Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems
The accumulation of polychlorinated biphenyls (PCBs) into humans was described using CoZMoMAN, a mechanistic multimedia fate and transport model coupled to a human food chain model. Model results demonstrated that concentration-age relationships for population cross-sections and individuals over tim...
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ftunivtoronto:oai:localhost:1807/35930 2023-05-15T15:19:10+02:00 Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems Quinn, Cristina L. Wania, Frank Chemistry NO_RESTRICTION http://hdl.handle.net/1807/35930 en_ca eng http://hdl.handle.net/1807/35930 Environmental Chemistry Bioaccumulation Polychlorinated Biphenyls 0485 Thesis ftunivtoronto 2020-06-17T11:24:13Z The accumulation of polychlorinated biphenyls (PCBs) into humans was described using CoZMoMAN, a mechanistic multimedia fate and transport model coupled to a human food chain model. Model results demonstrated that concentration-age relationships for population cross-sections and individuals over time are not equivalent and that, under steady-state conditions, the lipid-normalized concentration of PCBs in an individual does not monotonically increase with age. By considering the decades-long emission history of PCBs in the model simulations, it was shown that an individual’s concentration mostly depends upon when she/he was born relative to the peak in emissions. Similarly, the two most influential factors controlling the shape of cross-sectional concentration-age trends obtained in human biomonitoring studies are the time lapse between the peak in emissions and sample collection and chemical elimination half-life. As a result, it should be possible to deduce information on these two factors from the shape of cross-sectional concentration-age trend. Reproductive behaviours (parity, age at birth, breastfeeding) were shown to potentially have a significant impact on exposure (and can contribute substantially to the observed variability in biomonitoring studies) though the mother’s reproductive history has a greater influence on the prenatal and postnatal exposures of her children than it does on her own cumulative lifetime exposure. A case study of the influence of dietary transitions in a hypothetical Arctic community demonstrated that dietary transitions are an important factor underlying the variability in PCB body burdens within and between subpopulations in addition to partially explaining the observed temporal trends. Comparison of PCB partitioning to various lipid materials suggested that 1) triolein is a good surrogate for human storage lipids; 2) liposomes are not an appropriate surrogate for human storage tissues; and 3) that partitioning into human MCF-7 cells is dominated by the storage lipids rather than by membrane lipids. Finally, a new bioenergetically-balanced bioaccumulation (3B) fish model is presented. Comparison of results from the 3B model with that of existing models revealed that feeding and growth rates used by previous fish bioaccumulation models were not bioenergetically consistent. Differences in biomagnification factors with fish size and temperature as a result of differing energetic requirements demonstrated the importance of the assumptions regarding growth rate and feeding rate. PhD Thesis Arctic University of Toronto: Research Repository T-Space Arctic |
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Open Polar |
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University of Toronto: Research Repository T-Space |
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ftunivtoronto |
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English |
| topic |
Environmental Chemistry Bioaccumulation Polychlorinated Biphenyls 0485 |
| spellingShingle |
Environmental Chemistry Bioaccumulation Polychlorinated Biphenyls 0485 Quinn, Cristina L. Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems |
| topic_facet |
Environmental Chemistry Bioaccumulation Polychlorinated Biphenyls 0485 |
| description |
The accumulation of polychlorinated biphenyls (PCBs) into humans was described using CoZMoMAN, a mechanistic multimedia fate and transport model coupled to a human food chain model. Model results demonstrated that concentration-age relationships for population cross-sections and individuals over time are not equivalent and that, under steady-state conditions, the lipid-normalized concentration of PCBs in an individual does not monotonically increase with age. By considering the decades-long emission history of PCBs in the model simulations, it was shown that an individual’s concentration mostly depends upon when she/he was born relative to the peak in emissions. Similarly, the two most influential factors controlling the shape of cross-sectional concentration-age trends obtained in human biomonitoring studies are the time lapse between the peak in emissions and sample collection and chemical elimination half-life. As a result, it should be possible to deduce information on these two factors from the shape of cross-sectional concentration-age trend. Reproductive behaviours (parity, age at birth, breastfeeding) were shown to potentially have a significant impact on exposure (and can contribute substantially to the observed variability in biomonitoring studies) though the mother’s reproductive history has a greater influence on the prenatal and postnatal exposures of her children than it does on her own cumulative lifetime exposure. A case study of the influence of dietary transitions in a hypothetical Arctic community demonstrated that dietary transitions are an important factor underlying the variability in PCB body burdens within and between subpopulations in addition to partially explaining the observed temporal trends. Comparison of PCB partitioning to various lipid materials suggested that 1) triolein is a good surrogate for human storage lipids; 2) liposomes are not an appropriate surrogate for human storage tissues; and 3) that partitioning into human MCF-7 cells is dominated by the storage lipids rather than by membrane lipids. Finally, a new bioenergetically-balanced bioaccumulation (3B) fish model is presented. Comparison of results from the 3B model with that of existing models revealed that feeding and growth rates used by previous fish bioaccumulation models were not bioenergetically consistent. Differences in biomagnification factors with fish size and temperature as a result of differing energetic requirements demonstrated the importance of the assumptions regarding growth rate and feeding rate. PhD |
| author2 |
Wania, Frank Chemistry |
| format |
Thesis |
| author |
Quinn, Cristina L. |
| author_facet |
Quinn, Cristina L. |
| author_sort |
Quinn, Cristina L. |
| title |
Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems |
| title_short |
Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems |
| title_full |
Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems |
| title_fullStr |
Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems |
| title_full_unstemmed |
Improving our Understanding of Bioaccumulation in Humans, Fish and Surrogate Lipid Systems |
| title_sort |
improving our understanding of bioaccumulation in humans, fish and surrogate lipid systems |
| publishDate |
|
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http://hdl.handle.net/1807/35930 |
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Arctic |
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Arctic |
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Arctic |
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Arctic |
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http://hdl.handle.net/1807/35930 |
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