All-male Malaysian Freshwater Giant Prawns... What a catch
Hazem Shannak
Empowering Aquaprenuers: Scaling from Local to Global | Aquaculture Business Development Consulting, Coaching & Training
Macrobrachium rosenbergii?males grow faster and reach higher weights than females of the species, all-male culture improves harvests.
Commercial production of freshwater prawns has been the subject of research and commercial enterprise in many countries for several decades. This species is native to Malaysia and the tropical Indo-Pacific region and is an economically important crop in China, India, Vietnam, and many other Asian countries. It has high demand as a food item and as a global export product.
Its relatively limited wild catch has resulted in a gradual increase in the traditional culture of the prawns. The global market for freshwater prawns was growing annually. China, India, and Vietnam together annually produced more than 200,000 metric tons (MT) of prawns with a value of $2.4 billion. To sustain the growth of this sector, genetic, husbandry, and biotechnological improvements are needed, including attempts to use approaches such as monosex culture.
Monosex culture
In many crustacean species, a sexual bimodal growth pattern is exhibited in which females grow larger than males of the species or vice versa. In two of the most economically important penaeid shrimps,?Litopenaeus vannamei?and?Penaeus monodon, females grow larger than males.
However, in cultured species such as the Australian red-claw crayfish (Cherax quadricarinatus) males grow faster and reach higher weights than females. This is also the case for the giant freshwater prawn?Macrobrachium rosenbergii)?as males reach market size faster than females.
Differences in growth rate, alimentary needs, and behavioral patterns between males and females dictate the need to establish management procedures specifically adjusted to one sex or the other.
Sex-reversal technology does not use hormones or chemicals, does not produce genetically modified prawns
Moreover, since a monosex culture population is inherently non-breeding, energy is focused on growth, and unwanted breeding is prevented – both in the pond and as an unwanted environmental impact. Reproduction can be carried out in such systems under separate, controlled conditions.
The monosex strategy has become a common practice in fish culture, and attempts have been made to apply it to crustacean culture. In a small-scale experiment conducted as early as 1986, hand segregating?M. rosenbergii?monosex populations in hapa nets resulted in significantly higher yields when all-male populations were cultured.
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An economic analysis of an all-male culture in India showed an income increase of about 60 percent over mixed and all-female populations, taking into account expenses caused by labor-intensive hand segregation and related costs.
Microsurgical sex reversal
In?M. rosenbergii, fully functional sex reversal can be achieved by microsurgical manipulation of the androgenic gland in early postlarval males. Although such manipulation dates back more than half a century, a biotechnological approach only recently devised for the generation of all-male populations involves the microsurgical removal of the androgenic gland from juvenile males.
Sex-reversed animals or “neo-females” are capable of mating with normal males to produce all-male offspring. Since?M. rosenbergii?males are the homogametic sex, bearing two homologous sex chromosomes (ZZ), sex-reversed males produce 100 percent male progeny.
Gene silencing
Recently, a more advanced RNA interference (RNAi)-based biotechnology was developed in Malaysia. It was found that silencing this gene through RNAi at an early postlarval stage could cause complete sex reversal of a male into a functional neo-female.
Through the use of specific molecular sex markers, the identified males are transformed into neo-females. The neo-females are shipped, grown, and bred with selected local lines of males at each locality to produce all-male populations.
Perspectives
The sex-reversal technology does not use hormones or chemicals, and it does not produce genetically modified prawns. The intervention is temporal, occurring during a short period in the early stages of the neo-females. The silencing agent is a naturally occurring sequence of RNA that degrades in a few days. It is not transmissible to future generations, and the manipulation is limited to the broodstock, with no manipulation necessary in grow-out populations.
This approach may be of tremendous application in the aquaculture industry. Moreover, it could also form part of a sustainable solution for the management of invasive and/or pest crustacean species, where the production of non-reproducing male or female populations is sought. The silencing agent is not transmissible to future generations, and the manipulation is limited to the broodstock, with no manipulation necessary in grow-out populations.
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11 个月Aquaculture is pushing the limits to sustain fish for food. The focus here is on cultivating all-male populations of Macrobrachium rosenbergii to boost harvests. Using techniques like microsurgical sex reversal and advanced RNA interference in Malaysia, they're creating temporary functional neo-females that, when bred with normal males, yield all-male offspring. This method avoids genetically modifying prawns and has potential applications in managing invasive crustacean species. The intervention is limited to broodstock, sparing grow-out populations from manipulation.
Great. I am interested in this technology.