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| 생체 축적 모델× | 생태학의 대사 이론× | |
|---|---|---|
| 분야 | 생태학 | 생태학 |
| 계열 | Process / pipeline | Process / pipeline |
| 기원 연도≠ | 2006 | 2004 |
| 창시자≠ | Frank Gobas | James Brown |
| 유형≠ | pollutant accumulation dynamics | metabolic scaling theory |
| 원전≠ | Arnot, J. A., & Gobas, F. A. (2006). A review of bioaccumulation factor (BAF) and bioconcentration factor (BCF) assessments for organic chemicals in aquatic organisms. Environmental Reviews, 14(4), 257-297. DOI ↗ | Brown, J. H., Gillooly, J. F., Allen, A. P., Savage, V. M., & West, G. B. (2004). Toward a metabolic basis of ecology. Ecology, 85(7), 1771-1789. DOI ↗ |
| 별칭≠ | accumulation model, toxicokinetics, persistent organic pollutants, POPs | MTE, metabolic scaling, temperature-size rule, energy allocation |
| 관련 | 4 | 4 |
| 요약≠ | Bioaccumulation models predict how chemical contaminants accumulate in organisms from environmental exposure (water, food, sediment). Developed by Gobas and colleagues (2006), these models quantify the kinetics of chemical uptake, metabolism, and clearance. Bioaccumulation factors (BAF) and bioconcentration factors (BCF) measure the ratio of chemical concentration in organisms to concentration in the environment. Understanding bioaccumulation is critical for assessing ecological risk from persistent organic pollutants (POPs), heavy metals, and other contaminants. | The Metabolic Theory of Ecology (MTE), developed by Brown and colleagues (2004), provides a unifying framework linking individual metabolic rate to ecological patterns across levels of organization (organisms, populations, ecosystems). MTE predicts how metabolic rate scales with body size (allometry) and temperature, and uses these scaling relationships to explain patterns in life history, population growth, community structure, and ecosystem dynamics. The theory is grounded in physics: metabolic rate is constrained by supply of resources (energy and nutrients) and demand determined by biochemical kinetics. |
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