留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

胶州湾表层海水NO的分布特征及其影响因素

田野 薛超 刘春颖 李培峰

田野, 薛超, 刘春颖, 李培峰. 胶州湾表层海水NO的分布特征及其影响因素[J]. 环境科学研究, 2016, 29(10): 1451-1458.
引用本文: 田野, 薛超, 刘春颖, 李培峰. 胶州湾表层海水NO的分布特征及其影响因素[J]. 环境科学研究, 2016, 29(10): 1451-1458.
TIAN Ye, XUE Chao, LIU Chunying, LI Peifeng. Distribution and Influencing Factors of Nitric Oxide in the Surface Water of Jiaozhou Bay[J]. Research of Environmental Sciences, 2016, 29(10): 1451-1458.
Citation: TIAN Ye, XUE Chao, LIU Chunying, LI Peifeng. Distribution and Influencing Factors of Nitric Oxide in the Surface Water of Jiaozhou Bay[J]. Research of Environmental Sciences, 2016, 29(10): 1451-1458.

胶州湾表层海水NO的分布特征及其影响因素

基金项目: 国家自然科学基金项目(41176062,40706040)

Distribution and Influencing Factors of Nitric Oxide in the Surface Water of Jiaozhou Bay

  • 摘要: 为了解近海海水中NO的时空分布特征及其影响因素,采用化学发光法对2010—2011年胶州湾内表层海水中的c(NO)进行了观测,并结合水文、生物等要素的同步观测资料,探讨了该海域NO分布特征及影响因素.结果表明:胶州湾内表层海水c(NO)春季最低,为(11.8±4.6) pmol/L;秋季最高,为(471.3±106.3) pmol/L;夏季和冬季差别不大.该海域c(NO)的水平分[JP+1]布呈湾中心及湾口部分较低、河口较高的特点.湾口部分c(NO)春季最低,为2.0 pmol/L;湾中心部分c(NO)秋季最高,达356.0 pmol/L.c(NO)与温度、盐度及c(NO2-)表现出相关性,陆地径流输入对海水中NO的分布也有影响,大沽河下游丰水季c(NO)达到348.1 pmol/L,枯水季c(NO)仅为119.8 pmol/L.研究显示,胶州湾表层海水为大气NO的源,2010—2011年胶州湾表层海水NO的海-气通量为3.8×10-15 mol/(cm2·s),胶州湾年NO释放量(以N计)约为5.8×106 g.

     

  • [1] GANINI D,HOLLNAGEL H C,COLEPICOLO P,et al.Hydrogen peroxide and nitric oxide trigger redox-relatedcyst formation in cultures of the dinoflagellate Lingulodinium polyedrum.Harmful Algae,2013,27:121-129.
    [2] CHEN Ting,WONG Naikei,JIANG Xiao,et al.Nitric oxide as an antimicrobial molecule against Vibrio harveyi infection in the hepatopancreas of Pacific white shrimp,Litopenaeus vannamei.Fish & Shellfish Immunology,2015,42(1):114-120.
    [3] QIAN Haifeng,CHEN Wei,LI Jingjing,et al.The effect of exogenous nitric oxide on alleviating herbicide damage in Chlorella vulgaris.Aquatic Toxicology,2009,92(4):250-257.
    [4] TANG Xiang,CHEN Juan,WANG Wenhua,et al.The changes of nitric oxide production during the growth of Microcystis aerugrinosa.Environmental Pollution,2011,159(12):3784-3792.
    [5] GUPTA K J,IGAMBERDIEV A U,MANJUNATHA G,et al.The emerging roles of nitric oxide(NO) in plant mitochondria.Plant Science An International Journal of Experimental Plant Biology,2011,181(5):520-526.
    [6] CORPAS F J,LETERRIER M,VALDERRAMA R,et al.Nitric oxide imbalance provokes a nitrosative response in plants under abiotic stress.Plant Science,2011,181(5):604-611.
    [7] CHEN Ting,REN Chunhua,LI Wuhu,et al.Calmodulin of the tropical sea cucumber:gene structure,inducible expression and contribution to nitric oxide production and pathogen clearance during immune response.Fish & Shellfish Immunology,2015,45(2):231-238.
    [8] LIPSCHULTZ F,WOFSY S C,MCELROY M B,et al.Production of NO and N2O by soil nitrifying bacteria.Nature,1982,294:641-643.
    [9] LEHNER C,KERSCHBAUM H H,LTZ-MEINDL U.Nitric oxide suppresses growth and development in the unicellular green alga Micrasterias denticulate.Journal of Plant Physiology,2009,166(2):117-127.
    [10] ZEHR J P,WARD B B.Nitrogen cycling in the ocean:new perspectives on processes and paradigms.Applied Environmental Microbiology,2002,68(3):1015-1024.
    [11] 刘春颖,张正斌,邢磊,等.一氧化氮的海洋生物地球化学.中国海洋大学学报,2004,34(S1):16-22.LIU Chunying,ZHANG Zhengbin,XING Lei,et al.The ocean biogeochemistry of nitric oxide.Periodical of Ocean University of China,2004,34(S1):19-22.
    [12] KIM D,KANG Y S,LEE Y,et al.Detection of nitric oxide(NO) in marine phytoplankters.Journal of Bioscience and Bioengineering,2008,105(4):414-417.
    [13] ZAFIRIOU O C,MCFARLAND M.Determination of trace levels of nitric oxide in aqueous solution.Analytical Chemistry,1980,52(11):1662-1667.
    [14] MUR L A J,MANDON J,CRISTESCU S M,et al.Methods of nitric oxide detection in plants:a commentary.Plant Science,2011,181(5):509-519.
    [15] ZAFIRIOU O C,TRUE M B.Interferences in environmental analysis of nitric oxide by nitric oxide pulse ozone detectors:a rapid screening technique.Environmental Science & Technology,1986,20:594-596.
    [16] ZAFIRIOU O C.Marine organic photochemistry previewed.Marine Chemistry,1977,5:497-522.
    [17] ZAFIRIOU O C,MCFARLAND M,BROMUND R H.Nitric oxide in seawater.Science,1980,207(4431):637-639.
    [18] SCHREIBER F,STIEF P,KUYPERS M M,et al.Nitric oxide turnover in permeable river sediment.Limnology and Oceanography,2014,59(4):1310-1320.
    [19] YE R W,AVERILL B A,TIEDJE J M.Denitrification:production and consumption of nitric oxide.Applied Environmental Microbiology,1994,60(4):1053-1058.
    [20] KIM D,YAMAGUCHI K,ODA T.Nitric oxide synthase-like enzyme mediated nitric oxide generation by harmful red tide phytoplankton,Chattonella marina.Journal of Plankton Research,2006,28(6):613-620.
    [21] GALLOWAY J N,TOWNSEND A R,ERISMAN J W,et al.Transformation of the nitrogen cycle:recent trends,questions,and potential solutions.Science,2008,320(5878):889.
    [22] 李乃胜.胶州湾自然环境与地质演化.北京:海洋出版社,2006:21.
    [23] 张军岩,於琍,于格,等.胶州湾地区近50年气候变化特征分析及未来趋势预估.资源科学,2011,33(10):1984-1990.ZHANG Junyan,YU Li,YU Ge,et al.Analysis of climate change during the period 1959-2008 and climatic projection during the period 2011-2030 over the Jiaozhou Bay.Resources Science,2011,33(10):1984-1990.
    [24] SHEN Zhiliang.Historical changes in nutrient structure and its influences on phytoplankton composition in Jiaozhou Bay.Estuarine Coastal & Shelf Science,2001,52(2):211-224.
    [25] 刘洪滨,孙丽,何新颖.山东省围填海造地管理浅探:以胶州湾为例.海岸工程,2010,29(1):22-29.LIU Hongbin,SUN Li,HE Xinying.Preliminary study on reclamation management in Shandong:Jiaozhou Bay as an example.Coastal Engineering,2010,29(1):22-29.
    [26] LIU Sumei,ZHU Bingde,ZHANG Jing,et al.Environmental change in Jiaozhou Bay recorded by nutrient components in sediments.Marine Pollution Bulletin,2010,60(9):1591-1599.
    [27] 丰卫华,刘春颖,杨桂朋,等.海水中一氧化氮的化学发光法测定.海洋学报,2011,33(6):93-99.FENG Weihua,LIU Chunying,YANG Guipeng,et al.Chemiluminescence detection of nitric in seawater.Acta Oceanologica Sinica,2011,33(6):93-99.
    [28] 丰卫华.海水介质中一氧化氮分析方法的建立及其应用.青岛:中国海洋大学,2011.
    [29] 康美华.胶州湾生源要素的时空分布特征研究.青岛:中国海洋大学,2014.
    [30] 王修林.胶州湾主要化学污染物海洋环境容量.北京:科学出版社,2006.
    [31] ANIFOWOSE A J,TAKEDA K,SAKUGAWA H.Photoformation rate,steady-state concentration and lifetime of nitric oxide radical(NO) in a eutrophic river in Higashi-Hiroshima,Japan.Chemosphere,2014,119:302-309.
    [32] LAW C S.Air-sea transfer:N2O,NO,CH4,CO.Encyclopedia of Ocean Sciences,2001,1:137-144.
    [33] LISS P S,SLATER P G.Flux of gases across the air-sea interface.Nature,1974,274:181-184.
    [34] ZAFIRIOU O C,MCFARLAND M.Nitric oxide from nitrite photolysis in the central equatorial Pacific.Journal of Geophysical Research Atmospheres,1981,86(C4):3173-3182.
  • 加载中
计量
  • 文章访问数:  1555
  • HTML全文浏览量:  17
  • PDF下载量:  1335
  • 被引次数: 0
出版历程
  • 收稿日期:  2015-12-10
  • 修回日期:  2016-05-25
  • 刊出日期:  2016-10-25

目录

    /

    返回文章
    返回