refs2006

[2005] [2006] [2007] [2008] [2009] [2010] [2011] [2012] [2013] [2014] [Back to Reading DBs]

Winter 05 Studies [15] 2006/01/02 ~ 2006/02/24

Shrimp-As Studies [10]

Spring 06 Studies [44] 2006/02/28 ~ 2006/06/22

Summer 06 Studies [42] 2006/07/01 ~ 2006/09/28

Fall 06 Studies [35] 2006/10/02 ~ 2006/12/28

Subtotal [146]

Winter 05 Studies

2006/01/02

Chiang KC, Liao CM, 2006. Heavy incense burning in temples promotes exposure risk from airborne PMs and carcinogenic PAHs. (Submitted to Atmos Environ)

2006/01/13

Ramsey JC, Andersen M, 1984. A physiologically based description of the inhalation pharmacokinetics of strene in rats and humans. Toxicol Appl Pharmacol 73: 159-175.

Li N, Wang M, Oberley TD, Sempf JM, Nel AE, 2002. Comparsion of the pro-oxidative and proinflammatory effects of organic diesel exhaust particle chemicals in bronchial epitheial cells and macrophages. J Immunol 169: 4531-4541.

Ferguson NM, Cummings DAT, Cauchemez S, Fraser C, Riley S, Meeyai A, Iamsirithaworn S, Burke DS, 2005. Strategies for containing an emerging influenza pandemic in Southeast Asia. Nature437: 209-214.

2006/01/19

Routledge HC, Ayres JG, Townend JN, 2003. Why cardiologists should be interested in air pollution. Heart 89: 1383-1388.

2006/01/25

Hoek G, Brunekreef B, Fischer P, van Wijnen J, 2001. The association between air pollution and heart failure, arrhythmia, embolism, and other cardiovascular causes of death in a time series study. Epidemiology 12: 355-357.

Chow JC, Watson JG, Savage N, Solomon CJ, Cheng YS, McMurry PH, Corey LM, Bruce GM, Pleus RC, Biswas P, Wu CY, 2005. Nanoparticles and the Environment. J Air Waste Manage Assoc 55: 1411-1417.

Vinardell MP, 2005. In vitro cytotoxicity of nanoparticles in mammlian germ-line stem cell. Toxicol Sci 88: 285-286.

Kipen HM, Lasin DL, 2005. Smaller is not always better: nanotechnology yields nanotoxicology. AJP-Lung Cell Mol Physiol 289: L696-L697.

Seaton A, Donalson K, 2005. Nanoscience, nanotoxicology, and the need to think small. Lancet 365: 923-924.

2006/02/09

Donaldson K, Stone V, Tran CL, Kreyling W, Borm PJA, 2004. Nanotoxicology. Occup Environ Med 61: 727-728.

Biswas P, Wu CY, 2005. Nanoparticles and the Environment. J Air Waste Manage Assoc 55: 708-746.

2006/02/16

Service RF, 2004. Nanotechnology grows up. Science 304: 1732-1734.

2006/02/24

Service RF, 2005. Calls rise for more research on toxicology of nanomaterials. Science 310: 1609.

Service RF, 2005. Nanotechnology takes aim at Cancer. Science 310: 1132-1134.

Shrimp-As Studies

Chui VWD, Mok KW, Ng CY, Luong BP, Ma KK, 1996. Removal and recovery of copper(II), chromium(III), and nickel(II) from solutions using crude shrimp chitin packed in small columns. Environ Int 22: 463-468.

Ferrer J, Paez G, Marmol Z, Ramones E, Garcia H, Forster CF, 1996. Acid hydrolysis of chrimp-shell wastes and the production of single cell protein from the hydrolysis. Biores Technol 57: 55-60.

Ho YS, Mckay G, 2000. The kinetics of sorption of divalent metal ions onto sphagnum moss peat. Water Res 34: 735-742.

An HK, Park BY, Kim DS, 2001. Crub shell for the removal of heavy metals from aqueous solution. Water Res 35: 3551-3556.

Juang RS, Wu FC, Tseng RL, 2001. Solute adsorption and enzyme immobilization on chitosan beads prepared from shrimp shell waste. Biores Technol 80: 187-193.

Dambies L, Vincent T, Guibal E, 2002. Treatment of arsenic-containing solutions using chitosan derivatives: uptake mechanism and sorption performances. Water Res 36: 3699-3710.

Chuang CL, Fan M, Xu M, Brown RC, Sung S, Saha B, Huang CP, 2005. Adsorption of arsenic(V) by activated carbon prepared from oat hulls. Chemosphere 61: 478-483.

Kumar U, Bandyopadhyay M, 2006. Sorption of cadmium from aqueous solution using pretreated rice husk. Biores Technol 97: 104-109.

Romero-González J, Peralta-Videa JR, Rodríguez E, Delgado M, Gardea-Torresdey JL, 2006. Potential of Agave lechuguilla biomass for Cr(III) removal from aqueous solutions: Thermodynamic studies. Biores Technol 97: 178-182.

Sarin V, Pant KK, 2006. Removal of chromium from industrial waste by using eucalyptus bark. Biores Technol 97: 15-20.

Spring 06 Studies

2006/02/28

Maynard AD, Kuempel ED, 2005. Airborne nanostructured particles and occupational health. J Nanopart Res 7: 587-614.

Chang CC, Chiu HF, Wu, YS, Li, YC, Tsai, ML, Shen, CK, Yang CY, 2005. The induction of vascular endotheial growth factor by ultrafine carbon black contributes to the increase of alveolar-capillary permeability. Environ Health Perspect 113: 454-460.

2006/03/07

Maynard R, 2004. Key airborne pollutants – the impact on health. Sci Total Environ 354-355: 9-13.

Vinzents PS, Møller P, Sørensen M, Knudsen LE, Hertel O, Jensen FP, Schibye B, Loft S, 2005. Personal exposure to ultrafine particles and oxidative DNA damage. Environ Health Perspect 113: 1485-1490.

Yeh CC, Hou MF, Tsai SM, Lin SK, Hsiao JK, Huang JC, Wang LH, Wu SH, Hou LA, Ma H, Tsai LY, 2005. Superoxide anion radical, lipid peroxides and antioxidant status in the blood of patients with breast cancer. Clin Chim Acta 361: 104-111.

2006/03/14

Li N, Kim S, Wang M, Froines J, Sioutas C, Nel A, 2002. Use of a stratified oxidative stress model to study the biological effects of ambient concentrated and diesel exhaust particulate matter. Inhal Toxicol 14: 459-486.

2006/03/21

Dockery DW, Pope CA, Xu X, Spengler JD, Ware JH, Fay ME, Ferris BG, Speizeer FE, 1993. An association between air pollution and mortality in six U.S. cities. New Eng J Med 329: 1753-1759.

Samet JM, Dominci F, Curriero FC, Coursac I, Zeger SL, 2000. Fine particulate air pollution and mortality in 20 U.S. cities, 1987-1994. New Eng J Med 343: 1742-1749.

2006/03/28

Frampton MW, Stewart JC, Oberdörster G, Morrow PE, Chalupa D, Pietropaoli AP, Frasier LM, Speers DM, Cox C, Huang LS, Utell MJ. 2006. Inhalation of ultrafine particles alters blood leukocyte expression of adhesion molecules in humans. Environ Health Perspect 114: 51-58.

Oberdörster G, Oberdörster E, Oberdörster J, 2005. Nanotoxicology: An emerging discipline evolving from studies of ultrafine particles. Environ Health Perspect 113: 823-839.

2006/04/04

Dahl A, Gharibi A, Swietlicki E, Gudmundsson A, Bohgard M, Ljungman A, Blomqvist G, Gustafsson M. 2006. Traffic-generated emissions of ultrafine particles from pavement-tire interface. Atmos Environ 40: 1314-1323.

2006/04/11

Dick CAJ, Brown DM, Donaldson K, Stone V, 2003. The role of free radicals in the toxic and inflammatory effects of four different ultrafine particle types. Inhal Toxicol 15: 39-52.

Nel A, Xia T, Mädler L, Li N, 2006. Toxic potential of materials at the nanolevel. Science 311: 622-627.

2006/04/18

Yu D, 1999. A physiologically based pharmacokinetic model of inorganic arsenic. Reg Toxicol Pharmacol 29: 128-141.

Ginsberg G, Hattis D, Sonawane B, 2004. Incorporating pharmacokinetic differences between children and adults in assessing children's risks to environment toxicants. Toxicol Appl Pharmacol198: 164-183.

2006/04/27

Nemmar A, Hoylaerts MF, Hoet PHM, Vermylen J, Nemery B, 2003. Size effect of intratracheally instilled particles on pulmonary inflammation and vascular thrombosis. Toxicol Appl Pharmacol 186: 38-45.

2006/5/4

Shwe TT, Yamamoto S, Kakeyama M, Kobayasgi T, Fujimaki H, 2005. Effect of intratracheal installation of ultrafine carbon black on proinflammatory cytokine and chemokine release and mRNA expression in lung and lymph nodes of mice. Toxicol Appl Pharmacol 209: 51-61.

Brown JS, Zeman KL, Bennet WD, 2002. Ultrafine particle deposition and clearance in the healthy and obstructed lung. Am J Respir Crit Care Med 166: 1240-1247.

Tamaoki J, Isono K, Takeyama K, Tagaya E, Nakata J, Nagai A, 2004. Ultrafine carbon black particles stimulate proliferation of human airway epithelium via EGF receptor-medicated signaling pathway. AJP-Lung 287: 1127-1133.

2006/5/11

Zhao W, Hopke PK, Norris G, Williams R, Paatero P, 2006. Source apportionment and analysis on ambient and personal exposure samples with a combined receptor model and an adaptive blank estimation strategy. Atmos Environ (In press).

Morishita M, Keeler GJ, Wagner JG, Harkema JR, 2006. Source identification of ambient PM2.5 during summer inhalation exposure studies in Detroit, MI. Atmos Environ 40: 3823-3834.

Samet JM, 2000. What properties of particulate matter are responsible for health effects? Inhal Toxicol 12 Suppl.1: 19-21.

2006/5/18

Schlesinger RB, Cassee F, 2003. Atmospheric secondary inorganic particulate matter: The toxicological perspective as a basis for health effects risk assessment. Inhal Toxicol 15: 197-235.

Friedlander SK, Pui DYH, 2004. Emerging issues in nanoparticle aerosol science and technology. J Nanopart Res 6: 313-320.

Hirno S, Nitta H, Moriguchi Y, Kobayashi S, Kondo Y, Tanabe K, Kobayashi T, Wakamatsu S, Morita M, Yamazaki S, 2003. Nanoparticles in emissions and atmospheric environment: Now and future. J Nanopart Res 5: 311-321.

2006/5/25

Gerde P, 2005. Animal models and their limitations: On the problem of high-to-low dose extrapolations following inhalation exposures. Exp Toxicol Pathol 57: 143-146.

Keeler GJ, Morishita M, Young LH, 2005. Characterization of complex mixtures in urban atmospheres for inhalation exposure studies. Exp Toxicol Pathol 57: 19-29.

Clewell HJ, Crump KS, 2005. Quantitative estimates of risk for noncancer endpoints. Risk Anal 25: 285-289.

Highwood EJ, Kinnersley RP, 2006. When smoke gets in our eyes: The multiple impacts of atmospheric black carbon on climate, air quality and health. Environ Int 32: 560-566.

2006/6/1

Wåhlin P, Palmgren F, Dingenen RV, 2001. Experimental studies of ultrafine particles in streets and the relationship to traffic. Atmos Environ 35 Supplement 1: S63-S69.

Morgan K, 2005. Development of a preliminary framework for informing the risk analysis and risk management of nanoparticle. Risk Anal 25: 1621-1635.

Franck U, Herbarth O, Wehner B, Weidensohler A, Manjarrez, 2003. How do the indoor size distributions of airborne submicron and ultrafine particles in the absence of significant indoor sources depend on outdoor distributions? Indoor Air 13: 174-181.

Alessandrini F, Schulz H, Takenaka S, Lentner B, Karg E, Behrend H, Jakob T, 2006. Effects of ultrafine carbon particle inhalation on allergic inflammation of the lung. J Allergy Clin Immunol 117: 824-830.

2006/6/8

Asgharian B, Anjilvel S, 1998. A multiple-path model of fiber deposition in the rat lung. Toxicol Sci 44: 80-86.

Asgharian B, Hofmann W, Bergmann R, 2001. Particle deposition in a multiple-path model of the human lung. Aerosol Sci Technol 34: 332-339.

Hetland RB, Cassee FR, Refsnes M, Schwarze PE, Låg M, Boere AJF, Dybing E, 2004. Release of inflammatory cytokines, cell toxicity and apoptosis in epithelial lung cells after exposure to ambient air particles of different size fractions. Toxicol in Vitro 18: 203-212.

Anderson HR, Bremner SA, Atkinson RW, Harrison RM, Walters S, 2001. Particulate matter and daily mortality and hospital admissions in the west midlands conurbation of the United Kingdom: associations with fine and coarse particles, black smoke and sulfate. Occup Environ Med 58: 504-510.

2006/6/15

Stoeger T, Reinhard C, Takenaka S, Schroeppel A, Karg E, Ritter B, Heyder J, Schulz H, 2006. Instillation of six different ultrafine carbon particles indicates a surface area threshold dose for acute lung inflammation in mice. Environ Health Perspect 114: 328-333.

Watson JG, Chow JC, Lowenthal DH, Kreisberg NM, Hering SV, Stolzenburg MR, 2006. Variations of nanoparticle concentrations at the Fresno Supersite. Sci Total Environ 358: 178-187.

Namdeo A, Bell MC, 2005. Characteristics and health implications of fine and coarse particles at roadside, urban background and rural sites in UK. Environ Int 31: 565-573.

Zhu Y, Hinds WC, Krudysz M, Kuhn T, Froines J, Sioutas C, 2005. Penetration of freeway ultrafine particles into indoor environments. J Aerosol Sci 36: 303-322.

2006/6/22

Oberdörster G, Utell MJ, 2002. Ultrafine particles in the urban air: to the respiratory tract – and beyond? Environ Health Perspect 110: A440-A441.

Donaldson K, Brown D, Clouter A, Duffin R, MacNee W, Renwick L, Tran L, Stone V, 2002. The pulmonary toxicology of ultrafine particles. J Aerosol Med 15: 213-220.

Ibald-Mulli A, Wichmann HE, Kreyling W, Peters A, 2002. Epidemiological evidence on health effects of ultrafine particles. J Aerosol Med 15: 189-201.

Summer 06 Studies

2006/7/7

Dusek U, Frank GP, Hildebrandt L, Curtius J, Schneider J, Walter S, Chand D, Drewnick F, Hings S, Jung D, Borrmann S, Andreae MO, 2006. Size matters more than chemistry for cloud-nucleating ability of aerosol particles. Science 312: 1375-1378.

Schulz H, Harder V, Ibald-Mulli A, Khandoga A, Koenig W, Krombach F, Radykewicz R, Stampfl A, Thorand B, Peters A, 2005. Cardiovascular effects of fine and ultrafine particles. J Aerosol Med 18: 1-22.

2006/7/12

Ghio AJ, 2004. Biological effects of Utah valley ambient air particles in humans: a review. J Aerosol Med 17: 157-164.

Kim YM, Reed W, Lenz AG, Jaspers I, Silbajoris R, Nick HS, Samet JM, 2005. Ultrafine carbon particles induce interleukin-8 gene transcription and p38 MAPK activation in normal human bronchial epithelial cells. AJP-Lung 288: 432-441.

2006/7/14

Tsai JH, Chen JC, Hsu YC, 1998. The particulate characteristics of indoor and outdoor air in Tainan city. J Aerosol Sci 29 Suppl.2: S691-S692.

Roth C, Karg E, Heyder J, 1998. Do inhaled ultrafine particles cause acute health effects in rats? I: particle production. J Aerosol Sci 29 Suppl.2: S679-S680.

Karg E Rot C, Heyder J, 1998. Do inhaled ultrafine particles cause acute health effects in rats? II: exposure system. J Aerosol Sci 29 Suppl.2: S315-S316.

2006/7/19

Wiesner MR, Lowry GV, Alvarez P, Dionysiou D, Biswas P, 2006. Assessing the risks of manufactured nanomaterials. Environ Sci Technol 40: 4336-4345.

Morshita M, Keeler GJ, Wagner JG, Marsik FJ, Timm EJ, Dvonch JT, Harkema JR, 2004. Pulmonary retention of particulate matter is associated with airway inflammation in allergic rats exposed to air pollution in urban Detroit. Inhal Toxicol 16: 663-674.

2006/7/21

Koike E, Kobayashi T, 2006. Chemical and biological oxidative effects of carbon black nanoparticles. Chemosphere (In press)

2006/8/2

Shwe TT, Yamamoto S, Ahmed S, Kakeyama M, Kobayashi T, Fujimaki H, 2006. Brain cytokine and chemokine mRNA expression in mice induced by intranasal instillation with ultrafine carbon black. Toxicol Let 163: 153-160.

Chen SJ, Cheng SY, Shue MF, Huang KL, Tsai PJ, Lin CC, 2006. The cytotoxicities induced by PM10 and particle-bound water-soluble species. Sci Total Environ 354: 20-27.

2006/8/4

Liao CM, Chen SC, Chen JW, Liang HM, 2006. Contributions of Chinese-style cooking and incense burning to person exposure and residential PM concentrations in Taiwan region. Sci Total Environ 358: 72-84.

Filleul L, Zeghnoun A, Cassadou S, Declercq C, Eilstein D, le Tertre A, Medina S, Pascal L, Prouvost H, Saviuc P, Quénel P, 2006. Influence of set-up conditions of exposure indicators on the estimate of short-term associations between urban pollution and mortality. Sci Total Environ 355: 90-97.

McDonald JD, Eide I, Seagrave J, Zielinska B, Whitney K, Lawson DR, Mauderly JL, 2004. Relationship between composition and toxicity of motor vehicle emission samples. Environ Health Perspect 112: 1527-1538.

2006/8/11

Cuningham ML, 2002. A mouse is not a rat is not a human: species differences exist. Toxicol Sci 70: 157-158.

2006/8/17

Dockery DW, Pope CA III, 1996. Epidemiology of acute health effects: summary of time-series studies. In: Wilson R, Spengler JD (Eds) Particles in Our Air: Concentrations and Health Effects. Harvard University Press, Cambridge, MA, 123-147.

Pope CA III, Dockery DW, 1996. Epidemiology of chronic health effects: cross-sectional studies. In: Wilson R, Spengler JD (Eds) Particles in Our Air: Concentrations and Health Effects. HarvardUniversity Press, Cambridge, MA, 149-167.

Utell MJ, Samet JM, 1996. Airborne particles and respiratory disease: clinical and pathogenetic considerations. In: Wilson R, Spengler JD (Eds) Particles in Our Air: Concentrations and Health Effects. Harvard University Press, Cambridge, MA, 169-188.

2006/8/24

Beyea J, Hatch M, Stellman SD, Santella RM, Teitelbaum SL, Prokopczyk B, Camann D, Gammon MD, 2006. Validation and calibration of a model used to reconstruct historical exposure to polycyclic aromatic hydrocarbons for use in epidemiologic studies. Environ Health Perspect 114: 1053-1058.

Lee WJ, Chen SJ, Liow MC, Wang LC, Huang KL, 1998. Removal efficiencies of PAHs by electrostatic precipitator and wet scrubber. J Aerosol Sci 29 Suppl2: S1081-S1082.

Lin JJ, Tai HS, 1998. Indoor/outdoor relationships of airborne particles and elemental composition. J Aerosol Sci 29 Suppl2: S1305-S1306.

Tran CL, Jones AD, Cullen RT, Donaldson K, 1998. Influence of particle characteristics on the clearance of low toxicity dusts from lungs. J Aerosol Sci 29 Suppl2: S1269-S1270.

Monn C, Becker S, 1998. Fine and coarse particles: induction of cytokines in human monocytes. J Aerosol Sci 29 Suppl1: S305-S306.

Hornberg C, Seemayer NH, Kainka E, 1998. Strong genotoxicity on human tracheobronial epithelial cells (BEAS-2B) in vitro by the coarse (PM-10) and fine fraction (PM-2.5) of airborne particulates as an indicator of potential adverse health effects. J Aerosol Sci 29 Suppl1: S317-S318.

2006/8/31

Lung SCC, Hu SC, 2003. Generation rates and emission factors of particulate matter and particle-bound polycyclic aromatic hydrocarbons of incense sticks. Chemosphere 50: 673-679.

Keywood MD, Ayers GP, Gras JL, Gillett RW, Cohen DD, 1999. Relationships between size segregated mass concentration data and ultrafine particle number concentrations in urban areas. Atmos Environ 33: 2907-2913.

Schüepp KG, Straub D, Möller A, Wildhaber JH, 2004. Deposition of aerosols in infants and children. J Aerosol Med 17: 153-156.

Matson U, 2005. Indoor and outdoor concentrations of ultrafine particles in some Scandinvian rural and urban areas. Sci Total Environ 343: 169-176.

Mönkkönen P, Pai P, Maynard A, Lehtinen KEJ, Hämeri K, Rechkemmer P, Ramachandran G, Prasad B, Kulmala M, 2005. Fine particle number and mass concentration measurements in urban Indian households. Sci Total Environ 347: 131-147.

ten Brink H, Hoek G, Khlystov, 2005. An approach to monitor the fraction of elemental carbon in the ultrafine aerosol. Atmos Environ 39: 6255-6259.

2006/9/7

Kelly FJ, 2000. Free radical involvement in cardiovascular and respiratory diseases. In: Rhodes CJ Eds. Toxicology of the Human Environment – The critical role of free radicals. 363-370.

Kameda Y, Shirai J, Komai T, Nakanishi J, Masunaga S, 2005. Atmospheric polycyclic hydrocarbons: size distribution, estimation of their risk and their deposition to the human respiratory tract. Sci Total Environ 340: 71-80.

Kuempel ED, Tran CL, Castranova V, Bailer AJ, 2006. Lung dosimetry and risk assessment of nanoparticles: evaluating and extending current models in rats and humans. Inhal Toxicol 18: 717-724.

M'Bemba-Meka P, Lemieux N, Chakrabarti SK, 2006. Role of oxidative stress, mitochochodrial membrane potential, and calcium homeostasis in nickel subsulfide -induced human lymphocyte death in vitro. Sci Total Environ (In press).

2006/9/14

Chen JC, Chen YJ, Chang WP, Christiani DC, 2005. Long driving time is associated with haematological markers of increase cardiovascular risk in taxi divers. Occup Environ Med 62: 890-894.

Reliene R, Hlavacova A, Mahadevan B, Baird WM, Schiestl RH, 2005. Diesel exhaust particles cause increased levels of DNA deletions after transplacental exposure in mice. Muta Res 570: 245-252.

Tovalin H, Valverde M, Morandi MT, Blanco S, Whitehead L, Rojas E, 2006. DNA damage in outdoor workers occupationally exposed to environmental air pollutants. Occup Environ Med 63: 230-236.

DeMarini DM, Claxton LD, 2006. Outdoor air pollution and DNA damage. Occup Environ Med 63: 227-229.

McConnell R, Berhane K, Yao L, Jerrett M, Lurmann F, Gilliland F, Kunzli N, Gauderman J, Avol E, Thomas D, Peters J, 2006. Traffic, susceptibility, and childhood asthma. Environ Health Perspect 114: 766-772.

2006/9/22

Wellmann J, Weiland SK, Neiteler G, Klein G, Straif K, 2006. Cancer mortality German carbon black workers 1976-98. Occup Environ Med 63: 513-521.

2006/9/28

Demirbag R, Yilmaz R, Kocyigit A, 2005. Relationship between DNA damage, total antioxidant capacity and coronary artery disease. Muta Res 570: 197-203.

Fall 06 Studies

2006/10/5

Janssen NAH, Lanki T, Hoek G, Vallius M, de Hartog JJ, Van Grieken R, Pekkanen J, Brunekreef B, 2004. Associations between ambient, personal, and indoor exposure to fine particulate matter constituents in Dutch and Finnish panels of cardiovascular patients. Occup Environ Med 62: 868-877.

2006/10/12

Service RE, 2006. Priorities needed for nano-risk research and development. Science 314: 45-45.

McCarthy MC, Eisinger DS, Hafner HR, Chinkin LR, Roberts PT, Black KN, Clark NN, McMurry PH, Winer AM, 2006. Particulate matter: A strategic vision for transportation -related research. Environ Sci Technol 40: 5593-5599.

2006/10/19

Kao MC, Wang CS, 2002. Reactive oxygen species in incense smoke. Aerosol Air Qual Res 2: 61-69.

See SW, Balasubramanian R, Wang W, 2006. A study of the physical, chemical, and optical properties of ambient aerosol particles in Southern Asia during hazy and nonhazy days. J Geophy Res 111: D10S08, doi:10.1029/2005JD006180.

2006/10/26

Renwick LC, Brown D, Clouter A, Donaldson K, 2004. Increased inflammation and altered macrophage chemotactic responses caused by two ultrafine particle types. Occup Environ Med 61: 442-447.

2006/11/3

Weber S, 2006. Exposure of churchgoers to airborne particles. Environ Sci Technol 40: 5251-5256.

2006/11/6

Lee SC, Wang B, 2004. Characteristics of emissions of air pollutant from burning of incense in a large environmental chamber. Atmos Environ 38: 941-951.

Wang B, Lee SC, Ho KF, 2006. Chemical composition of fine particles from incense burning in a large environmental chamber. Atmos Environ Doi:10.1016/j. atmoenv.2006.07041

Chen HW, 2005. Environmental exposure to nitrater polycyclic aromatic hydrocarbons in the Taiwanese temple. Bull Environ Contam Toxicol 74: 399-406.

2006/11/9

Fang GC, Chang CN, Chu CC, Wu YS, Fu PPC, Chang SC, Yang IL, 2003. Fine (PM2.5), coarse (PM2.5-10), and metallic elements of suspended particulates for incense burning at Tzu Yun Yen temple in central Taiwan. Chemosphere 51: 983-991.

Yang HH, Jung RC, Wang YF, Hsieh LT, 2005. Polycyclic aromatic hydrocarbon emissions from joss paper furnaces. Atmos Environ 39: 3305-3312.

Lung SSC, Kao MC, 2003. Worshippers' exposure to particulate matter in two temple in Taiwan. J Air Waste Manage Assoc 53: 130-135.

2006/11/13

Lin TC, Chang FH, Hsieh JH, Chao HR, Chao MR, 2002. Characteristics of polycyclic aromatic hydrocarbons and total suspended particulate in indoor and outdoor atmosphere of a Taiwanese temple. J Hazard Mater A95: 1-12.

Fang GC, Chu CC, Wu YS, Fu PPC, 2002. Emission characters of particulate concentrations and dry deposition studies for incense burning at a Taiwanese temple. Toxicol Ind Health 18: 183-190.

Li CS, Ro YS, 2000. Indoor characteristics of polycyclic aromatic hydrocarbons in the urban atmosphere of Taipei. Atmos Environ 34: 611-620.

2006/11/16

Ho SSH, Yu JZ, 2002. Concentrations of formaldehyde and other carbonyls in environments affected by incense burning. J Environ Monit 4: 728-733.

Fang GC, Chang CN, Wu YS, Yang CJ, Chang SC, Yang IL, 2002. Suspended particulate variations and mass size distributions of incense burning at Tzu Yun Yen temple in Taiwan, Taichung. Sci Total Environ 299: 79-87.

Hunag MF, Lin WL, Ma YC, 2005. A study of reactive oxygen species in mainstream of cigarette. Indoor Air 15: 135-140.

Jetter JJ, Guo Z, McBrian JA, Flynn MR, 2005. Characterization of emission from burning incense. Sci Total Environ 295: 51-67.

2006/11/23

Yang CY, Chiu JF, Cheng MF, Lin MC, 1997. Effects of indoor environmental factors on respiratory health of children in a subtropical climate. Environ Res 75: 49-55.

Fang GC, Wu YS, Chang CN, Ho TT, 2006. A study of polycyclic aromatic hydrocarbons concentrations and identifications by methods of diagnostic ratio and principal component analysis at Taichung chemical Harbor near Taiwan Strait. Chemosphere 64: 1233-1242.

2006/11/27

See SW, Wang YH, Balasubramanian R, 2006. Contrasting reactive oxygen species and transition metal concentrations in combustion aerosols. Environ Res Doi:10.1016 /j.envres.2006.08.012.

2006/11/30

Wallace L, 2006. Indoor sources of ultrafine and accumulation mod particles: size distributions, size-resolved concentrations, and source strengths. Aerosol Sci Technol 40: 348-360.

Lu HC, Fang GC, Wu YS, 2006. Estimating the frequency distributions of particulate matter and their metal elements in a temple. J Air Waste Manage Assoc 56: 1033-1040.

2006/12/07

Giles J, 2006. How much will it cost to save the world? Nature 444: 6-7.

Steig EJ, 2006. The south-north connection. Nature 444:152-153.

Ott WR, Siegmann HC, 2006. Using multiple continuous fine particle monitors to characterize tobacco, incense, candle, cooking, wood burning, and vehicular sources in indoor, outdoor, and in-transit settings. Atmos Environ 40: 821-843.

2006/12/14

Marris E, 2006. Climate in court. Nature 443: 86-487.

Paz S, Bisharat N, Paz E, Kidar O, Cohen D, 2006. Climate change and the emergence of Vibrio vulnificus disease in Israel. Environ Res (In press)

2006/12/22

Scholze M, Knorr W, Arnell NW, Prentice IC, 2006. A climate-change risk analysis for world ecosystems. PNAS 103: 13116-13120.

Patz JA, 2002. A human disease indicator for the effects of recent global climate change. PNAS 99: 12506-12508.

Frey U, Brodbeck T, Majumdar A, Taylor DR, Town GL, Silverman M, Suki B, 2005. Risk of severe asthma episodes predicted from fluctuation analysis of airway function. Nature 438: 667-670.

2006/12/28

Iwai K, Adachi S, Takahashi M, Möller L, Udagawa T, Mizuno S, Sugawara I, 2000. Early oxidative DNA damages and late development of lung cancer in diesel exhaust-exposed rats. Environ Res Sec A 84: 255-264.

Yang CR, Lin TC, Chang FH, 2007. Particle size distribution and PAH concentrations of incense smoke in a combustion chamber. Environ Pollut 145: 606-615.