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引用本文:曾庆飞,孔繁翔,张恩楼,钱善勤.稳定同位素技术应用于水域食物网的方法学研究进展.湖泊科学,2008,20(1):13-20. DOI:10.18307/2008.0102
ZENG Qingfei,KONG Fanxiang,ZHANG Enlou,QIAN Shanqin.Assessment of sample processing methods for stable isotope analysis of aquatic food webs. J. Lake Sci.2008,20(1):13-20. DOI:10.18307/2008.0102
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稳定同位素技术应用于水域食物网的方法学研究进展
曾庆飞1,2, 孔繁翔1, 张恩楼1, 钱善勤1,2
1.中国科学院南京地理与湖泊研究所湖泊与环境国家重点实验室, 南京 210008;2.中国科学院研究生院, 北京 100049
摘要:
稳定同位素技术是揭示食物网中物质的循环路径和探究消费者、生产者间的营养关系的重要方法.但是,不同的样品处理方法可能引起同位素比值的变动,使得食物网模型的建立和各研究结果间的相互比较存在一定的困难.样品的预处理主要分为四个环节,即保存、分离、酸化和干燥.在水域生态系统中,水体中的颗粒,溶解性有机物质、细菌、浮游动物、藻类、水生植物、鱼类及底栖动物等采集后,通过分离纯化,得到目的样品,-20℃冷冻保存.对于含有无机碳酸盐的生物样品,例如沉积物、含有钙质结构的无脊椎生物、部分浮游生物等需要酸化处理以排除无机碳对6"c测定的影响,1mol/L.HCl滴加可以达到很好的去除效果.对于生物样品δ15N的测定则不需要酸化处理.最后,样品经冷冻干燥或40—70℃低温烘干以备稳定同位素的测定.另外,用福尔马林、乙醇等保存在博物馆里的样品,对于长时间尺度上食物网的重建具有重要的生态学意义.本文系统总结了不同研究中样品处理过程的差异,分析其干扰机制,为进一步的方法学研究奠定了基础.
关键词:  稳定同位素  水域食物网  方法学
DOI:10.18307/2008.0102
分类号:
基金项目:国家重点基础研究发展计划(973)项目(2002CB412305);国家自然科学基金项目(40471045)联合资助.
Assessment of sample processing methods for stable isotope analysis of aquatic food webs
ZENG Qingfei1,2, KONG Fanxiang1, ZHANG Enlou1, QIAN Shanqin1,2
1.State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, P. R China;2.Graduate School of Chinese Academy of Sciences, Beijing 100049, P. R. China
Abstract:
Stable isotope analysis is commonly used in studying flows of mass and energy through food webs and trophicrelationships in aquatic ecosystems. However, different sample processing methods can influence the measurement of these stableisotope rates, which may result in errors in the resulting food web models and the comparing results between different studies. Inparticular, errors may result from four different sources, that is, preservation, separation, acidification and dehydration. The collecttedparticulate/dissolved organic matter, bacteria, zooplankton, algae, hydrophyte, fish and zoobenthos were rinsed with deionized waterto clean off epibionts, and then stored at ?20℃. Acidification by adding 1mol/L HCl drop-by-drop was needed for carbon isotopeanalysis in samples of sediment organic matter, invertebrates with calcareous structures, and plankton. For nitrogen analysis,acidification should be avoided. Finally, dehydration was required by the analytical methods used in the determination of isotopicabundance. Both freeze-drying and drying at 40?70℃ were acceptable. In addition, materials preserved with formalin and ethanolstocks was suitable for current ecological applications of isotopic analysis and open up the possibility to reconstruct food webs andbiogeochemical changes at scales of tens or hundreds of years. In this review we summarize different sample processing prior to theanalytical determination of stable isotope ratios and the influence mechanism of some processing methods, which are fundamentalfor further methodology research.
Key words:  Stable isotope  aquatic food webs  methodology
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