舟山市东极大黄鱼养殖系统能值评估  被引量：9

作　　者：宋科[1] 赵晟[1] 蔡慧文[1] 吴常文[1] 

机构地区：[1]国家海洋设施养殖工程技术研究中心浙江海洋学院,舟山316004

出　　处：《生态学报》2013年第12期3846-3854,共9页Acta Ecologica Sinica

基　　金：国家自然科学基金(40971295;41001001;41206088);浙江省科技厅面上项目(2009C33083);国际科技合作项目(2009DFB20290);2012年浙江省大学生科技创新计划(新苗人才计划)资助项目(2012R411046)

摘　　要：以能值理论为基础,选择浙江省舟山市东极大黄鱼养殖系统为研究对象,在定量分析大黄鱼养殖系统的物流和能流基础上,通过建立能值评价指标体系,综合评价了东极大黄鱼养殖系统对环境的影响及其可持续性。结果表明:东极大黄鱼养殖系统的太阳能值转换率TR为1.46×106sej/J,环境承载力ELR为91.10,能值投入的生产效率PEEI为6.91×10-7,能值持续性指数ESI为0.011。东极大黄鱼养殖系统虽然生产效率较高,但是过分依赖于外部购买资源,并且系统对环境的压力较大,环境的持续性也较差。另外,与广东珠江口3个不同鱼种养殖系统的有关指标进行了对比,提出了大黄鱼养殖系统的可持续性发展建议。Emergy analysis, which both considers the economic aspect and the natural contribution through meaningful comparison across different systems, has been proved to be a powerful tool to assess the ecological economic systems and processes, especially in the maricuhure field. In this paper, emergy analysis method is used for establishing a related index system to analyze the large yellow croaker system in Dongji. System indices such as TR, EPD, ELR, EYR, PEEI, EERy, ESI and EISD were applied to characterize the resource use, environmental impact and the overall sustainability of the studied system. And the data obtained through the comparison of large yellow croaker aquaculture system in Dongji island and three aquaculture systems surrounding the Pearl River Estuary was discussed. The results showed that the TR of large yellow croaker aquaculture system is 1.46×10^6sej/J, which was in the middle of three aquaculture systems surrounding the Pearl River Estuary, but lower than the average value of systems studied before. The EPD of large yellow croaker aquaculture system is 2.07×l0^17Tsej＇hm^-2.a^-1 , and ELR is 91.10. And in this study, purchased external resource emergy inputs achieved a greater effect than putting renewable environmental resource emergy in large yellow croaker aquaculture system. And results showed the system had more dependence on purchasing external resource emergy inputs. The ESI is 0. 011, EISD is 0.02, which indicate that the large yellow croaker aquaculture system is less sustainable. Based on sensitivity analysis, ESI and EISD these two sustainable indicators are elevated, due to half reduced the inputs amount of fingerlings and double increased the inputs of rain chemical. Based on above analysis, getting two effective solutions ： （ 1 ） By reducing feed inputs, improving the feed utilization efficiency, aquaculture facilities deployed in areas with morerainfall, to improve local renewable resources inputs proportion; （2） By improving the labor efficiency or breeding technology

关 键 词：大黄鱼养殖系统 能值分析 可持续性 

分 类 号：S965.322[农业科学—水产养殖]