1 期          周佳峥，等：三疣梭子蟹养殖底质恶化的表型和理化特征及其与细菌群落的相关性                                        50 卷

              [49]   Fierer N, Jackson R B. The diversity and biogeography of soil  [59]   Kuypers M M M, Marchant H K, Kartal B. The microbial nitro-
                    bacterial communities[J]. Proceedings of the National Academy  gen-cycling  network[J].  Nature  Reviews  Microbiology,  2018,
                    of Sciences of the United States of America, 2006, 103(3): 626-  16(5): 263-276.
                    631.                                      [60]   Sun X, Kop L F M, Lau M C Y, et al. Uncultured Nitrospina-
              [50]   Jani S A, Parekh Y M, Parmar T N, et al. Screening and charac-  like species are major nitrite oxidizing bacteria in oxygen min-
                    terization  of  alkaline  protease  producing  Bacillus  strain  B-4  imum zones[J]. The ISME Journal, 2019, 13(10): 2391-2402.
                    Bacillus  flexus  and  study  of  its  potential  for  alkaline  protease  [61]   Vuono D C, Read R W, Hemp J, et al. Resource concentration
                    production[J].  International  Journal  of  Current  Microbiology  modulates  the  fate  of  dissimilated  nitrogen  in  a  dual-pathway
                    and Applied Sciences, 2016, 5(5): 767-787.      actinobacterium[J]. Frontiers in Microbiology, 2019, 10: 3.
              [51]   姜泽建, 刘文畅, 谭洪新,等. 保存温度对生物絮团硝化性能和          [62]   王亚鑫, 吴玉, 张洪琳, 等. 微生物硫代谢及其驱动下建立的
                    形态结构的影响    [J]. 水产学报, 2024, 48(11): 119512.     生物生态关系   [J]. 微生物学报, 2022, 62(3): 930-948.
                    Jiang Z J, Liu W C, Tan H X, et al . Effect of preservation tem-  Wang Y X, Wu Y, Zhang H L, et al. Microbial sulfur metabol-
                    perature  on  the  nitrification  performance  and  morphological  ism and the bioecological relationships driven by sulfur meta-
                    structure  of  bioflocs[J].  Journal  of  fisheries  of  china,  2024,  bolism[J]. Acta Microbiologica Sinica, 2022, 62(3): 930-948 (in
                    48(11): 119512(in Chinese).                     Chinese).
              [52]   Li M Y, Li Q, Wang S R, et al. The diversity and biogeography  [63]   Larsen Ø, Lien T, Birkeland N K. Characterization of the des-
                    of bacterial communities in lake sediments across different cli-  ulforubidin operons from Desulfobacter vibrioformis and Des-
                    mate zones[J]. Environmental Research, 2024, 263: 120028.  ulfobulbus rhabdoformis[J]. FEMS Microbiology Letters, 2000,
              [53]   Herlina  N,  Lubis  M  T,  Husin  A,  et  al.  Studies  on  decreasing  186(1): 41-46.
                    Chemical  Oxygen  Demand  (COD)  on  artificial  laundry  [64]   Rey F E, Gonzalez M D, Cheng J Y, et al. Metabolic niche of a
                    wastewater  using  anaerobic-aerobic  biofilter  dipped  with  bio  prominent  sulfate-reducing  human  gut  bacterium[J].  Proceed-
                    ball media[J]. MATEC Web of Conferences, 2019, 276: 06015.  ings of the National Academy of Sciences of the United States
              [54]   Diakiv S V, Hnatush S O, Moroz O M, et al. Sulfur reducing  of America, 2013, 110(33): 13582-13587.
                    bacteria  from  coal  pits  waste  heaps  of  chervonograd  mining  [65]   Gao  P,  Zhang  X  T,  Huang  X  M,  et  al.  Genomic  insight  of
                    region[J]. Біологічні Студії/Studia Biologica, 2016, 10(2): 63-  sulfate reducing bacterial genus Desulfofaba reveals their meta-
                    76.                                             bolic versatility in biogeochemical cycling[J]. BMC Genomics,
              [55]   Sepehri A, Sarrafzadeh M H. Activity enhancement of ammonia-  2023, 24(1): 209.
                    oxidizing  bacteria  and  nitrite-oxidizing  bacteria  in  activated  [66]   Singh  S  B,  Carroll-Portillo  A,  Lin  H  C.  Desulfovibrio  in  the
                    sludge process: metabolite reduction and CO 2  mitigation intens-  gut: the enemy within?[J]. Microorganisms, 2023, 11(7): 1772.
                    ification process[J]. Applied Water Science, 2019, 9(5): 131.  [67]   Smii L, Hania W B, Cayol J L, et al. Fusibacter bizertensis sp.
              [56]   Wu M R, Hou T T, Liu Y, et al. Novel Alcaligenes ammonioxy-  nov. , isolated from a corroded kerosene storage tank[J]. Inter-
                    dans sp. nov. from wastewater treatment sludge oxidizes ammo-  national Journal of Systematic and Evolutionary Microbiology,
                    nia  to  N 2   with  a  previously  unknown  pathway[J].  Environ-  2015, 65(Pt_1): 117-121.
                    mental Microbiology, 2021, 23(11): 6965-6980.  [68]   Brioukhanov A L, Kadnikov V V, Beletsky A V, et al. Aerotol-
              [57]   Preena P G, Kumar V J R, Singh I S B. Nitrification and deni-  erant thiosulfate-reducing bacterium Fusibacter sp. strain WBS
                    trification  in  recirculating  aquaculture  systems:  the  processes  isolated  from  littoral  bottom  sediments  of  the  white  sea-bio-
                    and  players[J].  Reviews  in  Aquaculture,  2021,  13(4):  2053-  chemical and genome analysis[J]. Microorganisms, 2023, 11(7):
                    2075.                                           1642.
              [58]   Moschos S, Kormas K A, Karayanni H. Prokaryotic diversity in  [69]   Muyzer  G,  Stams  A  J  M.  The  ecology  and  biotechnology  of
                    marine  and  freshwater  recirculating  aquaculture  systems[J].  sulphate-reducing  bacteria[J].  Nature  Reviews  Microbiology,
                    Reviews in Aquaculture, 2022, 14(4): 1861-1886.  2008, 6(6): 441-454.








              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
                                                            13