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Abstract
Aquaculture is one of the most rapidly developing
sectors of global food production, contributing
significantly to socio-economic
development by providing food security and
export earnings from high-value products. The
importance of the industry to the expanding
world population is underscored by the growing
gap between supply and demand for seafood.
However, rapid growth in aquaculture
has been accompanied by increasing problems
with disease, and disease is now seen
as a very significant threat to sustainable production
and trade. During the past decade,
disease has devastated prawn farming in Asia
and Latin America, with annual losses of up to
US$3 billion. Devastating losses have also hit
the salmon farming industries of Europe and
North America, the diverse fish farming industries
of Japan, Taiwan and China, and shellfish
production in Asia and Europe. Disease in
aquaculture is the result of ecological disturbances
that disrupt the natural balance between
pathogens and their host. Farming is
often conducted in unnatural habitats which
provide opportunities for exposure to new
pathogens. Culture conditions may be potentially
stressful, causing existing infections to
become more severe and precipitate disease
outbreaks. Stocking densities are often high,
increasing the risk of disease transmission
and spread. There is also a growing trade in
live aquatic animals, inevitably resulting in
trans-boundary spread of disease and subsequent
imposition of trade barriers. Solutions to the
growing disease menace lie in improved
methods for rapid disease diagnosis and
pathogen detection, increased regulation of
trans-boundary movement of live aquatic animals,
closed-cycle breeding and selection for
disease resistance, and improved education
and training for both health professionals and
farmers.