1 Copepod oil produced by Calanus A

1 Copepod oil produced by Calanus AS (www.calanus.no).

2 From Falch, et al , Process Biochemistry 2006;41 : 666-674

3 From Phleger, et al Comparative Biochemistry and Physiology Part B 2002;131 :733-747

4 From Standal et al., J Am Oil Chem Soc 2008; 85: 105-112

5 From Hagen et al, Marine Biology 2001 ;139:95-104 Besides the notable difference in gross chemical composition, the three marine oils used here for illustration purposes, are different also in their content of n-3 fatty acids (Table 1).

To illustrate the uniqueness of the oil composition according to the present invention, the corresponding compositions of conventional cod liver oil and krill oil are shown for comparison. It is evident from gross chemical analysis that these oils are highly different, in particular regarding their contents of wax esters, triglycerides, phospholipids, and of astaxanthin (not shown). It should be noted that wax esters constitute the major lipid component in the copepod oil of the present invention, unlike both cod liver oil and krill oil.

The most noteworthy difference in fatty acid composition between the three oils is the higher stearidonic acid (SDA), but lower docosahexaenoic acid (DHA) content in the copepod oil.

In the oil composition of the present invention, SDA, EPA and DHA exist to a large extent as esters with unsaturated long-chain fatty alcohols. In conclusion, the copepod oil of the present invention differs markedly from typical fish oil and krill oil in both gross chemical composition and fatty acid content. It is, however, similar to other marine oils in its overall level of n-3 fatty acids.

A typical composition of wax esters and fatty alcohols/fatty acids combinations in an oil composition of the present invention is shown in Table 2.

Table 2. Typical composition of wax esters and fatty alcohol/fatty acid combinations (% (w/w)) in copepod oil derived from Calanus finmarchicus