The importance of fisheries and aquaculture production for nutrition and food security

Aquatic food has a significant role to play in global nutrition and food security but is often ignored in that debate. Understanding its potential role is made difficult by the fact that aquatic food covers a large number of species which come from both capture fisheries and aquaculture and the marine and freshwater environments, including finfish, crustacea, molluscs, echinoderms, aquatic plants and other aquatic animals. Further complications arise from the fact that both supply and consumption vary significantly between countries. There are several criteria which need to be considered when discussing nutrition and food security. These include: how much food is produced, whether that production is sustainable, whether the production supports livelihoods, what the nutritional content of the food is and whether that food is safe. The authors conclude that there are many benefits to aquatic food under each of these criteria but there are also some hurdles which need to be overcome. Increased production to feed a growing global population relies on the growth of aquaculture. Limitations to such growth include the supply of raw ingredients for aquafeeds, losses due to disease outbreaks, being able to ensure high standards of food safety and overcoming environmental limitations to expansion. There are also problems with welfare conditions for people working in the supply chain which need to be addressed. Given the challenges to nutrition and food security which the world is currently facing, it is essential that aquatic food is brought into the debate and the significant benefits that aquatic foods provide are acknowledged and exploited

EURASTIP Best Practice Case Studies: Aquaculture training and capacity building collaborations between Europe and Southeast Asia

This document was compiled to support future cooperation and collaboration between European and Asian educational institutions and other organisations with an interest in aquaculture sector training and skills development. It is primarily aimed at educators and administrators who may be directly responsible for establishing schemes involving staff and especially student communications and mobility between the regions. It should also be a useful resource for other organisations involved in supporting education and training in the aquaculture sector. Though not intended as a guide for students seeking mobility opportunities, the document does provide case study examples of different activities and academic relationships that exist between aquaculture actors in Europe and Southeast Asia

A baseline method for benchmarking mortality losses in Atlantic salmon (Salmo salar) production

On-farm databases provide a large diversity of information regarding fish health and stock performance. Mortality records held in on-farm database are indicators of fish health status and of great interest for studying fish health, such as patterns of diseases. Mortality records from a Scottish Atlantic salmon production database of one company were used to develop a method of benchmarking production losses due to mortality. The records used concerned mortality loss numbers of Atlantic salmon in the seawater phase. The median, 10th and 90th percentiles of mortality were calculated for each week of production from 88 production recorded cycles. These values were used to delimit the range of a standard mortality curve through the production cycle. The effects of the different mortality losses from each cycle on production in terms of costs and time consumed were also described. Likewise, substantial interannual variation in mortality time series is described as well as the mortality variation associated with three diseases (Pancreas Disease, Cardiomyopathy Syndrome and Infectious Pancreatic Necrosis)

EURASTIP Best Practice Case Studies: Aquaculture training and capacity building collaborations between Europe and Southeast Asia

This document was compiled to support future cooperation and collaboration between European and Asian educational institutions and other organisations with an interest in aquaculture sector training and skills development. It is primarily aimed at educators and administrators who may be directly responsible for establishing schemes involving staff and especially student communications and mobility between the regions. It should also be a useful resource for other organisations involved in supporting education and training in the aquaculture sector. Though not intended as a guide for students seeking mobility opportunities, the document does provide case study examples of different activities and academic relationships that exist between aquaculture actors in Europe and Southeast Asia

Synergistic infection of Edwardsiella ictaluri and Flavobacterium oreochromis in cage cultured tilapia (Oreochromis sp.)

Widespread distribution of a highly pathogenic Edwardsiella ictaluri strain in farmed tilapia in northern Vietnam has recently been reported. The subsequent investiga-tion noticed a disease outbreak occurred at five nearby tilapia farms with floating cages, in which the clinical signs of both edwardsiellosis and columnaris diseases were observed on the same infected fish and caused 65% to 85% fish mortality. Naturally diseased fish (n= 109) were sampled from the five infected farms for bacterial iden-tification and conducting challenge tests. The two bacteria Edwardsiella ictaluri and Flavobacterium oreochromis were identified by a combination of biochemical tests, PCR and 16SrRNA sequencing methods. Experimental challenge tests on Nile tilapia resulted in the median lethal dose (LD50) of E. ictaluri and F. oreochromis at 70 CFU/fish by intraperitoneal (i.p.) injection and 3.6 × 106 CFU/mL by immersion, respectively. The experimentally co-infected challenged fish exposed to LD50 doses resulted in 83% ± 6% mortality, with the infected fish exhibiting clinical signs of both edwardsiel-losis and columnaris diseases, mimicking the naturally diseased fish. This finding sug-gests that the co-infection of E. ictaluri and F. oreochromis may interact in a synergistic manner, to enhance the overall severity of the infection and elevates the need for efficient methods to control both pathogens.KEYWORDSco-infection, disease outbreak, Edwardsiella ictaluri, Flavobacterium oreochromis, tilapiaOutput Status: Forthcoming/Available Onlin

Recovery of Aeromonas hydrophila associated with bacteraemia in captive snakes

Captive snakes, that is, a Jamaican boa (Epicrates subflavus) a yellow anaconda (Eunectes notaeus) and a corn snake (Pantherophis guttatus guttatus), died with signs of bacteraemia including the presence of petechial haemorrhages in the mouth and gums and haemorrhages in the lung, spleen and intestines. The abdomen and anus were swollen with bloody-tinged mucus in the colon. Aeromonas hydrophila was recovered in dense virtually pure culture growth from the internal organs. Characterization of the isolates was by phenotyping and sequencing of the 16S rRNA gene (sequence homology of 99% with A. hydrophila) with outputs confirming the identity as A. hydrophila. Pathogenicity experiments confirmed virulence to frogs (Rana esculenta) and rainbow trout (Oncorhynchus mykiss)