Lead contamination in cocoa and cocoa products: isotopic evidence of global contamination.In this article we present lead concentrations and isotopic compositions from analyses of cocoa beans, their shells, and soils from six Nigerian cocoa farms, and analyses of manufactured cocoa and chocolate products. The average lead concentration of cocoa beans was [less than or equal to] 0.5 ng/g, which is one of the lowest reported values for a natural food. In contrast, lead concentrations of manufactured cocoa and chocolate products were as high as 230 and 70 ng/g, respectively, which are consistent with market-basket surveys that have repeatedly listed lead concentrations in chocolate products among the highest reported for all foods. One source of contamination of the finished products is tentatively attributed to atmospheric emissions of leaded gasoline, which is still being used in Nigeria. Because of the high capacity of cocoa bean shells to adsorb adsorb /ad·sorb/ (ad-sorb´) to attract and retain other material on the surface; to conduct the process of adsorption. ad·sorb v. To take up by adsorption. lead, contamination from leaded gasoline emissions may occur during the fermentation and sun-drying of unshelled un·shell tr.v. un·shelled, un·shell·ing, un·shells To remove from a shell. Adj. 1. unshelled - of animals or fruits that have no shell shell-less shelled - of animals or fruits that have a shell beans at cocoa farms. This mechanism is supported by similarities in lead isotopic compositions of cocoa bean shells from the different farms ([sup.206]Pb/[sup.207]Pb = 1.1548-1.1581; [sup.208]Pb/[sup.207]Pb = 2.4344-2.4394) with those of finished cocoa products ([sup.206]Pb/[sup.207]Pb = 1.1475-1.1977; [sup.208]Pb/[sup.207]Pb = 2.4234-2.4673). However, the much higher lead concentrations and larger variability in lead isotopic composition of finished cocoa products, which fails within the global range of industrial lead aerosols, indicate that most contamination occurs during shipping and/or processing of the cocoa beans and the manufacture of cocoa and chocolate products. Key words: chocolate, cocoa, contamination, isotopes, lead, natural foods. Environ Health Perspect 113:1344-1348 (2005). doi:10.1289/ehp.8009 available via http://dx.doi.org/[Online 26 May 2005] ********** Lead contamination in candies is a longstanding problem that has evolved with time. Fred Accum (1820) was the first person to systematically investigate the widespread contamination of confectionaries with metallic poisons. His study of 100 sweets sold in Britain during the early part of the 19th century found that 59 contained lead chromate lead chromate n. A poisonous yellow crystalline compound, PbCrO4, used as a paint pigment. Noun 1. lead chromate - a poisonous chromate of lead used as a pigment in paint , 12 contained red lead, and 10 contained Brunswick green Bruns´wick green` 1. An oxychloride of copper, used as a green pigment; also, a carbonate of copper similarly employed. (a mixture of Prussian blue Prussian blue, pigment widely used for laundry bluing, in dyeing compounds, and in the manufacture of inks and paints. Several varieties are known, one of which consists of the chemical compound ferric ferrocyanide. and lead chromate). Most of the lead observed at that time was attributed to intentional adulteration Mixing something impure with something genuine, or an inferior article with a superior one of the same kind. Adulteration usually refers to mixing other matter of an inferior and sometimes harmful quality with food or drink intended to be sold. or wraps that were glazed, colored, or printed with lead compounds. Since the middle of the 19th century, various measures including regulations and public education were implemented to minimize the contamination of candles from such sources (Nriagu 1985). Today, industrial activities dominate the global flux of lead in the environment (Flegal and Smith 1995; Nriagu and Pacyna 1988) and have become the predominant sources of contaminant contaminant /con·tam·i·nant/ (kon-tam´in-int) something that causes contamination. contaminant something that causes contamination. lead in many food items, including candies. This remains true despite recent measures taken to reduce environmental lead contamination and to minimize human exposure to lead that have lowered the concentrations of this metal in foods and human populations (Egan 2002; Pirkle et al. 1998; Thomas et al. 1999; von Storch et al. 2003). Specific focus on the source of lead in cocoa, the principal material used to make chocolate, began during the late 1970s. Despite subsequent marked reduction in the release of lead into the environment, due primarily to removal of lead from gasoline (Nriagu 1990), recent market-basket surveys still indicate continued lead contamination in some foods, notably manufactured cocoa and chocolate products. For example, in the 2000 U.S. Food and Drug Administration (FDA FDA abbr. Food and Drug Administration FDA, n.pr See Food and Drug Administration. FDA, n.pr the abbreviation for the Food and Drug Administration. ) Total Diet Survey (TDS TDS total dissolved solids. ), the average lead content for milk chocolate candy bars (27 ng/g) was the fourth highest reported for all food items (FDA 2000). This observation was corroborated cor·rob·o·rate tr.v. cor·rob·o·rat·ed, cor·rob·o·rat·ing, cor·rob·o·rates To strengthen or support with other evidence; make more certain. See Synonyms at confirm. by both the 20th Australian TDS, where milk chocolate had the second highest value of 65 foods, with a mean value of 21 ng/g and a maximum value of 40 ng/g (Food Standards Australia New Zealand Food Standards Australia New Zealand (FSANZ, formally ANZFA) is the governmental body responsible for developing food standards for Australia and New Zealand. FSANZ develops food standards after consulting with other government agencies and stakeholders. 2003), and the 1997/1998 New Zealand New Zealand (zē`lənd), island country (2005 est. pop. 4,035,000), 104,454 sq mi (270,534 sq km), in the S Pacific Ocean, over 1,000 mi (1,600 km) SE of Australia. The capital is Wellington; the largest city and leading port is Auckland. TDS report, where the lead concentration in chocolate biscuits (15 ng/g) was 3-fold greater than those of cracker (5.2 ng/g) and plain sweet (5.2 ng/g) biscuits (Vannoort et al. 2000). In a recent study of cocoa-based chocolates sold in India, Dahiya et al. (2005) found the average lead concentrations to be 1.92 [micro]g/g (range, 0.05-8.3 [micro]g/g), and Onianwa et al. (1999) found the average lead content of cocoa powders sold in Nigeria to be 310 ng/g with a range of 80-880 ng/g. The latter measurements are consistent with reports of elevated levels of lead in cocoa by the Cocoa Producer's Alliance (COPAL), which is based in Nigeria. COPAL is the supplier of 75% of all cocoa beans to the world market (COPAL 2004a). The sources of lead in Nigerian cocoa products, which have become a concern, may conceivably include lead from local soils and rocks where the cocoa plant is grown; farming practices (e.g., the application of fertilizers, lead-containing pesticides, composts and other soil additives); atmospherically deposited lead; handling and processing of cocoa beans after harvesting (including drying in open air, transportation, and storage); grinding and manufacturing processes (wear and tear of lead-soldered machine parts); mixtures and additives to final products; and packaging and wrapping material. The presence of relatively high concentrations in a consumer product that is heavily marketed to children is a special concern, because children are particularly susceptible to lead poisoning lead poisoning or plumbism (plŭm`bĭz'əm), intoxication of the system by organic compounds containing lead. (Silbergeld 1997). The maximum permissible level (MPL 1. (language) MPL - An early possible name for PL/I. [Sammet 1969, p.542]. 2. MPL - MasPar data-parallel version of C. See also ampl. Compiler version 3.1. 3. MPL - Motorola Programming Language. ) of lead recently proposed by Codex Alimentarius Codex Alimentarius a document entitled 'Recommended International Codes of Hygienic Practice for Fresh Meat, for Ante-Mortem and Post-Mortem Inspection of Slaughter Animals and for Processed Meat Products' published by FAO/WHO in 1976. Commission was 0.1 [micro]g/g for cocoa butter cocoa butter n. A yellowish-white fatty solid obtained from cacao seeds and used as an ingredient in cosmetics, tanning oils, chocolate, and soap. Also called cacao butter. (a key ingredient in chocolate) and 1.0 [micro]g/g for cocoa mass and cocoa powder (COPAL 2004b). In India, the lead content of chocolates (1.92 [micro]g/g) exceeds the MPL for cocoa powder and cocoa butter. The provisional tolerable weekly intake provisional tolerable weekly intake, n the acceptable level of toxic metal that can be ingested on a weekly basis, as determined by the World Health Organization and the Food and Agriculture Organization. Also called PTWI. (PTWI PTWI Provisional Tolerable Weekly Intake ) of lead has been set at 25 [micro]g/kg body weight for children [World Health Organization (WHO) 1993], equivalent to 3.6 [micro]g/kg body weight/day. Examination of labels on various chocolate powders sold in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. show that the serving sizes are typically in the range of 15-25 g. Assuming an absorption of 40% [Agency for Toxic Substances and Disease Registry The United States Agency for Toxic Substances and Disease Registry, (ATSDR) is an agency for the U.S. Department of Health and Human Services that is directed by a congressional mandate to perform specific functions concerning the effect on public health of hazardous (ATSDR ATSDR Agency for Toxic Substances & Disease Registry ) 1999], by consuming cocoa powder of average serving size (20 g) with an average lead content of 0.2 [micro]g/g, a child weighing 15 kg would be acquiring approximately 3% of his or her PTWI from this source. By consuming cocoa powder with the maximum lead content (0.79 tag/g) reported by Mounicou et al. (2003), a child would receive about 12% of the PTWI from this exposure route. In India consumption of lead in chocolate products would account for approximately 28% of the PTWI for lead for the average child and exceed this threshold for many children. A potentially important source of lead contamination in cocoa beans and cocoa is the tetra-ethyl lead Tetra-ethyl lead, abbreviated TEL, is an organometallic compound with the formula (CH3CH2)4Pb. Once a common anti-knock additive in gasoline (petrol), TEL usage was largely discontinued because of the toxicity of lead and its disadvantageous (TEL TEL Telephone TEL Telegram TEL Telugu (langauge) TEL Terrorist Exclusion List TEL Technology-Enhanced Learning TEL Transporter-Erector-Launcher TEL Tetra-Ethyl Lead TEL Team Deutsche Telekom ) additive in gasoline, which is still common in many African countries (Nriagu 1992; Nriagu et al. 1996). For example, Nigerian gasoline contains 0.4-0.8 g/L lead, which is among the highest in the world (Ogunsola et al. 1994a); approximately 90% of the lead pollution in Nigeria is derived from the combustion of leaded gasoline, with total estimated annual lead aerosol emissions of 2,800 metric tons (Obioh et al. 1993). Those emissions are reflected in the contamination of Nigerian dusts, plants, and foods (Ajayi and Kamson 1983; Ndiokwere 1984; Nriagu 1992; Odukoya and Ajayi 1987; Ogunsola et al. 1994b; Onianwa and Egunyomi 1983) and the elevated blood lead concentrations noted in several studies of Nigerian people (Ademuyiwa et al. 2002; Nriagu 1992; Nriagu et al. 1997; Omokhodion 1994). This ongoing contamination from leaded gasoline emissions is consistent with the report by Bahemuka and Mubofu (1999) that lead concentrations of some foods grown on the African continent still exceed both WHO and the United Nation's Food and Agricultural Organization permissible levels of 5 ng/g. Unfortunately, the contribution of different natural and industrial leads in cocoa beans, cocoa, and chocolate products has not been resolved. To the best of our knowledge, there has been no systematic auditing of the sources of lead during the manufacture of chocolate products--from the harvesting of cocoa beans to the finished products. An objective of the present study was to determine the concentration and isotopic composition of lead in cocoa beans and soils from cocoa plantations of Nigeria to establish the baseline lead concentration of the beans and determine the relative contribution of soil lead to that concentration. Our other objective was to determine the contribution of other lead sources in cocoa bean products, cocoa, and chocolates, again using lead concentration and stable isotopic composition analyses. Materials and Methods Sample collection and preparation. We collected cocoa bean and sediment samples in November and December 2002 from six farms in the three highest cocoa-producing states in Nigeria (Ondo, Osun, and Ogun), which were identified from statistics presented in the Central Bank of Nigeria The Central Bank of Nigeria was established by the CBN Act of 1958 and commenced operations on July 1, 1959.[1] The major regulatory objectives of the bank as stated in the CBN act of 1958 is to: issue legal tender, maintain the external reserves of the country, Annual Reports (CBN CBN - call-by-name 2002). Soil samples were collected at four depths in the soil profile: 0-10 cm, 0-20 cm, 35-50 cm, and 85-100 cm. At each farm, six separate samples were taken from the first and third profiles, and three samples were taken from the other profiles. Ripe cocoa bean samples were taken from each farm, as well as a sample of cocoa beans that had been fermented and dried in their shells, ready for export. To create representative samples for each Nigerian farm, we made composites for each soil profile, both types of cocoa beans and the shells corresponding to the ripe cocoa beans collected. This process yielded homogenized ho·mog·e·nize v. ho·mog·e·nized, ho·mog·e·niz·ing, ho·mog·e·niz·es v.tr. 1. To make homogeneous. 2. a. To reduce to particles and disperse throughout a fluid. b. composites of at least four soil, two cocoa bean, and two cocoa bean shell samples per farm for analysis. In addition to the Nigerian samples, cocoa beans from other countries and finished chocolate products including processed cocoa were collected for analysis. All sample processing was conducted with established trace metal clean techniques (Scelfo and Flegal 2000) in trace metal clean rooms with HEPA HEPA abbr. 1. high-efficiency particulate air 2. high-efficiency particulate arresting (class I00) filtered air. Digestions in aqua regia aqua regia (äk`wə rē`jēə) [Lat.,=royal water], corrosive, fuming yellow liquid prepared by mixing one volume of concentrated nitric acid with three to four volumes of concentrated hydrochloric acid. (3:1 HCl:HN[O.sub.3]) were conducted using optima op·ti·ma n. A plural of optimum. grade (Seastar Chemicals Inc., Sidney, British Columbia Sidney is a town located at the northern end of the Saanich Peninsula, on Vancouver Island in the Canadian province of British Columbia. It has a population of approximately 11,300. , Canada) reagents. Procedural blanks and reference materials from the National Institute of Standards and Technology National Institute of Standards and Technology, governmental agency within the U.S. Dept. of Commerce with the mission of "working with industry to develop and apply technology, measurements, and standards" in the national interest. [Standard Reference Material (SRM (1) (Storage Resource Management) The management of the storage resources in an organization in order to avoid duplication of files and to determine space utilization across all servers. ) 1547; NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. , Gaithersburg, MD, USA] and the National Research Council of Canada The National Research Council Canada (NRC) is Canada's leading organization for scientific research and development. History NRC was established in 1916, mainly to advise the government. Then, in the early 1930s, laboratories were built in Ottawa. (MESS-3; Ottawa, Ontario, Canada) were digested concurrently with all samples to assess the efficacy of the method. Analysis of lead content. We analyzed lead concentrations using the same protocols delineated for previous analyses of lead in calcium supplements (Scelfo and Flegal 2000), with a Finnegan MAT Element high-resolution magnetic sector inductively coupled plasma An inductively coupled plasma (ICP) is a type of plasma source in which the energy is supplied by electrical currents which are produced by electromagnetic induction, that is, by time-varying magnetic fields. mass spectrometer (HR-ICPMS) (Thermo Electron Thermo Electron Corporation (TMO (NYSE)) (incorporated 1956) is a major provider of analytical instruments and services for a variety of domains. Thermo has revenues of over $2 billion, and employs 11,000 people in 30 countries. Corporation, Waltham, MA). Lead concentrations were derived from instrumental scans of the three major lead isotopes ([sup.206]Pb, [sup.207]Pb, and [sup.208]Pb) and that of bismuth bismuth (bĭz`məth) [Ger. Weisse Masse=white mass], metallic chemical element; symbol Bi; at. no. 83; at. wt. 208.9804; m.p. 271.3°C;; b.p. about 1,560°C;; sp. gr. 9.75 at 20°C;; valence +3 or +5. ([sup.209]Bi). The sum of intensities for the stable lead isotopes was normalized to the bismuth internal standard to correct instrumental variations in sensitivity. Percent recoveries of MESS-3 and SRM 1547 averaged 94% and 98%, respectively. Isotopic measurements. In addition to the concentration measurements made with the HR-ICPMS, we made preliminary isotopic measurements from instrumental scans of all stable lead isotopes ([sup.204]Pb, [sup.206]Pb, [sup.207]Pb, and [sup.208]Pb). Fractionation fractionation /frac·tion·a·tion/ (frak?shun-a´shun) 1. in radiology, division of the total dose of radiation into small doses administered at intervals. 2. corrections were derived from concurrent analyses of SRM 981 (NIST; common lead standard reference material). Corrections for [sup.204]Pb/[sup.206]Pb, [sup.207]Pb/[sup.206]Pb, and [sup.208]Pb/[sup.206]Pb averaged +0.006, +0.001, and +0.003, respectively. We followed the initial HR-ICPMS measurements with thermal ionization In thermal ionization, also referred to as surface ionization, chemically-purified material loaded onto a filament which is then heated to cause some of the material to be ionized as it boils off the hot filament. mass spectrometry mass spectrometry or mass spectroscopy Analytic technique by which chemical substances are identified by sorting gaseous ions by mass using electric and magnetic fields. (TIMS TIMS Thermal Ionization Mass Spectrometry TIMS The Institute of Management Sciences TIMS Thermal Infrared Multispectral Scanner TIMS Transportation Information Management System TIMS The International Molinological Society TIMS Tuberculosis Information Management System ) measurements of selected sample aliquots, using a VG Sector 54-WARP TIMS (GV Instruments, Wythenshawe, Manchester, England) and established protocols (Steding et al. 2000). Before these analyses, samples were dried and purified using Dowex AG1-X8 anion exchange anion exchange n. The process by which an anion in a liquid phase exchanges with another anion previously bound to a solid, positively charged phase. resin (50-100 mesh) (Bio-Rad Labs, Hercules, CA) and high-purity (Seastar) hydrobromic acid hydrobromic acid (hī'drəbrō`mĭk): see bromide. . Soil samples were passed through the columns once, whereas other samples (cocoa bean shells, processed cocoa, and chocolate products) were passed through the columns a second time to further improve their purity and optimize their isotopic composition analyses. The eluates were dried and loaded onto rhenium rhenium (rē`nēəm), metallic chemical element; symbol Re; at. no. 75; at. wt. 186.207; m.p. about 3,180°C;; b.p. about 5,625°C;; sp. gr. 21.02 at 20°C;; valence −1, +2, +3, +4, +5, +6, or +7. filaments with a phosphoric acid phosphoric acid, any one of three chemical compounds made up of phosphorus, oxygen, and hydrogen (see acids and bases). The most common, orthophosphoric acid, H3PO4, is usually simply called phosphoric acid. and silica gel silica gel, chemical compound. It is a colloidal form of silica, and usually resembles coarse white sand. It may be prepared by partial dehydration of metasilicic acid, H2SiO3. Because it has many tiny pores, it has great adsorptive power. ionization ionization: see ion. ionization Process by which electrically neutral atoms or molecules are converted to electrically charged atoms or molecules (ions) by the removal or addition of negatively charged electrons. enhancer. Procedural blanks were determined with a [sup.208]Pb spike and were < 0.1% of the samples analyzed. Fractionation corrections were calculated from concurrent analyses of SRM 981 using the linear law, with the mass bias per atomic mass unit atomic mass unit or amu, in chemistry and physics, unit defined as exactly 1-12 the mass of an atom of carbon-12, the isotope of carbon with six protons and six neutrons in its nucleus. One amu is equal to approximately 1. correction averaging 0.0011 [+ or -] 0.0002. The precision of reproducibility for NIST 981 was [+ or -] 0.020 for [sup.206]Pb/[sup.204]Pb, [+ or -] 0.0005 for [sup.206]Pb/[sup.207]Pb, and [+ or -] 0.0009 for [sup.208]Pb/[sup.207]Pb. Results and Discussion As shown in Table 1, lead concentrations in cocoa beans ranged from [less than or equal to] 0.103 to 1.78 ng/g, with an average concentration of 0.512 ng/g. This average is comparable with the lowest reported concentrations of lead in food (Flegal et al. 1990; Tahvonen and Kumpulainen 1995). Moreover, that average is considered to be conservatively high because it uses the detection limit (0.103 ng/g) for three samples with lead concentrations below that limit and includes the relatively high (order-of-magnitude) concentration of another sample (Kango Village Farm; sample taken directly from husk) that appears to have been contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. when compared with the concentrations of the other 11 samples. Therefore, we assumed that the average lead concentration of cocoa beans from the Nigerian farms is < 0.5 ng/g and may well be < 0.1 ng/g. Although the lead content of cocoa beans is as low as or lower than those of hundreds of different foods in the United States and elsewhere, lead concentrations of manufactured cocoa are among the highest of all foods. The values, displayed in Table 2, are similar to the value (280 ng/g) independently determined by West Coast Analytical Service (WCAS WCAS Weinberg College of Arts and Sciences WCAS Warfighter Communication Assessment System (US DoD) ; Santa Fe Springs Santa Fe Springs, city (1990 pop. 15,520), Los Angeles co., SW Calif., inc. 1957. The city lies in an oil and natural gas region and has diversified manufacturing. , CA) for processed cocoa (Northington J, personal communication) and the range of values (140-297 ng/g) reported by Mounicou et al. (2002). More recently, Mounicou et al. (2003) reported lead concentrations in cocoa powder ranging from 11 to 769 ng/g, with an average of 255 ng/g. Our average concentration, 197 ng/g, about 3% of a child's PTWI, is also comparable with the highest concentration reported for any food (boiled shrimp maximum, 210 ng/g) in the U.S. TDS (FDA 2000). Similarly, the average lead concentration for 23 chocolate products measured by WCAS, 32.5 ng/g, is indicative of contamination, and the individual values, displayed in Table 3, are similar to the mean (27 ng/g) reported in the U.S. TDS for a plain milk chocolate bar (U.S. FDA 2000). Most notably, the average lead concentration of those chocolate products is approximately 60-fold higher than the average lead concentration of the Nigerian cocoa beans. A comparison of lead concentrations in the analyzed source material and the finished products is shown in Figure 1. Possible origins of contaminant lead in both the manufactured cocoa and chocolate products are identified by their lead isotopic ratios, which are also shown in Tables 2 and 3. Figure 2 provides a comparison of the lead isotopic ratios for chocolate products and manufactured cocoa with the ratios of the world's industrial aerosols, as compiled by Bollhofer and Rosman (2000, 2001, 2002). The plot shows that isotopic compositions of all of the chocolate products overlap with those of lead aerosols measured by Bollhofer and Rosman (2000, 2001, 2002), but the isotopic compositions of manufactured cocoa and chocolate products are variable. Consequently, there is no single, identifiable source of contaminant lead in either processed cocoa or chocolate products, which is consistent with reports of geographic differences of lead concentrations in cocoa powder (Mounicou et al. 2003). One of those sources may be cocoa bean shells, which have been shown to be very efficient in removing lead from solutions (Meunier et al. 2003a, 2003b, 2003c, 2004). Meunier et al. (2003a, 2003b) showed extraneous lead adsorption adsorption, adhesion of the molecules of liquids, gases, and dissolved substances to the surfaces of solids, as opposed to absorption, in which the molecules actually enter the absorbing medium (see adhesion and cohesion). onto cocoa bean shells of up to 17,000 [micro]g/g, or approximately 35 million times greater than our conservatively high calculation of the average lead concentration in cocoa beans. The shells can thus be regarded as an excellent protective shield against intrusion of lead into the bean from external sources before the beans are harvested. Furthermore, the removal of lead results in an increase in solution pH (removal of protons) and the release of calcium, magnesium, potassium, and sodium from the cocoa shells the husks which separate from the cacao seeds in preparing them for use. See also: Cocoa (Meunier et al. 2003c). The modification of ion balance may result in the transfer of lead from the bean to the shell, a decontamination decontamination /de·con·tam·i·na·tion/ (de?kon-tam-i-na´shun) the freeing of a person or object of some contaminating substance, e.g., war gas, radioactive material, etc. de·con·tam·i·na·tion n. process. Because of their capacity to scavenge scav·enge v. scav·enged, scav·eng·ing, scav·eng·es v.tr. 1. To search through for salvageable material: scavenged the garbage cans for food scraps. 2. lead, the shells may become a source of contamination after the beans are harvested. That potential is indicated by the high lead concentrations of cocoa bean shells listed in Table 4. The average of our measurements of lead in cocoa bean shells (160 ng/g) is approximately 320-fold greater than the average values of lead measured in Nigerian cocoa beans (Figure 1). The disparity between lead levels in the cocoa beans and shells is consistent with the literature on lead contamination in foods, which have shown that contamination is greatest on plant surfaces that are subject to the direct deposition of industrial lead aerosols. For example, two decades ago it was determined that lead concentrations of spinach in the United States were elevated 30-fold from a baseline value of 0.0015 [micro]g/g to 0.045 [micro]g/g by atmospheric depositions of industrial lead, whereas the lead concentrations of peanuts were only elevated 2-fold from a baseline value of 0.005 [micro]g/g to 0.010 [micro]g/g from atmospheric contamination (Flegal et al. 1990). This potential source of contamination is further evidenced by the absence of a measurable increase in lead concentration between the beans sampled directly after removal from the husk of the plant and those that had been fermented in banana and plantain plantain (plăn`tĭn), any plant of the genus Plantago, chiefly annual or perennial weeds of wide distribution. Many species are lawn pests and the pollen is often a hay fever irritant. P. leaves and sun-dried (Oke Osun Farm; directly from husk, 0.846 ng/g; fermented and dried, 0.839 ng/g). The presence of contaminant lead in bean shells from the cocoa farms is substantiated by the concentrations we observed in the various soil profile composites of this study (Table 5). The average lead concentration was 14.2 [micro]g/g, which is consistent with the survey of Chukwuma (1997), who reported the lowest lead value measured in Nigerian soils as 10 [micro]g/g. The lead isotopic ratios of the soil profiles, listed in Table 6 and displayed in Figure 3, are variable, indicating that multiple sources (e.g., historically different sources of TEL, pesticides, fertilizers, machinery) are responsible for the contamination observed. Although the isotopic area encompassed by the soil profiles overlaps the lead isotopic compositions of the cocoa bean shells and may be a source of current contamination, as shown in Figure 3, the similarities in the isotopic compositions of cocoa bean shells are indicative of a single predominant source of lead contamination at the cocoa farms. In light of the numerous published reports on the predominance of gasoline emissions as a source of lead contamination in Nigeria, this source is tentatively attributed to TEL, although we were not able to obtain samples of Nigerian gasoline for isotopic composition analysis in the United States for this study. [FIGURE 3 OMITTED] As shown in Figure 4, lead isotopic ratios of cocoa bean shells overlap those of manufactured cocoa and chocolate products. Because the FDA limits cocoa bean shells to comprise a maximum of 1.75% in finished chocolate products (Beckett 2002), lead concentrations observed for cocoa bean shells are too low to account for the contamination observed in the finished products. Coupling the previously discussed capacity for cocoa bean shells to adsorb lead with their lead isotopic composition suggests that further contamination of cocoa bean shells during the fermentation and drying stages at the farm is a possible source of some of the contaminant lead observed in the finished products. However, the larger spread of lead isotopic compositions for the manufactured cocoa and chocolate products indicates other sources of contamination occurring after the cocoa farms. Further studies investigating bean storage and intermediate phases of shipping and processing are needed to isolate the predominant source of lead found in the chocolate and cocoa products. [FIGURE 4 OMITTED] In summary, chocolate products and manufactured cocoa contain relatively high levels of contaminant lead compared with the baseline value for Nigerian cocoa beans used to make those products. Isotopic composition analyses of the products indicate multiple sources of contamination of industrial origin, which is consistent with the observation that there are numerous sources of lead contamination during the production of cocoa that have yet to be identified (COPAL 2004a, 2004b). 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Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. :World Health Organization. Charley W. Rankin, (1) Jerome O. Nriagu, (2) Jugdeep K. Aggarwal, (3) Toyin A. Arowolo, (4) Kola kola: see cola. Adebayo, (5) and A. Russell Flegal (1) (1) Environmental Toxicology, WIGS, University of California, Santa Cruz The University of California, Santa Cruz, also known as UC Santa Cruz or UCSC, is a public, collegiate university, one of the ten campuses of the University of California. , California, USA; (2) Department of Environmental Health Sciences, School of Public Health, University of Michigan (body, education) University of Michigan - A large cosmopolitan university in the Midwest USA. Over 50000 students are enrolled at the University of Michigan's three campuses. The students come from 50 states and over 100 foreign countries. , Ann Arbor, Michigan  “Ann Arbor” redirects here. For other uses, see Ann Arbor (disambiguation). Ann Arbor is a city in the U.S. state of Michigan and the county seat of Washtenaw County. , USA; (3) Earth Sciences, University of California, Santa Cruz, California; (4) Department of Environmental Management and Toxicology, and (5) Department of Agricultural Extension Agricultural extension was once known as the application of scientific research and new knowledge to agricultural practices through farmer education. The field of extension now encompasses a wider range of communication and learning activities organised for rural people by and Rural Development, University of Agriculture, Abeokuta The University of Agriculture is a specialist University located in Abeokuta, Ogun State, Nigeria. External links
Address correspondence to C.W. Rankin, WIGS Laboratory, ETOX A family of flash memory products from Intel. See StrataFlash. Department, UC Santa Cruz Santa Cruz, city, United States Santa Cruz (săn`tə kr  z), city (1990 pop. 49,040), seat of Santa Cruz co., W Calif., on the north shore of Monterey Bay; inc. 1866. , 1156 High St., JBEB 269, Santa Cruz, CA 95064
USA. Telephone: (831) 566-8981. Fax: (831) 459-2088. E-mail:
rankin@etox.ucsc.eduR. Franks, S. Hibdon, D. Steding, and the WIGS laboratory were instrumental in completing the research. We thank P. Mascharak, D. Smith, Z. Zhu, and the anonymous reviewers for their suggested revisions of the manuscript. This study was funded by the W.M. Keck Foundation, University of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). Toxic Substances Research and Teaching Program, and the American Environmental Safety Institute. The authors declare they have no competing financial interests. Received 10 February, 2005; accepted 26 May 2005.
Table 1. Lead concentrations (ng/g) of cocoa beans taken directly from
husk and after being fermented and dried at Nigerian farms.
Directly from Fermented
husk and dried
State Farm [Pb] % RSD [Pb] % RSD
Ogun Oke Osun, Ibese 0.846 9.81 0.839 7.73
Kango Village 1.78 62.4 0.941 3.83
Ondo Igbo Eleruku, Ita Ogbolu 0.213 5.16 0.182 4.45
Ase Igbo -- -- < DL 7.06
Osun Idi Obi I 0.313 8.30 < DL 10.1
Aba Arawense, Modakeke < DL 8.06 0.211 9.51
Abbreviations: % RSD, percent relative standard deviation, reported as
the internal error [sigma] in the HR-ICPMS measure-ments; DL, detection
limit (0.103 ng/g).
Table 2. Lead isotopic ratios and concentrations (ng/g) of manufactured
cocoa.
[sup.206]Pb/ [sup.208]Pb/
Sample [sup.207]Pb [sup.207]Pb [Pb] % RSD
Baking chocolate 1A 1.149 (4) 2.478 (4) 251 11.8
Baking chocolate 1B 1.148 (2) 2.425 (9) 241 0.75 (a)
Baking chocolate 1C 1.150 (5) (b) 2.426 (8) (b) 263 0.75 (a)
Baking chocolate 2A 1.160 (6) 2.429 (5) 188 6.93
Baking chocolate 2B 1.160 (1) 2.423 (1) 200 0.4 (a)
Baking chocolate 2C -- -- 181 0.5 (a)
Cocoa powder 1A 1.158 (3) 2.431 (11) 188 5.17
Cocoa powder 1B -- -- 186 0.8 (a)
Cocoa powder 1C -- -- 183 0.7 (a)
Cocoa powder 2 11.18 (3) 2.467 (1) 147 28.2
% RSD, percent relative standard deviation. Except where noted,
isotopic compositions from multiple digests and analyses were averaged,
and numbers in parentheses are the error (2[sigma]) of these averages.
% RSD is the error (2[sigma]) from multiple analyses except where noted.
(a) Reported as the internal error (2[sigma[) from the HR-ICPMS
counting statistics. (b) Reported as the internal error (2[sigma])
calculated from the average RSD from concurrent SRM 981 analyses on
the HR-ICPMS.
Table 3. Lead isotopic ratios and concentrations (ng/g) of chocolate
products.
[sup.206]Pb/ [sup.208]Pb/
Sample [Pb] [sup.207]Pb [sup.207]Pb
Bittersweet chocolate 1 69.8 1.1712 (2) 2.4282 (1)
Bittersweet chocolate 2 29.4 1.1797 (1) 2.4357 (1)
Chocolate candy 1 23.0 1.2029 (1) 2.4542 (1)
Chocolate candy 2 27.9 -- --
Chocolate candy 3 18.7 1.1716 (1) 2.4242 (2)
Chocolate candy 4 20.0 -- --
Chocolate candy 5 11.9 -- --
Chocolate pudding 1 14.8 -- --
Chocolate pudding 2 15.9 -- --
Dark chocolate 1 49.6 1.1768 (1) 2.4276 (1)
Dark chocolate 2 40.9 1.1774 (1) 2.4271 (1)
Dark chocolate 3 57.6 1.1688 (1) 2.4252 (1)
Dark chocolate 4 29.4 1.1992 (3) 2.4405 (1)
Dark chocolate 5 26.0 -- --
Dark chocolate 6 35.1 1.1866 (1) 2.4400 (1)
Milk chocolate 1 23.4 1.1617 (1) 2.4201 (1)
Milk chocolate 2 14.9 1.1619 (1) 2.4163 (5)
Semisweet chocolate 1 42.1 1.1720 (1) 2.4294 (1)
Semisweet chocolate 2 41.7 1.1826 (1) 2.4330 (1)
Semisweet chocolate 3 31.1 1.1638 (1) 2.4198 (1)
Semisweet chocolate 4 56.1 1.1836 (11) 2.4456 (12)
Semisweet chocolate 5 36.2 1.1766 (1) 2.4275 (1)
Semisweet chocolate 6 -- 1.1820 (5) 2.4376 (4)
Numbers in parentheses are the error (2[sigma]) recorded from TIMS
counting statistics. Isotopic ratios were obtained at the University of
California, Santa Cruz, and concentrations were determined at WCAS.
Table 4. Lead concentrations (ng/g) and isotopic compositions of
cocoa bean shells from Nigerian farms.
[sup.206]Pb/
State Farm Sample [sup.207]Pb
Ogun Oke Osun, Ibese Shell 1 1.155
Shell 2 1.156
Kango Village Shell 1 1.158
Shell 2 1.156
Ondo Igbo Eleruku, Ita Ogbolu Shell 1 1.1566 (1) (a)
Shell 2 1.153
Ase Igbo Shell 1 1.158
Shell 2 1.158
Osun Idi Obi I Shell 1 1.156
Shell 2 1,155
Aba Arawense, Modakeke Shell 1 1.155
Shell 2 1.156
State Farm [sup.207]Pb [Pb] % RSD
Ogun Oke Osun, Ibese 2.434 61 1.92
2.412 72 0.28
Kango Village 2.439 74 0.75
2.438 82 0.24
Ondo Igbo Eleruku, Ita Ogbolu 2.4336 (2) (a) 417 0.46
2.425 409 0.22
Ase Igbo 2.436 73 0.46
2.431 144 0.29
Osun Idi Obi I 2.428 185 0.22
2.432 132 0.26
Aba Arawense, Modakeke 2.434 120 0.24
2.429 157 0.18
% RSD, percent relative standard deviation. Except where noted, numbers
in parentheses are the internal error (2[sigma]) calculated from the
average relative deviation from concurrent analyses of SRM 981 on the
HR-ICPMS. The percent relative deviation is reported as the internal
error ([sigma]) from the HR-ICPMS counting statistics.
(a) Isotopic compositions and the error (2[sigma]) are from TIMS
analysis.
Table 5. Lead concentrations ([micro]g/g) of soil profile composites
from Nigerian farms.
0-10 cm 0-20 cm
State Farm [Pb] % RSD [Pb] % RSD
Ogun Oke Osun, Ibese 3.54 2.4 3.00 0.7
Kango Village 17.0 0.5 21.5 0.4
Ondo Igbo Eleruku, Ita Ogbolu 11.2 2.2 12.1 1.2
Ase Igbo 30.8 0.6 17.4 0.7
Osun Idi Obi 1 10.8 2.3 11.7 0.4
Aba Arawense, Modakeke 7.55 1.3 6.86 2.4
35-50 cm 80-100 cm
State Farm [Pb] % RSD [Pb] % RSD
Ogun Oke Osun, Ibese 2.94 0.6 3.46 0.7
Kango Village 40.6 0.5 29.8 0.4
Ondo Igbo Eleruku, Ita Ogbolu 12.6 0.4 -- --
Ase Igbo 25.5 0.7 17.7 0.4
Osun Idi Obi 1 10.6 0.4 14.9 0.4
Aba Arawense, Modakeke 6.25 0.5 8.21 0.4
% RSD, percent relative standard deviation reported as the internal
error ([sigma]) from HR-ICPMS counting statistics.
Table 6. Lead isotopic compositions of soil profile composites from
Nigerian farms.
0-10 cm
[sup.206]Pb/ [sup.208]Pb/
State Farm [sup.207]Pb [sup.207]Pb
Ogun Oke Osun 1.168 (5) (a) 2.469 (9) (a)
Kango Village 1.130 (5) (a) 2.760 (10) (a)
Ondo Igbo Eleruku 1.138 (5) (a) 2.493 (9) (a)
Ase Igbo 1.2558 (1) (b) 2.6417 (2) (b)
Osun Idi Obi I 1.1922 (1) (b) 2.4911 (6) (b)
Aba Arawense 1.203 (5) (a) 2.479 (9) (a)
0-20 cm
[sup.206]Pb/ [sup.208]Pb/
State Farm [sup.207]Pb [sup.207]Pb
Ogun Oke Osun 1.1226 (1) (b) 2.6942 (2) b)
Kango Village -- --
Ondo Igbo Eleruku 1.141 (5) (a) 2.492 (9) (a)
Ase Igbo 1.161 (5) (a) 2.428 (9) (a)
Osun Idi Obi I -- --
Aba Arawense 1.200 (5) (a) 2.482 (9) (a)
35-50 cm
[sup.206]Pb/ [sup.208]Pb/
State Farm [sup.207]Pb [sup.207]Pb
Ogun Oke Osun 1.1953 (1) (b) 2.4988 (1) (b)
Kango Village 1.1237 (1) (b) 2.7179 (2) (b)
Ondo Igbo Eleruku -- --
Ase Igbo 1.2561 (1) (b) 2.6269 (2) (b)
Osun Idi Obi I 1.1983 (1) (b) 2.3329 (1) (b)
Aba Arawense -- --
80-100 cm
[sup.206]Pb/ [sup.208]Pb/
State Farm [sup.207]Pb [sup.207]Pb
Ogun Oke Osun 1.1959 (1) (b) 2.4972 (1) (b)
Kango Village 1.1259 (1) (b) 2.6860 (1) (b)
Ondo Igbo Eleruku -- --
Ase Igbo 1.2493 (1) (b) 2.6248 (4) (b)
Osun Idi Obi I 1.1671 (1) (b) 2.4527 (1) (b)
Aba Arawense -- --
(a) Numbers in parentheses are the internal error (2[sigma]) calculated
from the average relative standard deviation from concurrent SRM 981
analyses on the HR-ICPMS. (b) Numbers in parentheses are the internal
error (2[sigma]) from the TIMS counting statistics.
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