[1] 翟凤英,杨晓光.中国居民营养与健康状况调查报告之二——2002膳食与营养素摄入状况[M].北京:人民卫生出版社,2006.
[2] 杨天和,褚保金.中国食品安全保障体系中的预警技术与危险性评估技术研究[J].食品科学,2005,26:260-264.
[3] FAO/WHO. Codex Alimentarius Commission procedural manual [S]. 18th ED. Rome:FAO,2008.
[4] FAO/WHO. Principles and methods for the risk assessment of chemicals in food[S]. Geneva:WHO,2009.
[5] FAO/WHO. Food Safety Risk Analysis A guide for national food safety authorities[S]. Rome:FAO/WHO,2006.
[6] FAO/WHO. Evaluation of certain food additives and contaminants (Thirty third Report of the Joint FAO/WHO Expert Committee on Food Additives)[S]. Geneva:WHO,1989.
[7] Jager T, Vermire T G, Rikken M G J, et al. Opportunities for a probabilistic risk assessment of chemicals in the European Union [J]. Chemosphere,2001,43:257-264.
[8] Kroes R, Müller D, Lambe J, et al. Assessment of intake from the diet[J]. Food and Chemical Toxicology,2002,40:327-385.
[9] Vose D. Risk Analysis: A Quantitative Guide[M]. 3rd Ed. Chichester:John Wiley&Sons Ltd,2008.
[10] European Chemicals Bureau. Scoping study on the technical guidance document on preparing the chemical safety report under REACH. Reach implementation Project 3.2. Report prepared by CEFIC, ECETOC, RIVM, the Federal Institute for Risk Assessment (BfR), Federal Institute for Occupational Safety and Health (BAuA), Okopol, DHI Water & Environment and TNO[R]. European Commission, Joint Research Centre,Ispra,Italy,2005.
[11] Scheringer M, Steinbach D, Escher B, et al. Probabilistic approaches in the effect assessment of toxic chemicals. What are the benefits and limitations?[J]. Environmental Science and Pollution Research International,2002,9(5):307-314.
[12] Petersen B J. Probabilistic modelling: theoryand practice[J]. Food Additives and Contaminants,2000,17:591-599.
[13] Renwick A G, Barlow S M, Hertz- Picciotto I, et al. Risk characterisation of chemicals in food and diet[J]. Food and Chemical Toxicology, 2003,41:1211-1271.
[14] 王陇德.中国居民营养与健康状况调查报告之一:2002综合报告[M].北京:人民卫生出版社,2005.
[15] Voit E O, Schwacke L H. Random number generation from rightskewed, symmetric, and left-skewed distributions[J]. Risk Analysis, 2000,20:59-71.
[16] 马冠生,孔灵芝.中国居民营养与健康状况调查报告之九——2002行为和生活方式[M].北京:人民卫生出版社,2006.
[17] 金水高.中国居民营养与健康状况调查报告之十——2002营养与健康状况数据集[M].北京:人民卫生出版社,2006.
[18] van Leeuwen C J, Vermeire T G. Risk assessment of chemicals: An introduction[M]. The Netherlands:Springer,2007.
[19] Taylor A C. Using objective and subjective information to develop distributions for probabilistic exposure assessment[J]. J Expo Anal Environ Epidemiol,1993,3(3):285-98.
[20] Suter G W. Ecological risk assessment[M]. Chelsea:Lewis publishers,1993.
[21] 刘沛,刘元宝,王灿楠.膳食暴露评估模型及其构建方法[J].中华预防医学杂志,2007,41(6):502-504.
[22] 杨晓光,翟凤英.中国居民营养与健康状况调查报告之三——2002居民体质与营养状况[M].北京:人民卫生出版社,2006:51-52.
[23] 宋雯,陈志军,朱智伟,等.南方 6省稻米总汞含量调查及其膳食暴露评估[J].农业环境科学学报,2011,30(5): 817-823.
[24] 李筱薇,高俊全,陈君石.2000年中国总膳食研究――膳食汞摄入量[J].卫生研究,2006,35(3):323-325.
[25] Stephen W C C, Ka P K, Joan C W Y, et al. Dietary exposure to antimony, lead and mercury of secondary school students in Hong Kong[J]. Food Additives and Contaminants, 2008,25(7):831-840.
[26] Paulo M J, van der Voet H, Jansen M JW, et al. Risk assessment of dietary exposure to pesticides using a Bayesian method[J]. Pest Management Science,2005,61:759-766.
[27] 宋雯,陈志军,王敏,等.暴露评估中稻米重金属汞污染的适宜采样量[J].食品科学,2011,32(01):10-13.
[28] 宋雯,陈志军,王敏,等.暴露评估中样本采集量的模拟研究[J].生物数学学报,2011,26(1):1-10.
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