Publications

SELECTED PUBLICATIONS OF RELEVANCE TO CLIMATE/AIR-QUALITY:

1. Marykutty Michael, Arun Yadav, Sachchida Nand Tripathi, Vijay Kanawade, Abhishek Gaur, Pankaj Sadavarte, Chandra Venkataraman (2013), Simulation of Trace Gases and Aerosols Over the Indian Domain: Evaluationof the WRF-Chem Model, Atmospheric Chem. Phys., submitted.

2. Cherian R, Venkataraman C, Quaas J, Ramachandran S (2013), General circulation model (ECHAM5-HAM) studies of aerosol extinction, atmospheric heating and precipitation patterns over India, Journal of Geophysical Research, accepted.

3. C. Venkataraman (2013) "Black carbon global emission magnitudes and source categories," Chapter lead author, In Bond et al., Bounding the role of black carbon in the climate system: A scientific assessment, Journal of Geophysical Research-Atmospheres. doi 10.1002/jgrd.50171,January 15, 2013.http://onlinelibrary.wiley.com/journal/10.1002/%28ISSN%292169-8996

4. N. L. Lam, Y. Chen, C. Weyant, C. Venkataraman, P. Sadavarte, M. Johnson, K. R. Smith, B. T. Brem, J. Arineitwe, J. E. Ellis, T. C.

5. Bond (2012), Household Light makes Global Heat: High Black Carbon Emissions From Simple Wick Kerosene Lamps, Environmental Science and Technology, dx.doi.org/10.1021/es302697h, 2012, 46, 13531-13538.

6. Cherian, R., C. Venkataraman, S. Ramachandran, and J. Quaas (2012), Pre-monsoon aerosol distributions and radiative effects over the Indian region using a general circulation model, Atmos. Chem. Phys., 12, 1287-1305, doi:10.5194/acp-12-1287-2012.

7. Verma S., C. Venkataraman, and O. Boucher (2011) Attribution of aerosol radiative forcing over India during the winter monsoon to emissions from source categories and geographical regions, Atmospheric Environment 45, doi:10.1016/j.atmosenv.2011.05.048.

8. Venkataraman, C., A. Sagar, G. Habib, N. Lam and K.R. Smith (2010). The Indian National Initiative for Advanced Biomass Cookstoves: The benefits of clean combustion, Energy for Sustainable Development, 14, 63–72, doi:10.1016/j.esd.2010.04.005.

9. Cherian, R., C. Venkataraman, A. Kumar, M.M. Sarin, A.K. Sudheer, S. Ramachandran (2010) Origin of aerosols influencing atmospheric extinction: Integrating PMF and PSCF with emission inventories and satellite observations, J. Geophys. Res., doi:10.1029/2009JD012975, 2010.

10. Stone, E. A., J. J. Schauer, B. B. Pradhan, P. M. Dangol, G. Habib, C. Venkataraman, and V. Ramanathan (2010), Characterization of emissions from South Asian biofuels and application to source apportionment of carbonaceous aerosol in the Himalayas, J. Geophys. Res., 115, D06301, doi:10.1029/2009JD011881.

11. 48. Cherian, R., C. Venkataraman, and S. Ramachandran (2009), Temporal variability in emission category influence on organic matter aerosols in the Indian region, Geophys. Res. Lett., 36, L06809, doi:10.1029/2008GL036311.

12. Parvez, S., C. Venkataraman, and S. Mukherji (2009) Nature and Prevalence of Non-Additive Effects in Industrially Relevant Mixtures of Organic Chemicals, Chemosphere, 75 (11), pp. 1429-1439.

13. B. Mehta, C. Venkataraman, M. Bhushan and S.N. Tripathi (2009) Identification of sources affecting fog formation at Kanpur (80°22'E, 26°26'N), India: Combining positive matrix factorization and trajectory modeling with quantitative emission estimates, Atmospheric Environment, 43 (2009) 1288–1295, doi:10.1016/j.atmosenv.2008.11.041.

14. S. Parvez, C. Venkataraman and S. Mukherji (2008), Toxicity assessment of organic contaminants: Evaluation of mixture effects in model industrial mixtures using 2n full factorial design, Chemosphere, 73, 1049–1055, doi:10.1016/j.chemosphere.2008.07.078.

15. G. Habib, C. Venkataraman, T.C. Bond, J.J. Schauer (2008). Chemical, microphysical and optical properties of primary particles from the combustion of biofuels, Environmental Science and Technology, 42, 8829–8834.

16. S. Verma, C. Venkataraman and O. Boucher (2008), Origin of surface and columnar INDOEX aerosols using source- and region-tagged emissions transport in a general circulation model, Journal of Geophysical Research, 113, D24211, doi:10.1029/2007JD009538.

17. S. Parvez, C. Venkataraman and S. Mukherji (2008), Toxicity assessment of organic pollutants: Reliability of bioluminescence inhibition assay and univariate QSAR models using freshly prepared Vibrio fischeri, Toxicology in Vitro, 22, 1806–1813, doi:10.1016/j.tiv.2008.07.011.

18. S.G. Bhanuprasad, C. Venkataraman, M. Bhushan (2008) Source identification using positive matrix factorization and trajectory modelling: A new look at the INDOEX ship-observations, Atmospheric Environment, 42 (2008) 4836–4852, doi:10.1016/ j.atmosenv.2008.02.041.

19. Verma, S., C. Venkataraman, O. Boucher, and S. Ramachandran (2007), Source evaluation of aerosols measured during the Indian Ocean Experiment using combined chemical transport and back trajectory modeling, J. Geophys. Res., 112, D11210, doi:10.1029/2006JD007698.

20. Kanishtha T., Banerjee R., Venkataraman, C. (2006). Effect of particle emissions from biofuel combustion on surface activity of model and therapeutic lung surfactants, Environmental Toxicology and Pharmacology, 22, 325-333, doi:10.1016/ j.etap.2006.05.003.

21. Venkataraman, C., G. Habib, D. Kadamba, M. Shrivastava, J.-F. Leon, B. Crouzille, O. Boucher, and D. G. Streets (2006), Emissions from open biomass burning in India: Integrating the inventory approach with high-resolution Moderate Resolution Imaging Spectroradiometer (MODIS) active-fire and land cover data, Global Biogeochemical Cycles, 20, GB2013, doi:10.1029/2005GB002547.

22. S. Verma, O. Boucher, C. Venkataraman, M.S. Reddy, D. Müller, P. Chazette, B. Crouzille (2006) Aerosol lofting from sea breeze during INDOEX, Journal of Geophysical Research, 111, doi:10.1029/2005JD005953.

23. G. Habib, C. Venkataraman, I. Chiapello, S. Ramachandran, O. Boucher, M.S. Reddy (2006). Seasonal and interannual variability in absorbing aerosols over India derived from TOMS: Relationship to regional meteorology and emissions, Atmospheric Environment, 40(11), 1909-1921, doi:10.1016/j.atmosenv.2005.07.077.

24. S. Parvez, C. Venkataraman, S. Mukherji (2006). A review on advantages of implementing the luminescence inhibition test (Vibrio fischeri) for acute toxicity prediction of chemicals, Environment International, 32, 265-268. (doi: 10.1016/j.envint.2005.08.022).

25. S. Mudway, S. T. Duggan, C. Venkataraman, G. Habib, F. J. Kelly, J. Grigg (2005). Combustion of dried animal dung as biofuel results in the generation of highly redox active fine particulates, Particle and Fibre Toxicology, 2(6), doi:10.1186/1743-8977-2-6.

26. C. Venkataraman, G. Habib, A. Eiguren-Fernandez, A.H. Miguel and S.K. Friedlander (2005). Residential biofuels in South Asia: Carbonaceous aerosol emissions and climate impacts, Science, 307(5714), 1424-1426.

27. T.C. Bond, C. Venkataraman, O. Masera (2004). Global atmospheric impacts of residential fuels, Energy for Sustainable Development, 8(3), 54-66.

28. M.S. Reddy, O. Boucher, C. Venkataraman, S. Verma, N. Bellouin and M. Pham (2004). GCM estimates of aerosol transport and radiative forcing during INDOEX, Journal of Geophysical Research, 109, D16205, doi:10.1029/2004JD004557.

29. G. Habib, C. Venkataraman, M. Shrivastava, R. Bannerji, J. Stehr and R. Dickerson (2004). New methodology to estimate biofuel consumption in India: Atmospheric emissions of black carbon and sulfur dioxide, Global Biogeochemical Cycles, 18, GB3007, doi:10.1029/2003GB002157.

30. C. Venkataraman, P. Joshi, V. Sethi, S. Kohli and M.R. Ravi (2004). Aerosol and Carbon Monoxide Emissions from Low Temperature Combustion in a Sawdust Packed-Bed Stove, Aerosol Science and Technology, 38, 50-61.

31. A.K. Swain, R. Rastogi, S. Mukherji and C. Venkataraman (2003). Emission factors of PM2.5 and associated polycyclic aromatic hydrocarbons from biofuel combustion, Indian Aerosol Science & Technology Association Bulletin, 15, 10-17.

32. K. Franke, A. Ansmann, D. Mueller, F. Althausen, C. Venkataraman, M.S. Reddy, F. Wagner and R. Scheele (2003). Optical properties of the Indo-Asian haze layer over the tropical Indian Ocean, Journal of Geophysical Research, 108(D2), AAC 16-1 to 16-17, doi:10.1029/2002JD002473.

33. O. Boucher, C. Moulin, S. Belviso, O. Aumont, L. Bopp, E. Cosme, R. von Kuhlmann, M. Lawrence, M. Pham, M.S. Reddy, C. Venkataraman (2003). DMS atmospheric concentrations and sulphate aerosol indirect radiative forcing: A sensitivity study to the DMS source representation and oxidation, Atmospheric Chemistry and Physics, 3, 49-65.

34. S. Mukherji, A.K. Swain and C. Venkataraman (2002). Comparative Mutagenicity Assessment of Aerosols in Emissions from Biofuel Combustion, Atmospheric Environment, 36, 5627-5635.

35. C. Venkataraman, C.K. Reddy, S. Josson and M.S. Reddy (2002). Aerosol Chemical and Size Characteristics at Mumbai, India, during the INDOEX-IFP (1999), Atmospheric Environment, 36(12), 1979-1991.

36. M.S. Reddy and C. Venkataraman (2002). Inventory of Aerosol and Sulphur Dioxide Emissions from India: II – Biomass Combustion, Atmospheric Environment, 36 (4), 699-712.

37. M.S. Reddy and C. Venkataraman (2002). Inventory of Aerosol and Sulphur Dioxide Emissions from India: I – Fossil Fuel Combustion, Atmospheric Environment, 36 (4), 677-697.

38. C. Venkataraman, G. Negi, S.B. Sardar and R. Rastogi (2002). Size-Distributions of Polycyclic Aromatic Hydrocarbons in Aerosol Emissions from Biofuel Combustion. Journal of Aerosol Science, 33(3), 507-518.

39. C. Venkataraman and G.U.M. Rao (2001). Emission Factors of Carbon Monoxide and Size-Resolved Aerosols from Biofuel Combustion. Environmental Science and Technology, 35, 2100-2107.

40. C. Venkataraman, P.K. Sinha and S. Bammi (2001). Sulphate Aerosol Size Distributions at Mumbai, India, during the INDOEX-FFP (1998), Atmospheric Environment, 35, 2647-2655.

41. C. Venkataraman, A. Mehra and P. Mhaskar (2001) Mechanisms of Sulphate Aerosol Production in Clouds: Effect of Cloud Characteristics and Season in the Indian Region, Tellus – Series B, 53B, 260-272.

42. P. Kulkarni and C. Venkataraman (2000) Atmospheric Polycyclic Aromatic Hydrocarbons in Mumbai, India, Atmospheric Environment, 34, 2785-2790.

43. M.S. Reddy and C. Venkataraman (2000) Atmospheric Optical and Radiative Effects of Anthropogenic Aerosols from India, Atmospheric Environment, 34, 4511-4523.

44. M.S. Reddy and C. Venkataraman (1999) Direct Radiative Forcing from Anthropogenic Carbonaceous Aerosols over India, Current Science, 76, 101-107.

45. C. Venkataraman, B. Chandramouli and A. Patwardhan (1999) Anthropogenic Sulphate Aerosol from India: Estimates of Burden and Direct Radiative Forcing, Atmospheric Environment, 33, 3225-3235.

46. C. Venkataraman, S. Thomas and P. Kulkarni (1999) Size Distributions of Polycyclic Aromatic Hydrocarbons – Gas/Particle Partitioning to Urban Aerosols, Journal of Aerosol Science, 30(6), 759-770.

47. C. Venkataraman and A.S. Kao (1999) Comparison of Particle Lung Doses from the Fine and Coarse Fractions of Urban PM-10 Aerosols, Inhalation Toxicology, 11, 151-169.

48. C. Venkataraman and J. Raymond (1998) Estimating the Lung-Deposition of Particulate Polycyclic Aromatic Hydrocarbons Associated with Multimodal Urban Aerosols, Inhalation Toxicology, 10, 183-204.

49. S. Thomas and C. Venkataraman (1997) Polycyclic Aromatic Hydrocarbons in Mumbai Air at Saki Naka, Indian Aerosol Science & Technology Association Bulletin, 10, 3-17.

50. G.M. Hidy and C. Venkataraman (1996). The Chemical Mass Balance Method for Estimating Atmospheric Particle Sources in Southern California, Chemical Engineering Communications, 151, 187-209.

51. A.S. Kao and C. Venkataraman (1995). Estimating the Contribution of Re-entrainment to the Atmospheric Deposition of Dioxin, Chemosphere, 31(10), 4317-4331.

52. C. Venkataraman and S.K. Friedlander (1994). Source Resolution of Fine Particulate Polycyclic Aromatic Hydrocarbons Using a Receptor Model Adapted for Reactivity, Journal of the Air and Waste Management Association, 44, 1103-1108.

53. C. Venkataraman and S.K. Friedlander (1994). Size Distributions of Polycyclic Aromatic Hydrocarbons and Elemental Carbon: II. Ambient Measurements and Effects of Atmospheric Processes, Environmental Science and Technology, 28(4), 563-572.

54. C. Venkataraman, J.M. Lyons and S.K. Friedlander (1994). Size Distributions of Polycyclic Aromatic Hydrocarbons and Elemental Carbon: I. Sampling, Measurement Methods and Source Characterization, Environmental Science and Technology, 28(4), 555-562.

55. J.M. Lyons and C. Venkataraman, H.H. Main and S.K. Friedlander (1993). Size Distributions of Trace Metals in the Los Angeles Atmosphere, Atmospheric Environment, 27B(2), 237-249.

56. V. Joshi, C. Venkataraman and D. Ahuja (1991). Thermal Performance and Emission Characteristics of Heavy Biofuel Stoves with Flues, Pacific and Asia Journal of Energy, 1, 1-19.

57. V. Joshi, C. Venkataraman and D.Ahuja (1989). Emissions from Burning Biofuels in Metal Cookstoves, Environmental Management, 13(6), 763-772.

58. D. Ahuja, V. Joshi, K.R. Smith and C. Venkataraman (1987). Thermal Performance and Emission Characteristics of Unvented Biomass-burning Cookstoves: A Proposed Standard Method for Evaluation, Biomass, 12, 247-270.