Abstract: Stable carbon and nitrogen isotope analysis was used to identify the aquaculture-derived organic matter in the sediment in and around a coastal fish farm in China. Results showed that mean δ13C value in fi...Abstract: Stable carbon and nitrogen isotope analysis was used to identify the aquaculture-derived organic matter in the sediment in and around a coastal fish farm in China. Results showed that mean δ13C value in fish farm area (within 1 O0 m from the edge of cages) and control area (500 m from the edge of cages) was -17.72±1.29/oo and -12.73± 0.380/00, respectively. Mean δ15N value of fish farm area and control area was 6.44 4±0.2%0 and 5.61 4±0.2%0, respectively. The sediment in the fish farm area was characterized by high waste food (47.70%) and faeces (27.71%) ratio, as the distance from the fish cages increased, aquaculture-derived organic matter decreased expontially (y = 97.167e-0.0074x, R2= 0.8481). The spatial extent of waste dispersal extended to an area up to 400 m.展开更多
文摘Abstract: Stable carbon and nitrogen isotope analysis was used to identify the aquaculture-derived organic matter in the sediment in and around a coastal fish farm in China. Results showed that mean δ13C value in fish farm area (within 1 O0 m from the edge of cages) and control area (500 m from the edge of cages) was -17.72±1.29/oo and -12.73± 0.380/00, respectively. Mean δ15N value of fish farm area and control area was 6.44 4±0.2%0 and 5.61 4±0.2%0, respectively. The sediment in the fish farm area was characterized by high waste food (47.70%) and faeces (27.71%) ratio, as the distance from the fish cages increased, aquaculture-derived organic matter decreased expontially (y = 97.167e-0.0074x, R2= 0.8481). The spatial extent of waste dispersal extended to an area up to 400 m.
