首页|期刊导航|土壤|基于稳定性同位素技术的土壤白符跳体内镉溯源及影响因素

基于稳定性同位素技术的土壤白符跳体内镉溯源及影响因素OA

Sources and Influencing Factors of Cadmium in Folsomia candida(Collembola)in Soil Ecosystems:A Stable Isotope Tracing Approach

中文摘要英文摘要

本研究利用镉(Cd)同位素标记污染源和同源Cd的双同位素组成试验,构建白符跳(Folsomia candida)体内Cd溯源量化模型,并探究污染程度和食物差异等因子对白符跳体内 Cd 来源贡献的影响.研究创新性地构建了跳虫体内 Cd 二源和三源量化模型.结果表明,在Cd溶液和食物双源系统下,低Cd浓度处理下无论成虫还是幼虫,白符跳体内Cd来源主要为食物源(85.0%、64.6%);随着污染程度的增加,溶液源 Cd 的贡献不断提升,分别从15.0%、35.4%提高至 43.0%、73.9%,且幼虫体内Cd 溶液源贡献均高于相应处理的成虫.在 Cd 溶液源、秸秆和腐生真菌食物源三源处理下,无论污染浓度高低,跳虫均选择性地取食腐生真菌,即使腐生真菌中Cd浓度远大于秸秆.可见,白符跳对食物资源偏好的影响显著大于食物的污染程度.

In this study,cadmium(Cd)isotope labeling of pollution sources and dual-isotope composition experiments for homologous Cd were employed to establish a quantitative tracing model for Cd sources in Folsomia candida(springtails)and to investigate the influence of factors such as pollution levels and dietary differences on the contribution of Cd sources in springtails.The study successfully developed two-source and three-source quantitative models for Cd in springtails.The results showed that in the dual-source system(Cd solution and food),under low Cd concentration treatments,both adults and larvae primarily accumulated Cd from food sources(85.0%and 64.6%,respectively).As pollution levels increased,the contribution of Cd from the solution source rose from 15.0%and 35.4%to 43.0%and 73.9%,respectively,with larvae consistently exhibiting higher solution-source contributions than adults under equivalent treatments.In the three-source system(Cd solution,straw,and saprophytic fungi),springtails selectively fed on saprophytic fungi,even when Cd concentrations in fungi were significantly higher than in straw,regardless of pollution levels.This indicated that the preference of Folsomia candida for food resources has a more significant impact on its Cd source than the level of food contamination.The findings of this study provided theoretical insights for blocking heavy metal uptake in soil fauna and remediating contaminated soil ecosystems.

李绍兵;李柱;王孜楠;梁芳;刘厶瑶;周嘉文;黄玉娟;柯欣;吴龙华

中国科学院南京土壤研究所,南京 211135||中国科学院大学,北京 100049中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135中国科学院南京土壤研究所,南京 211135

农业科技

镉同位素同位素比值跳虫溯源

Cadmium isotopesIsotopic ratioCollembolanSource tracing

《土壤》 2026 (2)

443-450,8

国家自然科学基金项目(41977136)资助.

10.13758/j.cnki.tr.202504010124

评论