Air Quality Criteria for Lead Volume II of II - (NEPIS)(EPA) - US ...

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Ramesh, G. T.; Manna, S. K.; Aggarwal, B. B.; Jadhav, A. L. (1999) Lead activates nuclear transcription factor -kB, activator protein-1, and amino-terminal c-Jun kinase in pheochromocytoma cells. Toxicol. Appl. Pharmacol. 155: 280-286. Ramesh, G. T.; Manna, S. K.; Aggarwal, B. B.; Jadhav, A. L. (2001) Lead exposure activates nuclear factor kappa B, activator protein-1, c-Jun N-terminal kinase and caspases in the rat brain. Toxicol. Lett. 123: 195-207 Razani-Boroujerdi, S.; Edwards, B.; Sopori, M. L. (1999) Lead stimulates lymphocyte proliferation through enhanced T cell-B cell interaction. J. Pharmacol. Exp. Therap. 288: 714-719. Redig, P. T.; Lawler, E. M.; Schwartz, S.; Dunnette, J. L.; Stephenson, B.; Duke, G. E. (1991) Effects of chronic exposure to sublethal concentrations of lead acetate on heme synthesis and immune function in red-tailed hawks. Arch. Environ. Contam. Toxicol. 21: 72-77. Reigart, J. R.; Graber, C. D. (1976) Evaluation of the humoral immune response of children with low level lead exposure. Bull. Environ. Contam. Toxicol. 16: 112-117. Restrepo, H. G.; Sicard, D.; Torres, M. M. (2000) DNA damage and repair in cells of lead exposed people. Am. J. Ind. Med. 38: 330-334. Reuhl, K. R.; Rice, D. C.; Gilbert, S. G.; Mallett, J. (1989) Effects of chronic developmental lead exposure on monkey neuroanatomy: visual system. Toxicol. Appl. Pharmacol. 99: 501-509. Revis, N. W.; Zinsmeister, A. R.; Bull, R. (1981) Atherosclerosis and hypertension induction by lead and cadmium ions: an effect prevented by calcium ion. Proc. Natl. Acad. Sci. U. S. A. 78: 6494-6498. Reyes, A.; Mercado, E.; Goicoechea, B.; Rosado, A. (1976) Participation of membrane sulfhydryl groups in the epididymal maturation of human and rabbit spermatozoa. Fertil. Steril. 27: 1452-1458. Rice, D. C. (1988a) Chronic low-level exposure in monkeys does not affect simple reaction time. Neurotoxicology 9: 105-108. Rice, D. C. (1988b) Schedule-controlled behavior in infant and juvenile monkeys exposed to lead from birth. Neurotoxicology 9: 75-88. Rice, D. C. (1990) Lead-induced behavioral impairment on a spatial discrimination reversal task in monkeys exposed during different periods of development. Toxicol. Appl. Pharmacol. 106: 327-333. Rice, D. C. (1992a) Lead exposure during different developmental periods produces different effects on FI performance in monkeys tested as juveniles and adults. Neurotoxicology 13: 757-770. Rice, D. C. (1992b) Behavioral effects of lead in monkeys tested during infancy and adulthood. Neurotoxicol. Teratol. 14: 235-245. Rice, D. C. (1992c) Effect of lead during different developmental periods in the monkey on concurrent discrimination performance. Neurotoxicology 13: 583-592. Rice, D. C. (1997) Effects of lifetime lead exposure in monkeys on detection of pure tones. Fundam. Appl. Toxicol. 36: 112-118. Rice, D. C.; Gilbert, S. G. (1990a) Lack of sensitive period for lead-induced behavioral impairment on a spatial delayed alternation task in monkeys. Toxicol. Appl. Pharmacol. 103: 364-373. Rice, D. C.; Gilbert, S. G. (1990b) Sensitive periods for lead-induced behavioral impairment (nonspatial discrimination reversal) in monkeys. Toxicol. Appl. Pharmacol. 102: 101-109. Rice, D. C.; Hayward, S. (1999) Comparison of visual function at adulthood and during aging in monkeys exposed to lead or methylmercury. Neurotoxicology 20: 767-784. Rice, D. C.; Karpinski, K. F. (1988) Lifetime low-level lead exposure produces deficits in delayed alternation in adult monkeys. Neurotoxicol. Teratol. 10: 207-214. Rice, D. C.; Gilbert, S. G.; Willes, R. F. (1979) Neonatal low-level lead exposure in monkeys: locomotor activity, schedule-controlled behavior, and the effects of amphetamine. Toxicol. Appl. Pharmacol. 51: 503-513. Richardt, G.; Federolf, G.; Habermann, E. (1986) Affinity of heavy metal ions to intracellular Ca2+-binding proteins. Biochem. Pharmacol. 35: 1331-1335. Rijhsinghani, K.; Choi, H.-S. H.; Burton, L. A.; Paronetto, F.; Tavoloni, N. (1993) Immunoelectron microscopy identification of early proliferating cells in rat liver tissue during hyperplasia induced by lead nitrate. Hepatology (Baltimore) 17: 685-692. Rizzi, C. A.; Manzo, L.; Tonini, M.; Minoia, C.; Crema, A. (1989) Propulsive motility of the guinea-pig colon after chronic lead treatment. Pharmacol. Res. 21: 127-128. Roberts, J. R.; Reigart, J. R.; Ebeling, M.; Hulsey, T. C. (2001) Time required for blood lead levels to decline in nonchelated children. Clin. Toxicol. 39: 153-160. Rocha, A.; Valles, R.; Cardon, A. L.; Bratton, G. R.; Nation, J. R. (2005) Enhanced acquisition of cocaine selfadministration in rats developmentally exposed to lead. Neuropsychopharmacology 30: 2058-2064. AX5-223
Rodamilans, M.; Mtz.-Osaba, M. J.; To-Figueras, J.; Rivera-Fillat, F.; Torra, M.; Perez, P.; Corbella, J. (1988) Inhibition of intratesticular testosterone synthesis by inorganic lead. Toxicol. Lett. 42: 285-290. Rodrigues, A. L.; Rocha, J. B.; Mello, C. F.; Souza, D. O. (1996a) Effect of perinatal lead exposure on rat behaviour in open-field and two-way avoidance tasks. Pharmacol. Toxicol. 79: 150-156. Rodrigues, A. L.; Rocha, J. B.; Pereira, M. E.; Souza, D. O. (1996b) δ-aminolevulinic acid dehydratase activity in weanling and adult rats exposed to lead acetate. Bull. Environ. Contam. Toxicol. 57: 47-53. Rodríguez-Iturbe, B.; Vaziri, N. D.; Herrera-Acosta, J.; Johnson, R. J. (2004) Oxidative stress, renal infiltration of immune cells, and salt-sensitive hypertension: all for one and one for all. Am. J. Physiol. 286: F606-F616. Rodríguez-Iturbe, B.; Sindhu, R. K.; Quiroz, Y.; Vaziri, N. D. (2005) Chronic exposure to low doses of lead results in renal infiltration of immune cells, NF-κB activation, and overexpression of tubulointerstitial angiotensin II. Antioxid. Redox Signaling 7: 1269-1274. Roels, H.; Lauwerys, R.; Konings, J.; Buchet, J.-P.; Bernard, A.; Green, S.; Bradley, D.; Morgan, W.; Chettle, D. (1994) Renal function and hyperfiltration capacity in lead smelter workers with high bone lead. Occup. Environ. Med. 51: 505-512 Ronis, M. J. J.; Badger, T. M.; Shema, S. J.; Roberson, P. K.; Shaikh, F. (1996) Reproductive toxicity and growth effects in rats exposed to lead at different periods during development. Toxicol. Appl. Pharmacol. 136: 361-371. Ronis, M. J.; Badger, T. M.; Shema, S. J.; Roberson, P. K.; Shaikh, F. (1998a) Effects on pubertal growth and reproduction in rats exposed to lead perinatally or continuously throughout development. J. Toxicol. Environ. Health A 53: 327-341. Ronis, M. J. J.; Gandy, J.; Badger, T. (1998b) Endocrine mechanisms underlying reproductive toxicity in the developing rat chronically exposed to dietary lead. J. Toxicol. Environ. Health Part A 54: 77-99. Ronis, M. J. J.; Badger, T. M.; Shema, S. J.; Roberson, P. K.; Templer, L.; Ringer, D.; Thomas, P. E. (1998c) Endocrine mechanisms underlying the growth effects of developmental lead exposure in the rat. J. Toxicol. Environ. Health Part A 54: 101-120. Ronis, M. J. J.; Aronson, J.; Gao, G. G.; Hogue, W.; Skinner, R. A.; Badger, T. M.; Lumpkin, C. K., Jr. (2001) Skeletal effects of developmental lead exposure in rats. Toxicol. Sci. 62: 321-329. Roomi, M. W.; Columbano, A.; Ledda-Columbano, G. M.; Sarma, D. S. R. (1986) Lead nitrate induces certain biochemical properties characteristic of hepatocyte nodules. Carcinogenesis 7: 1643-1646. Roomi, M. W.; Columbano, A.; Ledda-Columbano, G. M.; Sarma, D. S. R. (1987) Induction of the placental form of glutathione S-transferase by lead nitrate administration in rat liver. Toxicol. Pathol. 15: 202-205. Rosen, J. F. (1983) The metabolism of lead in isolated bone cell populations: interactions between lead and calcium. Toxicol. Appl. Pharmacol. 71: 101-112. Rosen, J. F.; Markowitz, M. E. (1980) D-Penicillamine: its actions on lead transport in bone organ culture. Pediatr. Res. 14: 330-335. Rosen, J. F.; Pounds, J. G. (1988) The cellular metabolism of lead and calcium: a kinetic analysis in cultured osteoclastic bone cells. In: De Broe, M. E.; Van de Vyver, F. L., eds. Bone and renal failure: international symposium; November 1986; Antwerp, Belgium. Basel, Switzerland: S. Karger; pp. 74-82. (Contributions to nephrology: v. 64.) Rosen, J. F.; Pounds, J. G. (1989) Quantitative interactions between Pb2+ and Ca2+ homeostasis in cultured osteoclastic bone cells. Toxicol. Appl. Pharmacol. 98: 530-543. Rosen, J. F.; Wexler, E. E. (1977) Studies of lead transport in bone organ culture. Biochem. Pharmacol. 26: 650-652. Rosen, J. F.; Kraner, H. W.; Jones, K. W. (1982) Effects of CaNa2EDTA on lead and trace metal metabolism in bone organ culture. Toxicol. Appl. Pharmacol. 64: 230-235. Rossi, E.; Attwood, P. V.; Garcia-Webb, P. (1992) Inhibition of human lymphocyte coproporphyrinogen oxidase activity by metals, bilirubin and haemin. Biochim. Biophys. Acta 1135: 262-268. Roy, N. K.; Rossman, T. G. (1992) Mutagenesis and comutagenesis by lead compounds. Mutat. Res. 298: 97-103. Roy, A. K.; Dhir, H.; Sharma, A. (1992) Modification of metal-induced micronuclei formation in mouse bone marrow erythrocytes by Phyllanthus fruit extract and ascorbic acid. Toxicol. Lett. 62: 9-17. Ruan, D.-Y.; Chen, J.-T.; Zhao, C.; Xu, Y.-Z.; Wang, M.; Zhao, W.-F. (1998) Impairment of long-term potentiation and paired-pulse facilitation in rat hippocampal dentate gyrus following developmental lead exposure in vivo. Brain Res. 806: 196-201. Ruzittu, M.; Carlá, E. C.; Montinari, M. R.; Maietta, G.; Dini, L. (1999) Modulation of cell surface expression of liver carbohydrate receptors during in vivo induction of apoptosis with lead nitrate. Cell Tissue Res. 298: 105-112. AX5-224
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October 2006 EPA/600/R-05/144bF Air
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PREFACE National Ambient Air Qualit
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NCEA acknowledges the valuable cont
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Table of Contents Page PREFACE ....
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Authors, Contributors, and Reviewer
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Contributors and Reviewers (cont’
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Contributors and Reviewers (cont’
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Executive Direction U.S. Environmen
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Chair U.S. Environmental Protection
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Abbreviations and Acronyms αFGF α
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BLL blood lead level BLM biotic lig
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CRI chronic renal insufficiency CSF
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EPT macroinvertebrates from the Eph
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GRP78 glucose-regulated protein 78
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KABC Kaufman Assessment Battery for
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NADP nicotinamide adenine dinucleot
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Pb(Ac)2 lead acetate PbB blood lead
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RR RT RSEM RSUC RT ∑SEM SA7 SAB S
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TGF transforming growth factor TH t
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AX4. CHAPTER 4 ANNEX ANNEX TABLES A
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AX4-3 Table AX4-1 (cont’d). Analy
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AX4-5 Table AX4-2 (cont’d). Summa
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AX4-7 Table AX4-3. Bone Lead Measur
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AX4-9 Reference, Study Location, an
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AX4-11 Table AX4-4 (cont’d). Bone
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AX4-19 Reference, Study Location, a
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AX4-37 Table AX4-9 (cont’d). Lead
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AX4-39 Table AX4-11. Summary of Sel
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AX4-41 Table AX4-11 (cont’d). Sum
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AX-43 Table AX4-12 (cont’d). Summ
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Barltrop, D.; Meek, F. (1979) Effec
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Carroll, R. J.; Galindo, C. D. (199
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Flegal, A. R.; Smith, D. R. (1995)
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Gulson, B.; Mizon, K.; Smith, H.; E
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Khoury, G. A.; Diamond, G. L. (2003
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Morgan, W. D.; Ryde, S. J.; Jones,
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Pounds, J. G.; Leggett, R. W. (1998
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Skerfving, S. (1988) Biological mon
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U.S. Environmental Protection Agenc
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Air Quality Criteria for Lead Volum
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AQCD/Addendum and 1990 Supplement,
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Air Quality Criteria for Lead (Seco
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List of Tables AX4-1 Analytical Met
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List of Tables (cont’d) AX5-6.3 G
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List of Tables (cont’d) AX5-9.3 S
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Principal Authors (cont’d) Author
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Principal Authors Authors, Contribu
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Principle Authors (cont’d) Author
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Technical Support Staff U.S. Enviro
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Members (cont’d) U.S. Environment
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ANP atrial natriuretic peptide AP a
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CCE Coordination Center for Effects
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DR drinking water DSA delayed spati
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FTII Fagan Test of Infant Intellige
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H3PO4 phosphoric acid HPRT hypoxant
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MATC maximum acceptable threshold c
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NOS nitric oxide synthase; not othe
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PPVT-R Peabody Picture Vocabulary T
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SOPR sperm-oocyte penetration rate
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vit C vitamin C vit E vitamin E VMA
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AX5-2 Table AX5-2.1. Effect of Lead
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AX5-4 Table AX5-2.1 (cont’d). Eff
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AX5-6 Table AX5-2.2. Lead, Erythroc
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AX5-8 Table AX5-2.2 (cont’d). Lea
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AX5-10 Table AX5-2.4. Lead Effects
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AX5-12 Table AX5-2.5. Lead Interact
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AX5-14 Table AX5-2.7. Lead, Erythro
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AX5-16 Subject Exposure Protocol Ra
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AX5-22 Subject Rat, female, 22 wks
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AX5-24 Subject Rat, F344, male Expo
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AX5-26 Subject Monkey, cynomolgus,
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AX5-28 Subject Rat, SD, male, PND 6
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AX5-30 Subject Monkey, cynomolgus,
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AX5-32 Subject Exposure Protocol Ta
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AX5-34 Table AX5-3.6 (cont’d). Ke
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AX5-36 Table AX5-3.6 (cont’d). Ke
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AX5-38 Citation Al-Hakkak et al. (1
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AX5-40 Citation Fox et al. (1997)
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AX5-42 Citation Pinon- Lataillade e
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AX5-44 Citation Wiebe et al. (1998)
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AX5-46 Citation Chowdhuri et al. (2
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AX5-48 Citation Graca et al. (2004)
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AX5-50 Citation Marchlewicz et al.
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AX5-52 Table AX5-4.2 (cont’d). Ef
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AX5-54 Citation Sokol et al. (1985)
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AX5-56 Citation Table AX5-4.3 (cont
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AX5-58 Citation Priya et al. (2004)
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ANNEX TABLES AX5-5 AX5-60
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AX5-62 Table AX5-5.1 (cont’d). In
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AX5-64 Table AX5-5.1 (cont’d). In
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AX5-66 Reference Watts et al. (1995
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AX5-68 Reference Lai et al. (2002)
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AX5-70 Reference Shelkovnikov and G
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AX5-72 Reference Fujiwara and Kaji
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AX5-74 Reference Fugiwara et al. (1
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AX5-76 Table AX5-6.1. Genotoxic/Car
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AX5-80 Table AX5-6.3 (cont’d). Ge
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AX5-86 Compound Table AX5-6.6. Geno
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AX5-96 Table AX5-6.10 (cont’d). G
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AX5-98 Table AX5-6.12. Genotoxic/Ca
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AX5-100 Table AX5-6.14. Genotoxic/C
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AX5-102 Compound Table AX5-6.16. Ge
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AX5-104 Table AX5-6.18. Genotoxic/C
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AX5-106 Table AX5-6.18 (cont’d).
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AX5-110 Compound Assay (Concentrati
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AX5-112 Table AX5-7.1. Light Micros
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AX5-114 Table AX5-7.2. Lead and Fre
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AX5-116 Table AX5-7.2 (cont’d). L
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AX5-118 Table AX5-7.4. Effect of Ch
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AX5-120 Table AX5-7.5 (cont’d). E
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AX5-122 Table AX5-8.1. Bone Growth
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AX5-124 Table AX5-8.1 (cont’d). B
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AX5-126 Table AX5-8.2. Regulation o
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AX5-128 Table AX5-8.2 (cont’d). R
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AX5-136 Table AX5-8.4. Bone Lead as
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AX5-142 Table AX5-8.5. Uptake of Le
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AX5-144 Table AX5-8.7. Effects of L
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AX5-148 Nature of Exposure Table AX
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AX5-150 Table AX5-9.2. Effect of Le
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AX5-152 Species Strain/Gender Age M
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AX5-162 Table AX5-10.2. Biochemical
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AX5-166 Table AX5-10.4. Lead, Oxida
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Page 313 and 314: AX5-172 Table AX5-10.5 (cont’d).
Page 321 and 322: AX5-180 Table AX5-10.7. Lead and In
Page 325 and 326: AX5-184 Table AX5-10.9. Lead, Calci
Page 327 and 328: ANNEX TABLES AX5-11 AX5-186
Page 329 and 330: AX5-188 Source Organ Species Table
Page 331 and 332: REFERENCES Abdollahi, M.; Dehpour,
Page 333 and 334: Bataineh, H.; Al-Hamood, M. H.; Elb
Page 335 and 336: Buchet, J.-P.; Roels, H. E.; Huberm
Page 337 and 338: Cline, H. T.; Witte, S.; Jones, K.
Page 339 and 340: Cory-Slechta, D. A.; McCoy, L.; Ric
Page 341 and 342: children's health: immune and respi
Page 343 and 344: Ferguson, C.; Kern, M.; Audesirk, G
Page 345 and 346: Fullmer, C. S. (1991) Intestinal ca
Page 347 and 348: Goyer, R. A.; Leonard, D. L.; Moore
Page 349 and 350: Hengstler, J. G.; Bolm-Audorff, U.;
Page 351 and 352: Jacquet, P.; Leonard, A.; Gerber, G
Page 353 and 354: Kim, K. A.; Chakraborti, T.; Goldst
Page 355 and 356: Laughlin, N. K.; Bowman, R. E.; Fra
Page 357 and 358: Maldonado-Vega, M.; Cerbón-Solórz
Page 359 and 360: Moorman, W. J.; Skaggs, S. R.; Clar
Page 361 and 362: O'Flaherty, E. J.; Inskip, M. J.; F
Page 363: Price, R. G.; Taylor, S. A.; Chiver
Page 367 and 368: Schlipkoter, H.-W.; Frieler, L. (19
Page 369 and 370: Skoczyńska, A.; Smolik, R.; Jeleń
Page 371 and 372: Tavakoli-Nezhad, M.; Pitts, D. K. (
Page 373 and 374: Valentino, M.; Governa, M.; Marchis
Page 375 and 376: Wetmur, J. G.; Lehnert, G.; Desnick
Page 377 and 378: Zhou, J.; Xu, Y.-H.; Chang, H.-F. (
Page 379 and 380: Air Quality Criteria for Lead Volum
Page 381 and 382: The purpose of this revised Lead AQ
Page 383 and 384: Air Quality Criteria for Lead (Seco
Page 385 and 386: List of Tables Number Page AX6-2.1
Page 387 and 388: List of Tables (cont’d) Number Pa
Page 389 and 390: Principal Authors Authors, Contribu
Page 391 and 392: Principal Authors Authors, Contribu
Page 393 and 394: Principle Authors (cont’d) Author
Page 395 and 396: Technical Support Staff U.S. Enviro
Page 397 and 398: Members (cont’d) U.S. Environment
Page 399 and 400: ANOVA analysis of variance ANP atri
Page 401 and 402: CCD charge-coupled device CCE Coord
Page 403 and 404: DPPD N-N-diphenyl-p-phynylene-diami
Page 405 and 406: FTES free testosterone FTII Fagan T
Page 407 and 408: HPLC high-pressure liquid chromatog
Page 409 and 410: MAO monoamine oxidase MATC maximum
Page 411 and 412: NORs nucleolar organizing regions N
Page 413 and 414: ppm parts per million PPVT-R Peabod
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AX6-4 Table AX6-2.1 (cont’d). Pro
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AX6-10 Table AX6-2.2 (cont’d). Me
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AX6-12 Table AX6-2.3 (cont’d). Cr
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AX6-14 Table AX6-2.4. Effects of Le
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AX6-24 Table AX6-2.8. Effects of Le
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AX6-30 Table AX6-3.1. Neurobehavior
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AX6-32 Table AX6-3.1 (cont’d). Ne
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AX6-34 Table AX6-3.2 (cont’d). Sy
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AX6-36 Table AX6-3.3. Neurobehavior
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AX6-50 Table AX6-3.4 (cont’d). Me
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AX6-56 Table AX6-3.6. Evoked Potent
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AX6-58 Table AX6-3.6 (cont’d). Ev
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AX6-60 Table AX6-3.7 (cont’d). Po
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AX6-62 Table AX6-3.7 (cont’d). Po
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AX6-64 Table AX6-3.8 (cont’d). Oc
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AX6-66 Table AX6-3.9. Other Neurolo
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AX6-68 Table AX6-3.9 (cont’d). Ot
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AX6-70 Table AX6-4.1. Renal Effects
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AX6-72 Table AX6-4.1 (cont’d). Re
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AX6-104 Table AX6-4.3. Renal Effect
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AX6-166 Table AX6-5.4. Cardiovascul
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AX6-170 Table AX6-6.1 (cont’d). P
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AX172 Table AX6-6.1 (cont’d). Pla
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AX6-174 Table AX6-6.2. Lead Exposur
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AX6-176 Table AX6-6.2 (cont’d). L
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AX6-186 Table AX6-7.2. Key Occupati
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AX6-188 Table AX6-7.2 (cont’d). K
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AX6-190 Table AX6-7.2 (cont’d). K
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AX6-192 Table AX6-7.3. Key Studies
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AX6-194 Table AX6-7.4. Other Studie
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AX6-196 Table AX6-7.4 (cont’d). O
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AX6-224 Table 6-9.2 (cont’d). Eff
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AX6-232 Table AX6-9.3 (cont’d.).
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AX6-258 Table AX6-9.10. Effects of
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REFERENCES Abbate, C.; Buceti, R.;
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Baghurst, P. A.; McMichael, A. J.;
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Bolla, K. I.; Schwartz, B. S.; Stew
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Chia, K. S.; Jeyaratnam, J.; Tan, C
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David, O. J.; Clark, J.; Hoffman, S
Page 687 and 688:
Englyst, V.; Lundstrom, N. G.; Gerh
Page 689 and 690:
Gennart, J. P.; Bernard, A.; Lauwer
Page 691 and 692:
Haraguchi, T.; Ishizu, H.; Takehisa
Page 693 and 694:
Jemal, A.; Graubard, B. I.; Devesa,
Page 695 and 696:
Lanphear, B. P.; Howard, C.; Eberly
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Lundström, N.-G.; Nordberg, G.; En
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Muntner, P.; He, J.; Vupputuri, S.;
Page 701 and 702:
Paksy, K.; Gáti, I.; Náray, M.; R
Page 703 and 704:
Rhainds, M.; Levallois, P.; Dewaill
Page 705 and 706:
Sargent, J. D.; Dalton, M. A.; O'Co
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Sheffet, A.; Thind, I.; Miller, A.
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Stevens, L. A.; Levey, A. S. (2005b
Page 711 and 712:
Van Larebeke, N.; Koppen, G.; Nelen
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Winker, R.; Ponocny-Seliger, E.; R
Page 715 and 716:
October 2006 EPA/600/R-05/144bF Air
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PREFACE National Ambient Air Qualit
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drafts of document materials were r
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Table of Contents PREFACE..........
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Table of Contents (cont’d) II-ix
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List of Tables (cont’d) AX7-2.3.1
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List of Figures (cont’d) Number P
Page 729 and 730:
Page 731 and 732:
Page 733 and 734:
Principle Authors (cont’d) Author
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Technical Support Staff U.S. Enviro
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Members (cont’d) U.S. Environment
Page 739 and 740:
ANOVA analysis of variance ANP atri
Page 741 and 742:
CCD charge-coupled device CCE Coord
Page 743 and 744:
DPPD N-N-diphenyl-p-phynylene-diami
Page 745 and 746:
FTES free testosterone FTII Fagan T
Page 747 and 748:
HPLC high-pressure liquid chromatog
Page 749 and 750:
MAO monoamine oxidase MATC maximum
Page 751 and 752:
NORs nucleolar organizing regions N
Page 753 and 754:
ppm parts per million PPVT-R Peabod
Page 755 and 756:
Page 757 and 758:
Page 759 and 760:
Pb is ideally suited for this task.
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Concept For a given metal or metall
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(1979) observed that “the smaller
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Figure AX7-1.1.3. Illustration of p
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• Colorimetric • Electrochemica
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Figure AX7-1.1.5. Bulk lead versus
Page 771 and 772:
diffraction lines and comparing the
Page 773 and 774:
The major disadvantage of SIMS to s
Page 775 and 776:
techniques can be useful in a study
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have included phosphoric acid (H3PO
Page 779 and 780:
to 15 years after biosolid applicat
Page 781 and 782:
thin films (DGT), and ICP technique
Page 783 and 784:
completely extract targeted phases.
Page 785 and 786:
epresents Eb. The precise energy re
Page 787 and 788:
1974; Ruby et al., 1994). However,
Page 789 and 790:
T1/2 = 14 × 10 9 year). The result
Page 791 and 792:
floor) time-series data to evaluate
Page 793 and 794:
contributions of dry deposition may
Page 795 and 796:
Compared to their estimated 20th-ce
Page 797 and 798:
thought to enter the plant via the
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soil was not allowed to equilibrate
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Lead concentrations in various tiss
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that the nematode may detoxify Pb v
Page 805 and 806:
plasma levels of uric acid and crea
Page 807 and 808:
effective use of glutathione metabo
Page 809 and 810:
and oats (Avena sativa) had signifi
Page 811 and 812:
other metals is inconsistent (Påhl
Page 813 and 814:
Speciation and Form of Lead Recent
Page 815 and 816:
organism responses to Pb. Section A
Page 817 and 818:
Primary Producers Commonly reported
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solution and minimal translocation
Page 821 and 822:
AX7.1.3.3 Recent Studies on the Eff
Page 823 and 824:
AX7-66 Avian Species Reproduction J
Page 825 and 826:
AX7-68 Avian Species American kestr
Page 827 and 828:
Very little research has been done
Page 829 and 830:
AX7-72 Mammalian Species Reproducti
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AX7-74 Mammalian Species No. of Dos
Page 833 and 834:
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AX7-80 Mammalia n Species No. of Do
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A literature search and review was
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Table AX7-1.3.6. Invertebrate Toxic
Page 843 and 844:
The effects of Pb-chloride on the p
Page 845 and 846:
Ecological Soil Screening Levels (E
Page 847 and 848:
Since the movement and fate of Pb i
Page 849 and 850:
Land Use and Industry Changes in la
Page 851 and 852:
lakes in the United Kingdom the dis
Page 853 and 854:
zinc; had very low pH; and were det
Page 855 and 856:
Sites Affected by Long-Range Lead T
Page 857 and 858:
iomass carbon. Because of this link
Page 859 and 860:
in an oak woodland site 3 km from a
Page 861 and 862:
the forested Lehstenbach catchment
Page 863 and 864:
there is little evidence that Pb ac
Page 865 and 866:
ecosystems. Just as in the terrestr
Page 867 and 868:
To develop chronic AWQC, acceptable
Page 869 and 870:
for the binding of free-metal ion a
Page 871 and 872:
partition in sediment between acid-
Page 873 and 874:
AX7.2.1.5 Metal Mixtures As discuss
Page 875 and 876:
varies from 4:1 in rural streams to
Page 877 and 878:
Organic compounds in surface waters
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solution phase, complexation with c
Page 881 and 882:
The NAWQA dataset was chosen over o
Page 883 and 884:
Lead Distributions Generated from t
Page 885 and 886:
AX7-128 Figure AX7-2.2.3. Spatial d
Page 887 and 888:
AX7-130 Figure AX7-2.2.5. Spatial d
Page 889 and 890:
AX7-132 ` Figure AX7-2.2.7. Spatial
Page 891 and 892:
Figure AX7-2.2.8. Frequency distrib
Page 893 and 894:
Table AX7-2.2.4. Summary Statistics
Page 895 and 896:
Table AX7-2.2.5. Comparison of NCBP
Page 897 and 898:
AX7-140 Figure AX7-2.2.13. Spatial
Page 899 and 900:
calculations indicate that only a s
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from municipal sewage, storm runoff
Page 903 and 904:
AX7.2.3 Aquatic Species Response/Mo
Page 905 and 906:
aquatic plants and insects and on t
Page 907 and 908:
designed to model uptake, MINTEQ pr
Page 909 and 910:
sequestering to organ tissues). The
Page 911 and 912:
AbdAllah and Moustafa (2002) studie
Page 913 and 914:
Summary of Detoxifiction Processes
Page 915 and 916:
1.1 µg/L Cd, 12 µg/L Cu, 55 µg/L
Page 917 and 918:
Studies have identified ALAD in fis
Page 919 and 920:
metals over nonessential metals. Th
Page 921 and 922:
In summary, relationships between a
Page 923 and 924:
potential toxic effects in other or
Page 925 and 926:
esulted in 91.7% survival (Horne an
Page 927 and 928:
carbon sources (including glucose),
Page 929 and 930:
separate concentration-effects mode
Page 931 and 932:
1994. mSQGQs are useful to risk ass
Page 933 and 934:
Algae The 1986 Lead AQCD (U.S. Envi
Page 935 and 936:
observed in Selenastrum capricornut
Page 937 and 938:
Nitrate uptake reported after 48, 7
Page 939 and 940:
1997). The most sensitive primary p
Page 941 and 942:
Freshwater Invertebrates Acute and
Page 943 and 944:
AX7-186 Amphipod (Hyalella azteca)
Page 945 and 946:
concentrations of
Page 947 and 948:
AX7-190 Freshwater Species Chemical
Page 949 and 950:
AX7-192 Species Chemical Frogs (Ran
Page 951 and 952:
studied using Spirodela polyrhiza,
Page 953 and 954:
However, in other cases multivariat
Page 955 and 956:
species was observed. Similar, sign
Page 957 and 958:
AX7-200 Table AX7-2.5.2. Essential
Page 959 and 960:
AX7-202 Table AX7-2.5.2 (cont’d).
Page 961 and 962:
variables, it does not imply causat
Page 963 and 964:
Poulton et al. (1995), the effects
Page 965 and 966:
metal levels. Furthermore, although
Page 967 and 968:
environment through bioaccumulation
Page 969 and 970:
Angle, C. R.; McIntire, M. S.; Colu
Page 971 and 972:
Black, M. C.; Ferrell, J. R.; Horni
Page 973 and 974:
Clements, W. H. (1994) Benthic inve
Page 975 and 976:
Ekenler, M.; Tabatabai, M. (2002) E
Page 977 and 978:
Getz, L. L.; Haney, A. W.; Larimore
Page 979 and 980:
Houlton, B. Z.; Driscoll, C. T.; Fa
Page 981 and 982:
Krüger, F.; Gröngröft, A. (2003)
Page 983 and 984:
Manceau, A.; Lanson, B.; Schlegel,
Page 985 and 986:
Niyogi, S.; Wood, C. M. (2003) Effe
Page 987 and 988:
Rand, G. M.; Wells, P. G.; McCarty,
Page 989 and 990:
Scherer, E.; McNicol, R. E. (1998)
Page 991 and 992:
Sturges, W. T.; Barrie, L. A. (1987
Page 993 and 994:
U.S. Environmental Protection Agenc
Page 995 and 996:
Zenk, M. H. (1996) Heavy metal deto
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