第 2 期                   黄仕宇等： 福建省山仔水库碳磷比生态计量特征研究                                       223

                   spheric carbon  dioxide:  its  role  in  maintaining   phyto-  China.  Technical  code  of  phytoplankton  monitoring  in
                   plankton  standing  crops[J].  Science,  1972,  177(4055):  inland waters: SL 733—2016[S]. Beijing: China Water
                   1192 − 1194.                                     & Power Press, 2016.
              ［16］   柳星，贺海波，刘再华. 水体      CO 2 施肥及其碳增汇和        ［25］   国家环境保护局. 水质 总磷的测定 钼酸铵分光光度
                   富营养化缓解效应       [J]. 第四纪研究，2023，43（2） ：           法：GB 11893—1989[S]. 北京：中国标准出版社，1989.
                   573 − 585.                                       State  Environmental  Protection  Administration  of  the
                   Liu X, He H B, Liu Z H. Effects of CO 2  fertilization in  People’s Republic of China. Water quality—determina-
                   aquatic ecosystems on the carbon sequestration and eu-  tion of total phosphorus—ammonium molybdate spectro-
                   trophication  mitigation[J].  Quaternary  Sciences,  2023,  photometric  method:  GB  11893—1989[S].  Beijing:
                   43(2): 573 − 585.                                Standards Press of China, 1989.
              ［17］   Balmer M B, Downing J A. Carbon dioxide concentra-  ［26］   中华人民共和国环境保护部. 水质 总氮的测定 碱性过
                   tions in  eutrophic  lakes:  undersaturation  implies   atmo-  硫酸钾消解紫外分光光度法：HJ 636—2012[S]. 北
                   spheric uptake[J]. Inland Waters, 2011, 1(2): 125 − 132.  京：中国环境科学出版社，2012.
              ［18］   Drake J L, Carpenter E J, Cousins M, et al. Effects of  Ministry of Environmental Protection of the People’s Re-
                   light and nutrients on seasonal phytoplankton succession  public  of  China.  Water  quality—determination  of  total
                   in a temperate eutrophic coastal lagoon[J]. Hydrobiolo-  nitrogen—alkaline  potassium  persulfate  digestion  UV
                   gia, 2010, 654(1): 177 − 192.                    spectrophotometric method: HJ 636—2012[S]. Beijing:
              ［19］   Kwiatkowski L, Aumont O, Bopp L, et al. The impact of  China Environmental Press, 2012.
                   variable  phytoplankton  stoichiometry  on  projections  of  ［27］   国家环境保护局. 水质 高锰酸盐指数的测定：GB 11892—
                   primary  production,  food  quality,  and  carbon  uptake  in  1989[S]. 北京：中国标准出版社，1989.
                   the  global  ocean[J].  Global  Biogeochemical  Cycles,  State  Environmental  Protection  Administration  of  the
                   2018, 32(4): 516 − 528.                          People’s Republic of China. Water quality—determina-
              ［20］   Lu  X  Q,  Yu  W  W,  Chen  B,  et  al.  Imbalanced  phyto-  tion  of  permanganate  index:  GB  11892—1989[S].
                   plankton C, N, P and its relationship with seawater nutri-  Beijing: Standards Press of China, 1989.
                   ents in Xiamen Bay, China[J]. Marine Pollution Bullet-  ［28］   Zhang L J, Xue M, Wang M, et al. The spatiotemporal
                   in, 2023, 187: 114566.                           distribution of dissolved inorganic and organic carbon in
              ［21］   Shi X L, Li S N, Wei L J, et al. CO 2  alters community  the main stem of the Changjiang (Yangtze) River and the
                   composition  of  freshwater  phytoplankton:  a  microcosm  effect of the Three Gorges Reservoir[J]. Journal of Geo-
                   experiment[J]. Science of the Total Environment, 2017,  physical Research: Biogeosciences, 2014, 119(5): 741 −
                   607−608: 69 − 77.                                757.
              ［22］   钟可儿，杨潇，马吉顺，等. 长江干流浮游植物群落                 ［29］   Hodapp  D,  Hillebrand  H,  Striebel  M.  “Unifying”  the
                   结构空间异质性及其影响因素           [J]. 长江流域资源与             concept of resource use efficiency in ecology[J]. Fronti-
                   环境，2022，31（11） ：2458 − 2472.                     ers in Ecology and Evolution, 2019, 6: 233.
                   Zhong K E, Yang X, Ma J S, et al. Spatial heterogeneity  ［30］   王远飞，周存通，赵增辉，等. 亚热带水库浮游植物
                   and driving  factors  of  phytoplankton  community   struc-  季节动态及其与环境因子的关系  [J]. 生态学报，2021，
                   ture  in  the  main  stem  of  the  Yangtze  River[J].  Re-  41（10） ：4010 − 4022.
                   sources  and  Environment  in  the  Yangtze  Basin,  2022,  Wang Y F, Zhou C T, Zhao Z H, et al. Seasonal dynam-
                   31(11): 2458 − 2472.                             ics of phytoplankton and its relationship with the envir-
              ［23］   胡鸿钧，魏印心. 中国淡水藻类——系统、分类及生                       onmental factors in subtropical reservoirs[J]. Acta Eco-
                   态  [M]. 北京：科学出版社，2006.                           logica Sinica, 2021, 41(10): 4010 − 4022.
                   Hu H J, Wei Y X. The freshwater algae of China: sys-  ［31］   Katkov E, Low-Décarie É, Fussmann G F. Intra-annual
                   tematics,  taxonomy  and  ecology[M].  Beijing:  Science  variation of phytoplankton community responses to fac-
                   Press, 2006.                                     torial  N,  P,  and  CO 2   enrichment in  a  temperate   meso-
              ［24］   中华人民共和国水利部. 内陆水域浮游植物监测技术规                      trophic lake[J]. Freshwater Biology, 2020, 65(5): 960 −
                   程：SL 733—2016[S]. 北京：中国水利水电出版社，2016.             970.
                   Ministry of Water Resources of the People’s Republic of  ［32］   Wilhelm S W, Bullerjahn G S, McKay R M L. The com-