生态基对大口黑鲈池塘养殖系统水质及能量收支的影响研究

Effect of eco-substrates on water quality and energy budget of largemouth bass (Micropterus salmoides) aquaculture system

  • 摘要: 为摸清生态基养殖池塘系统的能量流动规律,以放置生态基的大口黑鲈 (Micropterus salmoides) 池塘为研究对象,采用原位实验方法,研究了生态基对大口黑鲈池塘养殖系统的水质及能量收支的影响。实验期间,生态基可显著降低池塘水体中氨氮、硝态氮、总氮及总磷含量(P<0.05),但对亚硝态氮、磷酸盐、底泥总氮和总磷含量无显著影响(P>0.05);饵料投入是系统能量输入的主要来源,分别占对照组和实验组总输入能的53.26%和55.02%,其次为浮游生物生产,两组分别为45.92%和44.22%;浮游生物呼吸是能量输出的主要途径,分别占对照组和实验组总输出能的60.01%和56.68%,其次为养殖生物收获,两组分别为28.78%和31.99%;生态基实验组生物净产出能、光合能转化效率、饲料能转化效率及总能量转化效率均显著高于对照组(P<0.05),而单位净产量耗饲料能和单位净产量耗总能则显著低于对照组(P<0.05)。结果表明,在大口黑鲈池塘放置生态基能改善池塘环境,有效提高系统产出量及能量利用效率。

     

    Abstract: To find out the rule of the energy flowing of aquaculture ponds with eco-substrate, we carried out an experiment (the pond with eco-substrates as the treatment group and the pond without eco-substrate as the control group) and studied the effect of eco-substrates on the environment and energy budget of largemouth bass (Micropterus salmoides) aquaculture system. The results show that the eco-substrates could reduce the ammonia nitrogen, nitrate nitrogen, total nitrogen and total phosphorus in the water significantly (P<0.05), but there was no effect on the nitrite nitrogen, soluble reactive phosphate in the water and total nitrogen, total phosphorus in the sediments (P>0.05). In the study, forage fish was the main source of input energy in both two groups, which accounted for 53.26% and 55.02% of the total input energy, respectively. The primary production of phytoplankton was also the important source of input energy, accounting for 44.22% and 45.92% of the total input energy, respectively. The major output of energy was the respiration of plankton followed by the harvest of cultured animals, accounting for 56.68%, 60.01% and 28.78%, 31.99%, respectively. The treatment group had higher net biological output energy, photosynthetic conversion efficiency, feed energy conversion efficiency and total energy conversion efficiency (P<0.05), but lower feed energy consumption per unit of net yield and total energy consumption per unit of net yield (P<0.05). Therefore, the eco-substrates could improve the pond environment, increase the production and enhance the energy utilization efficiency effectively.

     

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