Disasters occur when the hazards affect societies and people’s lives and cause harm to people, their properties and livelihood sources. Natural hazard is defined by The United Nations Office for Disaster Risk Reduction as “a natural process or phenomenon that may cause loss of life, injury or other health impacts, property damage, loss of livelihoods and services, social and economic disruption, or environmental damage.” 1 The impact of disasters manifests in different forms. It can be limited to a specific place and period, but it may extend to include a larger geographical area and last for a long period of time. Socio-economic situation and demographic change resulting from increased population density in small areas in many countries may increase the impact of a natural hazard. 2 The interest in climate-related disasters is increasing worldwide. The rise in the intensity and frequency can be observed in different types of natural disasters such as floods, storms, droughts, and heatwaves.
Natural disasters have significant impact on public health. These effects appear through various mechanisms. One of the important aspects of natural disasters that appears after the initial response to the direct consequences of the event are epidemics.
An epidemic occurs when there is an increase in the incidence of disease infections among the population over a period in a specific geographical area. 3 Many factors are considered to determine whether the spread of a disease could be considered as an epidemic, including the location of the occurrence of the disease, the timing of the spread of the disease and the history of the disease in the area. 3 Epidemics may occur as a consequence of natural disasters. Reference Donner and Rodríguez4 The risk of epidemics and disease outbreaks is assumed to increase after disaster events due to consequences of the disaster event. The displacement and living in a crowded shelter result in an increased risk of exposure to pathogens and disease transition. Reference Knabb, Rhome and Brown5 During disaster situations, malnutrition increases vulnerability as well to communicable diseases. 6 The interaction of various factors resulting from the catastrophic situation, whether environmental or population-related, is likely to contribute to the increase in epidemics Reference Jones and Mann7 .
Understanding the association between infectious disease outbreaks and natural disasters is essential to mitigate the public health consequences of natural disasters Reference Bissell8,9 . This can provide a solid evidence-base for disaster preparedness and response interventions. In this study, we identify outbreaks associated with natural disaster events reported in EM-DAT during the past 20 y and in the scientific literature, and outline risk factors and mechanisms for post-disaster infectious diseases.
Methods
This research has 2 components: an extensive review of the international disaster database (EM-DAT), and a systematic review of the literature.
Associated Outbreaks and Disaster Events in EM-DAT
EM-DAT is a global database on natural and technological disasters, containing essential core data on the occurrence and effects of more than 24,000 disasters in the world, from 1900 to present. EM-DAT is maintained by the Centre for Research on the Epidemiology of Disasters (CRED) at the Institute of Health and Society of the Université catholique de Louvain located in Brussels, Belgium. EM-DAT includes all disasters from 1900 until the present, conforming to at least 1 of the following criteria: (a) 10 or more people dead; (b) 100 or more people affected; (c) the declaration of a state of emergency; and (d) a call for international assistance 10 .
The search was done in a raw dataset which is not the same as the publicly available on EM-DAT website. In this data set, each event can have multiple entries according to the number of sources, and each entry has a “comment” column with free text which includes more information about the event.
The first step was to extract all outbreak events recorded in the database, and the second step was to identify the events during the past 20 y in which an outbreak was associated with a natural disaster Reference Howard, Brillman and Burkle11-Reference Watson, Gayer and Connolly14 . Data of both epidemic event and natural disaster were separated.
For epidemic events Reference De Ville De Goyet15-Reference Hoffman and Healing18 , we searched for terms related to natural disasters to identify any kind of association. The opposite was done for natural disasters.
The records were screened searching for relevant terms based on the type of disaster recorded.
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1. In events recorded as epidemics, the search included natural disasters, flood, earthquake, landslide, tsunami, storm, extreme temperature, drought, wildfire, typhoon, and cyclone.
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2. In all other natural disasters, the search included whether there were any associated outbreak using the following terms: infect, epidemic, outbreak, cholera, diarrhea, and respiratory disease.
Based on the search in EM-DAT, the entries that had at least 1 of the defined words in the comments were selected and the disaster events associated with these comments were identified. Then all comments related to these events were screened, meaning we assessed all entries related to 1 event. The identified events were divided into 2 categories. The first category was the outbreaks reported in the database which were identified to be following natural disaster events Reference Noji19 , and the second category was natural disaster events identified that it was followed by an outbreak Reference Mavrouli, Mavroulis, Lekkas and Tsakris20,21 . We then conducted a descriptive analysis of the data.
Systematic Literature Review
We followed PRISMA Guidelines. Reference Page, McKenzie, Bossuyt, Boutron, Hoffmann and Mulrow22 The methodological approach was determined through discussion with the research team. The steps followed were to start with formulating the research question and objectives, developing search strategy and relevant terms, determining the approach for screening results, identifying relevant studies to be included in the analysis, extracting data, and synthesizing the information.
Search strategy
A literature search was carried out in 2 scientific databases. The first search was conducted in PubMed (National Center of Biotechnology Information, Bethesda, USA), and included the combination of 2 concepts, outbreak and natural disasters. The key words searched included disease outbreaks, outbreak, infectious disease, epidemic, natural disasters, cyclone, storm, drought, earthquake, flood, landslide, tidal wave, tsunami, tornado, hurricane, avalanches, and wildfire. The terms used in the search including the MESH terms and the key words and the detailed query are described in Table 1.
The inclusion criteria of the search done was the availability of full text, articles in English, articles published from 2000-2020. The search was carried out as well using the same keywords and terms in Embase. This search included looking for the terms in “all fields”, and the date of the publish was selected to be from the year 2000 to 2020 (Table 1).
Eligibility criteria
Inclusion criteria
Any peer-reviewed paper published between 2000 and 2020, establishing an association between a natural disaster and the occurrence (or aggravation of the occurrence) of an infectious disease of any type. Papers mentioning risk factors associated with the outbreaks. Papers discussing the mechanisms which led to the spread of infectious diseases.
Exclusion criteria
Outbreaks not related to natural disasters. Outbreaks associated with events that occurred before 2000. Papers not in English. Outbreak not documented, verified artificial increase of cases (due to increased surveillance), etc.
Study selection
The process of selection of the papers was done in 3 steps. First, the titles of the studies were screened, and relevant studies were selected. Second, the abstracts of the selected papers were read, and papers that did not match the inclusion criteria were excluded. Finally, the full text of the papers was read and papers discussing the potential risk factors, or the mechanisms were included for the review. There was no double check of the selection process and only the lead investigator carried out the selection process.
The data extracted from the studies included author’s name, titles of the papers, year of publication, aim of the papers, natural disaster event type, type of disease associated with, geographical location, the year of the event, and main findings. The findings regarding risk factors and mechanisms were identified. Narrative synthesis was used to summarize the findings from different studies.
Results
EMDAT Overview
The results from reviewing the data of both natural disasters and epidemics recorded in EM-DAT database indicated that, during the past 20 y, there was an association between natural disasters and infectious diseases in 108 events.
In 67 natural disaster events reported in EM-DAT, the comments mentioned the occurrence of outbreaks of disease. The natural disasters identified included earthquakes, droughts, extreme temperature, floods, insect infestation, landslides, storms, volcanic activity, and wildfires. The main disaster events identified were floods (n = 44).
The records of epidemic data were screened to identify any potential relation to a natural disaster. In total, 41 epidemic events mentioned association with a natural disaster, the majority of which were floods (n = 33). The number of different events identified, and its geographic areas are described in Table 2.
Various diseases were identified by screening the data (Table 3). The spread of many diseases was often mentioned following the occurrence of natural disasters. Water-borne diseases and diarrheal diseases were the most common, with cholera specifically mentioned in 17 events, diarrheal diseases in 14 other cases, and water-borne diseases in 6 other cases. The respiratory diseases were reported in 18 events. The respiratory diseases were reported in 21 events. other diseases were mentioned as well such as skin diseases, malaria and vector borne diseases.
Among the diseases highlighted by reviewing the data of epidemic disasters, cholera was the most common which was reported in 17 of 41 events. Diarrhea was reported in 4 events, dengue fever in 4 events, and the other diseases mentioned included influenza A H3N2, respiratory diseases, measles, tetanus, and meningitis.
Disaster events identified occurred in different geographic areas. Out of the 108 events, 48 occurred in Africa in 19 countries, 35 events occurred in Asia in 12 countries, 16 events occurred in South America in 10 countries, 6 events occurred in North America in 4 countries, 2 in Europe and 1 in Oceania. Mozambique and Indonesia had the highest number of events globally where 8 events were identified in each country.
The number of events identified during the past 20 y varied from 0 to 18. Generally, the number of events during the past 10 y was lower than in the period form 2000 to 2009. The year in which the highest number of events was identified was 2007, with possible association between the natural disaster and epidemics in 18 events and 15 of it were due to floods (Figure 1).
Literature Review
The results after the initial search in PubMed and Embase yielded 4458 results after removal of duplications. The next step was screening the titles of papers and 639 relevant papers were included. After reading the abstract of the papers 106 papers left, and finally the full text of the results was read, and 36 papers were included in the review (Figure 2).
Of the included studies, 19 focused on floods, 5 articles studied earthquakes, 3 studied typhoons, 3 studied hurricanes, 2 studied cyclones, 2 studied tsunamis, and 2 studied droughts.
The natural disaster events occurred between 2000 and 2019. The articles were studying events occurring in different geographic areas, 19 articles studied events in Asia, 6 in North America, 5 in Europe, 3 in Africa, 2 studies in South America, and 1 in Oceania.
The data analysis revealed various risk factors and mechanisms that led to different infectious diseases after various natural disaster types. Table 4 describes the risk factors and mechanisms.
Discussion
The results of the review of the literatures and data from EM-DAT indicated that floods were the most common cause of the spread of infectious diseases. This may be attributed to the fact that floods are the most common type of natural disasters globally. Reference Gregg59 Many factors lead to floods such as heavy rainfalls, floods of dams and waterways, tsunami, and storms. Many health consequences result from flood including direct physical impact by causing injuries and drowning, Reference Du, Fitzgerald, Clark and Hou60 contamination of water resources and groundwater, Reference Andrade, O’Dwyer, O’Neill and Hynds61 and lack of access to basic needs. It can lead to many outbreaks and infectious diseases through different mechanisms including the direct contact and consumption of water contaminated by pathogens or creating suitable environmental conditions that lead to increase in vector-borne diseases such as the increase that may occur in the number of mosquitoes. Reference Kouadio, Aljunid, Kamigaki, Hammad and Oshitani12
Floods contributed to the spread of various disease outbreaks during the past 20 y. Examples include the Leptospirosis outbreak in Kelantan, Malaysia Reference Mohd Radi, Hashim, Jaafar, Hod, Ahmad and Mohammed Nawi26 ; malaria in Anhui Province, 2007 China Reference Gao, Zhang, Ding, Liu and Jiang37 ; gastroenteritis illness and respiratory infections in Netherlands 201532; bacillary dysentery in Hunan China 201235; scabies in East Badewacho District, Southern Ethiopia, in 201638; and other various infectious diseases. Reference Ding, Gao, Li, Zhou, Liu and Ren36,Reference Shokri, Sabzevari and Hashemi40,Reference Jaya Divakaran, Sara Philip, Chereddy, Nori, Jaya Ganesh and John41 Additionally, in 2 other studies assessing the impact of a tsunami and a cyclone, the contamination of flooded water was the direct mechanism that led to the spread of diseases. Reference Bhunia and Ghosh43,Reference Pal, Juyal, Sharma, Kotian, Negi and Sharma56
The environmental changes that occur in the post-flood period are providing suitable condition for pathogens to multiply in flooded areas. Reference Wu, Lu, Zhou, Chen and Xu62 In addition to the increased pathogens concentration, there is higher chance of mobilization and transmission of the pathogens during floods. During heavy rainfalls, pathogens transport to the surface water and groundwater. Reference Harvey and Bition63 In the cohort study conducted in Denmark in 2010 after flood, there was an increase in gastrointestinal cases among contacts with contaminated water after the urban heavy rainfall. Reference Harder-Lauridsen, Kuhn, Erichsen, Mølbak and Ethelberg31 Another example is the cross-contamination between the water supply system and sewage system in Dalian City, China, which led to the increase of bacillary dysentery. Reference Xu, Ding, Zhang, Liu, Liu and Jiang34
The spread of infectious diseases was related to the consequences of flood event, the contamination of water, the overcrowding and displacement and impact on the environmental conditions. The events took place in different countries around the world. However, developing countries are more vulnerable and have less capacity of coping with the disaster situations. Many of these risks can be prevented through appropriate interventions and protective measures. Appropriate water treatment during emergencies, Reference Lantagne and Clasen64 sheltering with appropriate infection prevention and control measures, Reference Rebmann, Wilson and Booher65 and vector control measures Reference Maes, Harries, Van Den Bergh, Noor, Snow and Tayler-Smith66 will help for better control of the spread of diseases.
Different clusters of mechanisms and risk factors have been reported in various natural events. The most frequent risk factors reported in the studies reviewed were the factors associated with the consequences of disasters event on water and sanitation, factors associated with displacement and crowding, behavioral risk factors during and after the disaster period, factors related to socioeconomic status, factors related to occupations, and in some cases, factors related to age and gender were reported.
One of the most highlighted mechanisms for the spread of diseases, especially those transmitted by water and food, was the contamination of water systems. Contamination often occurred when sewage networks mix with water supply system and with water bodies that people contacted with. Contamination and the risk factors resulted from it were reported in more than half of the diseases reported, and it occurred mainly during hydrological and metrological events. The risk increased when other risk factors were present, such as overcrowding, displacement, and low level of personal hygiene. The use of untreated water was the cause of many outbreaks reported like diarrheal, gastrointestinal diseases, and cholera. After the cyclone in 2012, Cholera cases were reported in 2 areas in Pondicherry, India. Evidence suggested that the outbreak was due to the ingesting contaminated water by drainage. Reference Bhunia and Ghosh43 After the typhoon Haiyan in the Philippines, an increased number of gastroenteritis was reported. The study conducted to identify the source of infection suggested that the cause was Aeromonas hydrophile transmitted through the consumption of untreated water. Reference Ventura, Muhi, de los Reyes, Sucaldito and Tayag53 The risk arising from water contamination includes respiratory diseases as well. In a study conducted after urban pluvial flooding in Netherlands in 2015, respiratory pathogens were isolated in polluted water. Many children and adults who have been in contact with water contaminated with flood water have developed acute respiratory infections. Reference Mulder, Pijnacker, De Man, Van De Kassteele, Van Pelt and Mughini-Gras32
The above emphasizes the importance of having an adequate water, sanitation, and hygiene (WASH) system during natural disasters, especially in developing countries, where they suffer from the consequences of the insufficient WASH system on public health in normal times as well. The increase in the incidence of infectious diseases may be attributed to the natural disaster, but the main problem lies in the lack of an adequate sewage system that can resist the effects of the natural disaster and reduce contamination and exposure of the population to pathogens.
Contamination is caused by various pathogens and the characteristics and survival time varies with different environmental conditions and the intervention plans varies from 1 event to another. Therefore, taking the necessary steps for the development of WASH systems is 1 of the main aspects in the development of disaster risk reduction policies and is 1 of the main measures in limiting the spread of diseases. During disasters situations, it is important to establish a proper excreta disposal and solid waste management system, and to ensure that the population has access to adequate supplies of water, hygiene products, and water sanitizers in cases where there are no potable water sources.
Environmental risk factors play a role in increasing the likelihood of disease outbreaks. The characteristics of some geographical areas may help in the transmission of pathogens in different mechanisms. The heavy rainfall and warmer temperatures contributed to the leptospirosis outbreak after the 2014 Major Flooding Event in Kelantan, Malaysia. Reference Mohd Radi, Hashim, Jaafar, Hod, Ahmad and Mohammed Nawi26 The damp and hot living conditions assist the growth and reproductive of pathogens and led to the increase of malaria cases after Huai River flood in Anhui Province, 2007 China. Reference Gao, Zhang, Ding, Liu and Jiang37 The tsunami in South Andaman, Andaman, and Nicobar Islands in India resulted in changing the environment in the area, and the paddy fields and fallow lands become suitable site for breeding due to saline water. The land subsidence and continued flooding increases the vector abundance and malaria transmission and people living close to the folded paddy fields become in higher risk for malaria infection. The high prevalence of leptospirosis in rodents and the simultaneous presence of risk factors like the wet climate increased the number of cases following a flood in the Veneto area, north-east Italy 2012. Reference Pellizzer, Todescato, Benedetti, Colussi, Conz and Cinco25
Awareness of the role of environmental factors in the spread of diseases is essential in response plans to natural disasters, especially in cases of displacement, where the movement of a population to the new environment can lead to an increase in exposure to pathogens. Regular monitoring of environmental characteristics and vector surveillance are important for early detection of increased risk and proper response plans.
Socio-economic factors are believed to play a role in the emergence of epidemics in general. Reference Jones, Patel, Levy, Storeygard, Balk and Gittleman67 In the studies reviewed, during disasters situations, many of socio-economic factors contributed to the increase of infectious disease incidences such as high poverty rate, Reference Lau, Watson, Lowry, David, Craig and Wynwood24 low economic status, Reference Liu, Zhang, Zhang, Li, Liu and Ding28 and educational level and literacy rate. Reference Reina Ortiz, Le, Sharma, Hoare, Quizhpe and Teran47 According to the study conducted in Fiji after the floods in 2012, the leptospirosis diseases was associated with poverty, and communities with high poverty rate had approximately twice the incidence rate than people from other communities. Reference Lau, Watson, Lowry, David, Craig and Wynwood24 The infectious diarrhea in Hunan province during flood season from 2004 to 2011 in China was higher in regions with low economic level. Reference Liu, Zhang, Zhang, Li, Liu and Ding28
In addition, many other factors highlighted in the studies might be driven by socio-economic status, such as malnutrition, Reference Enbiale and Ayalew58 and lack of access to clean water. Reference Lau, Watson, Lowry, David, Craig and Wynwood24 People in lower socioeconomic groups may live in areas more prone to natural disasters and have less capability to access to protective shelters during disaster events. Therefore, strengthening the capacity and resilience for people with low-economic status to cope with disaster situation is essential for any disaster risk reduction policy.
Displacement is common especially after extreme natural disaster events in which buildings and infrastructure are destroyed. Reference Kouadio, Aljunid, Kamigaki, Hammad and Oshitani12 Displacement may be necessary in cases of major disasters, as the protection of the population from environmental conditions and the provision of basic services are essential elements in any response to emergency conditions. However, displacement, and the crowding that often accompanies it, may have negative consequences. The risks arising from displacement are due to many factors. The poor overall physical and mental health state and lack of access to adequate basic health services increases vulnerability especially in overcrowded shelters where there is lack of hygiene and sanitation measures. Overcrowding in shelters leads to increased exposure to pathogens and increases the spread of diseases. Reference Rebmann, Wilson and Booher68
Many examples within the review indicated how overcrowding in shelters caused an increase in disease transmission such as the increase in various infectious diseases after the floods in Iran in 2019, Reference Shokri, Sabzevari and Hashemi40 and the increase in acute respiratory infections among a displaced population after the 2014 earthquake in eastern Japan. Reference Kawano, Tsugawa, Nishiyama, Morita, Yamamura and Hasegawa46 During displacement situations, consideration must be given to the size and characteristics of the displaced population as well as the health and immune status and vaccination level, especially for children. Rapid response with vaccination campaigns and identifying and treating the cases, may contribute significantly to preventing the spread of infection.
The result of the review highlights the importance of the behavioral factors that lead to the increase of infections. In many of the studies reviewed, daily health habit and the lack of an adequate level of hygiene and awareness greatly increased the possibility of disease outbreaks. In the study assessing the increase in prevalence of various infectious diseases after floods in Iran 2019, Reference Shokri, Sabzevari and Hashemi40 poor hygiene standards, negligible sanitation, and human contact among refugees increased the vulnerability of people to infectious diseases and caused outbreaks.
Awareness of behaviors that reduce contact with sources of infection is a key factor in limiting the spread of pathogens. This includes human contact and the contact with contaminated water.
The lack of awareness of the importance of isolating patients in many transmissible diseases emerged in many cases as a reason for the increase in disease cases. For example, in the investigation conducted after the flood in 2016 in East Badewacho district, Southern Ethiopia, bed sharing with scabies patients especially among children was a major risk factor for the outbreak. Reference Enbiale and Ayalew58 The contact with patients, habitual water treatment, hand washing, and other hygiene practices were the main factors influencing the spread of cholera during 2010 earthquake in Haiti. Reference Dunkle, Mba-Jonas, Loharikar, Fouché, Peck and Ayers44,Reference Grandesso, Allan, Jean-Simon, Boncy, Blake and Pierre45
The impact of behavioral factors on the spread of diseases indicates the importance of health promotion strategies in the recovery period from natural disasters. Changes in behavior and bad health practices as well as the awareness of the risks are playing important roles in mitigating health consequences of these practices. There is strong evidence of the value of health promotion interventions during the response and recovery stages after natural disasters, and this could be done through awareness raising, education, community engagement, and capacity building of the population. Reference Jackson, Fazal, Gravel and Papowitz69
Taking the necessary measures during evacuation and rescue operations is necessary to protect rescue workers from the risk of exposure to infectious diseases. Many diseases including a cluster of infectious skin diseases were reported among the rescue workers during the evacuation operations after hurricanes Catrina in 2005 in the United States. 70 Performing postflooding cleaning operations after urban pluvial flooding in Netherlands in 2015 was identified as a risk factor for respiratory infections. Reference Mulder, Pijnacker, De Man, Van De Kassteele, Van Pelt and Mughini-Gras32 Working outdoors was identified as 1 of the risk factors for leptospirosis infections in Fiji after severe flooding in 2012. Reference Lau, Watson, Lowry, David, Craig and Wynwood24 Protective measures and personal protective equipment especially for rescue workers are important to decrease their exposure to infections.
Limitations
There are some limitations in this review. Only peer-reviewed scientific papers published during 2000-2020 were included, and gray literatures were not included in the review. The search was carried out only in 2 databases (PubMed and Embase). This, in addition to including only papers in English, might have decrease the comprehensiveness of the review, and more evidence for the actual association between natural disasters and disease outbreaks could have been captured.
The literature search and studies selection were carried out by 1 person, and there was no double check of the process. This bias was minimized by the participation of all authors in the rest of the research process (terms and query selection, results analysis, and discussion).
Conclusions
Many of the risk factors and mechanisms that caused the occurrence of epidemics after disasters are mainly related to the consequences of the disaster event. The readiness of infrastructure, the availability of infectious diseases surveillance systems and implementing appropriate emergency plans play important role in mitigating the disaster’s impact on the spread of infectious diseases. Health promotion and awareness raising are important aspects of strengthening population’s ability to protect themselves against infectious diseases during disaster events. More studies and further evidence are needed to understand the relationship between the spread of diseases and natural disasters.
Data availability statement
The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.
Acknowledgments
We thank the staff from The Centre for Research on the Epidemiology of Disasters (CRED) for their support and making the data available for completing this study. Thanks also to the staff form University of Oviedo, Karolinska Institute, and all people in the Erasmus Mundus Master of Public Health in Disasters program.
Author contribution
All authors made substantial contributions to conception and design, acquisition of data, or analysis and interpretation of data; took part in drafting the article or revising it critically for important intellectual content; agreed to submit to the current journal; gave final approval of the version to be published; and agree to be accountable for all aspects of the work.
Funding
No funding.
Competing interests
The authors report there are no competing interests to declare.
Ethical standard
Not applicable.