When I was doing my PhD in Atlantic Salmon reproductive strategies, a few decades ago, I had the chance to visit a few very large (for my standards back then) restocking hatcheries. These were operated mainly by power companies obliged to compensate for salmon populations threatened by rivers that had been damned to produce hydro-electric power.
Here were great investments in aquaculture infrastructure by companies that had nothing to do with aquaculture, but that were required to invest in order to offset the impact of their core business activities on the environment and on public perception.
Although profitability may not come to mind as the first objective of these hatchery operations, the fact is that they were created to appease criticism from environmental and local groups, to manage relationships with other interested parties (such as the Native American peoples that traditionally exploited salmon fisheries) and to ensure smooth operations for their core activity (electricity production) and viable plans for future expansion.
So, profit was indeed the target there but as the hatchery was not part of the core business we can see conflicts arising between the goals of the mother company and the goals of the hatchery.
Restocking hatcheries can have many and different purposes; in the example above the purpose was to produce parr to stock rivers where many barriers caused by the hydroelectric dams simply blocked salmon or trout from reaching their spawning grounds.
Salmon ladders built by the side of the dams were used by some fish; however, the numbers of salmon reaching the spawning grounds were too small to produce the parr that would, a few years later, result in the important fishery along thousands of kilometers of the Pacific Northwest coast.
Recreational fisheries is another use for restocking hatcheries, very common in parts of the world where trout and salmon angling is popular, but not only; other species such as the pike or striped bass are important for recreational fisheries and are thus also produced for this purpose. Restocking hatcheries are also targeting the enrichment of commercial fisheries (for example, tuna hatcheries in Japan or the salmon hatcheries by the power dams) or the conservation of endangered fish or shellfish stocks.
Depending on the restocking purpose the goals of each hatchery will be very different. Commercial hatcheries may target the minimization of production costs or the production of high performance fry that will grow fast and convert feed efficiently. Issues like stress and disease resistance are important when you grow fish for human consumption, at high density and under high feeding and husbandry pressure.
When the purpose is not the commercial fattening of fish or shellfish the goals of the hatcheries are different and it is important to align them with the goals of the parent companies (or state organizations) that run the hatcheries. The list below shows some of the key goals for hatcheries of different purposes.
Protection of endangered populations
- Preservation of genetic identity of original stocks;
- Careful control of inbreeding levels;
- Healthy populations – avoid introduction of new pathogens;
- Healthy fry, fast growing;
- If restocking happens in non-contained water bodies then the genetic stocks used should be similar to the wild stocks;
- Sterile or mono-sex populations may be appropriate;
Enrichment of populations for commercial fishing
- Preservation of genetic identity of original stocks – maintain genetic diversity levels similar to local population;
- Balance fry production costs with fisheries’ revenue;
- Maintaining a population in ecological balance;
- Healthy populations – avoid introduction of new pathogens
Conflict and alignment
How then do we align hatchery goals with the goals of the parent company? The parent company, even when it is the State, will want to optimize the costs of running the hatchery; most frequently this means, reducing them to the lowest possible. This will place pressures on staff salaries, laboratory expenses, feed and power, similar to those found on commercial hatcheries. However, there should be mechanisms that balance these pressures as a function of the results achieved by the hatchery, and these results must be interpreted in connection with the goals of the facility.
Different programs/different goals
For hatcheries running stocking programs for recreational fishing the goal of the company is easy to align with the goal of the hatchery, being that the performance of the fish produced in the hatchery is what determines the economic performance of the parent company. Anglers expect to catch decent-sized, healthy fish that will provide them with an exciting fishing experience. If the fry produced by the hatchery are deformed, with metabolic diseases, slow growing, or in any other sense poorly performing the fishery will not have ‘customers’ and the business will die. In most cases this link is straight forward and the impact of hatchery management options will be visible immediately.
Stocking Site in California
BTC Stocking site in California
Restocking commercial fisheries or endangered populations is a different problem because in these cases the performance of the program is more medium to long term. Especially when protecting populations that are close to extinction the risks of loss or drastic change of the genetic profile of the original population may have strong impacts on the capacity of the new population to adapt to the habitat occupied by the population and lead to a faster extinction on the original population.
In these hatcheries performance measurement should include for example frequent (2-4 times per year) evaluation of the numbers of fish or shellfish in the population, age classes and genetic characterization. If the population is stable or growing, the age-class distribution is acceptable (varies form species to species) and the genetic makeup is healthy (low inbreeding, similar pattern of alleles to the original population), then the program is performing well.
The mother company should use these performance indicators (KPIs) to evaluate the degree of success of the hatchery, but to have these KPIs in acceptable ranges the hatchery needs to implement processes of genetic characterization of broodstock and fry, ensure the health of fry before release into the wild, and a number of other processes that add cost to the operation but that are essential for the success of the program.
Similarly, restocking commercial fisheries with inbred or diseased fry may lead to the opposite goal and the destruction of the fishery. Success here should also be measured by frequent monitoring of the genetic profile of the wild and hatchery population, by age-class analysis in the wild population and of course, by the size of the fisheries’ harvest.
I remember a talk in a meeting on Salmon Ranching in Nanaimo, BC (20+ years ago) where scientists measuring the performance of some of the large re-stocking hatcheries on the Columbia river concluded that the biomass of parr fry stocked in the river was greater than the biomass harvested in the corresponding salmon fishery. The interpretation back then was linked to poor genetic profile of the parr released (high inbreeding, maladapted to the specific river habitat, poor homing behavior), issues of health and others. Clearly these hatcheries were not, back then, reaching the goals they were meant to achieve. I also remember that the public pressure on the power companies was high and perhaps if they could show better performance of their re-stocking programs they could have improved their images.
— Diogo Thomaz
Diogo Thomaz, PhD, MBA, is a Technical and Business Consultant for the Aquaculture Industry, based in Athens, Greece. After 15 years as R&D project manager and other industry positions he now leads Aquanetix (www.aquanetix.co.uk), a data management and reporting service for the global aquaculture industry. He also heads RealSales Ltd (www.realsales.eu) a sales consultancy company that helps businesses expand their opportunities in export markets. He can be contacted by email on firstname.lastname@example.org