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      The impact of integrating rabbit haemorrhagic disease virus (K5) release with pindone baiting on wild rabbit populations

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          Abstract

          Several conventional and recently available tools are available for an integrated control of European rabbits in Australia. We quantified the impact of the release of rabbit haemorrhagic disease virus K5 (RHDV K5, hereafter K5) and pindone (2‐pivalyl‐1,3‐indandione) baiting at 13 sites within Cudlee Creek fire scar in the Adelaide Hills, South Australia. K5 release was followed by pindone baiting between December 2021 and March 2022; the application of both control methods followed industry best practice. We counted rabbits using spotlights before and after the application of both control methods. Fly samples and livers from dead rabbits were collected to track K5 transmission within and between sites, and to detect the natural circulation of rabbit haemorrhagic disease virus 2 (RHDV2). K5 release had minimal impact on rabbit populations, with treated populations increasing by a mean of 65.5% at 14 days post‐release and 27.9% at 77 days post‐K5 release across all sites, comparable to the changes at control sites. K5 detection in flies up to 77 days post its release, and its detection in rabbit livers, demonstrates that it can survive and transmit in the environment for prolonged periods and that it can lethally infect some rabbits. This limited impact of K5 is consistent with previous studies and may be explained by pre‐existing RHDV/RHDV2 immunity in the target populations or the presence of young rabbits with natural innate RHDV immunity. The detection of K5 in flies from control sites demonstrates that it was vectored beyond its release location. A reduction in rabbit counts post‐pindone baiting was observed at most treatment sites, with a mean population reduction of 36.6% across all sites. Landholders need to carefully and strategically plan their integrated rabbit control programmes. Not all combinations of controls, even if theoretically logical, achieve meaningful outcomes for rabbit management.

          Abstract

          This study quantified the impact of the release of rabbit haemorrhagic disease virus K5 (RHDV K5, K5 hereafter) and pindone baiting at 13 sites within Cudlee Creek fire scar in the Adelaide Hills region, South Australia. K5 release had minimal impact on rabbit populations, whereas a reduction in rabbit counts post‐pindone baiting was observed at most treatment sites. Landholders need to carefully and strategically plan their integrated rabbit control programmes as not all combinations of controls, even if theoretically logical, achieve meaningful outcomes for rabbit management.

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          Most cited references31

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          The initial impact of rabbit hemorrhagic disease on European rabbit populations in South Australia.

          The calicivirus agent for rabbit hemorrhagic disease (RHD) escaped from an island quarantine station to the Australian mainland in October 1995. Within 2 wk it was detected at an established field study site where wild European rabbits (Oryctolagus cuniculus) were being monitored in the Flinders Ranges National Park (South Australia, Australia). During November 1995, RHD reduced the rabbit numbers on the site by 95%. Approximately 3% of the population survived challenge by RHD and developed antibodies. Most of the antibody-positive survivors were 3- to 7-wk-old when challenged. Many rabbits died underground, but counts of rabbit carcasses found on the surface indicated that approximately 1 million rabbits had died above ground in the National Park, and that > 30 million rabbits may have died in adjacent areas during the November epidemic.
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            Rabbit Hemorrhagic Disease Virus 2 (RHDV2; GI.2) Is Replacing Endemic Strains of RHDV in the Australian Landscape within 18 Months of Its Arrival

            Rabbit hemorrhagic disease virus 2 (RHDV2; Lagovirus GI.2) is a pathogenic calicivirus that affects European rabbits ( Oryctolagus cuniculus ) and various hare ( Lepus ) species. GI.2 was first detected in France in 2010 and subsequently caused epidemics in wild and domestic lagomorph populations throughout Europe. In May 2015, GI.2 was detected in Australia. Within 18 months of its initial detection, GI.2 had spread to all Australian states and territories and rapidly became the dominant circulating strain, replacing Rabbit hemorrhagic disease virus (RHDV/GI.1) in mainland Australia. Reconstruction of the evolutionary history of 127 Australian GI.2 isolates revealed that the virus arrived in Australia at least several months before its initial description and likely circulated unnoticed in wild rabbit populations in the east of the continent prior to its detection. GI.2 sequences isolated from five hares clustered with sequences from sympatric rabbit populations sampled contemporaneously, indicating multiple spillover events into hares rather than an adaptation of the Australian GI.2 to a new host. Since the presence of GI.2 in Australia may have wide-ranging consequences for rabbit biocontrol, particularly with the release of the novel biocontrol agent GI.1a/RHDVa-K5 in March 2017, ongoing surveillance is critical to understanding the interactions of the various lagoviruses in Australia and their impact on host populations. IMPORTANCE This study describes the spread and distribution of Rabbit hemorrhagic disease virus 2 (GI.2) in Australia since its first detection in May 2015. Within the first 18 months following its detection, RHDV2 spread from east to west across the continent and became the dominant strain in all mainland states of Australia. This has important implications for pest animal management and for owners of pet and farmed rabbits, as there currently is no effective vaccine available in Australia for GI.2. The closely related RHDV (GI.1) is used to control overabundant wild rabbits, a serious environmental and agricultural pest in this country, and it is currently unclear how the widespread circulation of GI.2 will impact ongoing targeted wild rabbit management operations.
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              Field evidence for mechanical transmission of rabbit haemorrhagic disease virus (RHDV) by flies (Diptera:Calliphoridae) among wild rabbits in Australia.

              Field collected flies were screened for the presence of rabbit haemorrhagic disease virus (RHDV) by applying reverse transcriptase PCR (RT-PCR) in which primers specific to the capsid protein of the virus were used. The virus was detected in flies from locations where rabbit haemorrhagic disease (RHD) was reported and also soon after the release of RHDV in a 'clean' area. Oral and/or anal excretions of flies (flyspots) were found to contain viable virus and oral inoculation of rabbits revealed that a single flyspot was able to cause RHD. We conclude that flyspots are a major potential source of the virus for oral or conjunctival transmission of the virus to rabbits.
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                Author and article information

                Contributors
                kandarp.patel@adelaide.edu.au
                Journal
                Ecol Evol
                Ecol Evol
                10.1002/(ISSN)2045-7758
                ECE3
                Ecology and Evolution
                John Wiley and Sons Inc. (Hoboken )
                2045-7758
                11 March 2024
                March 2024
                : 14
                : 3 ( doiID: 10.1002/ece3.v14.3 )
                : e10991
                Affiliations
                [ 1 ] School of Animal and Veterinary Sciences The University of Adelaide Roseworthy South Australia Australia
                [ 2 ] Davies Livestock Research Centre The University of Adelaide Roseworthy South Australia Australia
                [ 3 ] Centre for Invasive Species Solutions Bruce Australian Capital Territory Australia
                [ 4 ] Landscapes Hills and Fleurieu Mount Barker South Australia Australia
                [ 5 ] Marcus Pickett Ecological Services Lobethal South Australia Australia
                [ 6 ] Bush Heritage Australia Victor Harbor South Australia Australia
                [ 7 ] School of Biological, Earth and Environmental Sciences University of New South Wales Sydney New South Wales Australia
                Author notes
                [*] [* ] Correspondence

                Kandarp K. Patel, School of Animal and Veterinary Sciences, The University of Adelaide, Roseworthy, SA 5371, Australia.

                Email: kandarp.patel@ 123456adelaide.edu.au

                Author information
                https://orcid.org/0000-0002-2894-0112
                https://orcid.org/0000-0001-9523-0463
                Article
                ECE310991 ECE-2023-08-01445.R1
                10.1002/ece3.10991
                10928239
                38476706
                c318e807-7cc7-4169-8d36-d1f6d3db918c
                © 2024 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

                This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                : 12 December 2023
                : 26 August 2023
                : 04 January 2024
                Page count
                Figures: 2, Tables: 2, Pages: 10, Words: 7481
                Funding
                Funded by: Local Economic Recovery project (Hills and Fleurieu Landscape Board, Government of South Australia)
                Funded by: Department of Primary Industries and Regions, Government of South Australia
                Funded by: Australian National Disaster Recovery (Australian Government)
                Categories
                Disease Ecology
                Invasion Ecology
                Population Ecology
                Spatial Ecology
                Research Article
                Research Articles
                Custom metadata
                2.0
                March 2024
                Converter:WILEY_ML3GV2_TO_JATSPMC version:6.3.9 mode:remove_FC converted:12.03.2024

                Evolutionary Biology
                biological control,integrated control,invasive species,oryctolagus cuniculus,pest management,pindone,rabbit biocontrol,rabbit haemorrhagic disease

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