我国常用湖泊营养状态指数研究进展与展望  被引量：2

作　　者：宋子豪 邹伟[1] 桂智凡 许海[1] 蔡永久[1] Song Zihao;Zou Wei;Gui Zhifan;Xu Hai&Cai Yongjiu(State Key Laboratory of Lake Science and Environment,Nanjing Institute of Geography and Limnology,Chinese Academy of Sciences,Nanjing 210008,P.R.China;College of Urban and Environmental Sciences,Hubei Normal University,Huangshi 435002,P.R.China)

机构地区：[1]中国科学院南京地理与湖泊研究所,湖泊与环境国家重点实验室,南京210008 [2]湖北师范大学城市与环境学院,黄石435002

出　　处：《湖泊科学》2024年第4期987-1000,I0001,共15页Journal of Lake Sciences

基　　金：国家重点研发计划项目(2022YFC3204100);国家自然科学基金项目(42107078,42271126);江苏省双创博士项目(JSSCBS20211399);中国科学院南京地理与湖泊研究所自主部署项目(NIGLAS2022GS03)联合资助。

摘　　要：湖泊(包括自然湖泊和人工水库)富营养化已成为世界性的环境问题,营养状态指数是目前最流行的富营养化水平量化方法。然而,不同营养状态指数的基本逻辑和适用水体等方面存在明显差异,不当选取可能会造成营养水平和相关水华风险的错误估计,并引发湖泊保护和修复措施的错位。鉴于此,本文对我国常用营养状态指数的构建思路、共性和差异以及不确定性来源等进行了综述。总体来看,营养状态指数基本构建思路分3种:1)Carlson指数型(如TSI),以透明度(SD)为核心参数,使用SD的2倍变化对应指数的10分差值,假定SD为64 m时记为指数值0分;2)改良TSI指数型(如TSIm),以叶绿素a(Chl.a)为核心参数,使用Chl.a的2.5倍变化对应指数的10分差值,假定Chl.a 1000μg/L对应该指数100分;3)营养足迹指数型(如TFI),该指数亦使用Chl.a指示藻类生物量,Chl.a的e倍关系对应藻类生物量的二倍变化和指数10分差值,假定Chl.a为10μg/L时对应该指数50分。根据上述假设得出对应的基础参数评估方程,然后均以基础参数(SD或Chl.a)与衍生参数间的经验方程“直接替换”获得衍生参数的评估方程。如上可知,营养状态指数均体现了数值增大表征藻类初级生产力和伴随的水华风险提高的共性,同时本文也从:1)数据集属性和基础指标评估方程获取的方法;2)衍生指标评估方程获取的统计原理;3)分项指标的权重设置方式3个方面分析营养状态指数之间的差异性。未来展望方面,首先,鉴于当前营养状态指数均属于通用性指数,因而建议未来基于上述3种基本类型开发因地制宜的营养状态指数,实现湖泊藻类生产力和水华风险的精准指示;其次,营养状态指数的生态学依据是藻类限制因子理论,营养状态指数各分项指标(即基于总氮、总磷、SD和Chl.a)的差异可以指示初级生产力的限制因子,建议未来开展营养状态指数分项指�The eutrophication of lakes(including natural lakes and artificial reservoirs)and the associated algal blooms are global environmental problems,and the trophic state index is the most popular tool for quantifying eutrophication levels.However,there are obvious differences in ecological principle,applicability,etc.between the commonly used trophic state indices,and improper use may lead to misestimation of eutrophication levels and the associated risk of algal blooms,resulting in misalignment of lake protection and restoration measures.Here,the ecological principle,commonalities,differences and sources of uncertainty of commonly used trophic state indices in China were reviewed in the current study.In general,the ecological principle of trophic level index includes three types:1)Carlson type(e.g.trophic state index,TSI),secchi depth(SD)was considered as the key variable in Carlson type index,and doubled SD corresponds to the 10 points difference of the index,which hypothetically indicates doubled phytoplankton biomass changes.In addition,it is assumed that when SD reaches 64 m,it is recorded as an index value of 0;2)modified TSI type(e.g.modified trophic state index,TSIm),chlorophyll-a(Chl.a)is considered as the key variable in modified TSI type,and 2.5-fold change in Chl.a corresponds to the 10-score difference that hypothetically indicated doubled phytoplankton biomass changes.Meanwhile,it is assumed that when Chl.a reaches 1000μg/L,the corresponding index score is 100;3)Trophic Footprint Index type(e.g.trophic footprint index,TFI),which also uses Chl.a as an indicator of algal biomass,with the e-fold of Chl.a corresponding to 10-score difference in the index,which hypothetically indicated doubled phytoplankton biomass changes.It was also assumed that 50 points of the index corresponded to a Chl.a of 10μg/L.The corresponding base equations of the‘key variable’(i.e.SD or Chl.a)were derived based on the above assumptions,and then both were‘directly replaced’with empirical equation models between the key

关 键 词：营养盐 藻类水华 富营养化 生态修复 湖泊生态系统健康 

分 类 号：X524[环境科学与工程—环境工程]