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Food Additives & Contaminants: Part A Volume 31, 2014 - Issue 11
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Reviews

Residues and contaminants in tea and tea infusions: a review

A.M. Abd El-AtyBiotechnology Research Institute, College of Agriculture and Life Sciences, Chonnam National University, Buk-gu, Gwangju500–757, Republic of Korea;Department of Pharmacology, Faculty of Veterinary Medicine, Cairo University, 12211Giza, EgyptCorrespondence[email protected] [email protected]
,
Jeong-Heui ChoiBiotechnology Research Institute, College of Agriculture and Life Sciences, Chonnam National University, Buk-gu, Gwangju500–757, Republic of Korea
,
Md. Musfiqur RahmanBiotechnology Research Institute, College of Agriculture and Life Sciences, Chonnam National University, Buk-gu, Gwangju500–757, Republic of Korea
,
Sung-Woo KimBiotechnology Research Institute, College of Agriculture and Life Sciences, Chonnam National University, Buk-gu, Gwangju500–757, Republic of Korea
,
Alev TosunDepartment of Pharmacognosy, Faculty of Pharmacy, Ankara University, Ankara, Turkey
&
Jae-Han ShimBiotechnology Research Institute, College of Agriculture and Life Sciences, Chonnam National University, Buk-gu, Gwangju500–757, Republic of KoreaCorrespondence[email protected] [email protected]
Pages 1794-1804 | Received 17 Jun 2014, Accepted 22 Aug 2014, Published online: 23 Sep 2014

References

  • Al-Masri MS, Nashawati A, Amin Y, Al-Akel B. 2004. Determination of 210Po in tea, maté and their infusions and its annual intake by Syrians. J Radioanal Nucl Chem. 260:27–34.
  • Anandh Babu P, Liu D, Liu D. 2008. Green tea catechins and cardiovascular health: an update. Curr Med Chem. 15:1840–1850.
  • Arpadjan S, Çelik G, Taşkesen S, Güçer Ş. 2008. Arsenic, cadmium and lead in medicinal herbs and their fractionation. Food Chem Toxicol. 46:2871–2875.
  • Auzanneau J, Huyghe C, Escobar-Gutierrez AJ, Julier B, Gastal F, Barre P. 2011. Association study between the gibberellic acid insensitive gene and leaf length in a Lolium perenne L. synthetic variety. BMC Plant Biol. 183:1–13.
  • Balonov MI, Krisyuk EM, Ramel C. 1999. Environmental radioactivity, population exposure and related health risks in the east Baltic region. Scand J Work Environ Health. 25:17–32.
  • Banerjee H, Ganguly P, Roy S, Banerjee D, Paramasivam M, Banerjee T, Sharma KK. 2010. Persistence and safety risk assessment of propineb in Indian tea. Environ Monit Assess. 170:311–314.
  • Bisen JS, Ghosh Hajara N. 2000. Persistence and degradation of some insecticides in Darjeeling tea. J Plant Crop. 28:123–131.
  • Biswas PK, Pramanik SK, Mitra SR, Bhattacharyya A. 2007. Persistence of Napropamide in/on tea under North-East Indian climatic condition. Bull Environ Contam Toxicol. 79:566–569.
  • Boga A, Binokay S, Sertdemir Y. 2009. The toxicity and teratogenicity of gibberellic acid (GA3) based on the frog embryo teratogenesis assay-Xenopus (FETAX). Turk J Biol. 33. 181–188.
  • Butt MS, Sultan MT. 2009. Green tea: nature’s defense against malignancies. Crit Rev Food Sci Nutr. 49:463–473.
  • Cabrera C, Artacho R, Giménez R. 2006. Beneficial effects of green tea--a review. J Am Coll Nutr. 25:79–99.
  • Cai L, Xing J, Dong L, Wu C. 2003. Application of polyphenylmethylsiloxane coated fiber for solid-phase microextraction combined with microwave-assisted extraction for the determination of organochlorine pesticides in Chinese teas. J Chromatogr A. 1015:11–21.
  • Chen G, Cao P, Liu R. 2011. A multi-residue method for fast determination of pesticides in tea by ultra performance liquid chromatography-electrospray tandem mass spectrometry combined with modified QuEChERS sample preparation procedure. Food Chem. 125:1406–1411.
  • Chen H, Liu X, Wang C, Wang Q, Jiang Y, Yin P, Zhu L. 2013. Simultaneous determination of thiophanate-methyl and its metabolite carbendazim in tea using isotope dilution ultra performance liquid chromatography–tandem mass spectrometry. J Chromatogr Sci. doi:10.1093/chromsci/bmt165
  • Chen H, Liu X, Yang D, Yin P. 2013. Degradation pattern of gibberellic acid during the whole process of tea production. Food Chem. 138:976–981.
  • Chen QS, Zhao JW, Fang CH, Wang DM. 2007. Feasibility study on identification of green, black and Oolong teas using near-infrared reflectance spectroscopy based on support vector machine (SVM). Spectrochimica Acta Part A Mol Biomol Spectrosc. 66:568–574.
  • Chen S, Zhu S, He Y, Lu D. 2014. Speciation of chromium and its distribution in tea leaves and tea infusion using titanium dioxide nanotubes packed microcolumn coupled with inductively coupled plasma mass spectrometry. Food Chem. 150:254–259.
  • Cho SK, Abd El-Aty AM, Rahman MM, Choi JH, Shim JH. 2014. Simultaneous multi-determination and transfer of eight pesticide residues from green tea leaves to infusion using gas chromatography. Food Chem. 165:532–539.
  • Ciemniak A, Mocek K. 2010. Polycyclic aromatic hydrocarbons in tea and tea infusions. Rocz Panstw Zakl Hig. 61:243–248. [Article in Polish].
  • Davis RA, Stiles MF, de Bethizy JD, Reynolds JH. 1991. Dietary nicotine: a source of urinary cotinine. Food Chem Toxicol. 29:821–827.
  • Di Gregorio DE, Huck H, Aristegui R, De Lazzari G, Jech A. 2004. 137Cs contamination in tea and yerba mate in South America. J Environ Radioact. 76:273–281.
  • Domino EF, Hornbach E, Demana T. 1993. Relevance of nicotine content of common vegetables to the identification of passive tobacco smokers. Med Scientific Res. 21:571–572.
  • Drabova L, Pulkrabova J, Kalachova K, Tomaniova M, Kocourek V, Hajslova J. 2012. Rapid determination of polycyclic aromatic hydrocarbons (PAHs) in tea using two-dimensional gas chromatography coupled with time of flight mass spectrometry. Talanta. 100:207–216.
  • Dufresne CJ, Farnworth ER. 2001. A review of latest research findings on the health promotion properties of tea. J Nutr Biochem. 12:404–421.
  • Elanco D. 1993. Fenazaquin—a profile. Oxfordshire (UK): Department of Regulatory Toxicology and Environmental Affairs, Agriculture Products Research and Development.
  • Elshafie AE, Al-Lawatia T, Al-Bahry S. 1999. Fungi associated with black tea and tea quality in the Sultanate of Oman. Mycopathologia. 145:89–93.
  • EU Pesticides Database. 2013. Regulation EC No 396/2005 [Internet]. [cited 2014 Sept 10]. Available from: http://ec.europa.eu/sanco_pesticides/public/?event=substance.selection&ch=1
  • European Commission. 2006. Commission Regulation (EC) No 1881/2006. Off J Eur Communities. R1881:16–23.
  • European Commission Health and Consumers Directorate-General. Review report for the active substance gibberellic acid. SANCO/2613/08-rev.1, 2008.7
  • European Union. 2002. Appendix I EU/German Maximum Residue Limits on Tea, Appendices, 16 December.
  • Falahi E, Hedaiati R. 2013. Heavy metal content of black teas consumed in Iran. Food Addit Contam: Part B. 6:123–126.
  • Fiedler H, Cheung CK, Wong MH. 2002. PCDD/PCDF, chlorinated pesticides and PAH in Chinese teas. Chemosphere. 46:1429–1433.
  • Fung KF, Zhang ZQ, Wong JWC, Wong MH. 1999. Fluoride contents in tea and soil from tea plantations and the release of fluoride into tea liquor during infusion. Environ Pollut. 104:197–205.
  • Gebretsadik1 DW, Chandravanshi BS. 2010. Levels of metals in commercially available Ethiopian black teas and their infusions. Bull Chem Soc Ethiopia. 24:339–349.
  • Goel B, Pant DC, Kishore VV. 2001. Two-phase anaerobic digestion of spent tea leaves for biogas and manure generation. Biores Technol. 80:153–156.
  • Görür FK, Keser R, Akçay N, Dizman S, Okumuşoğlu NT. 2011. Radionuclides and heavy metals concentrations in Turkish market tea. Food Control. 22:2065–2070.
  • Grover IS, Singh S, Pal B. 2013. Priority PAHs in orthodox black tea during manufacturing process. Environ Monit Assess. 185:6291–6294.
  • Gupta M, Shanker A. 2008. Persistence of acetamiprid in tea and its transfer from made tea to infusion. Food Chem. 111:805–810.
  • Gupta M, Shanker A. 2009. Fate of imidacloprid and acetamiprid residues during black tea manufacture and transfer into tea infusion. Food Addit Contam: Part A. 26:157–163.
  • Gupta M, Sharma A, Shanker A. 2008. Dissipation of imidacloprid in Orthodox tea and its transfer from made tea to infusion. Food Chem. 106:158–164.
  • Gupta S, Saha B, Giri AK. 2002. Comparative antimutagenic and anticlastogenic effects of green tea and black tea: a review. Mutat Res. 512:37–65.
  • Halt M. 1998. Moulds and mycotoxins in herb tea and medicinal plants. Eur J Epidemiol. 14:269–274.
  • Hameed BH. 2009. Spent tea leaves: a new non-conventional and low-cost adsorbent for removal of basic dye from aqueous solutions. J Hazard Mater. 161:753–759.
  • Han W-Y, Zhao F-J, Shi Y-Z, Ma L-F, Ruan J-Y. 2006. Scale and causes of lead contamination in Chinese tea. Environ Pollut. 139:125–132.
  • Haslam E. 2003. Thoughts on thearubigins. Phytochemistry. 64:61–73.
  • Hauer T, Jonas D, Dettenkofer M, Daschner FD. 1999. Tea as a source of Acinetobacter baumannii ventilator-associated pneumonia? Infect Control Hosp Epidemiol. 20:594.
  • Henning SM, Fajardo-Lira C, Lee HW, Youssefian AA, Go VLW, Heber D. 2003. Catechin content of 18 teas and a green tea extract supplement correlates with the antioxidant capacity. Nutr Cancer. 45:226–235.
  • Hitokoto H, Morozumi S, Wauke T, Sakai S, Kurata S. 1978. Fungal contamination and mycotoxin detection of powdered herbal drugs. Appl Environ Microbiol. 36:252–256.
  • Hou RY, Hu JF, Qian XS, Su T, Wang XH, Zhao XX, Wan XC. 2013. Comparison of the dissipation behaviour of three neonicotinoid insecticides in tea. Food Addit Contam: Part A. 30:1761–1769.
  • Jaggi S, Sood C, Kumar V, Ravindranath SD, Shanker A. 2000. Loss of quinalphos during tea processing. Pestology. 24:42–46.
  • Jaggi S, Sood C, Kumar V, Ravindranath SD, Shanker A. 2001. Leaching of pesticides in tea brew. J Agric Food Chem. 49:5479–5483.
  • Ji J, Deng C, Zhang H, Wu Y, Zhang X. 2007. Microwave-assisted steam distillation for the determination of organochlorine pesticides and pyrethroids in Chinese teas. Talanta. 71:1068–1074.
  • Kabak B. 2009. The fate of mycotoxins during thermal food processing. J Sci Food Agric. 89:549–554.
  • Kanrar B, Mandal S, Bhattacharyya A. 2010. Validation and uncertainty analysis of a multiresidue method for 42 pesticides in made tea, tea infusion and spent leaves using ethyl acetate extraction and liquid chromatography–tandem mass spectrometry. J Chromatogr A. 1217:1926–1933.
  • Karak T, Bhagat RM. 2010. Trace elements in tea leaves, made tea and tea infusion: A review. Food Res Int. 43:2234–2252.
  • Kayali-Sayadi MN, Rubio-Barroso S, Cuesta-Jimenez MP, Polo-Díez LM. 1998. Rapid determination of polycyclic aromatic hydrocarbons in tea infusion samples by high-performance liquid chromatography and fluorimetric detection based on solid-phase extraction. Analyst. 123:2145–2148.
  • Kondo T, Watanabe A, Shitara H, Kaburagi Y, Shibata M, Kanda N, Kurokawa C, Inoue Y, Miyazaki M, Togawa M, et al. 2013. Residual pesticide concentrations in tea after processing to various types of tea and in tea infusions. Shokuhin Eiseigaku Zasshi. 54:259–265. [Article in Japanese]
  • Kottiappan M, Dhanakodi K, Annamalai S, Anandhan SV. 2013. Monitoring of pesticide residues in South Indian tea. Environ Monit Assess. 185:6413–6417.
  • Kumar V, Tewary DK, Ravindranath SD, Shanker A. 2006. Investigation in tea on fate of fenazaquin residue and its transfer in brew. Food Chem Toxicol. 44:596–600.
  • Kuriyama S. 2008. The relation between green tea consumption and cardiovascular disease as evidenced by epidemiological studies. J Nutr. 138:1548S–1553S.
  • Li WH, Zhou HP, Li N, Wang SD, Liu XJ, Jin ZJ, Bu YZ, Liu ZX. 2013. Chromium level and intake from Chinese made tea. Food Addit Contam: Part B. 6:289–293.
  • Lin D, Tu Y, Zhu L. 2005. Concentrations and health risk of polycyclic aromatic hydrocarbons in tea. Food Chem Toxicol. 43:41–48.
  • Lin D, Zhu L. 2004. Polycyclic aromatic hydrocarbons: pollution and source analysis of a black tea. J Agric Food Chem. 52:8268–8271.
  • Lin D, Zhu L, Luo L. 2006. Factors affecting transfer of polycyclic aromatic hydrocarbons from made tea to tea infusion. J Agric Food Chem. 54:4350–4354.
  • Lino CM, Silveira MIN. 1997. Loss of organochlorine pesticide residues during the infusion processes of linden (Tilia cordata Mill.). J Agric Food Chem. 45:2718–2722.
  • Luczaj W, Skrzydlewska E. 2005. Antioxidative properties of black tea. Prev Med. 40:910–918.
  • Maguire RJ. 1991. Kinetics of pesticide volatilization from the surface of water. J Agric Food Chem. 39:1674–1678.
  • Manach C, Scalbert A, Morand C, Remesy C, Jimenez L. 2004. Polyphenols: food sources and bioavailability. Am J Clin Nutr. 79:727–747.
  • Martins ML, Martins HM, Bernardo F. 2001. Fumonisins B-1 and B-2 in black tea and medicinal plants. J Food Prot. 64:1268–1270.
  • Meltzer SM, Monk BJ, Tewari KS. 2009. Green tea catechins for treatment of external genital warts. Am J Obstet Gynecol. 200:233.e1–233.e7.
  • MFDS. 2013. Ministry of Food and Drug Safety, Pesticide Residue Database. Seoul (Republic of Korea): MFDS.
  • MilićevićDR, Škrinjar M, Baltić T. 2010. Real and perceived risks for mycotoxin contamination in foods and feeds: challenges for food safety control. Toxins. 2:572–592.
  • Mishra BB, Gautam S, Sharma A. 2006. Microbial decontamination of tea (Camellia sinensis) by Gamma radiation. J Food Sci. 71:M151–M156.
  • Mogensen JM, Varga J, Thrane U, Frisvad JC. 2009. Aspergillus acidus from puerh tea and black tea does not produce ochratoxin A and fumonisin B-2. Int J Food Microbiol. 132:141–144.
  • Monbaliu S, Wu A, Zhang D, Van Peteghem C, De Saeger S. 2010. Multimycotoxin UPLC−MS/MS for tea, herbal infusions and the derived drinkable products. J Agric Food Chem. 58:12664–12671.
  • Mossion A, Potin-Gautier M, DelerueS, Le Hécho I, Behra P. 2008. Effect of water composition on aluminium, calcium and organic carbon extraction in tea infusions. Food Chem. 106:1467–1475.
  • Murakami I, Nakamure T, Ishibashi Y, Shibuya R, Ayano E, Morita-Murase Y, Nagata Y, Kanazawa H. 2006. Simultaneous determination of catechins and procyanidins in bottled tea drinks by LC/MS. Chromatography. 27:27–33.
  • Murleedharan N. 1994. Pesticide residues in tea: problems and perspectives. Planters Chron. 9:371–375.
  • Myers RA, Fuller E, Yang W. 2013. Identification of Native Catechin Fatty Acid Esters in Green Tea (Camellia sinensis). J Agric Food Chem. 61:11484–11493.
  • Nagayama T. 1996. Behavior of residual organophosphorus pesticides in foodstuffs during leaching or cooking. J Agric Food Chem. 44:2388–2393.
  • Nookabkaew S, Rangkadilok N, Satayavivad J. 2006. Determination of trace elements in herbal tea products and their infusions consumed in Thailand. J Agric Food Chem. 54:6939–6944.
  • Pakade YB, Sharma R, Nadda G, Tewary DK. 2013. Analytical method for determination of organochlorine pesticides in tea brews using single-drop microextraction with GC-ECD. Int J Food Properties. 16:745–755.
  • Paramasivam M, Kavitha J, Chandrasekaran S. 2012. Persistence behaviour of thiacloprid residues in/on green tea leaves, processed tea and tea infusion. Bull Environ Contam Toxicol. 89:602–605.
  • Pincemaille J, Schummer C, Heinen E, Moris G. 2014. Determination of polycyclic aromatic hydrocarbons in smoked and non-smoked black teas and tea infusions. Food Chem. 145:807–813.
  • Positive List System for Agricultural Chemical Residues in Foods, Japan, 2013. Tokyo: Ministry of Health, Labour and Welfare.
  • Pouretedal Z, Mazaheri M. 2013. Aflatoxins in black tea in Iran. Food Additives Contam: Part B. 6:127–129.
  • Prado G, Altoé AF, Gomes TCB, Leal AS, Morais VAD, Oliveira MS, Ferreira MB, Gomes MB, Paschoal FN, Souza RS, et al. 2012. Occurrence of aflatoxin B1 in natural products. Braz J Microbiol. 43:1428–1435.
  • Rahman MM, Abd El-Aty AM, ChoiJH, Kim SW, Shin SC, Shim JH. 2015. Consequences of the matrix effect on recovery of dinotefuran and its metabolites in green tea during tandem mass spectrometry analysis. Food Chem. 168:445–453.
  • Ramdani D, Chaudhry AS, Seal CJ. 2013. Chemical composition, plant secondary metabolites, and minerals of green and black teas and the effect of different tea-to-water ratios during their extraction on the composition of their spent leaves as potential additives for ruminants. J Agric Food Chem. 61:4961–4967.
  • Robbins RJ. 2003. Phenolic acids in foods: an overview of analytical methodology. J Agric Food Chem. 51:2866–2887.
  • Romagnoli B, Menna V, Gruppioni N, Bergamini C. 2007. Aflatoxins in spices, aromatic herbs, herb-teas and medicinal plants marketed in Italy. Food Control. 18:697–701.
  • Salahinejad M, Aflaki F. 2010. Toxic and essential mineral elements content of black tea leaves and their tea infusions consumed in Iran. Biol Trace Elem Res. 134:109–117.
  • Santos L, Marín S, Sanchis V, Ramos AJ. 2009. Screening of mycotoxin multicontamination in medicinal and aromatic herbs sampled in Spain. J Sci Food Agric. 89:1802–1807.
  • Ščančar J, Zuliani T, Žigon D, Milačič R. 2013. Ni speciation in tea infusions by monolithic chromatography--ICP-MS and Q-TOF-MS. Anal Bioanal Chem. 405:2041–2051.
  • Schramm L. 2013. Going green: the role of the green tea component EGCG in chemoprevention. J Carcinogenesis Mutagenesis. 4:1000142.
  • Schwalfenberg G, Genuis SJ, Rodushkin I. 2013. The benefits and risks of consuming brewed tea: beware of toxic element contamination. J Toxicol. 370460.
  • Seenivasan S, Manikandan N, Muraleedharan NN. 2008. Chromium contamination in black tea and its transfer into tea brew. Food Chem. 106:1066–1069.
  • Senevirathne ND, Okamoto T, Takahashi J, Umetsu K, Nishida T. 2012. Effect of mixed microbial culture treatment on the nutritive value of coffee, green tea and oolong tea residues and the effect of the fermented residues on in Vitro Rumen fermentation. Int J Biosci Biochem Bioinforma. 2:349–353.
  • Sereshti H, Samadi S, Jalali-Heravi M. 2013. Determination of volatile components of green, black, oolong and white tea by optimized ultrasound-assisted extraction-dispersive liquid–liquid microextraction coupled with gas chromatography. J Chromatogr A. 1280:1–8.
  • Sharma A, Gupta M, Shanker A. 2008. Fenvalerate residue level and dissipation in tea and in its infusion. Food Add Contam A Chem Anal Control Expo Risk Assess. 25:97–104.
  • Sheen SJ. 1988. Detection of Nicotine in Foods and Plant Materials. J Food Sci. 53:1572–1573.
  • Shekoohiyan S, Ghoochani M, Mohagheghian A, Mahvi AH, Yunesian M, Nazmara S. 2012. Determination of lead, cadmium and arsenic in infusion tea cultivated in north of Iran. Iranian J Environ Health Sci Eng. 9:37.
  • Shen FM, Chen HW. 2008. Element composition of tea leaves and tea infusions and its impact on health. Bull Environ Contam Toxicol. 80:300–304.
  • Shen CL, Chyu MC, Wang JS. 2013. Tea and bone health: steps forward in translational nutrition. Am J Clin Nutr. 98:1694S–1699S.
  • Siegmund B, Leitner E, Pfannhauser W. 1999. Determination of the nicotine content of various edible nightshades (Solanaceae) and their products and estimation of the associated dietary nicotine intake. J Agric Food Chem. 47:3113–3120.
  • Sood C, Jaggi S, Kumar V, Ravindranath SD, Shanker A. 2004. How manufacturing processes affect the level of pesticide residues in tea. J Sci Food Agric. 84:2123–2127.
  • Sunito LR, Shiu WY, Mackay D, Seibes JN, Glofelty D. 1988. Critical review of Henry’s law constants for pesticides. Rev Environ Contam Toxicol. 103:1–59.
  • Tang D, Li TY, Liu JJ, Zhou ZJ, Yuan T, Chen YH, Rauh VA, Xie J, Perera F. 2008. Effects of prenatal exposure to coal-burning pollutants on children’s development in China. Environ Health Perspect. 116:674–679.
  • Toolsee NA, Aruoma OI, Gunness TK, Kowlessur S, Dambala V, Murad F, Googoolye K, Daus D, Indelicato J, Rondeau P, et al. 2013. Effectiveness of green tea in a randomized human cohort: relevance to diabetes and its complications. BioMed Res Int. 2013:412379.
  • Troudi A, Mahjoubi-Samet A, Zeghal N. 2010. Hepatotoxicity induced by gibberellic acid in adult rats and their progeny. Exp Toxicologic Pathol. 62:637–642.
  • Uchiyama Y, Suzuki T, Mochizuki K, Goda T. 2013. Dietary Supplementation with (−)-Epigallocatechin-3-gallate Reduces Inflammatory Response in Adipose Tissue of Non-obese Type 2 Diabetic Goto-Kakizaki (GK) Rats. J Agric Food Chem. 61:11410–11417.
  • Uegaki R, Eun H, Kuwahara M, Ishii Y, Kobara Y, Ueji M, Nakamura K, Narita I. 2001. The fate of dioxins during green tea manufacture. Shokuhin Eiseigaku Zasshi. 42:154–158. (Article in Japanese)
  • United Nations Environment Programme (UNEP). Stockholm convention on persistent organic pollutants [Internet]. [cited 2001 Nov 16]. Available from: http://www.pops.int/documents/convtext/convtext_en.pdf
  • USEPA. 1995. Prevention, pesticides and toxic substances [Internet]. [cited 2012 Oct 15]. Available from http://www.epa.gov/oppsrrd1/REDs/factsheets/4110fact.pdf
  • Venables MC, Hulston CJ, Cox HR, Jeukendrup AE. 2008. Green tea extract ingestion, fat oxidation, and glucose tolerance in healthy humans. Am J Clin Nutr. 87:778–784.
  • Viñas P, Campillo N, Aguinaga N, Pérez-Cánovas E, Hernández-Córdoba M. 2007. Use of headspace solid-phase microextraction coupled to liquid chromatography for the analysis of polycyclic aromatic hydrocarbons in tea infusions. J Chromatogr A. 1164:10–17.
  • Wan H, Xia H, Chen Z. 1991. Extraction of pesticide residues in tea by water during the infusion process. Food Addit Contam. 8:497–500.
  • Wang XP, Ma YJ, Xu YC. 2008. Studies on contents of arsenic, selenium, mercury and bismuth in tea samples collected from different regions by atomic fluorescence spectrometry. Guang Pu Xue Yu Guang Pu Fen Xi. 28:1653–1657.
  • Wilson C, Dettenkofer M, Jonas D, Daschner FD. 2004. Pathogen growth in herbal teas used in clinical settings: a possible source of nosocomial infection? Am J Infect Control. 32:117–119.
  • Wróbel K, Wróbel K, Urbina, EMC. 2000. Determination of total aluminum, chromium, copper, iron, manganese, and nickel and their fractions leached to the infusions of black tea, green tea, Hibiscus sabdariffa, and Ilex paraguariensis (mate) by ETA-AAS. Biol Trace Elem Res. 78:271–280.
  • Yuan C, Gao E, He B, Jiang G. 2007. Arsenic species and leaching characters in tea (Camellia sinensis). Food Chem Toxicol. 45:2381–2389.
  • Zhu P, Miao H, Du J, Zou JH, Zhang GW, Zhao YF, Wu YN. 2014. Organochlorine Pesticides and Pyrethroids in Chinese Tea by Screening and Confirmatory Detection Using GC-NCI-MS and GC-MS/MS. J Agric Food Chem. 62:7092–7100.
  • Ziegenhals K, Jira W, Speer K. 2008. Polycyclic aromatic hydrocarbons (PAH) in various types of tea. Eur Food Res Technol. 228:83–91.
  • Zongmao C, Haibin W. 1988. Factors affecting residues of pesticides in tea. Pestic Sci. 23:109–118.
  • Zuorro A, Lavecchia R, Medici F, Piga L. 2013. Magnetically modified coffee silverskin for the removal of xenobiotics from wastewater. Chem Eng Trans. 32:19–24.

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