[1]Taylor S R.Abundance of chemical elements in the conti-nental crust: a new table[J].Geochim Cosmochim Acta,1964,28: 1 273-1 285.
[2]
[2]Martin J H,Gordon R M,Fitzwater S E.Iron in Antarctic waters[J].Nature,1990,345: 156-158.
[3]
[3]Sunda W G,Huntsman S A.Iron uptake and growth limi-tation in oceanic and coastal phytoplankton[J].Mar Chem,1995,50: 189-206.
[4]
[4]Coale K H,Johnson K S,Fitzwater S E,et al.A massive phytoplankton bloom induced by an ecosystem-scale iron fertilization experiment in the equatorial Pacific Ocean[J].Nature,1996,383: 495-501.
[5]
[5]Martin J H,Fitzwater S B.Iron deficiency limits phyto-plankton growth in the north-east Pacific subarctic[J].Nature,1988,331: 341-343.
[6]
[6]Boyd P W,Watso A J,Law C S,et al.A mesoscale Phyto-plankton bloom in the polar Southern Ocean stimu-lated by iron fertilization[J].Nature,2000,407: 695-702.
[7]
[7]Watson A J,Bakker D C E,Ridgwell A J,et al.Effect of iron supply on Southern Ocean CO2 uptake and implications for glacial atmosphere CO2[J].Nature,2000,407: 730-733.
[8]
[8]Turner S M,Nightingale P D,Spokes L J,et al.Increased dimethyl sulfide concentrations in sea water from in situ iron enrichment[J].Nature,1996,383: 513-517.
[9]
[9]Hutchins D A,Ditullio G R,Zhang Y,et al.An iron limitation mosaic in the California upwelling regime[J].Limnol Oceanogr,1998,43: 1 037-1 054.
[10]
[10]Howard A G,Statham P J.Inorganic Trace Analysis Phi-losophy and Practice.New York: John Wiley and Sons Inc.,1993.182.
[11]
[11]Wu J F,Luther G W.Size fractionated iron concen-trationsin the water column of the western north Atlantic Ocean[J].Limnol Oceanogr,39:1 119-1 129.
[12]
[12]de Jong J T M,den Das J,Bathmann U,et al.Dissolved iron at subnanomolar levels in the Southern Ocean as deter mined by ship-board analysis[J].Anal Chim Acta,1998,377: 113-124.
[13]
[13]Hong H S,Kester D R.Redox state of iron in the offshore waters off Peru[J].Limnol Oceanogr,1986,31: 512-524.
[14]
[14]King D W,Lin J,Kester D R.Determination of Fe(II)in seawater at nanomolar concentrations[J].Anal Chim Acta,1991,247:125-132.
[15]
[15]Sullivan D W,Hanson A K,Miller W L,et al.Measure-ment of Fe(II)in surface water of the equatorial Pacific[J].Limnol Oceanogr,1991,36: 1 727-1 747.
[16]
[16]Yi Z,Zhuang G S,Brown P R,et al.High-performance liquid chromatographic method for the determination of ultratrace amount of iron(Ⅱ)in aerosols[J].Rainwater and Seawater,Anal Chem,1992,64: 2 826-2 830.
[17]
[17]Blain S,Treguer P.Iron(II)and iron(III)determination in sea water at the nanomolar level with selective on-line preconcentration and spectrophotometric determination[J].Anal Chim Acta,1995,308: 425-432.
[18]
[18]Bowie A R,Maldonado M T,Frew R D,et al.Macronu-trient and trace-metal geochemistry of an in situ iron-induced Southern Ocean bloom[J].Deep-Sea Res Part II,2001,48: 2 467-2 481.
[19]
[19]Gordon R M,Johnson K S,Coale K H.The behaviour of iron and other trace elements during the IronEx-I and PlumEx experiments in the Equatorial Pacific[J].Deep-Sea Research Part II,1998,45: 995-1 041.
[20]
[20]Hudson R J M,Covault D T,Morel F M M.Investigations of iron coordination and redox reactions in seawater using 59Fe radiometry and ion-pair solvent extraction of amphiphilic iron complexes[J].Mar Chem,1992,38: 209-235.
[22]Measures C I,Yuan J,Resing J A,Determination of iron in seawater by flow injection analysis using in-line precon-centration and spectrophotometric detection[J].Mar Chem,1995,50: 3-12.
[26]Berman S S,McLaren J W,Willie S N.Simultaneous determination of five trace metals in seawater by inductively coupled plasma atomic emission spectrometry with ultra-sonic nebulization[J].Anal Chem,1980,52: 488-492.
[27]
[27]Sugimae A,Determination of trace elements in sea water by inductively-coupled plasma emission spectrometry[J].Anal Chim Acta,1980,121: 331-336.
[28]
[28]Watanabe H,Goto K,Taguchi S,et al.Preconcentration of trace elements in seawater by complexation with 8-hydroxyquinoline and adsorption on C18 bonded silica gels[J].Anal Chem,1981,53: 738-739.
[29]
[29]Wu J F,Boyle E A.Determination of iron in seawater by high-resolution isotope dilution inductively coupled plasma mass spectrometry after Mg(OH)2 coprecipitation[J].Anal Chim Acta,1998,367: 183-191.
[30]
[30]Gledhill M,van den Berg C M G.Determination of com-plexation of iron(III)with natural organic complexing ligands in seawater using cathodic stripping voltammetry[J].Mar Chem,1994,47: 415-426.
[31]
[31]Gledhill M,van den Berg C M G.Measurement of the redox speciation of iron in seawater by catalytic cathodic stripping voltammetry[J].Mar Chem,1995,50: 51-61.
[32]
[32]van den Berg C M G.Evidence for organic complexation of iron in seawater[J].Mar Chem,1995,50: 139-157.
[34]Obata H,Karatani H,Matsui M,et al.Fundamental studies for chemical speciation of iron in seawater with an improved analytical method[J].Mar Chem,1997,56: 97-106.
[35]
[35]Bowie A R,Achterberg E P,Mantoura R F C,et al.Determination of sub-nanomolar levels of iron in seawater using flow injection with chemiluminescence detection[J].Anal Chim Acta,1998,361:189-200.
[36]
[36]Croot P L,Laan P.Continuous shipboard determination of Fe(II)in polar waters using flow injection analysis with chemiluminescence detection.Analy Chim Acta,2002,466: 261-273.
[37]
[37]Elrod V A,Johnson K S,Coale K H.Determination of subnanomolar levels of iron(Ⅱ)and total dissolved iron in seawater by flow injection analysis with chemiluminescence detection.Anal Chem,1991,63: 893-898.
[38]
[38]Hirata S,Yoshihara H,Aihara M.Determination of iron (II)and total iron in environmental water samples by flow injection analysis with column preconcentration of chelating resin functionalized with N-hydroxyethylethylenediamine ligands and chemiluminescence detection[J].Talanta,1999,49: 1 059-1 067.
[39]
[39]Hutchins D A,Witter A E,Butler A,et al.Competition among marine phytoplankton for different chelated iron species[J].Nature,1999,400: 858-861.
