current sparse and poor quality forest habitat in Ningnan County (Sichuan Province) and Qiaojia County (Yunnan Province). Bird searches were conducted at 15 locations (5 in forest, 5 in farmland, 5 in Leucaena plantation) during two survey periods: Winter 2012: Nov-Dec 2012 (six field days: 30/11 – 7/12) (survey period 3) Summer 2013 June 2013 (seven field days 6/6 – 12/6) (survey period 4) Two visits were made to each location during each study period. One visit occurred during the morning and involved a timed transect search plus a list building search. The other visit occurred during the afternoon and involved a list building search only. The timed transect search involved noting birds seen along the 100m transect during a 20min search period. No recorded calls were used to attract birds during the timed transect search, which always occurred prior to the list building search. List building searches were conducted in the interests of maximizing the opportunity to identify species present at each location. Each list building search involved an initial broadcast playback of the call of Collared Owlet (Glaucidium brodiei) followed by identification of birds seen or heard, including birds responding to the call of the owlet. Collared Owlet is a small owl, which sometimes hunts diurnally. It is commonly mobbed by small songbirds (Mackinnon and Phillips, 2010). Where necessary, previously recorded calls of particular bird species were used to encourage birds to respond and therefore confirm identification. In some cases, calling birds were recorded in situ and these calls were immediately played back in order to encourage a response and allow visual identification. All birds clearly identified visually or by their call were recorded, including birds of prey seen flying overhead or in nearby valleys. Birds seen on roadsides during transit between locations were noted separately and are included in the bird list for the survey period, but not included in analyses. The visualisation of the survey data is part of an interoperable web-GIS maintained by the Centre for eResearch and Digital Innovation(CeRDI) at Federation University Australia (FedUni).
Reintroducing wood to streams in agricultural landscapes: changes in velocity profile, stage and erosion rates
- Authors: Lester, Rebecca , Wright, Wendy
- Date: 2008
- Type: Text , Journal article
- Relation: River Research And Applications Vol. 25, no. 4 (2008), p. 376-392
- Full Text: false
- Reviewed:
- Description: Historically, perceived increases in erosion and flooding levels have been attributed to in-stream wood and used to justify its removal from streams and rivers around the world. More recently, recognition of the adverse morphological and biological impacts caused by this removal has led to rehabilitation projects that actively reintroduce wood to streams. However, a perception remains amongst some members of the general community that wood additions increase the likelihood of flooding and erosion in the target streams. To test whether there was a basis for this perception, we experimentally added wood to eight streams across southwest Victoria and Gippsland, Australia. The velocity, stage and bed and bank erosion rates were compared with those of unaltered reaches. We detected localized changes in the velocity and stage parameters but that these were unlikely to operate at the reach-scale. Bed erosion rates, where maximum erosion was assumed if pins were not recovered, showed increased erosion due to wood additions but this was not supported by channel shape analyses, which identified short-term increases in the variability of the channel shape, followed by longer-term stability at treatment sites. We found no clear evidence of increased longer-term rates of erosion or flooding associated with the introduction of wood to streams over the 18-month study period. It remains important to carefully design rehabilitation works, but the lack of adverse effects on stream morphology and increased variability of the in-stream environment suggests improved habitat diversity, supporting the use of wood addition as a stream rehabilitation technique. Copyright © 2008 John Wiley & Sons, Ltd.
Boola Boola Forest bird study
- Authors: Wright, Wendy
- Date: 2006-2008
- Type: Text , Technical report
- Full Text: false
- Description: This study assessed differences in avian biodiversity across different forest age-classes, including mature stands (> 100 years), in a managed, mixed-species eucalypt forest located in Gippsland, south-eastern Australia. Avian surveys and detailed habitat measurements were initially carried out in 50 two hectare stands ranging in age from 100 years. Extensive wildfire which occurred during the study reduced the number of sites to 28 (seven in each of four age classes) upon which analyses and inferences were made. Mature vegetation (> 100 years) had the greatest richness, abundance and biomass of birds. Key ecological resources, such as tree-hollows for nesting, generally occurred mostly in stands > 60 years. There were quantum increases in all measures of avian biodiversity in mature stands (> 100 years). The visualisation of the survey data is part of an interoperable web-GIS maintained by the Centre for eResearch and Digital Innovation(CeRDI) at Federation University Australia (FedUni).