Ensuring adequate food and nutrition security for a growing global population is still a daunting challenge. Aquaculture has a permanent role in world food security and supply. Globally, food fish consumption has increased annually by around 3.1%, a growth rate which is higher than all other animal protein foods (meat, dairy, milk, etc.), which are increasing by 2.1% each year. On average, world aquaculture production of farmed aquatic animals grew by 5.3% year-on-year.
Alongside aquaculture growth, the aquafeed markets have followed the same fast-growing trend. Recently, aquaculture feed production grew by 3.7% and is estimated to be around 57 million tonnes. Production is dominated by carps, with approximately 28%, followed by tilapia at 18%, marine shrimp at 14.6%, catfish at 11.2%, marine fish at 8.1%, salmon at 6.9%, freshwater crustaceans at 4.6%, other freshwater fish at 3.6%, trout at 2.1%, and other species accounting for 2.9% (Figure 1).
Figure 1. Total estimated aquafeed production per species worldwide
Trial in carps
Hostazym X is the only fibre degrading enzyme approved by the European Commission to be used in feed for carp species. It is a highly efficient fibre degrading enzymatic complex which increases nutrient digestibility, resulting in better growth performance and a healthier gut environment.
To challenge Hostazym X, a trial was conducted in an outdoor facility at the University of Poznan, Poland. This trial allowed Hostazym X to be tested under adverse conditions where the water temperature fluctuated from 13.5 to 24.7oC and dissolved oxygen ranged from 2.0 to 5.1 mg/l. As is known, low oxygen levels have a big impact on the feed conversion ratio in fish, and growth and health are impacted.
The trial was set up using three different concentrations of Hostazym X; 1050, 1500 and 3000 EPU/kg feed and compared to a control feed without Hostazym X supplementation. Fish oil at 2% was used to coat the extruded diets with the enzyme. A set of 12 ponds with 40m2 were each stocked with 20 x 375 g fish and fed for 90 days. No mortality was observed over the trial duration.
Hostazym X performance for all three levels of inclusion was better than the control group. The results are presented in Table 1 below and show:
Table 1. Key growth parameters. Different superscripts represent statistical differences at p ≤ 0.05
Trial in shrimps
To challenge Hostazym X in crustaceans, a trial was conducted at an outdoor facility at the University of Nakhon Pathom, Thailand. This trial allowed Hostazym X to be tested under farm conditions both alone and in combination with OptiPhos phytase enzyme. Water temperature fluctuated from 27.4 to 29.7oC, dissolved oxygen was above 4 mg/l, salinity around 10 ppt, and total ammonia <1.0 mg/L.
The trial was set up to compare three treatments against a control diet without enzyme supplementation (Table 2):
One coating material at 2% was used to coat the pelleted diets with the enzymes. A set of 20 cages with 2 x 1 x 1.5 m were each stocked with 80 juveniles of 2 g ± 0.03 white-leg shrimp (Penaeus vannamei) and fed for 56 days.
Table 2. Experimental set-up
The results in Figures 2 and 3 show statistical differences between the treatments:
Figure 2. Shrimp biomass produced per cage over 8 weeks. Different superscripts represent statistical differences at p < 0.05
Figure 3. Individual shrimp weight per treatment obtained after 8 weeks. Different superscripts represent statistical differences at p < 0.05
Conclusions