Aquatic Animal Health Training Scheme 2019-2022
While the AAHTS has been in operation for 9 years, there remains a need for the continual education and training of aquatic animal health professionals to enhance their skills across a range of specialist disciplines. Based on the significant outcomes from the previous nine years of the AAHTS, the Department of Agriculture has contributed $75,000.00 (less $7,500.00 (10%) management fee, cash contribution to FRDC) to ensure that the AAHTS continues to be implemented for a further 3-year period (2019/20-2021/22) with matching funding anticipated from the FRDC Aquatic Animal Health and Biosecurity Subprogram. Thus, an application is needed to generate an agreement between CSIRO-AAHL and FRDC for continuation of AAHTS which would be administered as previously, i.e., by CSIRO-AAHL (rather than FRDC) through the FRDC Aquatic Animal Health and Biosecurity Subprogram.
Aquatic disease preparedness assessment
Final report
Prior to the initiation of this project, it was recognised that while State/Territory, as well as Commonwealth, legislation is well-developed for the management of traditional stock animal diseases, legislation has not addressed adequately issues concerning aquatic animal diseases and their control. Thus animal health policy makers established a working party to assess the effectiveness of State/Territory aquatic animal disease legislation in the face of hypothetical, severe fisheries disease outbreaks in public waters, aquaculture sites, in finfish and in aquatic invertebrates.
Accordingly, the Working Party visited each State/Territory to discuss with those officials responsible for managing aquatic animal disease outbreaks, the current status of State legislation, whether the legislation is appropriate and whether the State has adequate resources and legislative support to manage effectively aquatic animal disease emergencies. In this way the strengths and weaknesses of each State/Territory with regard to aquatic animal disease preparedness were identified for further consideration by the local authorities. Over the past two years significant progress on aquatic animal health policy development at the Commonwealth and State/Territory levels has been made and is outlined in this report.
Major outcomes of the project include a significant raising of the profile of aquatic animal disease. At both State/Territory and Commonwealth levels the issue of aquatic animal disease, even in the face of the emergence of newer fisheries industries and a growth in fisheries production, had attracted relatively little attention and hence few resources. During the course of the project, there have been interaction with other projects and activities, coordinated by the Department of Primary Industries and Energy, which has had a synergistic effect on the progress of the issue. Recently, there has been very significant progress on aquatic animal health policy development at State/Territory and Commonwealth Government levels.
In the majority of States/Territories, either new or revised legislation has been enacted, is currently being enacted or current legislation is being reviewed to determine whether revised/new legislation is required. Thus, most of the States/Territories have addressed, or are addressing, the legislative issue.
In addition to ensuring appropriate legislation is in place, each State/Territory is responsible for ensuring the legislation is invoked as needed and effective management of aquatic animal disease emergencies is undertaken. Regardless of the scale of the incident the State/Territory should be notified, and should then make an assessment of appropriate action, ensuring that such action is in accordance with national policy.
Management of an aquatic animal disease emergency will require a collaborative approach and will, primarily, involve expertise in aquatic animal biology and aquaculture systems which would normally reside in State Departments of Fisheries or the equivalent, as well as expertise in animal diseases and epizootiology normally available from State Departments of Agriculture or the equivalent. In some cases, this expertise resides within one department (e.g. Departments of Primary Industries and Fisheries) and coordination of the response presents little difficulty. In other cases, the expertise is not centralised and coordination of the response becomes a more complex issue.
A major achievement, clearly evident, was the bringing together of the principal decision makers required in the event of an aquatic animal disease emergency. In some States/Territories these meetings represented the first instance in which this had occurred for the purposes of aquatic animal disease emergency contingency planning. Hence, together with the respective roles and responsibilities, important linkages were immediately put in place which later formed the basis for development of an action plan. In each State/Territory, a theoretical scenario, an aquatic animal disease emergency relevant to the particular State/Territory, was presented and worked through to its conclusion. This illustrated the resources, responsibilities and roles required for effective management of the emergency.
Aquatic Animal Health Subprogram: Development of molecular diagnostic procedures for the detection and identification of herpes-like virus of abalone (Haliotis spp.)
Currently, diagnosis of abalone ganglioneuritis associated with infection by the recently discovered herpes-like virus is dependent on visualisation of gross clinical signs at the macroscopic level, of histological lesions at the light microscopic level and of virus particles at the electron microscopic level. Thus, while detection of diseased abalone is relatively straightforward it is labour-intensive and time-consuming. The purpose of this project is to develop molecular diagnostic procedures for the rapid, sensitive and specific detection and identification of abalone herpes-like virus infections in the presence, or absence, of clinical signs. Thus potential broodstock that are apparently healthy can be screened for the presence of herpes-like virus, sub-clinical, infections prior to on-farm use.
In addition to surveillance tools for detection and identification of sub-clinical infections, better procedures/reagents for overt disease diagnosis are required. While the presence of histological lesions provides a presumptive diagnosis, the development of in situ hybridisation probe(s) and/or diagnostic antiserum for the localisation of abalone herpes-like virus within histological lesions will provide a means for definitive diagnosis to be made with increased confidence.
Furthermore, in addition to providing an enhanced capability and capacity for disease diagnosis (detection and identification of herpes-like virus), development of molecular reagents and procedures will assist future research aimed at better understanding the pathogenesis (e.g. tissue distribution of the virus, effect of host factors such as age) and epidemiology (e.g. determination of host and geographic ranges, modes of transmission) of this disease. Such knowledge is crucial for efficient management of current and future disease outbreaks.