Potential for increased human foodborne exposure to PCDD/F when recycling sewage sludge on agricultural land.

Sewage Sewage

Water-carried wastes, in either solution or suspension, that flow away from a community. Also known as wastewater flows, sewage is the used water supply of the community. It is more than 99. sludge sludge (sluj) a suspension of solid or semisolid particles in a fluid which itself may or may not be a truly viscous fluid.

sludge

a suspension of solid or semisolid particles in a fluid. from municipal wastewater treatment is used in agriculture as a nutrient nutrient /nu·tri·ent/ (noo´tre-int)
1. nourishing; providing nutrition.

2. a food or other substance that provides energy or building material for the survival and growth of a living organism. source and to aid in moisture retention. To examine the potential impact of sludge-amended soil on exposures to polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/F) from plant and animal foods, we conducted a review of published empirical data from international sources. Levels of PCDD/F in municipal sewage sludge ranged from 0.0005 to 8,300 pg toxic equivalents (TEQ TEQ Toxicity Equivalent
TEQ Time Domain Equalizer
TEQ Teacher Education Quarterly
TEQ Terra Est Quaestuosa (web-based game, Spanish: Lland is Profitable)
TEQ The Evil Quakkers (gaming clan) )/g. Background levels in soil ranged from 0.003 to 186 pg TEQ/g. In sludge-amended soils, levels of PCDD/F ranged from 1.4 to 15 pg TEQ/g. Studies that measured levels before and after sludge treatment showed an increase in soil concentration after treatment. Relationships between PCDD/F levels in soil and resulting concentrations in plants were very weakly weak·ly
adj. weak·li·er, weak·li·est
Delicate in constitution; frail or sickly.

adv.
1. With little physical strength or force.

2. With little strength of character. positive for unpeeled Un`peeled

a. 1. Thoroughly stripped; pillaged.
2. Not peeled. root crops, leafy leaf·y
adj. leaf·i·er, leaf·i·est
1. Covered with or having leaves.

2. Consisting of leaves: Spinach is a leafy green vegetable.

3. Similar to or resembling a leaf. vegetables, tree fruits, hay, and herbs. Somewhat stronger relationships were observed for plants of the cucumber cucumber, fruit of Cucumis sativus, a species of gourd whose many varieties are descended from a plant native to Asia and Africa. Cucumber is classified in the division Magnoliophyta, class Magnoliopsida, order Violales, family Curcurbitaceae. family. In all cases, large increases in soil concentration were required to achieve a measurable increase in plant contamination. A considerably stronger positive relationship was observed between PCDD/F in feed and resulting levels in cattle tissue, suggesting bioaccumulation bi·o·ac·cu·mu·la·tion
n.
The increase in the concentration of a substance, especially a contaminant, in an organism or in the food chain over time. . Although PCDD/F are excreted in milk, no association was found between feed contamination and levels of PCDD/F measured in milk. There is a paucity pau·ci·ty
n.
1. Smallness of number; fewness.

2. Scarcity; dearth: a paucity of natural resources. of realistic data describing the potential for entry of PCDD/F into the food supply via sewage sludge. Currently available data suggest that sewage sludge application to land used for most crops would not increase human exposure. However, the use of sludge on land used to graze animals appears likely to result in increased human exposure to PCDD/F. Key words: agriculture, bioaccumulation, biosolids biosolids

Sewage sludge, the residues remaining from the treatment of sewage. For use as a fertilizer in agricultural applications, biosolids must first be stabilized through processing, such as digestion or the addition of lime, to reduce concentrations of heavy metals and , dioxins, exposure assessment, food chain, furans, land recycling recycling, the process of recovering and reusing waste products—from household use, manufacturing, agriculture, and business—and thereby reducing their burden on the environment. , PCDD/F, plant uptake uptake /up·take/ (up´tak) absorption and incorporation of a substance by living tissue.

up·take
n. , sewage sludge. Environ en·vi·ron
tr.v. en·vi·roned, en·vi·ron·ing, en·vi·rons
To encircle; surround. See Synonyms at surround.

[Middle English envirounen, from Old French environner Health Perspect 112:959-969 (2004). doi: 10.1289/ehp.6802 available via http://dx.doi.org/[Online 26 April 2004]

*********

In populations not industrially exposed to polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/F), diet is responsible for virtually all (~ 98%) human exposure to these compounds (Pohl et al. 1995; Travis Trav·is , William Barret 1809-1836.

American military leader who commanded the Texans who died in the defense of the Alamo (1836). and Hattemer-Frey 1987). PCDD/F are common contaminants in municipal sewage sludge; thus, it is important to consider the risk of increased exposure to these contaminants if sewage sludge is to be applied to agricultural lands. There is currently much interest in agricultural use of sewage sludge to reap its benefits as fertilizer fertilizer, organic or inorganic material containing one or more of the nutrients—mainly nitrogen, phosphorus, and potassium, and other essential elements required for plant growth. , as an aid in moisture retention, and to provide an alternative to incineration incineration

the act of burning to ashes. or landfills for disposal. The term "sewage sludge" is used here to refer to the solid by-product by·prod·uct or by-prod·uct
n.
1. Something produced in the making of something else.

2. A secondary result; a side effect.

by-product
Noun

1. of municipal sewage or wastewater treatment processes. It includes but is not limited to "biosolids," a term that usually refers to a stabilized sta·bi·lize
v. sta·bi·lized, sta·bi·liz·ing, sta·bi·liz·es

v.tr.
1. To make stable or steadfast.

2. product that has been treated to reduce pathogen Pathogen

Any agent capable of causing disease. The term pathogen is usually restricted to living agents, which include viruses, rickettsia, bacteria, fungi, yeasts, protozoa, helminths, and certain insect larval stages. content and vector attraction potential. The more inclusive term is used here because the data used in this review included all forms of municipal sewage sludge and because PCDD/F content is not affected by the additional treatment processes.

Some authors who have examined foodborne foodborne

infection or other damaging agent transmitted via the animal's (or human's) food chain.

foodborne adjective Referring to that which is carried by food, either by pathogens: viruses–HAV, bacteria–eg salmonellosis, exposure to PCDD/F via sewage sludge have conducted deterministic modeling deterministic model

one in which each variable changes according to a mathematical formula, rather than with a random component. , using a number of assumptions including sludge application rates, exposure duration, PCDD/F concentration in sewage sludge, application methods, timing of application with respect to harvesting or sampling, and impact of atmospheric atmospheric /at·mos·pher·ic/ (at?mos-fer´ik) of or pertaining to the atmosphere.

atmospheric

of or pertaining to the atmosphere. deposition Deposition

Christ is taken from the cross and enshrouded. [N.T.: Matthew 27:57–60; Christian Art: Appleton, 55]

See : Passion of Christ . Those interested in such reports are referred to Duarte-Davidson and Jones (1996), Jackson Jackson.

1 City (1990 pop. 37,446), seat of Jackson co., S Mich., on the Grand River; inc. 1857. It is an industrial and commercial center in a farm region. and Eduljee (1994), Jones and Sewart (1997), Rappe and colleagues (1999), Wild and Jones (1992), and Wild and colleagues (1994). The U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (U.S. EPA EPA eicosapentaenoic acid.

EPA
abbr.
eicosapentaenoic acid

EPA,
n.pr See acid, eicosapentaenoic.

EPA,
n. ) has recently modeled disease risks (cancer) from land-applied sewage sludge (U.S. EPA 2004).

In this article, we review the international empirical evidence of the impact of 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. soil on the concentrations of PCDD/F in plant and animal tissue. We undertook this review to provide guidance regarding agricultural use of sewage sludge to federal, provincial, and municipal governments in Canada Canada (kăn`ədə), independent nation (2001 pop. 30,007,094), 3,851,787 sq mi (9,976,128 sq km), N North America. Canada occupies all of North America N of the United States (and E of Alaska) except for Greenland and the French islands of . Our purpose was to examine only the empirical literature and to use that literature to describe the potential transfer of PCDD/F from soil to foodstuffs foodstuffs npl → comestibles mpl

foodstuffs npl → denrées fpl alimentaires

foodstuffs food npl → , to derive empirical models of the transfer, and to identify data gaps in the science. We also wanted to determine whether some agricultural uses present greater likelihood than others of increased PCDD/F consumption by humans.

To organize the literature review process, we considered the pathways by which PCDD/F might be transferred from sewage products to humans via the food supply. Contaminants may adhere directly to plant surfaces or they may move from the sludge into the soil. From the soil, they may be transferred to crops, which are then consumed con·sume
v. con·sumed, con·sum·ing, con·sumes

v.tr.
1. To take in as food; eat or drink up. See Synonyms at eat.

2.
a. by humans or animals. These animals may in turn be consumed by humans. Animals also consume soil while grazing grazing,
n See irregular feeding.

grazing

1. actions of herbivorous animals eating growing pasture or cereal crop.

2. area of pasture or cereal crop to be used as standing feed. See also pasture. , which potentially increases their contaminant contaminant /con·tam·i·nant/ (kon-tam´in-int) something that causes contamination.

contaminant

something that causes contamination. load.

Methods

Literature Search

A systematic search of the published literature was conducted using the following databases: MEDLINE The online medical database of the U.S. National Library of Medicine (NLM) whose parent is the National Institutes of Health, Bethesda, MD. MEDLINE contains millions of articles from thousands of medical journals and publications. The consumer section of the site (http://medlineplus. (http://gateway2.ovid.com/), TOXLINE TOXLINE Toxicology Information Online (http://toxnet.nlm.nih.gov/), Agricola Agricola (Cneius Julius Agricola) (nē`əs, əgrĭk`ələ), c.A.D. 40–A.D. 93, Roman general, conqueror of Britain. After a distinguished military and political career (partly in Britain), he was made consul (A.D. (http://agricola.nal.usda.gov/), National Technical Information Service (http://www.ntis.gov/search/index.asp?loc=30-0), EMBASE Em`base´

v. t. 1. To bring down or lower, as in position, value, etc.; to debase; to degrade; to deteriorate.
Embased the valleys, and embossed the hills.
- Sylvester.

Alloy in coin of gold . . . (http://www.embase.com/), CAB International CAB International (CABI) is a not-for-profit inter-governmental organization. CABI was established in 1910 and is owned by 45 member countries. It is comprised of three divisions, each undertaking different activities relating to scientific research. Abstracts (http://www.cabi.org/), Environmental Sciences and Pollution Management (http://cal.csa.com), Food Science and Technology Abstracts Food Science and Technology Abstracts (FSTA) is part of the International Food Information Service founded in 1968. It is located in Reading, United Kingdom. It is an index of scientific literature related to food science and technology with abstract supplements of each articles (http://www.foodsciencecentral.com), Web of Science (http://isiknowledge.com), Compendex (http://www.engineeringvillage2.org See .org.

(networking) org - The top-level domain for organisations or individuals that don't fit any other top-level domain (national, com, edu, or gov). Though many have .org domains, it was never intended to be limited to non-profit organisations.

RFC 1591. ), Dissertation dis·ser·ta·tion
n.
A lengthy, formal treatise, especially one written by a candidate for the doctoral degree at a university; a thesis.

dissertation
Noun

1. Abstracts (http://wwwlib.umi.com/dissertations/gateway), Public Affairs Those public information, command information, and community relations activities directed toward both the external and internal publics with interest in the Department of Defense. Also called PA. See also command information; community relations; public information. Information Service, and Canadian Canadian (kənā`dēən), river, 906 mi (1,458 km) long, rising in NE New Mexico. and flowing E across N Texas and central Oklahoma into the Arkansas River in E Oklahoma. Institute for Scientific and Technical Information (http://cat.cisti.nrc.ca/screens/opacmenu.html).

Combinations of the following key words were used in the searches: agricultural, agriculture, animals, application to land, application to soil, biosolids, crops, cropland crop·land
n.
Land that is fit or used for growing crops. , dibenzofuran Dibenzofuran is a heterocyclic organic compound with the chemical structure shown at right. It is an aromatic compound that has two benzene rings fused to one furan ring in the middle. , dioxin dioxin

Aromatic compound, any of a group of contaminants produced in making herbicides (e.g., Agent Orange), disinfectants, and other agents. Their basic chemical structure consists of two benzene rings connected by a pair of oxygen atoms; when substituents on the rings are (s), fluid waste disposal, food contamination, forage forage

Vegetable food, including corn and hay, of wild or domestic animals. Harvested, processed, and stored forage is called silage. Forage should be harvested in early maturity to avoid a decrease in protein and fibre content as crops mature. , furan furan: see furfural. (s), land application, PCDD/F, PCDD PCDD Polychlorinated Dibenzodioxins , PCDF PCDF Polychlorinated Dibenzofurans
PCDF Polychlorodibenzofuran
PCDF People Centered Development Forum , plants, polychlorinated dibenzo-p-dioxin, polychlorinated dibenzofuran, sewage, sewage sludge, sewage as fertilizer, soil, soil ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth.

in·ges·tion
n.
1. The act of taking food and drink into the body by the mouth.

2. , and soil pollutant pol·lut·ant
n.
Something that pollutes, especially a waste material that contaminates air, soil, or water. .

In addition, literature previously gathered by the British Columbia British Columbia, province (2001 pop. 3,907,738), 366,255 sq mi (948,600 sq km), including 6,976 sq mi (18,068 sq km) of water surface, W Canada. Geography
Ministry of Water, Land and Air Protection was provided to us. Reference lists of all relevant articles including review articles were used as a source of additional citations.

Literature was sought in relation to the following issues: a) levels of PCDD/F in municipal sewage sludge; b) background levels of PCDD/F in soil; c) levels of PCDD/F in soil after sewage sludge application; d) transfer of PCDD/F from soil to plant tissue; e) transfer of PCDD/F from soil or feed to tissue of grazing animals.

Inclusion and Exclusion Criteria exclusion criteria AIDS Donor exclusion criteria, see there

All articles identified by the search were reviewed for relevance using the title and/or abstract. Articles were considered relevant if they reported PCDD/F concentrations in the following sample types: sludge from sewage or wastewater treatment plants Wastewater treatment plant also called wastewater treatment works

Sewage treatment – treatment and disposal of human waste.
Industrial wastewater treatment – the treatment of wet wastes from manufacturing industry and commerce including mining, quarrying and

handling municipal wastes; agricultural soil with historical or experimental treatment with sewage sludge; agricultural soil with no previous application of sewage sludge or experimental contamination with PCDD/F; food or forage plants grown in sludge-amended soil or soil treated experimentally with PCDD/F; tissue or milk of animals fed food grown in sludge-amended soil or food otherwise contaminated with PCDD/F; tissue of animals grazing on sludge-amended soil; or plant food, forage crops, animal tissue, or milk not believed to be contaminated from a specific PCDD/F source, that is, background concentrations in these types of food.

The following types of publications were excluded from further review: those that were not peer reviewed; those that reported about sites of industrial accidents (e.g., Seveso, Italy), nonmunicipal sources of sludge (e.g., industrial waste, pulp mill A pulp mill is a manufacturing facility that converts wood chips or other plant fiber source into a thick fiber board which can be shipped to a paper mill for further processing. sludge), or plants grown by soil-free methods (e.g., hydroponics hydroponics, growing of plants without soil in water to which nutrients have been added. Hydroponics has been used for over a century as a research technique, but not until 1929 were experiments conducted solely to determine its feasibility for growing commercial ); studies conducted before 1980 when the limits of analytical analytical, analytic

pertaining to or emanating from analysis.

analytical control
control of confounding by analysis of the results of a trial or test. chemical methods were insufficient to detect low PCDD/F concentrations; or studies that used nonstandard non·stan·dard
adj.
1. Varying from or not adhering to the standard: nonstandard lengths of board.

2. analytical methods (e.g., bioassays to determine dioxin-like activity).

Sixty-five papers met the above criteria.

Data Treatment and Analysis

All PCDD/F concentrations were converted to equivalent units using the international toxicity toxicity /tox·ic·i·ty/ (tok-sis´i-te) the quality of being poisonous, especially the degree of virulence of a toxic microbe or of a poison. equivalency equivalency

the combining power of an electrolyte. See also equivalent. system (U.S. EPA 1999).

To examine the relative uptake of PCDD/F from soil to different plant and animal tissues, simple linear regressions Simple linear regression

A regression analysis between only two variables, one dependent and the other explanatory. were conducted to estimate the relationships between soil or feed PCDD/F toxic equivalents (TEQ) concentration (independent variable) and plant or animal tissue concentration (dependent variable) for each tissue type with a minimum of five data points. The resulting regression coefficients Regression coefficient

Term yielded by regression analysis that indicates the sensitivity of the dependent variable to a particular independent variable. See: Parameter.

regression coefficient  and standard errors were used to predict potential tissue PCDD/F concentrations (in TEQ) over the range of soil PCDD/F concentrations observed in agricultural settings where sewage sludge had been applied to the land. All analyses were performed using JMP JMP Jump
JMP Java Memory Profiler
JMP Joint Manpower Program
JMP Joint Management Plan
JMP Joint Marketing Program
JMP JCL Manipulation Program
JMP Joint Mission Planning (US DoD)
JMP Joint Military Program statistical analysis software, version 3.2 (SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. , Cary, NC).

Results

Sewage Sludge Contamination by PCDD/F

In municipal sewage sludge, levels of PCDD/F ranged from 0.0005 to 8,300 pg TEQ/g (Table 1).

Soil Contamination Soil contamination is the presence of man-made chemicals or other alteration in the natural soil environment. This type of contamination typically arises from the rupture of underground storage tanks, application of pesticides, percolation of contaminated surface water to by PCDD/F

Background levels of PCDD/F in untreated soils ranged from 0.003 to 186 pg TEQ/g (Table 2). In studies of soil after sludge application, concentrations of PCDD/F ranged from 1.4 to 15 pg TEQ/g (Table 2). Although this range is very similar to the range of background values in untreated soils, all studies that measured soil PCDD/F concentrations before and after sludge application found increased contamination after sludge amendment (Figure 1). PCDD/F concentrations increased by factors of 1.4 to 17.0 (mean 7.1) after sludge application, indicating that application of sewage sludge increases PCDD/F contamination in soil.

[FIGURE 1 OMITTED]

Crop Contamination by PCDD/F

Table 3 is a list of the levels of PCDD/F in root crops, including carrots, potatoes, and beets. Mean levels in crops grown in uncontaminated soil or soil with low levels of PCDD/F ranged from below detection limits (< 0.01) to 0.6 pg TEQ/g dry weight (dw).

Root vegetables grown either in naturally contaminated soil or soil to which PCDD/F had been added for experimental purposes had concentrations ranging from below detection limits (detection limit not stated) (Prinz et al. 1991) to 6,488 pg TEQ/g (dw) (Table 3). All experimental studies that examined root uptake of PCDD/F used soils that were much more highly contaminated than sludge-amended agricultural land. PCDD/F concentrations in experimentally contaminated soil ranged from 56 to 112,800 pg TEQ/g soil, whereas the highest level found in treated agricultural soil was 49 pg TEQ/g soil.

Table 4 indicates the levels of PCDD/F in crops with edible parts grown above the ground, including lettuce lettuce, annual garden plant (Lactuca sativa and varieties) of the family Asteraceae (aster family), probably native to the East Indies or Asia Minor, possibly as a derivative of the widespread weed called wild lettuce (L. scariola). L. , silver beet beet, biennial or annual root vegetable of the family Chenopodiaceae (goosefoot family). The beet (Beta vulgaris) has been cultivated since pre-Christian times. , peas, and zucchini zucchini

Subspecies of Cucurbita pepo, dark green elongate summer squash in the gourd family, of great abundance in U.S. home gardens and supermarkets. The creeping vine has five-lobed leaves, tendrils, and large yellow flowers. . The concentrations of PCDD/F in the aboveground parts of crops grown in soil with low levels of PCDD/F contamination ranged from < 0.01 to 10.2 pg TEQ/g (dw) (Table 4).

When grown in more highly contaminated soil, aboveground plants, including lettuce, silver beet, peas, zucchini, pumpkin pumpkin, common name for the genus Cucurbita of the family Cucurbitaceae (gourd family), a group that includes the pumpkins and squashes—the names may be used interchangeably and without botanical distinction. C. , kale kale, borecole (bôr`kōl), and collards, common names for nonheading, hardy types of cabbage (var. , chives chives

alliumschoenoprasm. , endive, leeks, beans See JavaBeans. , kohlrabi kohlrabi (kōl`rä`bē) [Ger. partly from Ital.,=turnip cabbage], plant (Brassica caulorapa, sometimes classified as var. caulorapa , and savoy, had PCDD/F concentrations ranging from 0.04 to 55.2 pg TEQ/g (dw) (Table 4). Tree fruits such as plums, strawberries, and apples had PCDD/F concentrations ranging from 0.8 to 1.4 pg TEQ/g (dw) when grown in soil containing 670 pg TEQ/g PCDD/F. Apples and pears This article or section may contain original research or unverified claims.

Please help Wikipedia by adding references. See the for details.
This article has been tagged since September 2007. grown in soil containing from 48 to 1,950 pg TEQ/g (dw) PCDD/F contained from 8 to 142 pg TEQ/g fresh weight (fw) PCDD/F (Table 5).

Measured concentrations of grasses and hay grown in soil with low levels of dioxin and furan contamination were all [less than or equal to] 1 pg TEQ/g (Table 6).

The contamination levels found in grass and hay grown in contaminated soil were generally higher (0.1-39 pg TEQ/g) (Table 6). Of the two studies that examined PCDD/F contamination of forage grown in contaminated soil, one did not state whether the plants were washed before analysis (Prinz et al. 1991), and the other used sand or clay pebbles on the soil surface to prevent soil--leaf contact (Hulster and Marschner 1993).

Relationships between PCDD/F in Soil and Crops

Tables 3-7 and Figure 2 show the relationship between PCDD/F concentrations in soil and resulting concentrations in crop tissues. The contaminant levels in whole carrot carrot, common name for some members of the Umbelliferae, a family (also called the parsley family) of chiefly biennial or perennial herbs of north temperate regions. and potato showed weak positive relationships with the contaminant level of the soil. The concentration in peeled potatoes, however, did not change over a wide range of soil concentrations. This suggests that most of the PCDD/F contamination in potatoes accumulates in the peel.

[FIGURE 2 OMITTED]

A positive relationship was found between some members of the cucumber (Cucurbitaceae) family (namely zucchini, pumpkin, and cucumber) and soil contamination levels. Concentration of PCDD/F in green leafy vegetables also showed a positive (though weaker) relationship with soil concentration. Among aboveground crops, the weakest positive relationship was present between soil PCDD/F concentrations and contamination of tree fruits such as apples and pears. The data were insufficient to estimate the relationship between soil and plant concentrations of PCDD/F in peas and beans. Weak positive relationships were observed between soil and plant concentrations of hay and herbs. No positive relationship was observed between concentrations of PCDD/F in soil and grass (Figure 2; Table 7).

Animal Food Contamination by PCDD/F

Background contamination of beef ranged from less than the detection limit to 30.8 pg TEQ/g fat (Table 8); all mean values were < 5 pg/g. Dairy products dairy products dairy npl → produits laitier

dairy products dairy npl → Milchprodukte pl, Molkereiprodukte pl  were contaminated in the range of 0.3-1.4 pg TEQ/g fat (Table 8). Unfortunately, the contamination level of the feed eaten by the animals tested in these studies is not known.

Tissue concentrations from cattle consuming feed contaminated with PCDD/F ranged from 0.6 to 130 pg TEQ/g, in such tissues as fat, liver, kidney, muscle, and plasma (Table 8). Cattle were fed food with an extremely wide range of PCDD/F concentrations, ranging from those typically expected from forage crops (e.g., 2-3 pg/g) to extremely high levels (equivalent to thousands of picograms per gram) higher than the levels observed in sludge. For example, Jones et al. (1989) fed cattle 0.05 lag 2,3,7,8-tetra-chlorodibenzo-p-dioxin (TCDD TCDD

tetrachlorodibenzodioxin. )/kg body weight, which corresponds to a dose of 24.4 x 106 to 32.5 x 106 pg. Based on an estimated daily dry feed intake of 8 kg for beef cattle (Jones and Sewart 1997), this dose represents a feed contamination level of approximately 3,050-4,063 pg (mean 3,557) TEQ/g (dw). In those studies that used feed grown on sludge-amended land (Jilg et al. 1992; McLachlan et al. 1990, 1994; McLachlan and Richter 1998; Richter and McLachlan 2001), it was not stated whether the plants were washed or otherwise treated to remove soil or sludge particles <onlyinclude> This is a list of particles in particle physics, including currently known and hypothetical elementary particles, as well as the composite particles that can be built up from them. before analysis and feeding. In practice, it is highly unlikely that grass, hay, or other forage would be washed before feeding to animals.

One of the great difficulties facing those studying animal uptake and contamination is the long duration required for animals to reach steady-state body burdens. The elimination half-life half-life, measure of the average lifetime of a radioactive substance (see radioactivity) or an unstable subatomic particle. One half-life is the time required for one half of any given quantity of the substance to decay. of PCDD in lactating cows lactating cows

cows in milk; contrast with milking cows. is estimated to be in the range of 50-76 days (Firestone fire·stone
n.
1. A flint or pyrite used to strike a fire.

2. A fire-resistant stone, such as certain sandstones.

Noun 1. et al. 1979; Tuinstra et al. 1992), although one study based on a large single dose of 2,3,7,8-TCDD found that most was excreted in the milk within 14 days (Jones et al. 1989). The biological half-life biological half-life
n.
See half-life.

biological half-life T_1/2 Biology The time required for 1⁄2 of the total amount of a particular substance in a biologic system to be degraded by biological of PCDD/F in cattle has been estimated to be somewhat longer, on the order of 93-148 days (Jensen et al. 1981; Thorpe Thorpe , James Francis Known as "Jim." 1888-1953.

American athlete. An outstanding collegiate football player, he later played professional football and baseball. et al. 2001), based on two experiments in which the animals were fed for 28 days and 18 weeks. Furthermore, McLachlan et al. (1994) found higher PCDD/F concentrations in cows that had calved several times than in those that had calved only once, suggesting that steady state had not been achieved in the younger cows. The exposure time in most of the feeding studies found in the literature search ranged from a single dose to 19 weeks. Given that it takes about five biological half-lives to reach steady state, the estimated minimum time to reach steady state would be 250 days in lactating lac·tate¹
intr.v. lac·tat·ed, lac·tat·ing, lac·tates
To secrete or produce milk.

[Latin lact animals and 465 days for nonlactating animals. None of the feeding studies were of sufficient duration.

Concentrations of milk from cows consuming PCDD/F-contaminated feed ranged from 0.031 to 3.0 pg TEQ/g (Table 8). Cows were fed food with PCDD/F concentrations typically expected from forage crops (e.g., 0.3-3 pg/g). As in the animal tissue studies, none of the studies was of sufficient duration for the body burden to reach steady state, although because of the shorter PCDD/F half-life in lactating animals and a minimum feeding duration of 17 days, the milk studies were generally more realistic. It should be noted that in most of these studies, milk was sampled while contaminated feed was still being consumed (Fries et al. 1999; Jilg et al. 1992; McLachlan et al. 1990, 1994) or within a week after the contaminated feeding ceased (Jilg et al. 1992; McLachlan and Richter 1998).

Among those who studied PCDD/F levels in milk with differing levels of soil or feed contamination, two reported little or no effect (Furst et al. 1993; McLachlan and Richter 1998), although the latter study did observe a slight increase in whole milk PCDD/F concentrations from 0.015 pg TEQ/g before the intervention A procedure used in a lawsuit by which the court allows a third person who was not originally a party to the suit to become a party, by joining with either the plaintiff or the defendant. to 0.049 pg/g after 23 days of consuming feed contaminated with 3.2 pg TEQ/g. Fries et al. (1999) found a 17-fold increase in dioxin and furan contamination of milk fat after pentachlorophenol-treated wood (contaminated with PCDD/F) was added to the cow's diet for 58 days. McLachlan et al. (1994) found that the application of sewage sludge as fertilizer for harvested feed can increase the PCDD/F concentration in milk under certain circumstances CIRCUMSTANCES, evidence. The particulars which accompany a fact.
2. The facts proved are either possible or impossible, ordinary and probable, or extraordinary and improbable, recent or ancient; they may have happened near us, or afar off; they are public or , that is, in cows with a low level of milk production or in cows lactating after their first calving calving

act of parturition in a bovine female, and presumably in any animal that bears a calf as its newborn. See also block calving, ease of calving.

calving-to-conception interval .

Relationships between PCDD/F in Feed and Animal Tissues

Table 8 and Figure 3 show the relationship between PCDD/F concentrations in feed and resulting concentrations in animal tissues. Because all results were reported per gram of lipid lipid

Any of a diverse class of organic compounds, found in all living things, that are greasy and insoluble in water. One of the three large classes of substances in foods and living cells, lipids contain more than twice as much energy (calories) per unit of weight as the and there was no consistent pattern by tissue type, (i.e., muscle, fat, plasma, kidney, liver), all values were included in a single regression curve Noun 1. regression curve - a smooth curve fitted to the set of paired data in regression analysis; for linear regression the curve is a straight line
regression line . The contaminant levels in beef tissue showed a strong positive relationship with the contaminant level in the feed.

No clear pattern was observed in the data from five studies examining the relationships between contamination of feed or grazing land and milk contamination from cows (Fries et al. 1999; Jilg et al. 1992; McLachlan et al. 1990, 1994; McLachlan and Richter 1998).

[FIGURE 3 OMITTED]

Discussion

Sewage Sludge and Soil

Soils treated with sewage sludge had relatively low levels of contamination when compared with those of the sludge itself. It is important to note, however, that in every case, the concentration of PCDD/F in the soil increased measurably meas·ur·a·ble
adj.
1. Possible to be measured: measurable depths.

2. Of distinguished importance; significant: a measurable figure in literature. after sludge application (Eljarrat et al. 1997; McLachlan and Reissinger 1990; McLachlan et al. 1996b; Molina et al. 2000; Wilson et al. 1997) (Figure 1). The elevated concentration of PCDD/F in sludge-amended soil also persisted over time. Most of the studies (Eljarrat et al. 1997; Molina et al. 2000; Wilson et al. 1997) measured PCDD/F concentrations up to 1 year after application of sewage sludge. One study that measured contamination on reclaimed re·claim
tr.v. re·claimed, re·claim·ing, re·claims
1. To bring into or return to a suitable condition for use, as cultivation or habitation: reclaim marshlands; reclaim strip-mined land. quarry Quarry

Cerynean stag

captured by Hercules as third Labor. [Gk. and Rom. Myth.: Hall, 149]

Cretan bull

savage bull caught by Hercules as seventh Labor. [Gk. soil found elevated PCDD/F concentrations 4 years after a single treatment with sludge (Molina et al. 2000). Another study using archived soil samples from land that received a single sludge application in 1968 found that 59% of the PCDD/F contamination detected in 1972 was still present 18 years later (McLachlan et al. 1996b). McLachlan and Reissinger (1990) compared fields with 10-30 years of regular sludge treatments (application rate not known) with an untreated field on the same farm and found higher PCDD/F concentrations in the treated fields. Only one other study examined the effect of multiple sludge treatments (Eljarrat et al. 1997); after four annual treatments, the authors reported soil contamination levels no higher than those reported in other studies of single sludge treatments. In another study that compared the effects of plowing sewage sludge into the soil with surface application on meadowland mead·ow·land
n.
A tract of land having the characteristics of or used for a meadow. , the authors found that elevated PCDD/F concentrations persisted for at least 260 days after application of sewage sludge and appeared to be slightly more persistent when plowed plow also plough
n.
1. A farm implement consisting of a heavy blade at the end of a beam, usually hitched to a draft team or motor vehicle and used for breaking up soil and cutting furrows in preparation for sowing.

2. into the soil (Wilson et al. 1997). The half-life of PCDD/F in soil is estimated to be at least 10 years (Jackson and Eduljee 1994; Rappe et al. 1999).

Plant Foods

Studies that examined the uptake of PCDD/F by plants growing in contaminated soils used either field soils that were highly contaminated because of proximity to heavy industry or experimentally contaminated soils with extremely high levels of PCDD/F. The PCDD/F concentrations in the soils used as controls in these studies are closer to if slightly lower than the concentrations found in sludge-amended agricultural soils. Furthermore, differences in soil properties, such as organic matter content, between contaminated and sludge-amended soils may affect plant uptake.

In our estimates of the relationships between soil and plant concentrations, the slopes of the regression lines Noun 1. regression line - a smooth curve fitted to the set of paired data in regression analysis; for linear regression the curve is a straight line
regression curve were very shallow, suggesting that large increases in soil contamination would be required for small increases in plant contamination (Table 7, Figure 2). The regression coefficients and standard errors were used to estimate mean PCDD/F contamination levels in crops grown in soil with contamination levels in the range found for sludge-amended soils. These estimates indicate that very little change in plant contamination is expected over the probable soil contamination range of 1-30 pg TEQ/g soil. Even at an extremely high estimate for soil concentration, one that assumes a concentration equivalent to that of the highest sludge concentration reported, the predicted increases in plant concentrations were only moderately elevated. It is important to note, however, that the predicted plant values at the lower soil contamination levels have been back-extrapolated, as no empirical data are available at these lower soil concentrations. This adds uncertainty to the estimates.

[FIGURE 2 OMITTED]

Interpretation of the coefficients listed in Table 7 must take into account that they are based on relatively few data points, from only one or a few studies. Taken together, they suggest that for most plants, large increases in soil contamination (200-10,000 pg TEQ/g; namely, much higher than the increases expected from sewage sludge treatment Sewage sludge treatment described the processes used to manage and dispose of the sludges produced during sewage treatment. Sources of sludge
Coarse primary solids and secondary biosolids accumulated in a wastewater treatment process must be treated and disposed of in a ) are required to produce small increases (1 pg TEQ/g) in plant contamination. They also suggest that plants in the family Cucurbitaceae Noun 1. family Cucurbitaceae - a family of herbaceous vines (such as cucumber or melon or squash or pumpkin)
Cucurbitaceae, gourd family

dicot family, magnoliopsid family - family of flowering plants having two cotyledons (embryonic leaves) in the seed which (pumpkin, zucchini, cucumber) show a sufficiently strong association between soil PCDD/F levels and plant contamination that application of sewage sludge may increase the contamination levels of the plants.

The data suggest that different plants have different potentials for uptake of PCDD/F based on the different coefficients for the relationships between soil contamination levels and plant concentrations. All studies that examined the uptake of PCDD/F from soil by carrots and by certain members of the cucumber family found that these plants take up more PCDD/F from the soil than do other plants. In a study comparing different members of the family Cucurbitaceae (Hulster et al. 1994) grown in contaminated soil (148 pg TEQ/g soil), zucchini fruits and the outer layer of pumpkin (genus genus, in taxonomy: see classification.

genus

Biological classification. It ranks below family and above species, consisting of structurally or phylogenetically (see Cucurbita) had much higher levels of PCDD/F contamination [20.0 and 11.8 pg TEQ/g (dw), respectively] than did cucumber (genus Cucumis Cucumis

a genus in the plant family Cucurbitaceae. The cucumbers. Contain toxic tetracyclic triterpenes which cause enteritis and diarrhea, possibly blindness in horses. Includes C. africanus, C. melo var. agrostis (C. picrocarpus, C. ) [2.35 pg TEQ/g (dw)]. In a study that compared the ability of root exudates to absorb PCDD/F from soil (Hulster and Marschner 1994), zucchini root exudates absorbed 4 times more PCDD/F than tomato root exudates.

In a study that measured PCDD/F uptake by carrots grown in contaminated soil (Muller Mul·ler , Hermann Joseph 1890-1967.

American geneticist. He won a 1946 Nobel Prize for the study of the hereditary effect of x-rays on genes.

Mül·ler , Johannes Peter 1801-1858. et al. 1994), more than 75% of the contamination was concentrated in the peel [mean concentration, 3 pg TEQ/g (dw)]. The inner parts of the carrot had PCDD/F concentrations more comparable to other plants [mean cortex concentration, 0.29 pg TEQ/g (dw); mean stele stele (stē`lē), slab of stone or terra-cotta, usually oblong, set up in a vertical position, for votive or memorial purposes. Upon the slabs were carved inscriptions accompanied by ornamental designs or reliefs of particular significance. concentration, 0.40 pg TEQ/g (dw)]. When the congener congener /con·ge·ner/ (kon´je-ner) something closely related to another thing, as a member of the same genus, a muscle having the same function as another, or a chemical compound closely related to another in composition and exerting profiles were compared, although the control (uncontaminated) soil had primarily octachlorodibenzo-p-dioxin (OCDD OCDD Office for Citizens with Developmental Disabilities (Louisiana State Department of Health and Hospitals)
OCDD 1,2,3,4,6,7,8,9-Octachlorodibenzo-p-dioxin
OCDD Orthonormal Code Diversity Detection ) and the contaminated soil had mostly higher chlorinated chlorinated /chlo·ri·nat·ed/ (klor´i-nat?ed) treated or charged with chlorine.

chlorinated

charged with chlorine.

chlorinated acids
some, e.g. furans, the carrots from either soil contained mostly lower chlorinated furans. The lower-chlorinated PCDD/F congeners tend to be more bioavailable in lipid environments (Muller et al. 1993), which declines from the outer to inner parts of the carrot root.

Although the published empirical data for any one crop are very limited, the collective body of work indicates that high levels of PCDD/F in soil are associated with increased contamination of plant crops. However, at the soil contamination levels expected from treatment with sewage sludge, it appears that there would be minimal or no increase in the dioxin and furan content of most food crops.

To date, there is no evidence related to the potential for increased dioxin and furan contamination of other root vegetables (e.g., beets, parsnips, turnips, sweet potatoes sweet potato, trailing perennial plant (Ipomoea batatas) of the family Convolvulaceae (morning glory family), native to the New World tropics. Cultivated from ancient times by the Aztecs for its edible tubers, it was introduced into Europe in the 16th cent. , ginger ginger, common name for members of the Zingiberaceae, a family of tropical and subtropical perennial herbs, chiefly of Indomalaysia. The aromatic oils of many are used in making condiments, perfumes, and medicines, especially stimulants and preparations to ease , garlic garlic: see onion.

garlic

Bulbous perennial plant (Allium sativum) of the lily family, native to central Asia and growing wild in Italy and southern France. The bulbs are used as a flavouring. , onions On·ions , Charles Talbut 1873-1965.

British philologist and lexicographer who was coeditor of the Oxford English Dictionary from 1914 to 1933. ) or aboveground plant foods (e.g., cruciferous vegetables Edible plants in the family Brassicaceae (also called Cruciferae) are termed Cruciferous vegetables. For a botanical description of plants in this family (whether or not used for food), see Brassicaceae. , berries, tomatoes, corn, peppers, grains).

Forage Crops

Studies that have examined the uptake of PCDD/F by forage crops, such as the studies on other plant foods, used soils with extremely high levels of PCDD/F. Within this wide range of soil contamination levels, weak positive relationships were seen between soil and hay or herb herb (ûrb, hûrb), name for any plant that is used medicinally or as a spice and for the useful product of such a plant. Herbs as condiments and seasonings are still important in culinary art; the use of medicinal herbs, however, has waned concentrations of PCDD/F, but not between soil and grass concentrations. Potential contamination levels of hay and herbs grown on sludge-amended land were estimated using the regression coefficients (Table 7). Over the soil contamination range of 1-1,250 pg TEQ/g soil, there is virtually no change in predicted crop contamination levels.

Although the evidence for forage crops appears consistent with that of other plants with edible parts grown aboveground, there are outstanding issues relating in adherence adherence /ad·her·ence/ (ad-her´ens) the act or condition of sticking to something.

immune adherence of soil particles to the plants. In one study that measured the soil content of freshly cut forage from a pasture pasture, land used for grazing livestock. Land unsuited for cultivation, e.g., hilly or stony land, may be used as pasture. Tilled land and meadow may be pastured after the crops are removed. , the soil content ranged from approximately 1 to 46% of the dry weight of the plant, depending on the time of year. In winter the soil content was consistently greater than 23% of plant dry weight (Beresford and Howard 1991). Two other studies that measured the soil content of harvested cattle feed found that soil contributed less than 1% of the dry weight of the feed (Fries et al. 1981; Zach and Mayoh 1984). It is reasonable to assume that forage is not washed before feeding animals under normal conditions

This article is about the philosophical argument; for normal conditions in the sense of standards see the corresponding articles, e.g. Standard conditions for temperature and pressure.

. However, many of the plant crop studies and one of the two studies of forage crops used experimental methods that either protected the leaves from contact with soil or washed it away after harvesting. Thus, the contribution of contaminated soil to harvested forage crop PCDD/F contamination may not have been adequately assessed by the studies to date. More evidence is needed to evaluate this potentially important contributor to animal uptake of PCDD/F.

Animal Foods

The results of this review indicate that consumption of contaminated feed or grazing of cattle on treated land is likely to increase the PCDD/F levels in meat products. Unlike the plant studies, most of the studies examining the impact of PCDD/F contamination on animal tissue used feed contaminated at levels low enough that they might be encountered in practice.

The relationship between feed contamination levels and concentrations in the fatty tissue of cattle (Figure 2, Table 7) is considerably stronger than that for plant tissues, with a coefficient coefficient /co·ef·fi·cient/ (ko?ah-fish´int)
1. an expression of the change or effect produced by variation in certain factors, or of the ratio between two different quantities.

2. two to three orders of magnitude higher than for most plants and one order higher than for the family Cucurbitaceae. The coefficient of the relationship is greater than 1, suggesting bioaccumulation. As an example, the PCDD/F concentration in beef tissue may increase by up to 10 pg TEQ/g fat at the relatively low contamination level of 5 pg TEQ/g in feed (Table 7). This suggests that the use of dioxin/furan-contaminated sewage sludge on grazing land or on land used to grow cattle feed may result in increased human exposure to PCDD/F through the diet, especially if the sludge is highly contaminated.

There were insufficient data to conclude whether consumption of feed grown on land treated with sewage sludge or grazing of animals on sludge-amended land is likely to increase the PCDD/F levels in milk products. Few studies examined the relationships between contamination of feed or grazing land and milk contamination from cows (Fries et al. 1999; Jilg et al. 1992; McLachlan et al. 1990, 1994; McLachlan and Richter 1998), and no clear relationship could be seen in the data. Overall, the studies that examined the relationship between feed or soil PCDD/F concentration and milk concentration show that PCDD/F are excreted in milk. The amount excreted appears to be dependent on the timing of PCDD/F contamination in the diet (Jilg et al. 1992; Jones et al. 1989). There may be only a minimal impact of sewage sludge use on milk, especially if a sufficient time lag is provided between sludge application and milking for human consumption. However, the data are still very limited.

The application of sewage sludge to grazing or forage land presents additional exposure risk to animals beyond that resulting from direct uptake of PCDD/F by the crops. Animals consume soil along with fodder fodder

feed for herbivorous animals, usually used to describe dried leafy material such as hay. See also forage.

fodder beet
a root crop grown solely as a source of feed for cattle, possibly sheep. , either by eating the soil directly while grazing or by consuming plants (e.g., grass, hay, or beetroot beetroot

see betavulgaris. ) to which soil has adhered (McLachlan et al. 1996a; Zach and Mayoh 1984). As a result, they may directly ingest in·gest
tr.v. in·gest·ed, in·gest·ing, in·gests
1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat.

2. sludge that has been applied to pastureland. Although estimates vary, cattle, sheep, and swine swine, name for any of the cloven-hoofed mammals of the family Suidae, native to the Old World. A swine has a rather long, mobile snout, a heavy, relatively short-legged body, a thick, bristly hide, and a small tail. may consume an average of 6-7% (up to 18% during seasons of sparse sparse - A sparse matrix (or vector, or array) is one in which most of the elements are zero. If storage space is more important than access speed, it may be preferable to store a sparse matrix as a list of (index, value) pairs or use some kind of hash scheme or associative memory. forage) of their ingested in·gest
tr.v. in·gest·ed, in·gest·ing, in·gests
1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat.

2. dry matter as soil (Fries 1996; Pohl et al. 1995). Studies from the Netherlands and 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. , where grazing is seasonal and cattle are given plenty of supplemental feed, suggest that cows may ingest an average of 150-300 g of soil per day (1-2% of their dry matter intake) (McLachlan et al. 1996a). At a worst-case estimate of 30 pg TEQ/g soil, this would correspond to an additional intake of up to 9 ng PCDD/F per cow per day. Based on an analysis of studies from 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. , the United Kingdom, and the United States, Fries (1996) estimated that a 500-kg dairy cow would ingest 900 g of soil per day. With a PCDD/F concentration of 30 pg TEQ/g soil, this would contribute 27 ng PCDD/F per cow per day.

Limitations

One of the primary limitations of this review is the small number of studies relevant to the subject at hand. All the data related to plant foods were taken from only six articles, and the variety of plant species represented is quite small relative to the number of food crops that could potentially be exposed to recycled sewage sludge. No studies were identified that measured PCDD/F in animals other than cattle fed from sludge-amended land. Although there were eight articles reporting background concentrations of PCDD/F in animal tissue, the level of PCDD/F contamination in the feed or grazing land of these animals was not reported.

There were no field-based plant studies and few animal uptake studies that examined the effects of real sludge application practices. This is especially important with respect to harvested forage crops, for which the contribution of soil adherence is not known.

Many studies did not describe the details of the analytical methods used (including limits of detection) or state whether crop samples were washed before analysis. Field practices such as sludge application rate, application method, PCDD/F concentration, and fertilization/harvesting time may influence the uptake of PCDD/F. Unfortunately, such factors could not be considered in this review because the information was not usually reported in the published studies. Furthermore, although the TEQ system is useful when comparing samples with differing congener profiles, it is somewhat limited in that any differences in uptake or behavior of individual congeners is not taken into account.

Gaps in the Published Research

Although there is some empirical evidence to suggest that there is an impact of sewage sludge application on PCDD/F uptake by grazing animals but minimal uptake from sludge to plants, there are a number of significant gaps in the data. Controlled field studies are needed that include variables such as application rate, timing, and method and that assess crops and animals exposed under realistic conditions. Repeat studies must be conducted to determine the reliability of the data, and more species need to be assessed. It is essential that the complex issue of additional animal exposure to sewage sludge through soil consumption or adherence to forage crops be examined. Information is also needed on the effects on animals other than cows, for example, swine and poultry poultry, domesticated fowl kept primarily for meat and eggs; including birds of the order Galliformes, e.g., the chicken, turkey, guinea fowl, pheasant, quail, and peacock; and natatorial (swimming) birds, e.g., the duck and goose. .

Conclusions

The results reported here, based on published empirical data, were compared with the results of studies that used pathway pathway /path·way/ (path´wa)
1. a course usually followed.

2. the nerve structures through which an impulse passes between groups of nerve cells or between the central nervous system and an organ or muscle. modeling to predict the effect of land application of sewage sludge on PCDD/F contamination in food and were similar. Investigators using models have concluded that a) sewage sludge application may lead to slight increases in PCDD/F concentration in the peel of root crops (Duarte-Davidson and Jones 1996; Jackson and Eduljee 1994; Wild and Jones 1992) or in members of the Cucurbitaceae family (Jones and Sewart 1997), but would have a negligible

This article or section is written like a personal reflection or and may require .
Please [ improve this article] by rewriting this article or section in an . impact on other aboveground plants (Duarte-Davidson and Jones 1996; Jones and Sewart 1997; Rappe et al. 1999; Wild and Jones 1992; and that b) sewage sludge application on grazing or forage land could significantly increase human dietary exposure to PCDD/F (Duarte-Davidson and Jones 1996; Jackson and Eduljee 1994; Jones and Sewart 1997; McLachlan et al. 1996a; Rappe et al. 1999; Wild and Jones 1992; Wild et al. 1994). A recent human health risk assessment (U.S. EPA 2004) found that land application of sewage sludge would lead to a negligible increase in cancer cases even among the most highly exposed groups. Noncancer health risks were not assessed. Our review examined the potential for increased human foodborne exposure rather than potential health outcomes.

In conclusion, the available empirical evidence indicates that application of sewage sludge to agricultural land may have a small impact on the levels of PCDD/F found in root vegetables, aboveground plant foods, and forage crops. The impact in animal tissues is likely to be considerably greater. Therefore, before sludge application, careful consideration should be given to the types of agricultural products grown. Minimizing the PCDD/F content would also reduce human exposure potential in land application of sewage sludge.

Address correspondence to K. Rideout, Institute for Resources, Environment and Sustainability, University of British Columbia Locations
Vancouver
The Vancouver campus is located at Point Grey, a twenty-minute drive from downtown Vancouver. It is near several beaches and has views of the North Shore mountains. The 7. , 2206 East Mall, Room 491, Vancouver, BC V6T 1Z3 Canada. Telephone: (604) 732-3571. Fax: (604) 822-9250. E-mail: krideout@interchange An interchange is a location where two things meet, usually perform some kind of exchange, and possibly go on their ways again. It is most commonly used in four contexts:

Transportation:

.ubc.ca

The authors are grateful for the thoughtful review of drafts of this article by the BC Ministry of Water, Land and Air Protection, the BC Ministries of Health, and the Greater Vancouver Regional District.

Funding was provided by the BC Ministry of Water, Land and Air Protection and Environment Canada Environment Canada (EC), legally incorporated as the Department of the Environment under the Department of the Environment Act ( R.S., 1985, c. E-10 ), is the department of the Government of Canada with responsibility for coordinating environmental policies and .

The authors declare they have no competing financial interests.

Received 15 October 2003; accepted 26 April 2004.

Karen Rideout (1,2) and Kay KAY Kick Ass Year
KAY Kansas Association of Youth Teschke (1,3)

(1) School of Occupational and Environmental Hygiene hygiene, science of preserving and promoting the health of both the individual and the community. It has many aspects: personal hygiene (proper living habits, cleanliness of body and clothing, healthful diet, a balanced regimen of rest and exercise); domestic hygiene , (2) Institute for Resources, Environment and Sustainability, and (3) Department of Health Care and Epidemiology epidemiology, field of medicine concerned with the study of epidemics, outbreaks of disease that affect large numbers of people. Epidemiologists, using sophisticated statistical analyses, field investigations, and complex laboratory techniques, investigate the cause , University of British Columbia, Vancouver, British Columbia, Canada

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Table 1. Concentrations of PCDD/F in sewage sludge, sorted by country
and year.

Reference                       Country   Year

He and Clement 1990             Canada    1986

van Oostdam and Ward 1995       Canada    1990-1993

Healey and Bright 2000          Canada    1998-1999

Lamparski et al. 1984           USA       1933
                                          1981
                                          1982

Telliard et al. 1990            USA       1988-1989

Malloy et al. 1993              USA       1990-1992

Wilson et al. 1997              U.K.      NA

McLachlan et al. 1996b          U.K.      1968

Sewart et al. 1995              U.K.      1992
                                          1942-1960

Rappe et al. 1989               Sweden    NA

Naf and Broman 1990             Sweden    May-Aug 1989

Broman et al. 1990              Sweden    May-Aug. 1989

Grossi et al. 1998              Brazil    1990-?

Disse et al. 1995               Germany   NA

McLachlan and Reissinger 1990   Germany   NA

Horstmann et al. 1992           Germany   1991

Eljarrat et al. 1999            Spain     1994-1998
                                          1979-1987

Molina et al. 2000              Spain     NA

Eljarrat et al. 1997            Spain     1986, 1987

Reference                       Source of material                   n

He and Clement 1990             Treated municipal sludge             50
                                Raw municipal sludge                 50

van Oostdam and Ward 1995       Primary sludge                        4

Healey and Bright 2000          Municipal wastewater treatment       26
                                plants

Lamparski et al. 1984           Treated municipal sludge              1
                                Treated municipal sludge              1
                                Treated municipal sludge              1

Telliard et al. 1990            Public-owned sewage treatment       211
                                works

Malloy et al. 1993              Municipal yard waste compost         11
                                Municipal solid waste compost         6
                                Municipal solid waste + dewatered     4
                                sewage sludge compost

Wilson et al. 1997              Anaerobically digested sewage         1
                                sludge

McLachlan et al. 1996b          Rural uncontaminated sewage           2
                                sludge

Sewart et al. 1995              Digested sludges from sewage          8
                                treatment plants
                                Archived samples from 1942            7
                                to 1960

Rappe et al. 1989               Urban sludge                          1
                                Rural sludge                          1

Naf and Broman 1990             Anaerobically digested sludge         1
                                from urban wastewater
                                treatment plant

Broman et al. 1990              Digested and dewatered sludge         4
Grossi et al. 1998              Municipal solid waste compost
                                from the following:
                                Urban                              11
                                  Small cities                      5
                                  Coastal sandy                     3
                                  New, some industrial waste        2

Disse et al. 1995               Undigested sludge from rural          1
                                  area
                                Undigested sludge from municipal      1
                                  area with no heavy industry
                                Undigested sludge from municipal      1
                                  area with metal industry

McLachlan and Reissinger 1990   Local wastewater treatment plant      1

Horstmann et al. 1992           Anaerobically digested sewage         1
                                sludge
                                Primary sludge (dry conditions)       9
                                Primary sludge (rainy                 2
                                conditions)

Eljarrat et al. 1999            Sludges from rural, urban, and       19
                                industrial wastewater
                                treatment plants
                                Archived samples from 1979           24
                                to 1987

Molina et al. 2000              Aerobic sewage treatment plant        1

Eljarrat et al. 1997            Sludge from urban wastewater          7
                                treatment plants (aerobic
                                digestion)

                                    Mean
                                concentration
Reference                         (pg TEQ/g)     Range (pg TEQ/g)

He and Clement 1990                   NA          0.0005-0.0015
                                      NA          0.0026-0.0051

van Oostdam and Ward 1995         16.6 (dw)          2.3-49.6

Healey and Bright 2000            40 (dw)            5.6-250

Lamparski et al. 1984             87.7 low)
                                  88.9(dw)
                                  80.8 (dw)

Telliard et al. 1990              38.38 (ww)       0.039-1252.9

Malloy et al. 1993                29.6                 5-91
                                  46.5                19-96
                                  56                  37-87

Wilson et al. 1997                19 (dw)

McLachlan et al. 1996b           230 (dw)            200-280

Sewart et al. 1995                72 (dw)             19-206
                                 148 (dw)             18-402

Rappe et al. 1989                 23.9
                                  23.1

Naf and Broman 1990               31 (dw)

Broman et al. 1990                79 (ow)             41-130

Grossi et al. 1998
                                  57 (dw)             11-150
                                  27 (dw)              3-163
                                   8 (dw)              5-11
                                  54 (dw)             10-99

Disse et al. 1995                  9 (dw)
                                  20 (dw)
                                 200 (dw)

McLachlan and Reissinger 1990     42 (dw)

Horstmann et al. 1992             48 (dw)
                                  31.4 (dw)           15-64
                                  28.5 (dw)           21-36

Eljarrat et al. 1999              55 (dw)              7-160
                                 620 (11.3-fold       29-8,300
                                   increase)

Molina et al. 2000                68.1 (dw)

Eljarrat et al. 1997             144 (dw)             74-260

Abbreviations: dw, dry weight; NA, no data available; ow, organic
weight, ww, wet weight.

Table 2. Concentrations of PCDO/F in soil (background and sludge
amended), sorted by year of publication.

Reference              Country     Year

Creaser et al. 1989    U.K.

Broman et al. 1990     Sweden      1989

McLachlan and          Germany
Reissinger 1990

Kjeller et al. 1991    U.K.        1986

Sued et al. 1993       Australia   1990

van Oostdam and        Canada      1990-1993
Ward 1995

McLachlan et al.       U.K.        1968, 1972, 1976,
1996b                              1981, 1985, 1990

Eljarrat et al. 1997   Spain       1986-1987

Wilson et al. 1997     U.K.

Molina et al. 2000     Spain

                                                           Sludge
                                                        concentration
Reference              Source of material                (pg TEQ/g)

Creaser et al. 1989    Soil at intersection points           NA
                       of a 50-km grid

Broman et al. 1990     Agricultural land near major          NA
                       roads
                       Agricultural land not near            NA
                       major roads

McLachlan and          Farmland                              NA
Reissinger 1990        Farmland                            42 (dw)
                       Meadow                              42 (dw)

Kjeller et al. 1991    Semirural experimental plots          NA

Sued et al. 1993       Soil from urban and industrial        NA
                       areas

van Oostdam and        Background soil                       NA
Ward 1995

McLachlan et al.       Experimental agricultural land        NA
1996b                  Sludge applied experimentally      230 (dw)
                       in 1968

Eljarrat et al. 1997   Acidic and basic agricultural         NA
                       soil
                       Urban wastewater treatment         144 (dw)
                       plants (aerobic digestion)

Wilson et al. 1997     Plowed plot                           NA
                       Pasture plot                          NA
                       Plowed plot (15-20 cm)                19
                       Pasture plot (surface                 19
                       application)

Molina et al. 2000     Alkaline soil                         NA
                         7.5% sludge (time 0)             68.1 (dw)
                         7.5% sludge (1 year)             68.1 (dw)
                         15% sludge (time 0)              68.1 (dw)
                         15% sludge (1 year)              68.1 (dw)
                       Quarry                                NA
                         Direct application of 7.5%       68.1 (dw)
                           sludge (time 0)
                         Direct application of 7.5%       68.1 (dw)
                           sludge (4 years)
                         Soil-sludge mixture 7.5%         68.1 (dw)
                           (time 0)
                         Soil-sludge mixture 7.5%         68.1 (dw)
                           (4 years)
                         Direct application of 15%        68.1 (dw)
                           sludge (time 0)
                         Direct application of 15%        68.1 (dw)
                           sludge (4 years)
                         Soil-sludge mixture 15%          68.1 (dw)
                           (time 0)
                         Soil-sludge mixture 15%          68.1 (dw)
                           (4 years)

                                Mean
                            concentration      Range
Reference              n     (pg TEQ/g)      (pg TEQ/g)

Creaser et al. 1989    77     23.4 (dw)       1.2-161.9

Broman et al. 1990      4     29 (ow)          13-49
                        4     17 (ow)           9-32

McLachlan and           1      0.84 (dw)
Reissinger 1990         2      6.55 (dw)      3.7-9.4
                        1     15 (dw)

Kjeller et al. 1991     3      1.4 (dw)

Sued et al. 1993        7      2.3           0.09-8.2

van Oostdam and        53      5.0 (dw)        ND-57
Ward 1995

McLachlan et al.        6      1.3 (dw)      0.88-2.0
1996b                   5      8.8 (dw)       6.5-13

Eljarrat et al. 1997    2      1.7 (dw)       0.3-3.1
                        4      4.6 (dw)       2.4-8.6

Wilson et al. 1997      4      2.0 (dw)       1.8-2.2
                        4      1.9 (dw)       1.7-2.0
                        4      2.7 (dwl       2.4-3.0
                        4      2.8 (dw)       1.6-4.3

Molina et al. 2000      2      0.37 (dw)     0.34-0.39
                        1      2.43 (dw)
                        1      2.37 (dw)
                        1      5.28 (dw)
                        1      4.61 (dw)
                        2      0.84 dw)      0.76-0.92
                        1      1.4 (dw)
                        1     12.1 (dw)
                        1      3.14 (dw)
                        1      4.24 (dw)
                        1      5.26 (dw)
                        1      8.50 (dw)
                        1      2.56 (dw)
                        1      4.24 (dw)

Abbreviations: dw, dry weight; NA, no data available; ND, not detected;
ow, organic weight.

Table 3. PCDD/F concentrations in root vegetables, sorted by year of
publication.

                     Growing           Source of
Reference            environment       PCDD/F

Prinz et al. 1991    Field             None
                     conditions        Incinerator
                                       Incinerator
                                       Incinerator
                                       None
                                       Incinerator
                                       Incinerator
                                       Incinerator
                                       Incinerator
                                       Incinerator

Holster and          Field             None
Marschner 1993       conditions        Incinerator

                                       None
                                       Incinerator

Schroll and          Closed system     None
Scheunert1993
                     Growing chamber   OCDD added to soil

Muller et al. 1994   Field             None
                     conditions        Incinerator
                                       None
                                       Incinerator
                                       None
                                       Incinerator
                                       None
                                       Incinerator

                         Soil
                     concentration
Reference             (pg TEQ/g)     Plant type (part)   n

Prinz et al. 1991       68 (dw)      Potato (tuber)      2
                       274 (dw)      Potato (tuber)      2
                       670 (dw)      Potato (tuber)      2
                       788 (dw)      Potato (tuber)      2
                        68 (dw)      Carrot (root)       2
                       274 (dw)      Carrot (root)       2
                       670 (dw)      Carrot (root)       2
                       788 (dw)      Carrot (root)       2
                       670 (dw)      Celery              2
                       788 (dw)      Red beet (tuber)    2

Holster and              4.8         Potato (unpeeled)   NA
Marschner 1993         328           Potato (unpeeled)   NA
                       845           Potato (unpeeled)   NA
                     2,390           Potato (unpeeled)   NA
                         4.8         Potato (peeled)     NA
                       328           Potato (peeled)     NA
                       845           Potato (peeled)     NA
                     2,390           Potato (peeled)     NA

Schroll and              0           Carrots (roots)     2
Scheunert1993
                     6,400 (dw)      Carrots (roots)     2

Muller et al. 1994       5 (dw)      Carrots (peel)      1
                        56 (dw)      Carrots (peel)      2
                         5 (dw)      Carrots (cortex)    1
                        56 (dw)      Carrots (cortex)    2
                         5 (dw)      Carrots (stele)     1
                        56 (dw)      Carrots (stele)     2
                         5 (dw)      Carrots (whole)     1
                        56 (dw)      Carrots (whole)     2

                       Mean plant        Range of plant
                      concentration      concentration
Reference            (pg TEQ/g) (dw)    (pg TEQ/g) (dw)

Prinz et al. 1991         -0.5
                          < LOD
                          -0.6
                          -0.3
                          -0.6
                          -0.6
                          -2.8
                          -2.0
                          -0.4
                          -0.4

Holster and               -0.2
Marschner 1993            -0.6
                          -1.2
                          -1.6
                          -0.1
                          -0.1
                          -0.1
                          -0.1

Schroll and               < LOD
Scheunert1993
                     4,811 397.8 (fw)   3134.3-6488.5
                                          259.1-536.4 (fw)

Muller et al. 1994         0.55
                           3.08             2.86-3.3
                           0.27
                           0.29             0.28-0.3
                           0.32
                           0.395            0.29-0.5
                           0.35
                           0.96            0.87-1.05

Abbreviations: dw, dry weight; fw, fresh weight; LOD, limit of
detection; NA, no data available.

Table 4. PCDD/F concentrations in crops with edible parts grown
aboveground, sorted by year of publication.

                                                       Soil
                      Growing       Source of      concentration
Reference             environment   PCDD/F          (pg TEQ/g)

Prinz et al. 1991     Field         None              68 (dw)
                      conditions    Incinerator      200 (dw)
                                    Incinerator      274 (dw)
                                    Incinerator      670 (dw)
                                    Incinerator      788 (dw)
                                    None              68 (dw)
                                    Incinerator       25 (dw)
                                    Incinerator      670 (dw)
                                    Incinerator      788 (dw)
                                    Incinerator      199 (dw)
                                    Incinerator      200 (dw)
                                    Incinerator      274 (dw)
                                    Incinerator      788 (dw)
                                    Incinerator      274 (dw)
                                    Incinerator      788 (dw)
                                    Incinerator      670 (dw)
                                    Incinerator      670 (dw)
                                    Incinerator      670 (dw)
                                    Incinerator      788 (dw)
                                    Incinerator      788 (dw)

Hulster and           Field         None               4.8
Marschner 1993        conditions    Incinerator      845
                                    Incinerator      328
                                    None               4.8
                                    Incinerator      845
                                    Incinerator      328

Schroll and           Closed        Treated soil    6,400 (dw)
Scheunert 1993        system

Hulster et al. 1994   Field         None               0.4 (dw)
                      conditions                       0.4 (dw)
                                    Chlorine-        148 (dw)
                                    alkaline-        148 (dw)
                                    electrolysis
                                    residues

                                    Chlorine-        328 (dw)
                                    alkaline-       2,390 (dw)
                                    electrolysis     148 (dw)
                                    residues         148 (dw)
                                                     148 (dw)
                                                     148 (dw)

Muller et al. 1994    Field         None               5 (dw)
                      conditions    Incinerator       56 (dw)
                                    None               5 (dw)
                                    Incinerator       56 (dw)
                                    None               5 (dw)
                                    Incinerator       56 (dw)
                                    None               5 (dw)
                                    Incinerator       56 (dw)

                      Plant type
Reference             (part)                     n

Prinz et al. 1991     Salad                      2
                      Salad                      2
                      Salad                      2
                      Salad                      2
                      Salad                      2
                      Silver beet                2
                      Silver beet                2
                      Silver beet                2
                      Silver beet                2
                      Kale                       2
                      Kale                       2
                      Kale                       2
                      Kale                       2
                      Endive                     2
                      Endive                     2
                      Leek                       2
                      Cucumber                   2
                      Bean                       2
                      Kohlrabi                   2
                      Savoy                      2

Hulster and           Lettuce leaves            NA
Marschner 1993        Lettuce leaves            NA
                      Lettuce leaves            NA
                      Lettuce (whole)           NA
                      Lettuce (whole)           NA
                      Lettuce (whole)           NA

Schroll and           Carrots (stem)             2
Scheunert 1993

Hulster et al. 1994   Zucchini (fruit)           2
                      Zucchini (fruit)           2
                      Zucchini (fruit)           2
                      Zucchini (no soil-         2
                        fruit contact)
                      Zucchini (fruit)           2
                      Zucchini (fruit)           2
                      Pumpkin (outer fruit)      2
                      Pumpkin (inner fruit)      2
                      Cucumber (outer fruit)     2
                      Cucumber (inner fruit)     2

Muller et al. 1994    Peas (pods)                1
                      Peas (pods)                1
                      Peas (seeds)               1
                      Peas (seeds)               1
                      Peas (whole)               1
                      Peas (whole)               1
                      Lettuce (outer leaves)     1
                      Lettuce (whole)            2

                       Mean plant     Range of plant
                      concentration   concentration
Reference             (pg TEQ/g dw)   (pg TEQ/g dw)

Prinz et al. 1991         -0.4
                          -3.2
                          -4.3
                          -9.2
                          -6.6
                          -0.3
                          -3.5
                          -9.8
                          -7.0
                          -7.3
                          -6.6
                          -6.3
                          -2.0
                          -2.5
                         -17.8
                          -1.6
                          -0.8
                          -0.6
                          -0.3
                          -0.5

Hulster and               -0.2
Marschner 1993            -0.3
                          -1.3
                          -0.2
                          -0.4
                          -1.4

Schroll and              2306.2       2029.4-2582.9
Scheunert 1993

Hulster et al. 1994        1.0           0.9-1.1
                           0.6           0.5-0.7
                          20.0          19.1-21.0
                          20.5          19.4-21.6
                          17.2          17.0-17.4
                          54.9          54.6-55.2
                          11.8          11.6-12.0
                           3.25          3.1-3.4
                           2.35          2.3-2.4
                           0.2           0.2-0.2

Muller et al. 1994         0.13
                           0.12
                          <0.01
                           0.04
                           0.08
                           0.09
                           0.13
                           0.21         0.21-0.21

Abbreviations: dw, dry weight; NA, no data available.

Table 5. PCDD/F concentrations in tree fruits, sorted by year of
publication.

                                                        Soil
                     Growing       Source of       concentration
Reference            environment   PCDD/F         (pg TEQ/g) (dw)

Prinz et al. 1991    Field         Incinerator         670
                     conditions

Muller et al. 1993   Field         Chlorine-        48 (subsoil)
                     conditions    alkaline-      14,530 (subsoil)
                                   electrolysis    1,950 (subsoil)
                                   residues

                     Plant type
Reference            (part)                        n

Prinz et al. 1991    Plum                          2
                     Strawberry                    2
                     Apple                         2

Muller et al. 1993   Pear 2 (washed, whole)        1
                     Pear 1 (unprocessed, whole)   2
                     Pear 1 (washed, peel)         2
                     Pear 1 (washed, pulp)         2
                     Pear 1 (washed, whole)        2
                     Pear 1 (wrapped, whole)       2
                     Apple (washed, pulp)          1
                     Apple (washed, peel)          1
                     Apple (washed, whole)         1

                      Mean plant     Range of plant
                     concentration   concentration
Reference             (pg TEQ/g)       (pg TEQ/g)

Prinz et al. 1991       -1.1 (dw)
                        -0.8 (dw)
                        -1.4 (dw)

Muller et al. 1993      25 (fw)
                        33 (fw)          20-46
                       123.5 (fw)       105-142
                        15 (fw)           8-22
                        36 (fw)          27-45
                        14 (fw)          11-17
                         8 (fw)
                        46 (fw)
                        14 (fw)

Abbreviations: dw, dry weight; fw, fresh weight.

Table 6. PCDD/F concentrations in forage crops.

                                                 Soil
                 Growing       Source of     concentration
Reference        environment   PCDD/F         (pg TEQ/g)

Hulster and      Field         None                 4.8
Marschner 1993   conditions    Incinerator        328
                               Incinerator        845
                               Incinerator      2,390
                               Incinerator      5,752
                               None                 4.8
                               Incinerator        328
                               Incinerator        845
                               Incinerator      2,390
                               Incinerator      5,752
                               None                 4.8
                               Incinerator        328
                               Incinerator        845
                               Incinerator      2,390
                               Incinerator      5,752

                                     Mean plant
                 Plant type         concentration
Reference        (part)        n    (pg TEQ/g dw)

Hulster and      Hay           NA        -1
Marschner 1993   Hay           NA        -4
                 Hay           NA        -3
                 Hay           NA        -10
                 Hay           NA        -6
                 Herbs (hay)   NA       < LOD
                 Herbs (hay)   NA        -0.5
                 Herbs (hay)   NA        -0.7
                 Herbs (hay)   NA        -0.8
                 Herbs (hay)   NA        -0.9
                 Grass (hay)   NA       < LOD
                 Grass (hay)   NA        -0.1
                 Grass (hay)   NA        -0.2
                 Grass (hay)   NA        -0.1
                 Grass (hay)   NA        -0.2

Abbreviations: dw, dry weight; LOD, limit of detection; NA, no data
available.

Table 7. Mean projected increase in concentration of PCDD/F in food
with a given increase in soil or feed concentration.

                     Increase in soil or feed PCDD/F concentration
                                 (pg TEQ/g dw) (a)

                          1 (b)                         5

                      Projected increase in food concentration
Food type       n                 (pg TEQ/g dw)

Herbs            5   0.0001 (0.00006) (c)           0.00 (0.00) (d)
Potato tuber     9   0.0004 * (0.000063)            0.00 (0.00)
Hay              5   0.0008 (0.000703)              0.00 (0.01)
Tree fruits      9   0.0016 (0.00185)               0.01 (0.02)
  (fw)
Carrot root     13   0.0027 * (0.000608)            0.01 (0.01)
Leafy           26   0.0042 (0.00255)               0.01 (0.04)
  vegetables
Cucurbitaceae    9   0.019 * (0.00503)              0.07 (0.12)
Animal tissue   18   1.458 * (0,278) 5.80 (8.00)   13.1 (18.0)

                   Increase in soil or feed PCDD/F concentration
                                 (pg TEQ/g dw) (a)

                       10                 15                30

Food type       Projected increase in food concentration (pg TEQ/g dw)

Herbs            0.00 (0.00) (d)    0.00 (0.00) (d)   0.00 (0.00) (d)
Potato tuber     0.00 (0.01)        0.01 (0.01)       0.01 (0.02)
Hay              0.00 (0.02)        0.00 (0.03)       0.00 (0.06)
Tree fruits      0.02 (0.05)        0.02 (0.07)       0.05 (0.15)
  (fw)
Carrot root      0.03 (0.02)        0.04 (0.05)       0.08 (0.11)
Leafy            0.03 (0.09)        0.06 (0.13)       0.12 (0.21)
  vegetables
Cucurbitaceae    0.17 (0.26)        0.27 (0.41)       0.55 (0.84)
Animal tissue   21.9 (28.0)        47.4 (58.0)

(a) Soil/feed concentration values are intended to represent the
following potential scenarios: 0-1 pg TEQ/g represents the likely
concentrations found in forage crops grown in soil with minimal
background PCDD/F contamination (Hulster and Marschner 1993); 0.1-4 pg
TEQ/g represents the likely concentrations found in forage grown in
sludge-amended soil; 1-10 pg TEQ/g is the typical range in sludge-
amended agricultural soil; and the concentrations found in forage grown
in highly contaminated soil (> 670 pg TEQ/g) (Holster and Marschner
1993; Prinz et al. 1991); 15 pg TEQ/g represents the maximum
concentration reported in sludge-amended soil (McLachlan and Reissinger
1990); 30 pg TEQ/g represents the maximum mean concentration reported
in soil (not sludge amended) (Broman et al. 1990).

(b) Coefficient of relationship between food concentration and soil or
feed concentration.

(c) Values in parentheses are standard error of the coefficient.

(d) Values in parentheses are upper 95% confidence limits of the
increase in food concentration.

* Regression coefficient significant at p < 0.05.

Table 8. Concentrations of PCDD/F in food from cattle, sorted by year
of publication.

                        Source of                    Feeding
Reference               PCDD/F                         time

Jensen et al. 1981      Experimental                 28 days

Jones et al. 1989       Single oral dose in grain     1 dose
                        Single oral dose in soil      1 dose

McLachlan et al. 1990   None                            NA

Jilg et al. 1992        Hay grown in                 19 weeks
                        contaminated soil
                        (1,944 pg TEQ/g dw)

McLachlan et al. 1994   None                         6 months
                        None                         6 months
                        Silage from sludge-          6 months
                          treated land
                        Silage from sludge-          6 months
                          treated land

Schecter et al. 1994    None

Winters et al. 1996     None

Fiedler et al. 1997     None

Fed and Ellis 1998      None

McLachlan and           None                         12 weeks
Richter 1998            Silage from sludge-          17 days
                        treated land

Fries et al. 1999       None
                        PCP-treated wood             58 days

Richter and             None                         10 weeks
McLachlan 2001
                        Silage from sludge-          17 days
                        treated land

Thorpe et al. 2001      None (testing at 31 weeks)   28 days
                        Prepared pellets             28 days
                          (testing at 31 weeks)

                           Mean food
                          concentration                     No. of
Reference                  (pg TEQ/g)       Tissue          animals

Jensen et al. 1981        24 [+ or -] 5     Fat                7
                                            Liver              7
                                            Kidney             7
                                            Muscle             7

Jones et al. 1989             -3557         Fat                2
                              -3557         Fat                2

McLachlan et al. 1990          6.9          Milk               1

Jilg et al. 1992        2 (range 0.5-8.7)   Plasma             4
                                            Fat                4
                                            Muscle             4
                                            Milk (weeks        4
                                              1-19)
                                            Milk (weeks        3
                                              20-28)

McLachlan et al. 1994       0.19 (dw)       Milk              12
                            0.22 (dw)       Milk              12
                            0.35 (dw)       Milk              12
                            1.2 (dw)        Milk              12

Schecter et al. 1994           NA           Beef               4
                               NA           Dairy              5

Winters et al. 1996            NA           Back fat          63

Fiedler et al. 1997            NA           Fat                3
                               NA           Dairy fat          9

Fed and Ellis 1998             NA           Perirenal fat     20

McLachlan and               0.2 (dw)        Milk (whole)       4
Richter 1998                3.2 (dw)        Milk (whole)       4

Fries et al. 1999              NA           Milk               4
                           0.289 (dw)       Milk               4

Richter and                 0.2 (dw)        Muscle             2
McLachlan 2001                              Fat                2
                                            Liver              2
                                            Kidney             2
                            3.2 (dw)        Muscle             2
                                            Fat                2
                                            Liver              2
                                            Kidney             2

Thorpe et al. 2001             NA           Liver              4
                                            Muscle             4
                                            Fat                4
                         -41.3 (330,000     Liver              4
                            pg TEQ/day)     Muscle             4
                                            Fat                4

                           Mean tissue           Range of tissue
                          concentration          concentration
Reference                 (pg TEQ/g fat)           (pg TEQ/g)

Jensen et al. 1981              84                    66-95
                               8.2                     7-10
                                7                      6-8
                                2                       2

Jones et al. 1989              105                    80-130
                               155                   130-180

McLachlan et al. 1990          1.39

Jilg et al. 1992               1.95                  0.8-4.1
                               1.1                   0.6-2.8
                               1.75                  1.3-2.8
                               1.88                  0.8-3.0
                               1.13                  0.6-2.1

McLachlan et al. 1994          0.9
                               1.3
                               1.2
                               2.3

Schecter et al. 1994        0.578 (ww)              0.04-1.5 (ww)
                            0.348 (ww)              0.04-0.7 (ww)

Winters et al. 1996       0.35 (SE 0.08)           < LOD-3.8

Fiedler et al. 1997     0.67 [+ or -] 0.17         0.528-1.1
                        0.77 [+ or -] 0.10         0.416-0.970

Fed and Ellis 1998         4.1275 (ww)            0.3341-30.8373

McLachlan and           0.015 (whole milk)   0.010-0.02 (whole milk)
Richter 1998              0.049 (day 23)      0.031-0.069 (day 23)

Fries et al. 1999              0.315
                               5.518

Richter and                    0.41                0.30-0.51
McLachlan 2001                 0.47                0.34-0.61
                               6.5                  5.1-7.9
                               0.50                0.41-0.58
                               0.70                0.54-0.91
                               0.64                0.49-0.79
                              20.5                 17.0-24.0
                               0.74                0.61-0.86

Thorpe et al. 2001             3.9
                               5.9
                               3.7
                             118.5
                              57.3
                              27.2

Abbreviations: dw, dry weight, LOD, limit of detection; NA, no data
available; PCP, pentachlorophenol.

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Author:	Teschke, Kay
Publication:	Environmental Health Perspectives
Date:	Jun 15, 2004
Words:	10962
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