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[1]陈 艳,王延华,叶 斌,等.滇池流域宝象河水库堆积物粒度散布特点及其情况记实[J].ag捕鱼官网,2021,28(03):7-12.
 CHEN Yan,WANG Yanhua,YE Bin,et al.Characteristics of Distribution of Sediment Particle Size and Its Environmental Records in Baoxianghe Reservoir of the Dianchi Basin[J].,2021,28(03):7-12.
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滇池流域宝象河水库堆积物粒度散布特点及其情况记实

参考文献/References:

[1] 孙华杰,臧淑英,孙德尧,等.呼伦湖堆积物粒度特点及其情况唆使意思[J].地舆迷信,2018,38(9):1570-1578.
[2] Macumber A L, Patterson R T, Galloway J M, et al. Reconstruction of Holocene hydroclimatic variability in subarctic treeline lakes using lake sediment grain-size end-members[J]. the Holocene, 2018,28(6):845-857.
[3] Lu Y, Fang X M, Friedrich O, et al. Characteristic grain-size component-A useful process-related parameter for grain-size analysis of lacustrine clastics[J]. Quaternary International, 2018,479(20):90-99.
[4] 郭晓阳,王维,王国良,等.季风边缘区湖泊表层堆积物粒度组分散布特点与影响身分[J].地舆研讨,2016,35(4):677-691.
[5] Jia X P, Li Y S, Wang H B. Bed sediment particle size characteristics and its sources implication in the desert reach of the Yellow River[J]. Environmental Earth Sciences, 2016,75(11):950, DOI:https:∥doi. org/10,1007/s12665-016-5760-9.
[6] 吴亚林,李帅东,江俊武,等.百年来滇池堆积物中差别形状氮散布及埋藏特点[J].情况迷信,2017,38(2):517-526.
[7] Xiao D D, Shi Z T, Wu F, et al. Seasonal and spatial variations of heavy metals in surface sediments collected from the Baoxiang River in the Dianchi Watershed, China[J]. Human and Ecological Risk Assessment, 2018,24(7):1916-1929.
[8] Ma X H, Wan H B, Zhou J, et al. Sediment record of polycyclic aromatic hydrocarbons in Dianchi lake, southwest China:Influence of energy structure changes and economic development[J]. Chemosphere, 2020,248:126015.
[9] 孟亚媛,王圣瑞,焦立新,等.滇池表层堆积物氮净化特点及其潜伏矿化才能[J].情况迷信,2015,36(2):471-480.
[10] 古正刚.云南省典范高原湖泊表层堆积物中几种重金属净化特点研讨[D].昆明:昆明理工大学,2014.
[11] 孙盼盼,谢标,周迪,等.滇池流域宝象河水库堆积物中多环芳烃的垂直散布特点及来历剖析[J].情况迷信学报,2016,36(10):3615-3622.
[12] 陈朝晖.宝象河水库水质近况及掩护对策[J].情况迷信导刊,2009,28(1):48-49.
[13] 董茸茸,张晶香.基于3S手艺研讨滇池周边地盘操纵对水情况的影响及办理对策[J].村落科技,2019(4):113-116.
[14] 郭文景,王延华,杨浩,等.滇池流域双龙水库径流区人类勾当的堆积物记实[J].泥土,2015,47(4):773-780.
[15] 刘静玲,李毅,史璇,等.海河道域典范河道堆积物粒度特点及散布纪律[J].水资本掩护,2017,33(6):9-19.
[16] 华攸胜,马龙,吉力力·阿不都外力,等.新疆博斯腾湖近古代湖泊堆积物粒度散布特点及其情况记实[J].干旱区研讨,2019,36(5):1109-1116.
[17] 汤世凯,于剑峰,李金鹏,等.丁字湾近岸海疆表层堆积物粒度特点及堆积能源情况[J].陆地地质与第四纪地质,2019,39(2):70-78.
[18] 卢连战,史正涛.堆积物粒度参数内在及计较方式的剖析[J].情况迷信与办理,2010,35(6):54-60.
[19] 张盼,吴建政,胡日军,等.莱州湾东北部表层堆积物粒度散布特点及其古代堆积情况分区[J].陆地地质前沿,2014,30(9):11-17.
[20] 袁红旗,王蕾,于精华,等.堆积学粒度阐发方式综述[J].吉林大学学报:地球迷信版,2019,49(2):380-393.
[21] 王丽琴,李红丽,董智,等.额济纳盆地沙漠纵剖面堆积物粒度参数阐发[J].ag捕鱼官网,2014,21(1):152-156,162.
[22] Folk R L, Ward W C. Brazos River bar:a study in the significance of grain size parameters[J]. Journal of Sedimentary Research, 1957,27(1):3-26.
[23] Sahu B K. Depositional mechanisms from the size analysis of clastic sediments[J]. Journal of Sedimentary Research, 1964,34(1):2-24.
[24] 刘剑刚,张华,朱岩,等.辽东山地冰缘地貌表层泥土粒度特点[J].中国水土坚持迷信,2016,14(1):36-45.
[25] 安庆,安萍,徐汝汝,等.青藏高原差别地域堆积物的粒度特点与堆积情况辨别公式合用性对照研讨[J].聊城大学学报:天然迷信版,2017,30(4):37-47.
[26] 张地舆.粒度材料在堆积情况辨别形式中的利用[D].重庆:东北大学,2011.
[27] 徐春华,孙涛,宋子齐,等.利用粒度阐发材料成立洪积扇堆积情况辨别形式:以克拉玛依油田七中东区克拉玛依组为例[J].新疆地质,2007,25(2):187-191.
[28] 周烨.中新世以来奄美三角盆地碎屑堆积物粒度特点及其物源和古天气意思[D].山东青岛:中国迷信院研讨生院(陆地研讨所),2016.
[29] 孙有斌,高抒,李军.边缘海陆源物资中情况敏感粒度组分的开端阐发[J].迷信传递,2003,48(1):83-86.
[30] Liu B, Jin H L, Yang F. A late Holocene winter monsoon record inferred from the palaeo-aeolian sand dune in the southeastern Mu Us Desert, northern China[J]. Sciences in Cold and Arid Regions, 2016,8(5):388-399.
[31] 陈敬安,万国江,张峰,等.差别时候标准下的湖泊堆积物情况记实:以堆积物粒度为例[J].中国迷信:地球迷信,2003,33(6):563-568.
[32] 王君波,朱立平.藏南沉错堆积物的粒度特点及其古情况意思[J].地舆迷信停顿,2002,21(5):459-467.
[33] 孙盼盼.滇北小流域泥土和堆积物中耐久性无机净化物的地球化学特点[D].南京:南都门范大学,2017.

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备注/Memo

收稿日期:2020-05-07 修回日期:2020-08-19
帮助名目:国度天然迷信基金面上名目“太湖流域氮流特点及其影响机制”(41673107); 国度天然迷信基金面上名目“滇池流域泥土腐蚀与氮散失的同位素示踪研讨”(41273102)
第一作者:陈艳(1994—),女,四川遂宁人,硕士研讨生,研讨标的目的为堆积情况及其情况效应研讨。E-mail:chenyan_njnu@163.com
通讯作者:王延华(1978—),女,山东烟台人,传授,博导,首要处置流域生态情况演化。E-mail:wangyanhua@njnu.edu.cn

更新日期/Last Update: 2021-04-20
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