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      Practical, effective and safer: Placing traps above ground is an improved capture method for the critically endangered ngwayir (western ringtail possum; Pseudocheirus occidentalis)

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      Animal Welfare
      Cambridge University Press
      Animal welfare, stress, trapping, western ringtail possum, wildlife, wildlife capture

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          Abstract

          The capture of wild-living animals can provide valuable information that is critical in developing and implementing effective conservation actions. These capture procedures, however, often require direct handling of individuals by researchers, and conservationists should constantly seek to improve capture methods so that the impacts on animal welfare are minimised. The ngwayir (western ringtail possum; Pseudocheirus occidentalis) is a critically endangered arboreal marsupial in need of effective conservation. It is, however, not amenable to conventional trapping, leading to the use of methods such as nest robbing and tranquilisation using dart guns or pole syringes, which involve potentially serious animal welfare risks and longer exposure of animals to humans as compared to conventional trapping. In pursuit of an improved capture method, we investigated opportunistically whether placing traps above the ground would increase the capture success rate of the species, using wire cage traps baited with universal bait and fruit. Between 2010 and 2019, we deployed trapping grids in Locke Nature Reserve and adjacent campsites near Busselton, WA, Australia, with traps placed on the ground for 1,985 trap nights and traps placed on horizontal tree branches, fallen trees or fences, 1–2 m above ground for 694 trap nights. With the above ground traps we trapped 82 ngwayirs out of 694 trap nights, 27 in autumn and 55 in spring. We also captured eleven common brushtail possums ( Trichosurus vulpecula; 1.6% trap success rate), 12 King’s skinks ( Egernia kingii; 1.7%) and five black rats ( Rattus rattus; 0.7%). Trapping success rate was higher in elevated traps (up to 18.3%) compared to traps on the ground (0.5%) and using fruit as bait increased the trap success rate. These results suggest that using elevated traps baited with fruit is a practical, effective method to capture the ngwayir.

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          Fitting Linear Mixed-Effects Models Usinglme4

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            Climate, season, and social status modulate the functional response of an efficient stalking predator: the Eurasian lynx.

            1. Predation plays a major role in shaping the structure and dynamics of ecological communities, and the functional response of a predator is of crucial importance to the dynamics of any predator-prey system by linking the trophic levels. For large mammals, there is a dearth of field studies documenting functional responses, and observations at low prey density are particularly scarce. Furthermore, there is a lack of understanding about how variables such as season, social status and climate modulate the functional response curves. 2. We analysed kill rate data collected over a 10-year period based on radio-marked lynx (Lynx lynx) mainly preying on roe deer (Capreolus capreolus) along a steep prey density gradient in south-eastern Norway. 3. The asymptotic kill rate was reached at a very low prey density for both solitary individuals and family groups (i.e. females with their dependent kittens), indicative of an efficient predator. This highlights the importance of understanding the interplay between predator and prey at low prey densities. 4. A purely prey-dependent functional response was a poor descriptor of the data, as the curve was strongly modulated by season and differences between lynx of different social status. In addition, there was a clear effect of abiotic climatic factors (indexed by the North Atlantic Oscillation) on observed kill rates in the more snow-rich portion of our study area. 5. Our analysis suggests that simple functional response curves might be poor descriptors of predator consumption rates in complex natural system, and that auxiliary factors are likely to induce complexity into any predator-prey systems that would not be captured by simple deterministic approaches.
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              General Anesthesia: A Probe to Explore Consciousness

              General anesthesia reversibly alters consciousness, without shutting down the brain globally. Depending on the anesthetic agent and dose, it may produce different consciousness states including a complete absence of subjective experience (unconsciousness), a conscious experience without perception of the environment (disconnected consciousness, like during dreaming), or episodes of oriented consciousness with awareness of the environment (connected consciousness). Each consciousness state may potentially be followed by explicit or implicit memories after the procedure. In this respect, anesthesia can be considered as a proxy to explore consciousness. During the recent years, progress in the exploration of brain function has allowed a better understanding of the neural correlates of consciousness, and of their alterations during anesthesia. Several changes in functional and effective between-region brain connectivity, consciousness network topology, and spatio-temporal dynamics of between-region interactions have been evidenced during anesthesia. Despite a set of effects that are common to many anesthetic agents, it is still uneasy to draw a comprehensive picture of the precise cascades during general anesthesia. Several questions remain unsolved, including the exact identification of the neural substrate of consciousness and its components, the detection of specific consciousness states in unresponsive patients and their associated memory processes, the processing of sensory information during anesthesia, the pharmacodynamic interactions between anesthetic agents, the direction-dependent hysteresis phenomenon during the transitions between consciousness states, the mechanisms of cognitive alterations that follow an anesthetic procedure, the identification of an eventual unitary mechanism of anesthesia-induced alteration of consciousness, the relationship between network effects and the biochemical or sleep-wake cycle targets of anesthetic agents, as well as the vast between-studies variations in dose and administration mode, leading to difficulties in between-studies comparisons. In this narrative review, we draw the picture of the current state of knowledge in anesthesia-induced unconsciousness, from insights gathered on propofol, halogenated vapors, ketamine, dexmedetomidine, benzodiazepines and xenon. We also describe how anesthesia can help understanding consciousness, we develop the above-mentioned unresolved questions, and propose tracks for future research.
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                Author and article information

                Contributors
                Role: ConceptualizationRole: InvestigationRole: VisualizationRole: Writing – original draftRole: Writing – review & editing
                Role: Data curationRole: Formal analysisRole: InvestigationRole: VisualizationRole: Writing – review & editing
                Role: InvestigationRole: Writing – original draftRole: Writing – review & editing
                Role: Investigation
                Role: ConceptualizationRole: Funding acquisitionRole: InvestigationRole: Project administrationRole: SupervisionRole: Writing – review & editing
                Journal
                Anim Welf
                Anim Welf
                AWF
                Animal Welfare
                Cambridge University Press (Cambridge, UK )
                0962-7286
                2054-1538
                2024
                16 September 2024
                : 33
                : e29
                Affiliations
                [1 ]School of Agriculture and Environment, The University of Western Australia , 35 Stirling Hwy, Crawley, WA 6009, Australia
                [2 ]School of Life and Environmental Sciences, Deakin University , Burwood, VIC 3125, Australia
                Author notes
                Corresponding author: Sara Corsetti; Email: sar.corsetti@ 123456gmail.com

                Author contributions: Conceptualisation: SC, RB; Data curation: KY; Funding acquisition: RB; Investigation: SC, KY, EW, AU, RB; Visualisation: SC, KY; Formal analysis: KY; Project administration: RB; Supervision: RB; Writing – original draft: SC, EW; Writing – review & editing: SC, KY, EW, RB.

                Author information
                https://orcid.org/0000-0001-9183-9749
                https://orcid.org/0000-0002-8474-9590
                https://orcid.org/0000-0002-9118-6124
                https://orcid.org/0009-0008-1214-2141
                https://orcid.org/0000-0002-6927-5198
                Article
                S0962728624000319
                10.1017/awf.2024.31
                11418072
                39315354
                a0c7d5e4-0c9a-423f-aceb-f65d1774133a
                © The Author(s) 2024

                This is an Open Access article, distributed under the terms of the Creative Commons Attribution-ShareAlike licence ( http://creativecommons.org/licenses/by-sa/4.0), which permits re-use, distribution, and reproduction in any medium, provided the same Creative Commons licence is used to distribute the re-used or adapted article and the original article is properly cited.

                History
                : 01 December 2023
                : 13 May 2024
                : 14 May 2024
                Page count
                Figures: 3, Tables: 1, References: 32, Pages: 6
                Funding
                Funded by: University of Western Australia, doi http://doi.org/10.13039/501100001801;
                Funded by: Main Roads Western Australia
                Categories
                Research Article

                animal welfare,stress,trapping,western ringtail possum,wildlife,wildlife capture

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