Journal of Ecology and Rural Environment ›› 2023, Vol. 39 ›› Issue (5): 634-643.doi: 10.19741/j.issn.1673-4831.2022.1022
Previous Articles Next Articles
MO Ao-yun1, ZHANG Ya-lin1, GAO Wei1,2, CAO Xiao-mu1,2, LIANG Yu-qing1,2, HE De-fu1
Received:
2022-09-29
Online:
2023-05-25
Published:
2023-05-24
CLC Number:
MO Ao-yun, ZHANG Ya-lin, GAO Wei, CAO Xiao-mu, LIANG Yu-qing, HE De-fu. Toxic Effects of Micro/Nano Plastics on Soil Animals: Research Progress and Prospectives[J]. Journal of Ecology and Rural Environment, 2023, 39(5): 634-643.
[1] 骆永明,施华宏,涂晨,等.环境中微塑料研究进展与展望[J].科学通报,2021,66(13):1547-1562.[LUO Yong-ming,SHI Hua-hong,TU Chen,et al.Research Progresses and Prospects of Microplastics in the Environment[J].Chinese Science Bulletin,2021,66(13):1547-1562.] [2] 桑文静,王晓霞,王夏妹,等.土壤中微塑料的来源、赋存特征及迁移行为[J].生态与农村环境学报,2021,37(11):1361-1367.[SANG Wen-jing,WANG Xiao-xia,WANG Xia-mei,et al.The Source,Occurrence Characteristics and Migration Behavior of Microplastics in Soil[J].Journal of Ecology and Rural Environment,2021,37(11):1361-1367.] [3] 李瑞静,赵亚菲,耿佳慧,等.农田土壤微塑料污染及其对植物的影响研究进展[J].生态与农村环境学报,2021,37(6):681-688.[LI Rui-jing,ZHAO Ya-fei,GENG Jia-hui,et al.Research Progress of Microplastics Pollution and Its Effect on Plant Ecosystem in Farmland[J].Journal of Ecology and Rural Environment,2021,37(6):681-688.] [4] DING L,WANG X L,OUYANG Z Z,et al.The Occurrence of Microplastic in Mu Us Sand Land Soils in Northwest China:Different Soil Types,Vegetation Cover and Restoration Years[J].Journal of Hazardous Materials,2021,403:123982. [5] HU J N,HE D F,ZHANG X T,et al.National-scale Distribution of Micro(Meso)Plastics in Farmland Soils across China:Implications for Environmental Impacts[J].Journal of Hazardous Materials,2022,424:127283. [6] HE D F,LUO Y M,LU S B,et al.Microplastics in Soils:Analytical Methods,Pollution Characteristics and Ecological Risks[J].TrAC Trends in Analytical Chemistry,2018,109:163-172. [7] WANG F Y,WANG Q L,ADAMS C A,et al.Effects of Microplastics on Soil Properties:Current Knowledge and Future Perspectives[J].Journal of Hazardous Materials,2022,424:127531. [8] WANG F Y,FENG X Y,LIU Y Y,et al.Micro(Nano)Plastics and Terrestrial Plants:Up-to-date Knowledge on Uptake,Translocation,and Phytotoxicity[J].Resources,Conservation and Recycling,2022,185:106503. [9] LEI L L,WU S Y,LU S B,et al.Microplastic Particles Cause Intestinal Damage and Other Adverse Effects in Zebrafish Danio rerio and Nematode Caenorhabditis elegans[J].Science of the Total Environment,2018,619/620:1-8. [10] SONG Y,QIU R,HU J N,et al.Biodegradation and Disintegration of Expanded Polystyrene by Land Snails Achatina fulica[J].The Science of the Total Environment,2020,746:141289. [11] LI X Y,HU J N,QIU R,et al.Joint Toxic Effects of Polystyrene Nanoparticles and Organochlorine Pesticides (Chlordane and Hexachlorocyclohexane) on Caenorhabditis elegans[J].Environmental Science:Nano,2020,7(10):3062-3073. [12] LI X Y,CHEN Y X,GAO W,et al.Prominent Toxicity of Isocyanates and Maleic Anhydrides to Caenorhabditis elegans:Multilevel Assay for Typical Organic Additives of Biodegradable Plastics[J].Journal of Hazardous Materials,2023,442:130051. [13] ZHANG H B,ZHOU Q,XIE Z Y,et al.Occurrences of Organophosphorus Esters and Phthalates in the Microplastics from the Coastal Beaches in North China[J].Science of the Total Environment,2018,616/617:1505-1512. [14] LIU Y,XU G H,YU Y.Effects of Polystyrene Microplastics on Accumulation of Pyrene by Earthworms[J].Chemosphere,2022,296:134059. [15] LU S B,QIU R,HU J N,et al.Prevalence of Microplastics in Animal-based Traditional Medicinal Materials:Widespread Pollution in Terrestrial Environments[J].Science of the Total Environment,2020,709:136214. [16] DA COSTA J P,SANTOS P S M,DUARTE A C,et al.(Nano)Plastics in the Environment:Sources,Fates and Effects[J].Science of the Total Environment,2016,566/567:15-26. [17] LAHIVE E,CROSS R,SAARLOOS A I,et al.Earthworms Ingest Microplastic Fibres and Nanoplastics with Effects on Egestion Rate and Long-term Retention[J].Science of the Total Environment,2022,807:151022. [18] KIM S W,AN Y J.Edible Size of Polyethylene Microplastics and Their Effects on Springtail Behavior[J].Environmental Pollution,2020,266(Part 1):115255. [19] MUELLER M T,FUESER H,HÖSS S,et al.Species-specific Effects of Long-term Microplastic Exposure on the Population Growth of Nematodes,with a Focus on Microplastic Ingestion[J].Ecological Indicators,2020,118:106698. [20] PANEBIANCO A,NALBONE L,GIARRATANA F,et al.First Discoveries of Microplastics in Terrestrial Snails[J].Food Control,2019,106:106722. [21] KWAK J I,AN Y J.Microplastic Digestion Generates Fragmented Nanoplastics in Soils and Damages Earthworm Spermatogenesis and Coelomocyte Viability[J].Journal of Hazardous Materials,2021,402:124034. [22] THRIFT E,PORTER A,GALLOWAY T S,et al.Ingestion of Plastics by Terrestrial Small Mammals[J].Science of the Total Environment,2022,842:156679. [23] WANG Q L,ADAMS C A,WANG F Y,et al.Interactions between Microplastics and Soil Fauna:A Critical Review[J].Critical Reviews in Environmental Science and Technology,2022,52(18):3211-3243. [24] ZHANG X T,CHEN Y X,LI X Y,et al.Size/Shape-dependent Migration of Microplastics in Agricultural Soil under Simulative and Natural Rainfall[J].Science of the Total Environment,2022,815:152507. [25] RILLIG M C,ZIERSCH L,HEMPEL S.Microplastic Transport in Soil by Earthworms[J].Scientific Reports,2017,7(1):1-6. [26] LI H X,LU X Q,WANG S Y,et al.Vertical Migration of Microplastics along Soil Profile under Different Crop Root Systems[J].Environmental Pollution,2021,278:116833. [27] AL-JAIBACHI R,CUTHBERT R N,CALLAGHAN A.Examining Effects of Ontogenic Microplastic Transference on Culex mosquito Mortality and Adult Weight[J].Science of the Total Environment,2019,651:871-876. [28] HE D F,ZHANG Y L,GAO W.Micro(Nano)Plastic Contaminations from Soils to Plants:Human Food Risks[J].Current Opinion in Food Science,2021,41:116-121. [29] KANOLD E,RILLIG M,ANTUNES P.Microplastics and Phagotrophic Soil Protists:Evidence of Ingestion:See Video as Supplementary Material[J].Soil Organisms,2021,93(2):133-140. [30] SCHÖPFER L,MENZEL R,SCHNEPF U,et al.Microplastics Effects on Reproduction and Body Length of the Soil-dwelling Nematode Caenorhabditis elegans[J].Frontiers in Environmental Science,2020,8:41. [31] SONG Y,CAO C J,QIU R,et al.Uptake and Adverse Effects of Polyethylene Terephthalate Microplastics Fibers on Terrestrial Snails (Achatina fulica) after Soil Exposure[J].Environmental Pollution,2019,250:447-455. [32] KIM S W,WALDMAN W R,KIM T Y,et al.Effects of Different Microplastics on Nematodes in the Soil Environment:Tracking the Extractable Additives Using an Ecotoxicological Approach[J].Environmental Science & Technology,2020,54(21):13868-13878. [33] JU H,ZHU D,QIAO M.Effects of Polyethylene Microplastics on the Gut Microbial Community,Reproduction and Avoidance Behaviors of the Soil Springtail,Folsomia candida[J].Environmental Pollution,2019,247:890-897. [34] ZHU D,CHEN Q L,AN X L,et al.Exposure of Soil Collembolans to Microplastics Perturbs Their Gut Microbiota and Alters Their Isotopic Composition[J].Soil Biology and Biochemistry,2018,116:302-310. [35] KIM S W,AN Y J.Soil Microplastics Inhibit the Movement of Springtail Species[J].Environment International,2019,126:699-706. [36] 张书武,任珊,裴磊,等.聚乙烯和聚乳酸微塑料对蚯蚓的毒性效应[J/OL].应用与环境生物学报,2022,28:1-9.[2022-09-29].http://doi.org/10.19675/j.cnki.1006-687x.2021.12041. [37] SOBHANI Z,PANNEERSELVAN L,FANG C,et al.Chronic and Transgenerational Effects of Polystyrene Microplastics at Environmentally Relevant Concentrations in Earthworms (Eisenia fetida)[J].Environmental Toxicology and Chemistry,2021,40(8):2240-2246. [38] HUANG C D,GE Y,YUE S Z,et al.Microplastics Aggravate the Joint Toxicity to Earthworm Eisenia fetida with Cadmium by Altering Its Availability[J].Science of the Total Environment,2021,753:142042. [39] ZHANG S W,REN S,PEI L,et al.Ecotoxicological Effects of Polyethylene Microplastics and ZnO Nanoparticles on Earthworm Eisenia fetida[J].Applied Soil Ecology,2022,176:104469. [40] CHEN K Y,TANG R G,LUO Y M,et al.Transcriptomic and Metabolic Responses of Earthworms to Contaminated Soil with Polypropylene and Polyethylene Microplastics at Environmentally Relevant Concentrations[J].Journal of Hazardous Materials,2022,427:128176. [41] LIU J B,QIN J J,ZHU L,et al.The Protective Layer Formed by Soil Particles on Plastics Decreases the Toxicity of Polystyrene Microplastics to Earthworms (Eisenia fetida)[J].Environment International,2022,162:107158. [42] YANG Y,XU G H,YU Y.Microplastics Impact the Accumulation of Metals in Earthworms by Changing the Gut Bacterial Communities[J].Science of the Total Environment,2022,831:154848. [43] DING W L,LI Z,QI R M,et al.Effect Thresholds for the Earthworm Eisenia fetida:Toxicity Comparison between Conventional and Biodegradable Microplastics[J].Science of the Total Environment,2021,781:146884. [44] CHENG Y L,SONG W H,TIAN H M,et al.The Effects of High-density Polyethylene and Polypropylene Microplastics on the Soil and Earthworm Metaphire guillelmi Gut Microbiota[J].Chemosphere,2021,267:129219. [45] LI B,SONG W H,CHENG Y L,et al.Ecotoxicological Effects of Different Size Ranges of Industrial-grade Polyethylene and Polypropylene Microplastics on Earthworms Eisenia fetida[J].Science of the Total Environment,2021,783:147007. [46] CHOI D,HWANG J,BANG J,et al.In Vitro Toxicity from a Physical Perspective of Polyethylene Microplastics Based on Statistical Curvature Change Analysis[J].The Science of the Total Environment,2021,752:142242. [47] RIEDL S A B,VÖLKL M,HOLZINGER A,et al.In Vitro Cultivation of Primary Intestinal Cells from Eisenia fetida as Basis for Ecotoxicological Studies[J].Ecotoxicology,2022,31(2):221-233. [48] XIAO X,HE E K,JIANG X F,et al.Visualizing and Assessing the Size-dependent Oral Uptake,Tissue Distribution,and Detrimental Effect of Polystyrene Microplastics in Eisenia fetida[J].Environmental Pollution,2022,306:119436. [49] CHEN Y L,LIU X N,LENG Y F,et al.Defense Responses in Earthworms (Eisenia fetida) Exposed to Low-density Polyethylene Microplastics in Soils[J].Ecotoxicology and Environmental Safety,2020,187:109788. [50] YANG B,LI P,ENTEMAKE W,et al.Concentration-dependent Impacts of Microplastics on Soil Nematode Community in Bulk Soils of Maize:Evidence from a Pot Experiment[J].Frontiers in Environmental Science,2022,10:872898. [51] CHEN H B,HUA X,YANG Y,et al.Chronic Exposure to UV-aged Microplastics Induces Neurotoxicity by Affecting Dopamine,Glutamate,and Serotonin Neurotransmission in Caenorhabditis elegans[J].Journal of Hazardous Materials,2021,419:126482. [52] RAUCHSCHWALBE M T,FUESER H,TRAUNSPURGER W,et al.Bacterial Consumption by Nematodes Is Disturbed by the Presence of Polystyrene Beads:The Roles of Food Dilution and Pharyngeal Pumping[J].Environmental Pollution,2021,273:116471. [53] FUESER H,RAUCHSCHWALBE M T,HÖSS S,et al.Food Bacteria and Synthetic Microparticles of Similar Size Influence Pharyngeal Pumping of Caenorhabditis elegans[J].Aquatic Toxicology,2021,235:105827. [54] CHEN H B,HUA X,LI H,et al.Transgenerational Neurotoxicity of Polystyrene Microplastics Induced by Oxidative Stress in Caenorhabditis elegans[J].Chemosphere,2021,272:129642. [55] LIU H L,WANG D Y.Intestinal Mitochondrial Unfolded Protein Response Induced by Nanoplastic Particles in Caenorhabditis elegans[J].Chemosphere,2021,267:128917. [56] CHU Q,ZHANG S,YU X,et al.Fecal Microbiota Transplantation Attenuates Nano-plastics Induced Toxicity in Caenorhabditis elegans[J].Science of the Total Environment,2021,779:146454. [57] YU C W,LUK T C,LIAO V H C.Long-term Nanoplastics Exposure Results in Multi and Trans-generational Reproduction Decline Associated with Germline Toxicity and Epigenetic Regulation in Caenorhabditis elegans[J].Journal of Hazardous Materials,2021,412:125173. [58] SHANG Y,WANG S Y,JIN Y Y,et al.Polystyrene Nanoparticles Induced Neurodevelopmental Toxicity in Caenorhabditis elegans through Regulation of dpy-5 and rol-6[J].Ecotoxicology and Environmental Safety,2021,222:112523. [59] KIM Y,JEONG J,LEE S,et al.Identification of Adverse Outcome Pathway Related to High-density Polyethylene Microplastics Exposure:Caenorhabditis elegans Transcription Factor RNAi Screening and Zebrafish Study[J].Journal of Hazardous Materials,2020,388:121725. [60] YU Y J,CHEN H B,HUA X,et al.Polystyrene Microplastics (PS-MPs) Toxicity Induced Oxidative Stress and Intestinal Injury in Nematode Caenorhabditis elegans[J].Science of the Total Environment,2020,726:138679. [61] DE FELICE B,AMBROSINI R,BACCHETTA R,et al.Dietary Exposure to Polyethylene Terephthalate Microplastics (PET-MPs) Induces Faster Growth but Not Oxidative Stress in the Giant Snail Achatina reticulata[J].Chemosphere,2021,270:129430. [62] COLPAERT R,GRÉZÉRIAT L P D,LOUZON M,et al.Polyethylene Microplastic Toxicity to the Terrestrial Snail Cantareus aspersus:Size Matters[J].Environmental Science and Pollution Research,2022,29(20):29258-29267. [63] ZHU B K,FANG Y M,ZHU D,et al.Exposure to Nanoplastics Disturbs the Gut Microbiome in the Soil Oligochaete Enchytraeus crypticus[J].Environmental Pollution,2018,239:408-415. [64] KIM M R,CHO S Y,LEE H J,et al.Schisandrin C Improves Leaky Gut Conditions in Intestinal Cell Monolayer,Organoid,and Nematode Models by Increasing Tight Junction Protein Expression[J].Phytomedicine,2022,103:154209. [65] LETT Z,HALL A,SKIDMORE S,et al.Environmental Microplastic and Nanoplastic:Exposure Routes and Effects on Coagulation and the Cardiovascular System[J].Environmental Pollution,2021,291:118190. [66] NIE J H,SHEN Y,ROSHDY M,et al.Polystyrene Nanoplastics Exposure Caused Defective Neural Tube Morphogenesis through Caveolae-mediated Endocytosis and Faulty Apoptosis[J].Nanotoxicology,2021,15(7):885-904. [67] ZHOU Y F,LIU X N,WANG J.Ecotoxicological Effects of Microplastics and Cadmium on the Earthworm Eisenia foetida[J].Journal of Hazardous Materials,2020,392:122273. [68] XU G H,LIU Y,SONG X,et al.Size Effects of Microplastics on Accumulation and Elimination of Phenanthrene in Earthworms[J].Journal of Hazardous Materials,2021,403:123966. [69] YU H,SHI L L,FAN P,et al.Effects of Conventional versus Biodegradable Microplastic Exposure on Oxidative Stress and Gut Microorganisms in Earthworms:A Comparison with Two Different Soils[J].Chemosphere,2022,307(Part 3):135940. [70] LIU H L,TIAN L J,WANG S T,et al.Size-dependent Transgenerational Toxicity Induced by Nanoplastics in Nematode Caenorhabditis elegans[J].Science of the Total Environment,2021,790:148217. [71] QU M,XU K N,LI Y H,et al.Using acs-22 Mutant Caenorhabditis elegans to Detect the Toxicity of Nanopolystyrene Particles[J].Science of the Total Environment,2018,643:119-126. [72] KIM S W,KIM D,JEONG S W,et al.Size-dependent Effects of Polystyrene Plastic Particles on the Nematode Caenorhabditis elegans as Related to Soil Physicochemical Properties[J].Environmental Pollution,2020,258:113740. [73] DING J,LIU C X,CHEN Q F,et al.Extractable Additives in Microplastics:A Hidden Threat to Soil Fauna[J].Environmental Pollution,2022,294:118647. [74] 陈苏,刘颖,张晓莹,等.微塑料老化行为及其对重金属吸附影响的研究进展[J].生态与农村环境学报,2023,39(1):12-19.[CHEN Su,LIU Ying,ZHANG Xiao-ying,et al.Progress in the Study on Ageing Behavior of Microplastics and Its Effect on Heavy Metal Adsorption[J].Journal of Ecology and Rural Environment,2023,39(1):12-19.] [75] CHANG J N,FANG W,LIANG J S,et al.A Critical Review on Interaction of Microplastics with Organic Contaminants in Soil and Their Ecological Risks on Soil Organisms[J].Chemosphere,2022,306:135573. [76] 贾涛,薛颖昊,靳拓,等.土壤中微塑料的来源、分布及其对土壤潜在影响的研究进展[J].生态毒理学报,2022,17(5):202-216.[JIA Tao,XUE Ying-hao,JIN Tuo,et al.Research Progress on the Source and Distribution of Microplastics in Soil and Its Potential Impact on Soil[J].Asian Journal of Ecotoxicology,2022,17(5):202-216.] [77] HARADA S,HASHIZUME T,NEMOTO K,et al.Fluid Dynamics Alter Caenorhabditis elegans Body Length via TGF-β/DBL-1 Neuromuscular Signaling[J].NPJ Microgravity,2016,2(1):1-7. [78] QU M,CHEN H,LAI H P,et al.Exposure to Nanopolystyrene and Its 4 Chemically Modified Derivatives at Predicted Environmental Concentrations Causes Differently Regulatory Mechanisms in Nematode Caenorhabditis elegans[J].Chemosphere,2022,305:135498. [79] YANG Y H,SHAO H M,WU Q L,et al.Lipid Metabolic Response to Polystyrene Particles in Nematode Caenorhabditis elegans[J].Environmental Pollution,2020,256:113439. [80] KIM H M,LEE D K,LONG N P,et al.Uptake of Nanopolystyrene Particles Induces Distinct Metabolic Profiles and Toxic Effects in Caenorhabditis elegans[J].Environmental Pollution,2019,246:578-586. [81] LI B Q,DING Y F,CHENG X,et al.Polyethylene Microplastics Affect the Distribution of Gut Microbiota and Inflammation Development in Mice[J].Chemosphere,2020,244:125492. [82] WANG H T,DING J,XIONG C,et al.Exposure to Microplastics Lowers Arsenic Accumulation and Alters Gut Bacterial Communities of Earthworm Metaphire californica[J].Environmental Pollution,2019,251:110-116. [83] JIANG X F,CHANG Y Q,ZHANG T,et al.Toxicological Effects of Polystyrene Microplastics on Earthworm (Eisenia fetida)[J].Environmental Pollution,2020,259:113896. [84] QU M,QIU Y X,KONG Y,et al.Amino Modification Enhances Reproductive Toxicity of Nanopolystyrene on Gonad Development and Reproductive Capacity in Nematode Caenorhabditis elegans[J].Environmental Pollution,2019,254:112978. [85] SOBHANI Z,FANG C,NAIDU R,et al.Microplastics as a Vector of Toxic Chemicals in Soil:Enhanced Uptake of Perfluorooctane Sulfonate and Perfluorooctanoic Acid by Earthworms through Sorption and Reproductive Toxicity[J].Environmental Technology & Innovation,2021,22:101476. [86] LIU H L,ZHAO Y L,HUA X,et al.Induction of Transgenerational Toxicity Is Associated with the Activated Germline Insulin Signals in Nematodes Exposed to Nanoplastic at Predicted Environmental Concentrations[J].Ecotoxicology and Environmental Safety,2022,243:114022. [87] CERMAK N,YU S K,CLARK R,et al.Whole-organism Behavioral Profiling Reveals a Role for Dopamine in State-dependent Motor Program Coupling in C. elegans[J].eLife,2020,9:e57093. [88] JEWETT E,ARNOTT G,CONNOLLY L,et al.Microplastics and Their Impact on Reproduction:Can We Learn from the C. elegans Model?[J].Frontiers in Toxicology,2022,4:748912. [89] FOUAD A D,TENG S,MARK J R,et al.Distributed Rhythm Generators Underlie Caenorhabditis elegans Forward Locomotion[J].eLife,2018,7:e29913. [90] HUERTA LWANGA E,MENDOZA VEGA J,KU QUEJ V,et al.Field Evidence for Transfer of Plastic Debris along a Terrestrial Food Chain[J].Scientific Reports,2017,7(1):1-7. [91] CHAE Y,AN Y J.Nanoplastic Ingestion Induces Behavioral Disorders in Terrestrial Snails:Trophic Transfer Effects via Vascular Plants[J].Environmental Science:Nano,2020,7(3):975-983. [92] BANERJEE A,SHELVER W L.Micro- and Nanoplastic Induced Cellular Toxicity in Mammals:A Review[J].The Science of the Total Environment,2021,755(Part 2):142518. [93] KUMAR R,MANNA C,PADHA S,et al.Micro(Nano)Plastics Pollution and Human Health:How Plastics Can Induce Carcinogenesis to Humans?[J].Chemosphere,2022,298:134267. [94] SCHWABL P,KÖPPEL S,KÖNIGSHOFER P,et al.Detection of Various Microplastics in Human Stool:A Prospective Case Series[J].Annals of Internal Medicine,2019,171(7):453-457. |
[1] | LI Wen-xing, WU Ya-mei, WANG Kang, CHEN Wei, TIAN Jia-yu, XU Li. The Method for Determination of Microplastics in Typical Chinese Soils [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 568-575. |
[2] | YANG Jie, TU Chen, LI Rui-jie, FENG Yu-dong, LI Lian-zhen, LUO Yong-ming. Occurrence Characteristics and Regional Differences of Microplastics in Different Types of Manure Composts [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 576-583. |
[3] | CAO Hui-hui, YAO Shi, LI Xiao-na, NI Ni, CHENG Hu, BAI Xue, SONG Yang. Research Progress on Pollution Characteristics and Ecological Effects of Micro/Nano Plastics in Soil under the Action of Climatic Factors [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 584-590. |
[4] | SHAN Xiao-ling, HU Gui-lin, ZHAO Ran, Lü Feng-lian, GUO Xue-tao. Effect of Polystyrene Micro-particles on Sorption Behaviors of Tylosin onto Typical Chinese Farmland Soils [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 591-598. |
[5] | XIANG Li, YANG Jie, TU Chen, ZHANG Dao-yong, LUO Yong-ming. Effects of Biotic and Abiotic Factors on the Vertical Migration of Microplastics in Soil Driven by Earthworms [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 599-607. |
[6] | LI Rui-jie, TU Chen, YANG Jie, FENG Yu-dong, FAN Qiao-hui, LUO Yong-ming. Effects of Microplastics on Growth and Physiology of Wheat under Different Temperature and Humidity Conditions [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 608-616. |
[7] | LI Jia, YU Yu-fei, CUI Min. Effects of Biochar on the Phytotoxicity of Polyvinyl Chloride Microplastics in Greenhouse Soil [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 617-624. |
[8] | CHEN Guang-long, WANG Wen-jing, WANG Jun. Research Progress on the Effects of Microplastics on the Growth and Development of Terrestrial Plants and Rhizosphere Environment [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 625-633. |
[9] | WEI Jing, TU Chen. Impact of Microplastics on the Physicochemical Properties, Microbial Community Structure, and Functions of Farmland Soils [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 644-652. |
[10] | CHEN Guan-lin, WANG Lan, TANG Jing-chun. Research Progress in the Effects of Microplastics on Soil Microorganisms and Greenhouse Gas Emission [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 653-660. |
[11] | FENG Yu-dong. Biological Health Effects and Food-chain Transfer Risks of Micro/Nano Plastics in Soil [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 661-674. |
[12] | ZHOU Qian, ZHANG Jun, MENG Zhu, MA Shao-feng, CHEN Jian-teng, ZHU Peng-feng, ZHANG Dao-yong, PAN Xiang-liang. Nanoscale Degradation Characteristics of Biodegradable Bag-derived Microplastics in Soil [J]. Journal of Ecology and Rural Environment, 2023, 39(5): 675-684. |
[13] | HUANG Xin, CHEN Hong, XU Xiao-ren, TANG Xiao-qian, XIAO Xin, CHEN Shi-yong, MEI Da-wei, WANG Liang. Analysis of Temporal and Spatial Changes and Driving Factors of Soil Erosion in the Yimeng Mountainous Area [J]. Journal of Ecology and Rural Environment, 2023, 39(4): 469-479. |
[14] | SI Shao-cheng, TU Chen, WU Yu-cheng, LI Yuan, LUO Yong-ming. Soil Fertility Health and Peanut Yield in Upland Red Soils under Long-term Continuous Application of Pig Manure [J]. Journal of Ecology and Rural Environment, 2023, 39(4): 480-487. |
[15] | ZHOU Yuan-yuan, CHEN Hu, WEI Qiang, YIN Xiu-mei, LIU Wen-jun. Response between the Community Structure of Soil Mites and Environmental Factors on the Evergreen Broad-leaved Forest in the Shibing Karst Heritage Property, China [J]. Journal of Ecology and Rural Environment, 2023, 39(4): 511-522. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||