本文主要研究内容
作者李亚楠(2019)在《典型有机污染物在小清河及黄、东海的分布特征研究》一文中研究指出:本论文以山东省小清河和黄、东海区域的沉积物和水体为研究对象,以小清河中的多环芳烃、卤代阻燃剂这两种典型有机污染物以及黄、东海区域中卤代阻燃剂为目标物,分析了其浓度水平和空间分布特征,探讨了有机污染物从河流到海洋的迁移输送过程,评估了解小清河和黄、东海有机污染物的污染状况,揭示了洋流作用下河流对海洋污染物的输入所产生的影响。研究结果对该区域污染物的地球化学循环具有重要的科学意义。河流和海洋环境中的有机污染物可能来自于地表径流物质的输入、人类活动的直接排放、大气沉降和污染物的降解等,另外污染物还可以通过大气的长距离输送和气-水界面交换而进入到海洋。河流是地表水循环的重要组成部分,污染物会随着河流迁移并最终汇入海洋,导致海洋成为一些污染物主要的汇。污染物在进入海洋后引起的海洋环境污染问题是影响我国海洋环境安全的一个重要因素。通过对小清河流域多环芳烃和卤代阻燃剂的研究表明:(1)多环芳烃(PAHs)和卤代阻燃剂(HFRs)在小清河沉积物和水体中分布较广泛,沉积物和水体中的Σ15PAHs浓度范围分别为17.15-3808 ng/g dw(平均浓度为988.7 ng/g dw)、10.40-337.3 ng/L(平均浓度为89.63 ng/L);沉积物中的ΣHFRs浓度范围为3.663-232.9 ng/g dw。(2)沉积物中多环芳烃的组成主要是以4环和5环为主,水体中的主要以2环和3环为主。沉积物中卤代阻燃剂的组成主要是以十溴二苯乙烷(DBDPE)和十溴联苯醚单体(BDE209)这两种十溴产品为主,水体中DPs和DBDPE这两种物质占主要部分。(3)从小清河源头到河口站位,多环芳烃和卤代阻燃剂这的浓度及分布特征有明显的差异性。对于多环芳烃,河流段沉积物和水体的污染程度高于河口、海湾的样品;而对于卤代阻燃剂,从河口到莱州湾的沉积物卤代阻燃剂浓度普遍较高,这可能是由于潍坊和莱州湾临岸溴系阻燃剂生产地的陆源排放所造成的。河口沉积物中卤代阻燃剂浓度较高可能与河口最大浑浊带的滞留效应有关。点源排放是影响这两种有机污染物浓度及分布特征的主要因素。总之,小清河多环芳烃和卤代阻燃剂这两种污染物的污染程度都处于较严重的水平。黄海卤代阻燃剂污染程度高于东海的。沉积物中ΣPBDEs和BDE209的浓度范围分别是0.3-108.5 pg/g dw(平均浓度为20.4 pg/g dw)和1.1-924 pg/g dw(平均浓度为127pg/g dw);ΣaBFRs和DBDPE的浓度范围分别是n.d.-293 pg/g dw(平均浓度为60.2 pg/g dw)和n.d.-9460 pg/g dw(平均浓度为1700 pg/g dw)。水体中BDE209和DBDPE的浓度范围分别为0.11-35.68 pg/L和n.d.-199.11 pg/L。沉积物卤代阻燃剂分布特征为:沉积区高,沉积区外低;水体中卤代阻燃剂分布特征为:近岸高,远岸较低。这两种环境介质均以DBDPE和BDE209为主要污染物,说明该海域卤代阻燃剂的污染主要源于工业十溴联苯醚的应用和排放,这与我国卤代阻燃剂市场工业品的使用状况一致。我国溴系阻燃剂最大的生产地位于莱州湾附近的潍坊海滨经济开发区,受山东半岛沿岸流的携带,黄河入海泥沙在冬季能穿过莱州湾、渤海海峡,进入黄海,在黄海沉积区沉积。由于水动力条件(受山东半岛沿岸流、黄海沿岸流和黄海暖流形成的气旋式涡旋控制)以及河流物质的输入,黄河泥沙在向黄海传输的过程中吸附莱州湾高浓度的阻燃剂,在渤海沿岸流和黄海沿岸流的作用下,泥沙与阻燃剂共迁移共沉积,最终传输到北黄海和南黄海。
Abstract
ben lun wen yi shan dong sheng xiao qing he he huang 、dong hai ou yu de chen ji wu he shui ti wei yan jiu dui xiang ,yi xiao qing he zhong de duo huan fang ting 、lu dai zu ran ji zhe liang chong dian xing you ji wu ran wu yi ji huang 、dong hai ou yu zhong lu dai zu ran ji wei mu biao wu ,fen xi le ji nong du shui ping he kong jian fen bu te zheng ,tan tao le you ji wu ran wu cong he liu dao hai xiang de qian yi shu song guo cheng ,ping gu le jie xiao qing he he huang 、dong hai you ji wu ran wu de wu ran zhuang kuang ,jie shi le xiang liu zuo yong xia he liu dui hai xiang wu ran wu de shu ru suo chan sheng de ying xiang 。yan jiu jie guo dui gai ou yu wu ran wu de de qiu hua xue xun huan ju you chong yao de ke xue yi yi 。he liu he hai xiang huan jing zhong de you ji wu ran wu ke neng lai zi yu de biao jing liu wu zhi de shu ru 、ren lei huo dong de zhi jie pai fang 、da qi chen jiang he wu ran wu de jiang jie deng ,ling wai wu ran wu hai ke yi tong guo da qi de chang ju li shu song he qi -shui jie mian jiao huan er jin ru dao hai xiang 。he liu shi de biao shui xun huan de chong yao zu cheng bu fen ,wu ran wu hui sui zhao he liu qian yi bing zui zhong hui ru hai xiang ,dao zhi hai xiang cheng wei yi xie wu ran wu zhu yao de hui 。wu ran wu zai jin ru hai xiang hou yin qi de hai xiang huan jing wu ran wen ti shi ying xiang wo guo hai xiang huan jing an quan de yi ge chong yao yin su 。tong guo dui xiao qing he liu yu duo huan fang ting he lu dai zu ran ji de yan jiu biao ming :(1)duo huan fang ting (PAHs)he lu dai zu ran ji (HFRs)zai xiao qing he chen ji wu he shui ti zhong fen bu jiao an fan ,chen ji wu he shui ti zhong de Σ15PAHsnong du fan wei fen bie wei 17.15-3808 ng/g dw(ping jun nong du wei 988.7 ng/g dw)、10.40-337.3 ng/L(ping jun nong du wei 89.63 ng/L);chen ji wu zhong de ΣHFRsnong du fan wei wei 3.663-232.9 ng/g dw。(2)chen ji wu zhong duo huan fang ting de zu cheng zhu yao shi yi 4huan he 5huan wei zhu ,shui ti zhong de zhu yao yi 2huan he 3huan wei zhu 。chen ji wu zhong lu dai zu ran ji de zu cheng zhu yao shi yi shi xiu er ben yi wan (DBDPE)he shi xiu lian ben mi chan ti (BDE209)zhe liang chong shi xiu chan pin wei zhu ,shui ti zhong DPshe DBDPEzhe liang chong wu zhi zhan zhu yao bu fen 。(3)cong xiao qing he yuan tou dao he kou zhan wei ,duo huan fang ting he lu dai zu ran ji zhe de nong du ji fen bu te zheng you ming xian de cha yi xing 。dui yu duo huan fang ting ,he liu duan chen ji wu he shui ti de wu ran cheng du gao yu he kou 、hai wan de yang pin ;er dui yu lu dai zu ran ji ,cong he kou dao lai zhou wan de chen ji wu lu dai zu ran ji nong du pu bian jiao gao ,zhe ke neng shi you yu wei fang he lai zhou wan lin an xiu ji zu ran ji sheng chan de de liu yuan pai fang suo zao cheng de 。he kou chen ji wu zhong lu dai zu ran ji nong du jiao gao ke neng yu he kou zui da hun zhuo dai de zhi liu xiao ying you guan 。dian yuan pai fang shi ying xiang zhe liang chong you ji wu ran wu nong du ji fen bu te zheng de zhu yao yin su 。zong zhi ,xiao qing he duo huan fang ting he lu dai zu ran ji zhe liang chong wu ran wu de wu ran cheng du dou chu yu jiao yan chong de shui ping 。huang hai lu dai zu ran ji wu ran cheng du gao yu dong hai de 。chen ji wu zhong ΣPBDEshe BDE209de nong du fan wei fen bie shi 0.3-108.5 pg/g dw(ping jun nong du wei 20.4 pg/g dw)he 1.1-924 pg/g dw(ping jun nong du wei 127pg/g dw);ΣaBFRshe DBDPEde nong du fan wei fen bie shi n.d.-293 pg/g dw(ping jun nong du wei 60.2 pg/g dw)he n.d.-9460 pg/g dw(ping jun nong du wei 1700 pg/g dw)。shui ti zhong BDE209he DBDPEde nong du fan wei fen bie wei 0.11-35.68 pg/Lhe n.d.-199.11 pg/L。chen ji wu lu dai zu ran ji fen bu te zheng wei :chen ji ou gao ,chen ji ou wai di ;shui ti zhong lu dai zu ran ji fen bu te zheng wei :jin an gao ,yuan an jiao di 。zhe liang chong huan jing jie zhi jun yi DBDPEhe BDE209wei zhu yao wu ran wu ,shui ming gai hai yu lu dai zu ran ji de wu ran zhu yao yuan yu gong ye shi xiu lian ben mi de ying yong he pai fang ,zhe yu wo guo lu dai zu ran ji shi chang gong ye pin de shi yong zhuang kuang yi zhi 。wo guo xiu ji zu ran ji zui da de sheng chan de wei yu lai zhou wan fu jin de wei fang hai bin jing ji kai fa ou ,shou shan dong ban dao yan an liu de xie dai ,huang he ru hai ni sha zai dong ji neng chuan guo lai zhou wan 、bo hai hai xia ,jin ru huang hai ,zai huang hai chen ji ou chen ji 。you yu shui dong li tiao jian (shou shan dong ban dao yan an liu 、huang hai yan an liu he huang hai nuan liu xing cheng de qi xuan shi guo xuan kong zhi )yi ji he liu wu zhi de shu ru ,huang he ni sha zai xiang huang hai chuan shu de guo cheng zhong xi fu lai zhou wan gao nong du de zu ran ji ,zai bo hai yan an liu he huang hai yan an liu de zuo yong xia ,ni sha yu zu ran ji gong qian yi gong chen ji ,zui zhong chuan shu dao bei huang hai he na huang hai 。
论文参考文献
论文详细介绍
论文作者分别是来自中国科学院大学(中国科学院烟台海岸带研究所)的李亚楠,发表于刊物中国科学院大学(中国科学院烟台海岸带研究所)2019-09-09论文,是一篇关于多环芳烃论文,卤代阻燃剂论文,小清河论文,黄海论文,东海论文,中国科学院大学(中国科学院烟台海岸带研究所)2019-09-09论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自中国科学院大学(中国科学院烟台海岸带研究所)2019-09-09论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:多环芳烃论文; 卤代阻燃剂论文; 小清河论文; 黄海论文; 东海论文; 中国科学院大学(中国科学院烟台海岸带研究所)2019-09-09论文;