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The food consumption and ecological conversion efficiency of a species marine pelagic andsmall size fish, Hyporhamphus sajori, were determined by using in situ stomach content method presented by Eggers. The results showed that: (1) the fish was taken in food all day, so empty-stomach rate was very low, taking up about 4.5% of the total determined fish number. However, the fish still has significant daily feeding rhythm. A feeding peak was found 0:00 o’clock at night, but feeding level was always high in the daytime; (2) relationship between instantaneous food content in stomach and corresponding time could be described as S_t = a ·e ~(-b ·t). There was not significant difference of instantaneous gastric evacuation rate between two determinations, with average value being 0.13 × 10~(-2)g/ (g·d) (wet weight); (3) the daily food consumption tended to change in irregular waving form, with average value being (10.16×l0~(-2)±1.19×l0~(-2) g/ (g·d) (wet weight) or (55.56 × 10~(-2) ±6.51 × 10~(-2) kJ/
The food consumption and ecological conversion efficiency of a species marine pelagic andsmall size fish, Hyporhamphus sajori, were determined by using in situ stomach content method presented by Eggers. The results showed that: (1) the fish was taken in food all day, so However, the fish still has significant daily feeding rhythm. A feeding peak was found 0:00 o’clock at night, but feeding level was always high in the daytime; (2) relationship between instantaneous food content in stomach and corresponding time could been described as S_t = a · e ~ (-b · t). There was not significant difference of instantaneous gastric evacuation rate between two determinations, with (3) the daily food consumption tended to change in irregular waving form, with average value being (10.16 × 10 ~ (-2) g / d ) ± 1.19 × l0 ~ (-2) g / (g · d) (wet weight) or (55.56 × 10 ~ (-2) ± 6.51 × 10 ~ (-2) kJ /