The dairy industry has used high-th

The dairy industry has used high-throughput sperm cryopreservation
since the 1940s (Pickett and Berndtson, 1974). There is a billiondollar
global market specifically for cryopreserved cattle germplasm
according to the National Association of Animal Breeders-Certified
Semen Services (www.naab-css.org). Sperm cryopreservation technology
currently serves the purposes of animal breeding, preservation of
genetic diversity, and medical research. In human reproduction applications,
US sperm banks export frozen semen of human donors to more
than 60 countries to help infertile parents, and this industry has
grown from less than $1 billion in 1988 to more than $4 billion in
2012 (Newton-Small, 2012). Thus genetic improvement in the dairy
industry and assisted reproduction in human medicine each provide
an example of genetic resource utilization. The networking of cryopreserved
sperm has proven invaluable to human society. Although
cryopreservation of fish sperm started at the same time as dairy
(Blaxter, 1953), large-scale application of cryopreserved germplasm of
aquatic species is not currently utilized. In the past decades, substantial
effort and resources have been applied to protocol development in different
laboratories with a variety of species. Despite this, cryopreservation
remains at a research level in aquatic species. However, there is
recognition of the value of this technology. A survey among fish
culturists indicated common interest in genetic improvement obtainable
by adopting cryopreservation into existing procedures (Boever,
2006), such as among hybrid catfish hatcheries. The expanding demand
for genetic improvement in fish culture can be addressed by cryopreservation,
and recent development of high-throughput processing (Hu
et al., 2011) provides the necessary technical prerequisites.