любой фактор внешней среды, вызывающий в организме болезненные изменения. – Прим. пер.
Комментарии
1
Rita Colwell, "Global Climate and Infectious Disease: The Cholera Paradigm," Science 274, no. 5295 (1996): 2025–31.
2
M. Burnet, Natural History of Infectious Disease (Cambridge: Cambridge University Press, 1962), cited in Gerald B. Pier, "On the Greatly Exaggerated Reports of the Death of Infectious Diseases," Clin Infectious Diseases 47, no. 8 (2008): 1113–14.
3
Madeline Drexler, Secret Agents: The Menace of Emerging Infections (Washington, DC: Joseph Henry Press, 2002), 6.
4
Kristin Harper and George Armelagos, "The Changing Disease-Scape in the Third Epidemiological Transition," International Journal of Environmental Research and Public Health 7, no. 2 (2010): 675–97.
5
Peter Washer, Emerging Infectious Diseases and Society (New York: Palgrave Macmillan, 2010), 47.
6
Kate E. Jones et al., "Global Trends in Emerging Infectious Diseases," Nature 451, no. 7181 (2008): 990–93.
7
Stephen Morse, plenary address, International Society for Disease Surveillance, Atlanta, GA, Dec. 7–8, 2011.
8
Burnet, Natural History of Infectious Disease.
9
Jones, "Global Trends in Emerging Infectious Diseases."
10
Paul W. Ewald and Gregory M. Cochran, "Chlamydia pneumoniae and Cardiovascular Disease: An Evolutionary Perspective on Infectious Causation and Antibiotic Treatment," The Journal of Infectious Diseases 181, supp. 3 (2000): S394– S401.
11
Brad Spellberg, "Antimicrobial Resistance: Policy Recommendations to Save Lives," International Conference on Emerging Infectious Diseases, Atlanta, GA, March 13, 2012.
12
Drexler, Secret Agents, 7.
13
Wändi Bruine de Bruin et al., "Expert Judgments of Pandemic Influenza Risks," Global Public Health 1, no. 2 (2006): 179–94.
14
Fatimah S. Dawood et al., "Estimated Global Mortality Associated with the First 12 Months of 2009 Pandemic Influenza A H1N1 Virus Circulation: A Modelling Study," The Lancet Infectious Diseases 12, no. 9 (2012): 687–95.
15
Ronald Barrett et al., "Emerging and Re-emerging Infectious Diseases: The Third Epidemiologic Transition," Annual Review of Anthropology 27 (1998): 247–71.
16
World Health Organization, "Ebola Response Roadmap – Situation Report," May 6, 2015; "UN Says Nearly $1.26 Billion Needed to Fight Ebola Outbreak," The Straits Times, Sept. 16, 2014; Daniel Schwartz, "Worst-ever Ebola O utbreak Getting Even Worse: By the Numbers," CBCnews, CBC/Radio-Canada, Sept. 16, 2014; Denise Grady, "U. S. Scientists See Long Fight Against Ebola," The New York Times, Sept. 12, 2014.
17
CDC, "U. S. Multi-State Measles Outbreak 2014–2015," Feb. 12, 2015; CDC, "Notes from the Field: Measles Outbreak – Indiana, June – July 2011," MMWR, Sept. 2, 2011.
18
Maryn McKenna, Superbug: The Fatal Menace of MRSA (New York: Free Press, 2010), 34; Andrew Pollack, "Looking for a Superbug Killer," The New York Times, Nov. 6, 2010.
19
N. Cimolai, "MRSA and the Environment: Implications for Comprehensive Control Measures," European Journal of Clinical Microbiology & Infectious Diseases 27, no. 7 (2008): 481–93.
20
Интервью с Ритой Колуэлл, 23 сентября 2011 года.
21
Dawood, "Estimated Global Mortality"; Cecile Viboud et al., "Preliminary Estimates of Mortality and Years of Life Lost Associated with the 2009 A/H1N1 Pandemic in the US and Comparison with Past Influenza Seasons," PLoS Currents 2 (March 2010).
22
Rachel M. Wasser and Priscilla Bei Jiao, "Understanding the Motivations: The First Step Toward Influencing China's Unsustainable Wildlife Consumption," TRAFFIC East Asia, Jan. 2010.
23
Y. Guan, et al., "Isolation and Characterization of Viruses Related to the SARS Coronavirus from Animals in Southern China," Science 302, no. 5643 (2003): 276–78.
24
Tomoki Yoshikawa et al., "Severe Acute Respiratory Syndrome (SARS) Coronavirus-Induced Lung Epithelial Cytokines Exacerbate SARS Pathogenesis by Modulating Intrinsic Functions of Monocyte-Derived Macrophages and Dendritic Cells," Journal of Virology 83, no. 7 (April 2009): 3039–48.
25
Guillaume Constantin de Magny et al., "Role of Zooplankton Diversity in Vibrio cholerae Population Dynamics and in the Incidence of Cholera in the Bangladesh Sundarbans," Applied and Environmental Microbiology 77, no. 17 (Sept. 2011).
26
Arthur G. Humes, "How Many Copepods?" Hydrobiologia 292/293, no. 1–7 (1994).
27
C. Yu et al., "Chitin Utilization by Marine Bacteria. A Physiological Function for Bacterial Adhesion to Immobilized Carbohydrates," The Journal of Biological Chemistry 266 (1991): 24260–67; Carla Pruzzo, Luigi Vezzulli, and Rita R. Colwell, "Global Impact of Vibrio cholerae Interactions with Chitin," Environmental Microbiology 10, no. 6 (2008): 1400–10.
28
Brij Gopal and Malavika Chauhan, "Biodiversity and Its Conservation in the Sundarban Mangrove Ecosystem," Aquatic Sciences 68, no. 3 (Sept. 4, 2006): 338–54; Ranjan Chakrabarti, "Local People and the Global Tiger: An Environmental History of the Sundarbans," Global Environment 3 (2009): 72–95; J. F. Richards and E. P. Flint, "Long-Term Transformations in the Sundarbans Wetlands Forests of Bengal," Agriculture and Human Values 7, no. 2 (1990): 17–33; R. M. Eaton, "Human Settlement and Colonization in the Sundarbans, 1200–1750," Agriculture and Human Values 7, no. 2 (1990): 6–16.
29
Paul Greenough, "Hunter's Drowned Land: Wonderland Science in the Victorian Sundarbans," in John Seidensticker et al., eds., The Commons in South Asia: Societal Pressures