陈浙，等                                                                  水产学报, 2025, 49(8): 089411

                    of the stoichiometry of photoautotrophic, autotrophic, and het-  Bioresource Technology, 2019, 294: 122114.
                    erotrophic  removal  of  ammonia–nitrogen in  aquaculture   sys-  [28]   张泽锟, 闫勇, 郭静, 等. 异养硝化-好氧反硝化菌株的分离、
                    tems[J]. Aquaculture, 2006, 257(1-4): 346-358.  鉴定及其氨氮降解过程初探       [J]. 中国酿造, 2022, 41(8): 83-
              [20]   Yun L, Yu Z H, Li Y Y, et al. Ammonia-nitrogen and nitrite  88.

                    removal  by  a  heterotrophic  Sphingomonas  sp.  strain  LPN080  Zhang Z K, Yan Y, Guo J, et al. Isolation, identification and
                    and  its  potential  application  in  aquaculture[J].  Aquaculture,  ammonia-nitrogen degradation process of heterotrophic nitrific-
                    2019, 500: 477-484.                             ation-aerobic  denitrification  strain[J].  China  Brewing,  2022,
              [21]   雷阳, 张倩, 陈钰, 等. 对虾养殖高效降解氨氮微生态菌的筛                41(8): 83-88 (in Chinese).
                    选与鉴定  [J]. 福建农业科技, 2019(10): 16-20.       [29]   Fang J K, Liao S A, Zhang S S, et al. Characteristics of a novel
                    Lei Y, Zhang Q, Chen Y, et al. Screening and identification of  heterotrophic   nitrification-aerobic   denitrification   yeast,
                    microecological bacteria for the efficient degradation of ammo-  Barnettozyma  californica  K1[J].  Bioresource  Technology,
                    nia-nitrogen in shrimp aquaculture[J]. Fujian Agricultural Sci-  2021. 339: 125665.

                    ence and Technology, 2019(10): 16-20 (in Chinese).  [30]   Kundu P, Pramanik A, Dasgupta A, et al. Simultaneous hetero-
              [22]   信欣, 姚力, 鲁磊, 等. 耐高氨氮异养硝化-好氧反硝化菌   TN-14         trophic nitrification and aerobic denitrification by Chryseobac-
                    的鉴定及其脱氮性能     [J]. 环境科学, 2014, 35(10): 3926-3932.  terium  sp.  R31  isolated  from  abattoir  wastewater[J].  BioMed
                    Xin X, Yao L, Lu L, et al. Identification of a high ammonia-  Research International, 2014, 2014: 436056.
                    nitrogen tolerant and heterotrophic nitrification-aerobic denitri-  [31]   Cui  Y,  Cui  Y  W,  Huang  J  L.  A  novel  halophilic  Exiguobac-
                    fication bacterial strain TN-14 and its nitrogen removal capabil-  terium  mexicanum  strain  removes  nitrogen  from  saline
                    ities[J].  Environmental  Science,  2014,  35(10):  3926-3932  (in  wastewater via heterotrophic nitrification and aerobic denitrific-
                    Chinese).                                       ation[J]. Bioresource Technology, 2021, 333: 125189.
              [23]   Greenberg  A  E,  Trussell  R  R,  Clesceri  L  S,  et  al.  Standard  [32]   An  Q,  Zhou  Y,  Zhao  B,  et  al.  Efficient  ammonium  removal
                    methods for the examination of water and wastewater: supple-  through  heterotrophic  nitrification-aerobic  denitrification  by
                    ment  to  the  sixteenth  edition[J].  American  Journal  of  Public  Acinetobacter  baumannii  strain  AL-6  in  the  presence  of
                    Health and the Nations Health, 2005, 56(3): 387.  Cr(VI)[J].  Journal  of  Bioscience  and  Bioengineering,  2020,

              [24]   Yang J R, Wang Y, Chen H, et al. Ammonium removal charac-  130(6): 622-629.
                    teristics  of  an  acid-resistant  bacterium  Acinetobacter  sp.  JR1  [33]   Xu N, Liao M, Liang Y Q, et al. Biological nitrogen removal
                    from pharmaceutical wastewater capable of heterotrophic nitri-  capability and pathways analysis of a novel low C/N ratio het-
                    fication-aerobic  denitrification[J].  Bioresource  Technology,  erotrophic nitrifying and aerobic denitrifying bacterium (Bacil-
                    2019, 274: 56-64.                               lus thuringiensis strain WXN-23)[J]. Environmental Research,
              [25]   Wang  Y,  Zou  Y  L,  Chen  H,  et  al.  Nitrate removal   perform-  2021, 195: 110797.
                    ances of a new aerobic denitrifier, Acinetobacter haemolyticus  [34]   Zhang Q L, Liu Y, Ai G M, et al. The characteristics of a novel
                    ZYL,  isolated  from  domestic  wastewater[J].  Bioprocess  and  heterotrophic  nitrification–aerobic  denitrification  bacterium,
                    Biosystems Engineering, 2021, 44(2): 391-401.   Bacillus  methylotrophicus  strain  L7[J].  Bioresource  Techno-

              [26]   Duan J M, Fang H D, Su B, et al. Characterization of a halo-  logy, 2012, 108: 35-44.
                    philic  heterotrophic  nitrification–aerobic denitrification   bac-  [35]   Xia L, Li X M, Fan W H, et al. Heterotrophic nitrification and
                    terium and its application on treatment of saline wastewater[J].  aerobic denitrification by a novel Acinetobacter sp. ND7 isol-
                    Bioresource Technology, 2015, 179: 421-428.     ated  from  municipal  activated  sludge[J].  Bioresource  Techno-
              [27]   Jia Y T, Zhou M M, Chen Y C, et al. Carbon selection for nitro-  logy, 2020, 301: 122749.
                    gen  degradation  pathway  by  Stenotrophomonas  maltophilia:  [36]   Wan W J, He D L, Xue Z J. Removal of nitrogen and phos-
                    based  on  the  balances  of  nitrogen,  carbon  and  electron[J].  phorus by heterotrophic nitrification-aerobic denitrification of a

              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
                                                            9