Page 118 - 《水资源与水工程学报》2022年第3期
P. 118
1 1 4 & ' ( ) & * + , - 2022 $
s§]¥v>d。 2009,18(4):384-396.
[9]MAAVARAT,CHENQiuwen,VANMETERK,etal.
oLM: Riverdamimpactsonbiogeochemicalcycling [J].Nature
[1]h $.“ ]$W¶·ik@
RB)Pï*l*” ( ReviewsEarth&Environment ,2020,1:103-116.
^XÌ[J]. lm/6*0°,2017,49(1):19-26. [10]WANGFushun.Impactofalargesubtropicalreservoiron
[2]Z¾8. W¶B)oPïfí.*\](^[D]. thecyclingofnutrientsinariver [J].WaterResearch,
qr: Ëq¶k6,2014. 2020,186:116363.
[3]BIRKELC,SOULSBYC,TETZLAFFD.Integratingpar [11]~ ý. 71¤p*?ÈXÚ#e§ª;z7(
simoniousmodelsofhydrologicalconnectivityandsoilbio ^[D]. Fj: ³=k6,2017.
geochemistrytosimulatestreamDOCdynamics[J].Jour [12]D ù, ® , xA, . ´=@èýÉQÜÄ;
nalofGeophysicalResearch:Biogeosciences,2014,119 z[J]. `a/6(^,2019,32(4):647-653.
(5):1030-1047. [13]L5. cd@¤FeÑeK§ª"}Ö×á>
[4]÷o , v Û, ¹Ã=, . 2:*?dW@9WK ÜÄvÛ=e;zéê[D]. «¾:ËýRc
§ª[J]. `a/6,2018,39(5):2075-2085. k6,2016.
[5]PARKSSJ,BAKERLA.Sourcesandtransportoforganic [14]FEh, {y, F ý. ®cádW@éê@Z#§ª
carboninanArizonariver-reservoirsystem[J].Water ô[J]. ÿ]/6,2015,35(7):912-918.
Research ,1997,31(7):1751-1759. [15]§ H, ~ºÛ, ¦[», . #e - W@ËW˯
[6]WANGXuchen,MAHaiqing,LIRonghua,etal.Season pCO |Ö×ÜÄ^_;z———Ú»#、 ä>
2
alfluxesandsourcevariationoforganiccarbontransported W@、 µ½ðs@[J]. ÿà*`a,2013,41(2):97-103.
bytwo majorChinese Rivers : The Yellow Riverand [16]GOBLERCJ,SAUDO-WILHELMYSA.Cyclingof
Changjiang(Yangtze)River[J].GlobalBiogeochemical colloidalorganiccarbonandnitrogenduringanestuarine
Cycles,2012,26(2):GB2025. phytoplanktonbloom[J].LimnologyandOceanography,
[7]ZHANGLongjun,WANGLiang,CAIWenjie,etal.Im 2003,48(6):2314-2320.
pactofhumanactivitiesonorganiccarbontransportinthe [17]HASTIEA,LAUERWALDR,CIAISP,etal.Aquatic
YellowRiver [J].Biogeosciences,2013,10(4):2513- carbonfluxesdampentheoverallvariationofnetecosys
2524. temproductivityintheAmazonbasin :Ananalysisofthe
[8]~ºÛ, ¦[», hxl, . #e.ipW`aê interannualvariabilityintheboundlesscarboncycle [J].
¡———¡4ÿà×6[J]. Û=eßXY*`a, GlobalChangeBiology ,2019,25(6):2094-2111.
