Register      Login
Environmental Chemistry Environmental Chemistry Society
Environmental problems - Chemical approaches

Articles citing this paper

Ice nucleation activity of bacteria isolated from snow compared with organic and inorganic substrates

Roya Mortazavi A , Christopher T. Hayes A and Parisa A. Ariya A B
+ Author Affiliations
- Author Affiliations

A Department of Chemistry and Department of Atmospheric and Oceanic Sciences, McGill University, 801 Sherbrooke St W, Montréal, QC, H3A 2K6, Canada.

B Corresponding author. Email: parisa.ariya@mcgill.ca

Environmental Chemistry 5(6) 373-381 https://doi.org/10.1071/EN08055
Submitted: 18 August 2008  Accepted: 19 November 2008   Published: 18 December 2008



37 articles found in Crossref database.

Ice nucleation properties of rust and bunt fungal spores and their transport to high altitudes, where they can cause heterogeneous freezing
Haga D. I., Iannone R., Wheeler M. J., Mason R., Polishchuk E. A., Fetch T., van der Kamp B. J., McKendry I. G., Bertram A. K.
Journal of Geophysical Research: Atmospheres. 2013 118(13). p.7260
Fluorescent biological aerosol particle concentrations and size distributions measured with an Ultraviolet Aerodynamic Particle Sizer (UV-APS) in Central Europe
Huffman J. A., Treutlein B., Pöschl U.
Atmospheric Chemistry and Physics. 2010 10(7). p.3215
Snow - a photobiochemical exchange platform for volatile and semi-volatile organic compounds with the atmosphere
Ariya P. A., Domine F., Kos G., Amyot M., Côté V., Vali H., Lauzier T., Kuhs W. F., Techmer K., Heinrichs T., Mortazavi R.
Environmental Chemistry. 2011 8(1). p.62
Microbial diversity of individual raindrops collected from simulated and natural precipitation events
Garcia Ellen B., Hanlon Regina, Makris Melissa R., Powers Craig W., Jimenez-Sanchez Celia, Karatum Osman, Marr Linsey C., Sands David C., Schmale David G.
Atmospheric Environment. 2019 209 p.102
Protein aggregates nucleate ice: the example of apoferritin
Cascajo-Castresana María, David Robert O., Iriarte-Alonso Maiara A., Bittner Alexander M., Marcolli Claudia
Atmospheric Chemistry and Physics. 2020 20(6). p.3291
Effects of atmospheric conditions on ice nucleation activity of <i>Pseudomonas</i>
Attard E., Yang H., Delort A.-M., Amato P., Pöschl U., Glaux C., Koop T., Morris C. E.
Atmospheric Chemistry and Physics. 2012 12(22). p.10667
Biogenic ice nuclei in boundary layer air over two U.S. High Plains agricultural regions
Garcia Elvin, Hill Thomas C. J., Prenni Anthony J., DeMott Paul J., Franc Gary D., Kreidenweis Sonia M.
Journal of Geophysical Research: Atmospheres. 2012 117(D18).
Characteristics of bacterial community in cloud water at Mt Tai: similarity and disparity under polluted and non-polluted cloud episodes
Wei Min, Xu Caihong, Chen Jianmin, Zhu Chao, Li Jiarong, Lv Ganglin
Atmospheric Chemistry and Physics. 2017 17(8). p.5253
Bioprecipitation: a feedback cycle linking Earth history, ecosystem dynamics and land use through biological ice nucleators in the atmosphere
Morris Cindy E., Conen Franz, Alex Huffman J., Phillips Vaughan, Pöschl Ulrich, Sands David C.
Global Change Biology. 2014 20(2). p.341
Measurements of Immersion Freezing and Heterogeneous Chemistry of Atmospherically Relevant Single Particles with Micro-Raman Spectroscopy
Mael Liora E., Busse Heidi, Grassian Vicki H.
Analytical Chemistry. 2019 91(17). p.11138
Physicochemical properties and their impact on ice nucleation efficiency of respiratory viral RNA and proteins
Hibbs Mattie, Pal Devendra, Barudzija Gorjana, Ariya Parisa A.
Environmental Science: Processes & Impacts. 2024
Heterogeneous ice nucleation on atmospheric aerosols: a review of results from laboratory experiments
Hoose C., Möhler O.
Atmospheric Chemistry and Physics. 2012 12(20). p.9817
Ice nucleation by particles immersed in supercooled cloud droplets
Murray B. J., O'Sullivan D., Atkinson J. D., Webb M. E.
Chemical Society Reviews. 2012 41(19). p.6519
Assessment of Artificial and Natural Transport Mechanisms of Ice Nucleating Particles in an Alpine Ski Resort in Obergurgl, Austria
Baloh Philipp, Els Nora, David Robert O., Larose Catherine, Whitmore Karin, Sattler Birgit, Grothe Hinrich
Frontiers in Microbiology. 2019 10
New Directions: Need for defining the numbers and sources of biological aerosols acting as ice nuclei
DeMott Paul J., Prenni Anthony J.
Atmospheric Environment. 2010 44(15). p.1944
Purely Inorganic Highly Efficient Ice Nucleating Particle
Ganguly Mainak, Dib Simon, Ariya Parisa A.
ACS Omega. 2018 3(3). p.3384
Role of snow and cold environment in the fate and effects of nanoparticles and select organic pollutants from gasoline engine exhaust
Nazarenko Yevgen, Kurien Uday, Nepotchatykh Oleg, Rangel-Alvarado Rodrigo B., Ariya Parisa A.
Environmental Science: Processes & Impacts. 2016 18(2). p.190
Evidence for a missing source of efficient ice nuclei
Du Rui, Du Pengrui, Lu Zedong, Ren Weishan, Liang Zongmin, Qin Saisai, Li Ziming, Wang Yaling, Fu Pingqing
Scientific Reports. 2017 7(1).
Athabasca oil sands region snow contains efficient micron and nano-sized ice nucleating particles
Rangel-Alvarado Rodrigo B., Willis Chelsea E., Kirk Jane L., St Louis Vincent L., Amyot Marc, Bélanger Dominic, Ariya Parisa A.
Environmental Pollution. 2019 252 p.289
Ice nucleation active bacteria in precipitation are genetically diverse and nucleate ice by employing different mechanisms
Failor K C, Schmale D G, Vinatzer B A, Monteil C L
The ISME Journal. 2017 11(12). p.2740
Novel aerosol analysis approach for characterization of nanoparticulate matter in snow
Nazarenko Yevgen, Rangel-Alvarado Rodrigo B., Kos Gregor, Kurien Uday, Ariya Parisa A.
Environmental Science and Pollution Research. 2017 24(5). p.4480
Bacteria in the global atmosphere – Part 1: Review and synthesis of literature data for different ecosystems
Burrows S. M., Elbert W., Lawrence M. G., Pöschl U.
Atmospheric Chemistry and Physics. 2009 9(23). p.9263
Arctic microbial and next-generation sequencing approach for bacteria in snow and frost flowers: selected identification, abundance and freezing nucleation
Mortazavi R., Attiya S., Ariya P. A.
Atmospheric Chemistry and Physics. 2015 15(11). p.6183
Falling bacterial communities from the atmosphere
Woo Cheolwoon, Yamamoto Naomichi
Environmental Microbiome. 2020 15(1).
Deciphering the Significant Role of Biological Ice Nucleators in Precipitation at the Organic Molecular Level
Niu Mutong, Hu Wei, Huang Shu, Chen Jie, Zhong Shujun, Huang Ziye, Duan Peimin, Pei Xiangyu, Duan Jing, Bi Kai, Chen Shuang, Jin Rui, Sheng Ming, Yang Ning, Wu Libin, Deng Junjun, Zhu Jialei, Shen Fangxia, Wu Zhijun, Zhang Daizhou, Fu Pingqing
Journal of Geophysical Research: Atmospheres. 2024 129(17).
Fundamentals of Bioaerosols Science (2023)
Yamamoto Naomichi
Snow particles physiochemistry: feedback on air quality, climate change, and human health
Rangel-Alvarado Rodrigo, Li Houjie, Ariya Parisa A.
Environmental Science: Atmospheres. 2022 2(5). p.891
Organics in environmental ices: sources, chemistry, and impacts
McNeill V. F., Grannas A. M., Abbatt J. P. D., Ammann M., Ariya P., Bartels-Rausch T., Domine F., Donaldson D. J., Guzman M. I., Heger D., Kahan T. F., Klán P., Masclin S., Toubin C., Voisin D.
Atmospheric Chemistry and Physics. 2012 12(20). p.9653
Regional fresh snowfall microbiology and chemistry are driven by geography in storm-tracked events, Colorado, USA
Honeyman Alexander S., Day Maria L., Spear John R.
PeerJ. 2018 6 p.e5961
Clay mineral-based sustainable snow contaminant remediation technology
Mizero Benilde, Naderi Saba, Bose Sandeep, Li Houjie, Ariya Parisa A.
RSC Sustainability. 2024 2(10). p.3123
Urediospores of rust fungi are ice nucleation active at > −10 °C and harbor ice nucleation active bacteria
Morris C. E., Sands D. C., Glaux C., Samsatly J., Asaad S., Moukahel A. R., Gonçalves F. L. T., Bigg E. K.
Atmospheric Chemistry and Physics. 2013 13(8). p.4223
On the Role of Starchy Grains in Ice Nucleation Processes
Bose Sandeep, Pal Devendra, Ariya Parisa A.
ACS Food Science & Technology. 2024 4(5). p.1039
Snow‐borne nanosized particles: Abundance, distribution, composition, and significance in ice nucleation processes
Rangel‐Alvarado Rodrigo Benjamin, Nazarenko Yevgen, Ariya Parisa A.
Journal of Geophysical Research: Atmospheres. 2015 120(22).
How important is biological ice nucleation in clouds on a global scale?
Hoose C, Kristjánsson J E, Burrows S M
Environmental Research Letters. 2010 5(2). p.024009
Seasonal Analysis of Microbial Communities in Precipitation in the Greater Tokyo Area, Japan
Hiraoka Satoshi, Miyahara Masaya, Fujii Kazushi, Machiyama Asako, Iwasaki Wataru
Frontiers in Microbiology. 2017 8
Representing time-dependent freezing behaviour in immersion mode ice nucleation
Herbert R. J., Murray B. J., Whale T. F., Dobbie S. J., Atkinson J. D.
Atmospheric Chemistry and Physics. 2014 14(16). p.8501
Characterization of bacterial diversity and ice-nucleating ability during different monsoon seasons over a southern tropical Indian region
Akila M., Priyamvada Hema, Ravikrishna R., Gunthe Sachin S.
Atmospheric Environment. 2018 191 p.387

Committee on Publication Ethics


Abstract Export Citation Get Permission