参考文献/References:
[1] 李巧云,吴娟娟,杨婵,等. 土壤环境中微塑料与重金属的复
合污染研究进展[J]. 环境保护前沿,2023,13(3):471-478.
[2] RICHARD C T,CHARLES J M,Frederick S V S,et al. Plastics,
the environment and human health:current consensus and future
trends[J]. Philosophical transactions of the Royal Society of London.
Series B,Biological sciences,2009,364(1526):2153-2166.
[3] 黄小虎,叶专,吕守云,等. 海口地区岗前健康体检人群血中
重金属铅、镉、汞负荷水平分析[J]. 标记免疫分析与临床,
2020,27(06):1033-1036.
[4] 李洪波,卢秀娟,蒋励. 贵州省一般人群尿液汞铅镉调查[J/
OL]. 环境与健康杂志,4[2023- 09- 11] https://link.cnki.net/
urlid/12.1095.R.20230908.1232.005.
[5] SIEGFRIED M,KOELMANS A A,BESSELING E. Export of
microplastics from land to sea:A modelling approach[J]. Water
Research,2017,127:249-257.
[6] MARK E H,DUFFUS- HODSON C A,ANDY C,et al. Plastic
bag derived- microplastics as a vector for metal exposure in
terrestrial invertebrates[J]. Environmental Science & Technology,
2017,51(8):4714-4721.
[7] 海霞,刘怡,董志英,等. 抗生素与重金属复合污染的生态毒
理效应研究进展[J]. 环境工程,2016,34(4):60-63.
[8] 张俊伶,张江周,申建波,等. 土壤健康与农业绿色发展:机遇
与对策[J]. 土壤学报,2020,57(04):783-796.
[9] 王烨,安舒玉,刘蕾,等. 水体微塑料与重金属的相互作用及
其复合毒性效应研究进展[J]. 应用化工,2023,52(12):3444-
3448.
[10] SMITH M,LOVE D C,ROCHMAN C M,et al. Microplastics in
seafood and the implications for human health[J]. Current
Environmental Health Reports,2018,5(3):375-386.
[11] GAN W X,ZHANG Y X,XU J Y,et al. Spatial Distribution of
Soil Heavy Metal Concentrations in Road- Neighboring Areas
Using UAV- Based Hyperspectral Remote Sensing and GIS
Technology[J].Sustainability,2023,15(13):10043.
[12] MAHIR T,GAZI Md.Y,KUMAR S S. Characterization and
Spatial Abundance of Microplastics in the Coastal Regions of
Cox’s Bazar,Bangladesh:An Integration of Field,Laboratory,
and GIS Techniques[J]. Soil and Sediment Contamination:An
International Journal,2022,31(1):57-80.
[13] NAFEESA K,ALI M M,YU Z L,et al. Recognition and detection
technology for microplastic,its source and health effects[J].
Environmental science and pollution research international,
2024,31(8):11428-11452.
[14] PAN F,YU Y,YU L,et al. Quantitative assessment on soil
concentration of heavy metal- contaminated soil with various
sample pretreatment techniques and detection methods[J].
Environmental Monitoring and Assessment: An International
Journal,2020,192(12):800.1-800.8.
[15] 刘贺,宋树贤,孙梅,等. 土壤和植物中微塑料研究现状分析
及检测方法研究进展[J/OL]. 地学前缘,https://link.cnki.net/
doi/10.13745/j.esf.sf.2023.11.51.
[16] 李鹏飞. 关于土壤重金属光谱检测方法的研究[J]. 中国金属
通报,2023(02):174-176.
[17] 谢颖,施赞宇,庞皓东,等. 微塑料污染现状及检测方法研究
进展[J]. 环境科学与管理,2024,49(02):105-110.
[18] BO- KYUNG K,Hwan J H,SEUNG- KYU K. Modeling of
microplastics discharged from a station in Marian Cove,West
Antarctica[J]. Marine Pollution Bulletin,2023,186(1):
114441.1-114441.13.
[19] RASHA A A,Lotfi K,Mukhtar I,et al. Efficient mesoporous
MgO/g- C3N4 for heavy metal uptake:modeling process and
adsorption mechanism[J]. Nanomaterials,2022,12(22):3945.
[20] CASILA J C,DIMAPILIS D A,LIMBAGO J S,et al. Characterization
and Quantification of Surficial Sediment Microplastics and Its
Correlation with Heavy Metals,Soil Texture,and Flow Velocity
[J]. Analytical Letters,2024,57(7):1092-1105.
[21] 张成丽,李霜,雷雨辰,等. 开封某农田土壤重金属和微塑料
空间分布及生态风险[J]. 沈阳农业大学学报,2023,54(06):
693-701.
[22] 张成丽,张伟平,程红丹,等. 禹州市煤矿区周边土壤和农作
物重金属污染状况及健康风险评价[J]. 环境化学,2019,38
(04):805-812.
[23] 祝培甜,赵中秋,陈勇,等. 江苏省某镇土壤重金属污染评价
[J]. 环境工程学报,2017,11(04):2535-2541.
[24] PRADIT S,NOPPRADIT P,SORNPLANG K,et al. Microplastics
and heavy metals in the sediment of Songkhla Lagoon:distribution
and risk assessment[J]. Frontiers in Marine Science,2024,10:
1292361.
[25] TANG S;YANG X Q;ZHANG T,et al. Adsorption mechanisms of
metal ions(Pb,Cd,Cu)onto polyamide 6 microplastics:New
insight into environmental risks in comparison with natural
media in different water matrices[J]. Gondwana Research,
2022,110:214-225.
[26] SRINIDHI M,SANGEETHA S,KRISHNA P H. Interaction of
Heavy Metals with Plastic Contaminated Soil[J]. IOP Conference
Series:Earth and Environmental Science,2023,1280(1):012041.
[27] HUONG M,DANH N T,THUY N D,et al.Impacts of microplastics
and heavy metals on the earthworm Eisenia fetida and on soil
organic carbon,nitrogen,and phosphorus[J]. Environmental
science and pollution research international,2023,30(23):
64576-64588.
[28] LIU G X,DAVE PREETI H,KWONG RAYMOND W M,et al.
Influence of microplastics on the mobility,bioavailability,and
toxicity of heavy metals:a review[J]. Bulletin of Environmental
Contaminationand Toxicology,2021,107(4):1-12.
[29] LIU B Y,ZHAO S L,QIU T Y,et al. Interaction of microplastics
with heavy metals in soil:Mechanisms,influencing factors and
biological effects[J]. The Science of the total environment,
2024,918:170281.
[30] HYEJIN E,NIAMUL M H,SOMYEONG L,et al. Exposure to
metals premixed with microplastics increases toxicity through
bioconcentration and impairs antioxidant defense and
cholinergic response in a marine mysid[J]. Comparative
biochemistry and physiology. Toxicology and pharmacology:
CBP,2021,249:109142.
[31] 邸雪嫣,苏友波,蒋明,等. 微塑料介导重金属在陆生植物中
迁移及生物效应的影响[J]. 化学通报,2023,86(09):1060-
1068.
[32] ANDERSON ABEL D S M,LAU CHUNG W,WERNER K,
et al. Microplastics Can Change Soil Properties and Affect Plant
Performance[J]. Environmental science technology,2019,53
(10):6044-6052.
[33] TARIQ M,IQBAL B,KHAN I,et al. Microplastic contamination
in the agricultural soil- mitigation strategies,heavy metals
contamination,and impact on human health:a review[J]. Plant
cell reports,2024,43(3):65.
[34] 廖苑辰,王倩,蒋小峰,等. 聚苯乙烯微塑料和重金属镉对蚯
蚓的联合毒性效应[J]. 生态毒理学报,2022,17(02):216-
226.
[35] LIN B G,WANG L Y,CHEN Q Y,et al. Health assessment
based on exposure to microplastics in tropical agricultural soil
[J]. Journal of hazardous materials,2023,465:133372.
[36] AZENITH B C,MARWA El- Azhary,CAESAR S,et al. Potential
ecological risk assessment of microplastics in coastal sediments:
Their metal accumulation and interaction with sedimentary
metal concentration[J]. Science of the Total Environment,2024,
906:167473.
[37] 王迪. 土壤中Cd 释放迁移对微塑料的响应特征及数值模拟
[D]. 青岛:青岛大学,2023.
[38] 郑紫莎,杨平华,刘小慧,等. 鄱阳湖铜锈环棱螺、圆顶珠蚌
中微塑料与砷、汞污染相关性研究[J]. 山东化工,2023,52
(23):230-232+239.
[39] GAO X,HASSAN I,PENG Y T,et al. Behaviors and influencing
factors of the heavy metals adsorption onto microplastics:A
review[J]. Journal of Cleaner Production,2021,319:128777.
[40] 张森,曹莹,高存富,等. 典型废弃锑冶炼厂土壤重金属污染
特征、风险评价及来源解析[J/OL]. 环境科学,18[2024-02-
22]. https://link.cnki.net/urlid/11.1895.X.20240221.1959.037.
[41] 陈雅婷,赵昕宇,李艳红,等. 我国污染场地中新污染物的环
境行为和修复进展[J]. 环境工程,2024,42(01):166-176.
[42] 孙一喆,詹健. 水环境中微塑料去除技术研究进展[J]. 应用
化工,2024,53(02):447-452.
[43] 游少鸿,刘爽,马丽丽. 水体中微塑料污染及生态风险研究
进展[J]. 绿色科技,2023,25(24):124-130.
[44] 付康. 海州湾海洋牧场及其邻近海域环境和生物体重金属
分布、来源及风险评价[D]. 上海:上海海洋大学,2023.
[45] 孙经宇,孙向阳,李素艳,等. 北京市通州区绿地土壤重金属
源解析及风险评价[J/OL]. 浙江农林大学学报,2024,41(X):
1-9[2024-03-19]. https://link.cnki.net/urlid/33.1370.S.202403
15.1536.002.
[46] 后亚斌,代晓燕,刘灿,等. 农田土壤中微塑料的源汇现状及
生态效应研究进展[J]. 山东农业科学,2024,56(03):171-
180.
[47] 王泽岚,李瑞雪,李谦,等. 磁性固相萃取技术在土壤污染物
检测中的应用研究进展[J/OL]. 化学试剂,10 [2024-03-28].
https://link.cnki.net/urlid/11.2135.TQ.20240326.1314.001.
[48] 李志华,高树林. 泡沫塑料富集-火焰原子荧光光谱法测定
土壤及水系沉积物中微量铊[J].分析仪器,2023,(03):45-49.
[49] EBRAHIM H,NASRIN H,BEHNAM K,et al. Characterization
of microplastic,metals associated and ecological risk assessment
in the topsoil of shiraz metropolis,south west of Iran[J].
Chemosphere,2023,335:139060.
[50] DU T T,QIAN L W, SHAO S,et al. Comparison of
sulfide- induced transformation of biodegradable and
conventional microplastics:Mechanism and environmental fate
[J]. Water Research,2024,253:121295.
[51] KARIN K F,VIKTORIA E,DAVID D. Initial Study on
Phytoextraction for Recovery of Metals from Sorted and Aged
Waste-to-Energy Bottom Ash[J]. Soil Systems,2021,5(3):53.
[52] ZORGANI M A,ZAOUI F,ZORGANI R N E H,et al.
Ultrasonic- assisted adsorption of heavy copper and lead metal
ions by g- C3N4,application of g- C3N4@MNPs(M:Pb,Cu)
in the catalytic photoreduction of organic pollutants[J]. Journal
of Water Process Engineering,2024,58:104724.
[53] GAVRILOVA T G,KONDRAT’EV S A. Collectability of
Xanthates in Precipitation of Heavy Metals[J]. Journal of Mining
Science,2022,58(2):267-277.
[54] POONAM K,DISHA G,SUNITA M,et al. Magnetic Graphene
Based Cation Ion Exchange Material for Removal of Heavy
Metal Ion(Pb)from Water[J]. Electrochemical Society Meeting
Abstracts,2021,MA2021-01(57):1531.
[55] MUKHAMEDIEV M G,Bekchanov D ZH. New Anion
Exchanger Based on Polyvinyl Chloride and Its Application in
Industrial Water Treatment[J]. Russian Journal of Applied
Chemistry,2019,92(11):1499-1505.
[56] LI X X,QI X Y,LIU X X,et al. PET addition delays the
composting mature process and promotes microbiota associated
with plastic degradation in plastisphere[J]. Journal of Cleaner
Production,2023,389:136066.
[57] 陈薇,孙瑞瑞,黄荣,等. 环境中微塑料的脱除及资源化利用
研究进展[J]. 塑料科技,2022,50(06):103-108.
[58] 张晋爱. 纳米零价铁复合材料对污染土壤修复的最新进展
[J/OL]. 中国土壤与肥料,17 [2023-12-25]. https://link.cnki.
net/urlid/11.5498.S.20231225.1452.002.
[59] 谢谚. 土壤微塑料污染及微生物降解研究进展[J]. 化工环
保,2024,44(01):21-27.
[60] 赵颖豪,刘兴宇,吕莹,等. 微生物复合菌剂在西北典型煤矿
破损生态区修复中的应用[J/OL].微生物学通报,19 [2024-03-
19]. https://link.cnki.net/urlid/11.1996.q.20240318.1413.001.
[61] 谢洁芬,章家恩,危晖,等. 环境中微塑料污染危害状况及管
控策略分析[J]. 黑龙江环境通报,2023,36(05):1-6.
[62] 杨理,梁鹏超,马晶晶,等. 塑料废弃物的资源化利用研究进
展[J]. 河南科技学院学报(自然科学版),2024,52(02):41-
47.