Abstract
Purpose
The purpose of this paper is to compare the performance of Iran and G7 countries in the management of the COVID-19 crisis.
Design/methodology/approach
The indicators and statistics provided by the Oxford Government Response Tracker are used in this research. Sixteen indicators and their related items have been analyzed for eight countries including Iran, Canada, Germany, France, Great Britain, Italy, Japan, and the United States. For data analysis, Multivariate analysis of variance (MANOVA) and Tukey’s post hoc test were applied, and structural equation modeling performed with the help of SPSS and Smart-PLS software.
Findings
The results show that 8 indicators of closing schools, cancellation of public events, restriction of gatherings, restriction of domestic travel, restriction of international travel, reduction of household debt, testing policy, and contact tracing, have an effect on the number of deaths in the countries under review. The results also showed that the countries exhibit behaviors outside their normal culture during the crisis.
Originality/value
This paper will be helpful for scholars, as well as policymakers when making policies on the appropriate responses to COVID-19 and similar pandemics.
Keywords
Citation
Pourshahabi, V. (2023), "A comparative study of the performance of Iran and G7 countries in the management of COVID-19", Public Administration and Policy: An Asia-Pacific Journal, Vol. 26 No. 2, pp. 184-198. https://doi.org/10.1108/PAP-08-2022-0089
Publisher
:Emerald Publishing Limited
Copyright © 2023, Vahid Pourshahabi
License
Published in Public Administration and Policy. Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) license. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial and non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this license may be seen at http://creativecommons.org/licences/by/4.0/legalcode
Introduction
Throughout history, human societies have always faced many crises, both natural and unnatural, which have threatened the existence of mankind. But these threats have not been able to destroy the human race so far. Considering the crises facing humanity, it is necessary to learn from the past and the measures taken to fight crises. One of these threats is epidemic diseases that have continuously and significantly affected the course of human history (Jannetta, 2014). The oldest written sources show how ancient Mesopotamia responded to the constant threat of epidemics. On the one hand, they used spiritual practices and on the other hand, they separated people who showed the first symptoms of the disease from other people (Scott, 2017).
The crisis that the world is facing today is the COVID-19 disease. The COVID-19 pandemic, known as the coronavirus in the world, is a crisis that showed the weak points of crisis management in different countries of the world. Coronavirus disease is an infectious disease caused by acute respiratory syndrome. This disease was first diagnosed in Wuhan, China in December 2019 and since then it has spread worldwide, resulting in a global disaster. The risk of contracting the people of society with this virus depends on the characteristics of that virus and the severity of the disease caused by it, medical measures to deal with and control it, and other measures (including vaccines or drugs that can treat the disease). In the absence of a vaccine or drug, non-pharmacological interventions are the most important rapid response strategy based on government intervention in quarantine and distancing, mask use, and personal hygiene. Research shows that these things can reduce the impact of this disaster, which appears unstoppable globally (Cvetkovic et al., 2020).
A major challenge in the context of the current pandemic is the lack of sufficient information about the critical elements that should guide policymakers. In this regard, there have been problems not only in measuring the prevalence of the disease in the population; Rather, but governments have also been forced to make decisions with limited information to deal with this disease (Belot et al., 2020). Different countries’ responses to COVID-19 include a wide range of measures that reflect national values, politics, and the diversity of scientific advice provided by local experts. But what is noticeable in the performance of governments is that political considerations have often become more important than science (Middleton et al., 2020).
Governments around the world have implemented numerous policies in response to the COVID-19 pandemic (Cheng et al., 2020). This response to the COVID-19 pandemic has made significant changes in the way billions of people around the world live (Shah, 2017). Overall, reliable data collection helps advance the collective understanding of which policies are effective in curbing the effects of a given disease outbreak. It is important to understand why countries are adopting different policies. Preliminary analyzes show that the institutional and political factors of a country play an important role in this regard (Allcott et al., 2020). These findings will not only help improve the global response to the current crisis but can also provide an effective knowledge base for responding to future disease outbreaks.
The purpose of this research is to compare the performance of Iran with the G7 countries (including the United Kingdom, the United States, Germany, Japan, France, Canada, and Italy, which are the leading countries with advanced economies in the world) in dealing with the COVID-19 crisis. Iran is included in this comparison because, in mid-February 2020, Iran became the second focal point of the spread of the coronavirus in the world after China, but at the time of conducting this research, it has shown good performance in curbing this crisis (Figure 1). Therefore, the main question of this research is: Is there a significant difference between the performance of Iran and G7 countries in the fight against COVID-19?
Background and theoretical foundations of research
With more than 551 million infections and more than 6 million deaths in the world, COVID-19 is one of the worst outbreaks of infectious diseases in history (Worldometers, 2022). With the rapid increase in the spread of the coronavirus worldwide, many countries have adopted non-therapeutic preventive measures, which include travel bans, remote administrative activities, in-country quarantines, and most importantly, social distancing (Anwar et al., 2020). Considering the wide range of measures taken by different countries to deal with COVID-19, it seems necessary to examine the measures taken by different countries. This can help to determine the best measures in order to reduce the number of disasters if faced with such crises in the future. Therefore, in this research, Iran’s performance in dealing with the COVID-19 crisis has been compared with the performance of the G7 countries.
Due to the actions and organizations related to this group, the G7 is a vital factor in global economic governance. Most of the norms, ideas, approaches and consensus principles that deal with the financial governance of the contemporary world were either written by the G7 or approved by this group (Baker, 2008). These norms bring the concept of “culture” to mind. Culture can be seen as the collective programming of the mind that distinguishes members of a group or group of people from other people (Hofstede, 2011).
For the first time, Clyde Kluckhohn (1962) argued that there should be universal categories of culture and the life patterns of any society must provide approved ways to face global conditions. Regarding the COVID-19 crisis, research results have shown that countries’ measures to deal with the Corona crisis are related to the cultural orientation of each country (Yan et al., 2020). Therefore, the characteristics of the countries’ national culture from the perspective of Hofstede’s six-dimensional cultural model can justify how countries react to the COVID-19 crisis. According to this issue, in this research, Hofstede’s model is used to examine how the countries under investigation reacted to the COVID-19 crisis (Appendix 1). Also, in this research, the performance of the countries has been examined using the data of the Global Leadership and Organizational Behavior Effectiveness (GLOBE) project (GLOBE, 2020). The GLOBE project is a cross-cultural study of leadership and culture in 62 societies that aims to develop an empirically based theory that describes the relationships between social culture, organizational processes, and leadership. The GLOBE study empirically validates ten cultural clusters from a sample of 62 cultures in terms of nine cultural dimensions (Kabasakal et al., 2012).
In the following, the countries investigated in this research were examined in terms of the number of population, the number of people infected with COVID-19, the number of deaths, and the number of recoveries. These statistics are obtained from Worldometers (2022). Also, information about the performance of each country is written in the composite indicators provided by Oxford (Oxford COVID-19 Government Response Tracker). These composite indicators include the overall government response index (the government's response to all indicators during the outbreak), the stringency index (the degree of strictness of quarantine policies that mainly restrict people's behavior), the containment and health index (measures such as the testing and tracing policy contact, short-term investment in health care, investment in vaccine production), and economic support index (income support and debt reduction). In order to make it possible to compare the performance of countries, the average of these indicators during the period under review has been calculated and considered for each country.
Iran
Iran, with a population of 86,022,837, has 87,881 cases of COVID-19 per one million people, and 1,681 per one million people in this country have died due to COVID-19. The number of recovered patients is 7,335,266 people (Worldometers, 2022). In mid-February 2020, after China, Iran became the second focal point of the spread of the coronavirus in the world. The Minister of Health of Iran announced in early March 2019 after the epidemic of COVID-19 in Iran that health and treatment centers across the country should be ready to provide services to COVID-19 patients. Meanwhile, many places and public events, including schools, higher education institutions and universities, cinemas, concerts and theater performances, competitions, and national sports leagues in Tehran and cities were gradually closed and the office hours of government offices were reduced in several provinces (Lotfi et al., 2022).
The data shows that during the period under review, the overall reaction of the Iranian government to COVID-19 ranked seventh among the eight countries under review. Therefore, the Iranian government has not had a strong response to the COVID-19 crisis. In terms of strictness and quarantine policy, Iran has the third-strictest rank. Also, in the indicators of containment and health, Iran ranked third and in the index of economic support, Iran ranked seventh and did not perform well (OxCGRT, 2022).
Canada
Canada, with a population of 38,388,419, has 114,833 cases of COVID-19 per one million people, and 1,245 per one million people have died due to COVID-19. The number of recovered patients is 4,305,116 people (Worldometers, 2022). The Government of Canada established dedicated legislation and funding for the federal response to COVID-19. Canada has adopted various public health measures to contain the spread of the coronavirus. The measures include hand hygiene, self-isolation, social distancing and quarantine, a strategy for identifying cases and finding close contacts of confirmed positive individuals, and global travel advisory measures (Urrutia et al., 2021).
In terms of the overall response to the COVID-19 crisis, the Canadian government ranked second among the eight countries surveyed. This means that the Canadian government’s response to the COVID-19 crisis has been strong. In the stringency index, the Canadian government, after Italy, is ranked second among the countries surveyed. In the health and containment index, the rank of the Canadian government is 7th. Therefore, the government of Canada is not strong in this index. In the economic support index, the rank of the Canadian government is 4th, and it performed almost average among the countries under review.
Germany
Germany, with a population of 83,883,596, has 435,817 cases of COVID-19 per one million people, and 1,886 per one million people in this country have died due to COVID-19. The number of recovered patients is 35,862,800 people (Worldometers, 2022). The first thing to pay attention to is medical preparation. In Germany, even before the COVID-19 crisis, the capacity of intensive care was very high. In addition, the government offered incentives to medical institutions to encourage them to significantly increase the number of ICU beds (Okina et al., 2020). During the COVID-19 pandemic, Germany and its institutions, in general, have shown considerable flexibility (Rub et al., 2021).
In terms of the overall index of the government’s response, Germany ranks third among the countries under review. This means that the overall response of the German government to the COVID-19 crisis has been strong. In terms of stringency index, Germany ranks fifth and has performed almost averagely. Germany ranks sixth in containment and health index and economic support index. This means that it has performed below the average in these indicators compared to other countries under review.
France
France, with a population of 65,584,518, has 579,025 cases of COVID-19 per one million people, and 2,426 per one million people in this country have died due to COVID-19. The number of recovered patients is 36,940,925 people (Worldometers, 2022). France’s management of the pandemic crisis, its performance as well as its setbacks, can be placed in a larger context in two respects: first, when the pandemic struck France, the country was already feeling the effects of a certain number of past and current crises. Second, the effectiveness of government responses to the coronavirus pandemic has been hampered by systemic weaknesses (Meny et al., 2021). Like many other countries in the world, France was unprepared when the pandemic broke out: there were not enough masks and test kits, and in addition, many public hospitals were on strike (Or et al., 2022).
In the overall index of the government’s response, France ranks fourth among the surveyed countries and has performed almost averagely in dealing with the COVID-19 crisis. France ranks fourth in stringency, containment and health indicators. In the index of economic support, France ranks fifth among the countries studied.
United Kingdom
The UK, with a population of 68,497,907, has 350,737 cases of COVID-19 per one million people, and 2,880 per one million people in this country have died due to COVID-19. The number of recovered patients is 23,747,479 people (Worldometers, 2022). The UK is facing several profound challenges due to the coronavirus pandemic, with high infection and death rates, as well as deep economic contraction. Some of this was due to factors largely outside the control of current governments at various levels in the UK. These factors include the infectiousness of the coronavirus (a legacy of previous governments, which did too little to implement recommendations related to previous pandemic drills), and insufficient supplies of personal protective equipment (PPE), resulting from austerity policies of the previous decade (Busch et al., 2021).
In terms of the overall government response index, Britain ranks fifth among the countries surveyed. Thus, the UK’s performance in responding to the COVID-19 crisis has been mediocre. In the stringency index, Britain ranks seventh and only Japan has shown more strictness. In the containment and health index, the UK ranks fifth and in the economic support index, The United Kingdom is ranked second and only has a lower performance than Japan.
Italy
Italy, with a population of 60,262,770, has 406,355 cases of COVID-19 per one million people, and 3,016 per one million people in this country have died due to COVID-19. The number of recovered patients is 23,799,178 people (Worldometers, 2022). The government’s response, especially in the first wave, was confused and inadequate, plunging the country into an unprecedented public health crisis, leading to a national lockdown between March and May (Bull, 2021). The situation created in Italy by the COVID-19 pandemic has revealed the weaknesses and strengths of the Italian system. The health and economic effects on this country were severe; Because Italy was the first European country to be affected by this disease, and in 2019, the Italian economy had not yet fully recovered from the 2008 crisis (in fact, Italy is still in a slow growth phase) (Cotta et al., 2021).
Italy has the first rank among the surveyed countries in the overall index of the government’s response. But considering the high number of deaths from COVID-19, apparently these reactions of the Italian government were not appropriate. In terms of stringency index, Italy ranks first, and in terms of containment and health index, Italy ranks second, after Japan. In the economic support index, Italy ranks third. According to Italy’s high ranking in response to COVID-19, apparently the high number of deaths caused by COVID-19 in this country is due to the weakness of the country's economic and healthcare systems at the start of the epidemic.
Japan
Japan, with a population of 125,584,838, has 200,111 cases of COVID-19 per one million people, and 400 per one million people in this country have died due to COVID-19. The number of recovered patients is 20,741,641 people (Worldometers, 2022). During the first wave of the pandemic, the Japanese government enacted a number of institutional and policy initiatives, including the Infectious Diseases Management Act, established a response center, and initiated a series of expert meetings to develop policy advice. Also, the Japanese government declared a state of emergency and approved additional budgets to deal with this epidemic. In general, the response of the Japanese government to the coronavirus epidemic has not been bad, but it has faced problems such as hesitation in decision-making, coordination problems, and communication problems (Pascha et al., 2021).
Japan ranks last among other countries in the overall index of government responsiveness. Nevertheless, Japan has had the lowest number of deaths from COVID-19 among the countries studied. It seems that when faced with a crisis, prior preparation of economic systems and dealing with the crisis, as well as choosing appropriate strategies, will lead to better results, and a strong reaction does not necessarily provide better results. In the stringency index, Japan ranks last. But in containment and health index, and economic support index, Japan ranks first among the surveyed countries.
United States
The United States, with a population of 334,805,269, has 301,034 cases of COVID-19 per one million people, and 3,305 per one million people in this country have died due to COVID-19. The number of recovered patients is 98,236,954 people (Worldometers, 2022). The highly problematic US response to the pandemic demonstrates a lack of resilience in several ways. First, high levels of social inequality and a deeply flawed safety net have created excessive health and economic insecurity for large segments of the population, including and especially for minorities such as blacks and Hispanics. Defects in existing family and child care policies also created major challenges for women during the crisis. Second, on the institutional and political dimensions, strong partisan divisions undermined policy coordination within the framework of US federalism. Third, and similarly, although states and the federal government provided essential data and information about COVID-19 to citizens during the crisis, unscientific claims about the nature of the virus and the threat it poses to public health were made by Trump. Fourth, the country’s limited investment in environmental sustainability and its failure to make the “green economy” part of federal recovery packages represent a missed opportunity to leverage pressure from the crisis to create meaningful and lasting economic change (Beland et al., 2021).
In the general index of the government’s reaction, the United States ranks sixth. Therefore, it has not acted strongly, and the high number of deaths caused by COVID-19 in this country also proves this claim. In the stringency index, USA ranks sixth. In the containment and health index, and the economic support index, USA has the last rank among the examined countries. Therefore, it is not strange that the number of deaths from COVID-19 in America is the first compared to other countries.
Figure 1 compares the number of deaths in the countries under review, which can depict the results of countries’ performance in dealing with the COVID-19 crisis. This figure shows that Japan has the best performance and USA has the worst performance among the countries studied.
Literature review on COVID-19
Considering the novelty of the COVID-19 pandemic, the research in this field is also new. Chatterjee et al. (2020) have shown that COVID-19 epidemic has witnessed a change in social norms and the creation of a new normal. The disease is also an opportunity for new, innovative technologies to break the digital divide and increase the resilience of the most vulnerable communities through democratic access to information and participatory decision-making to develop a response strategy at the local level. The research results of Peng et al. (2020) have shown that the most important factors in stopping the epidemic are the early recognition of infected people, carriers, and contacts and the early implementation of quarantine measures with an organized, active, and integrated strategy at the national level. In Cheng et al. (2020) research, the data set including more than 13,000 policy announcements where more than 195 countries have been examined. The dataset was analyzed by using a Bayesian measurement model. The authors believe that these data are useful to help policymakers and researchers assess how effective different policies are in addressing the spread and health consequences of COVID-19. The research of Buthe et al. (2020) has provided an overview of public and political discourse in Germany, as well as policy responses at the federal and state levels during the first months of the pandemic. This research also provides an initial and tentative assessment of commonalities, divergences, pathologies, and learning as well as broader implications for engagement and cooperation in Europe and beyond it. Sanfelici (2020) has conducted research on Italy’s response to the COVID-19 crisis which show that physical distancing restrictions are only one of many required measures. The availability of human and material resources is the basis for avoiding decisions based on priorities determined by budget constraints. The data analysis of this research shows how Italy's response is characterized by some rapid interventions to deal with the health crisis, but few programs for prevention and a lack of community involvement.
The results of Daumann et al. (2021) regarding the COVID-19 pandemic in Germany show that a health policy that aims at comprehensive protection against infection should also be based on economic criteria. The results of study by Hale et al. (2021) show that government policies are effective in reducing deaths in all waves in all groups of countries, and that government responses do indeed have a strong and significant statistical relationship with deaths related to COVID-19. The results of the study by Wang (2021) show that the policies of quarantine and movement restrictions are still the most effective, but the policies of the public health system do not show much effectiveness in the regression analysis. Another important empirical finding is that economic support policies are effective in reducing the spread of COVID-19.
Research methodology
In this research, the number of people who died in each country was adopted to measure the severity of the epidemic in each country. Also, to quantitatively measure governments’ response to the COVID-19 crisis, the indicators provided by the Oxford COVID-19 Government Response Tracker are used. These data are collected from publicly available sources, such as news articles and government press releases and briefings, and identified through internet searches by a team of one hundred Oxford University students and staff (Hale et al., 2021). The indicators provided by Oxford University are shown in Table 1. It should be noted that these indicators are always modified and revised, and some indicators are deleted or combined.
According to the explained goal, the main hypothesis of the research is considered as follows: there is a significant difference between the performance of Iran compared to the G7 countries in the fight against COVID-19.
Considering the hypothesis of the research and to examine the performance of different countries according to the indicators and based on the death rate of COVID-19, a multivariate analysis of variance is used by SPSS software for data analysis. Multivariate analysis of variance (MANOVA) is among the methods of variance analysis and is used when the researcher wants to investigate the effect of one or more independent variables (IVs) on multiple dependent variables (DVs). This method is an extension of the analysis of variance (ANOVA) model and the most common multivariate analysis in social sciences. MANOVA tests belong to a larger family of statistical techniques known as a general linear model, which includes analyzes such as ANOVA, multiple regression types, and repeated measures designs (Allen, 2017).
The output of SPSS software includes a table of multivariate tests that are used in the analysis of the results. Among these tests, when the degree of freedom is greater than one, Wilks' Lambda is often stronger than other tests (Allen, 2017). If the Wilks’ Lambda test results were significant, post hoc tests should be used. One of these post hoc tests is Tukey’s test. If the significance value of this test is less than 0.05, there is no significant difference between the groups (Pituch and Stevens, 2015). In this research, structural equation modeling with the partial least squares approach with the help of Smart-PLS software is used to investigate the indicators that have had an effect on the number of deaths in all the countries under review.
Research findings
To check whether there is a significant difference between Iran's performance compared to G7 countries in the fight against COVID-19, the multivariate variance (MANOVA) was used. The data related to this research is taken from the website of Oxford University (OxCGRT, 2022), and the time period of the data is 845 days from January 16, 2020, when the first case of death was reported in the studied countries, to June 6, 2022. Also, based on the suggestion of Hale et al. (2021), according to the time period of contracting COVID-19 until the appearance of symptoms of the disease, 28 days have been considered between the performance of countries in each index and the date related to the number of deaths.
In order to use MANOVA, the data are checked for skewness and there are no outliers in the observations. Also, the Box’s M statistic (which can be calculated when performing the MANOVA test in SPSS software) shows that the observed variance-covariance matrices of the dependent variable are equal because the significance level of Sig of this test is greater than 0.05. The results of the SPSS software related to the MANOVA test are shown in Appendix 2.
According to the results reported in Appendix 2, the significance value of the Wilks’ lambda test for all indicators is lower than the alpha value (0.05). Therefore, there is a significant difference in the performance of the investigated countries in the indicators. Tukey’s post hoc test is now used to determine which country’s indicators have this performance difference. The results of Tukey’s post hoc test are shown in Appendix 3.
In order to determine the indicators that have an effect on the number of deaths caused by COVID-19 in the countries under review, structural equation modeling with the partial least squares approach has been used with the help of Smart-PLS software. The results are shown in Figure 2 and Table 2.
Considering that a strong value of 0.630 was obtained for the R2 coefficient of determination for the dependent variable, this value shows the appropriate fit of the model. Also, the t statistic and significant value (Sig.) for each of the dependent variables are shown in Table 2.
Conclusion and suggestions
According to the results of the statistical analysis (Figure 2 and Table 2), the indicators that were effective in the number of deaths from COVID-19 in the countries under review in order are: 1- Testing policy, 2- Restrictions on gatherings, 3- School closing, 4- Restrictions on internal movement, 5- Contact tracing, 6- Debt / contract relief for households, 7- International travel controls, and 8- Cancel public events. Also, the research results (Appendix 2) showed that there is a significant difference in the performance of the investigated countries in the indicators.
Regarding the School closing index (C1), based on the significance of Tukey’s post hoc test (Appendix 3), the performance of Iran and the United States are similar. According to Appendix 1, among the 6 dimensions of Hofstede’s national culture, Iran and USA have the same score (low score) in the “long-term orientation” dimension. In such cultures that pay attention to the short-term time horizon, respect for tradition and the realization of social goals are emphasized, and considering the vulnerability of political and social institutions in these two countries, the similarity of performance in this index is not far from expected. From another point of view, according to GLOBE data, considering that Iran and USA are from two different cultural clusters, it seems that USA did not behave according to the cultural characteristics of its own cluster at the time of the crisis. Although USA is in the Anglo cluster, it has adopted a strong policy of containment and closure and has behaved like the South Asian cluster, seeking to avoid uncertainty.
According to the results of this research, the performance of Iran and Italy in the indicator of Cancel public events (C3) were similar (Appendix 3). Among Hofstede’s cultural dimensions, Iran and Italy have a similar score in the dimensions of “uncertainty avoidance” and “indulgence” (Appendix 1). Considering the high score of both Iran and Italy in the uncertainty avoidance index, the tendency to avoid risk, the existence of standard procedures, and respect for authority are characteristics of these two countries that can be seen in the cancellation of public events. Also, the low score of these two countries in the indulgence index indicates a culture that stops satisfying needs and controls them through strict social norms. This culture has also supported the cancellation of public events to deal with the COVID-19 crisis. From the perspective of GLOBE data, Iran is in the Southern Asia cluster and Italy is in the Latin European cluster. The two clusters are similar in communication style, levels of collectivism, existence orientation, and uncertainty avoidance. As a result, the very similar performance of Iran and Italy is not out of mind. The results of this research show that Iran's performance in the restrictions on gatherings index (C4), international travel controls index (C8), and Debt/contract relief for household’s index (E2) are not similar to any other country (Appendix 3).
According to the results of this research, the performance of the countries of Iran and Canada in the Restrictions on internal movement (C7) index is similar (Appendix 3). Iran and Canada have a low and similar score in the national culture dimension of “long-term orientation” (Appendix 1), which shows that these countries prefer to maintain old traditions and norms and show a desire to achieve quick results. Therefore, through these policies, they have tried to quickly control the COVID-19 crisis. Among the countries under review, Canada has applied the most restrictions in relation to this index. This result can be seen while Iran is in the Southern Asia cluster and Canada is in the Anglo cluster, and apparently it has behaved outside its cluster.
Based on the results of this research, in the Testing policy index (H2), Iran’s performance was similar to Canada’s and Britain’s. Also, the results show that in the Contact tracing index (H3), Iran’s performance is similar to France and America (Appendix 3). According to Hofstede’s dimensions of national culture, there is no indication that these countries have the same rank at the same time. From a GLOBE clustering perspective, these countries are also in different clusters.
As indicated by the results of this study, despite the existence of differences in the performance of the investigated countries in dealing with the COVID-19 crisis, the performance of these countries has been similar in some indicators. This similarity in performance is due to the specific crisis conditions facing the countries, which forced some governments to behave outside their cultural cluster during the crisis. According to the results of this research, some countries have not taken enough measures to deal with the crisis, and the measures of some other countries, although severe, have not been useful. In particular, the performance of the countries under review shows that supporting measures have been more useful than lockdown and stringency. Therefore, it is suggested that countries identify appropriate and useful measures to deal with similar crises and design policies that are appropriate to their national culture. It is suggested to future researchers identify the countries that have performed best in dealing with the COVID-19 crisis and design a suitable model of national culture to face such crises. Therefore, researchers are suggested to provide management models to deal with epidemic diseases with an emphasis on culture.
Figures
Figure 1
Number of deaths per million people (Worldometers, 2022)
A set of indicators provided by Oxford University
| Group of indicators | Name | ID |
|---|---|---|
| Closures and containment | School closing | C1 |
| Workplace closing | C2 | |
| Cancel public events | C3 | |
| Restrictions on gatherings | C4 | |
| Close public transport | C5 | |
| Stay at home requirements | C6 | |
| Restrictions on internal movement | C7 | |
| International travel controls | C8 | |
| Economic measures | Income support | E1 |
| Debt / contract relief for households | E2 | |
| Health measures | Public info campaigns | H1 |
| Testing policy | H2 | |
| Contact tracing | H3 | |
| Facial Coverings | H6 | |
| Vaccination Policy | H7 | |
| Protection of elderly people | H8 |
Source: Hale et al. (2021)
The results of Smart-PLS software outputs
| Independent variables | ID | t statistic | Sig. | Result |
|---|---|---|---|---|
| School closing | C1 | 3.289 | 0.001 | Confirmed |
| Workplace closing | C2 | 0.388 | 0.698 | Rejected |
| Cancel public events | C3 | 2.283 | 0.023 | Confirmed |
| Restrictions on gatherings | C4 | 3.433 | 0.001 | Confirmed |
| Close public transport | C5 | 0.017 | 0.986 | Rejected |
| Stay at home requirements | C6 | 0.048 | 0.961 | Rejected |
| Restrictions on internal movement | C7 | 3.105 | 0.002 | Confirmed |
| International travel controls | C8 | 2.481 | 0.013 | Confirmed |
| Income support | E1 | 0.107 | 0.915 | Rejected |
| Debt / contract relief for households | E2 | 2.598 | 0.010 | Confirmed |
| Public info campaigns | H1 | 1.107 | 0.108 | Rejected |
| Testing policy | H2 | 4.270 | 0.000 | Confirmed |
| Contact tracing | H3 | 2.897 | 0.004 | Confirmed |
| Facial Coverings | H6 | 0.005 | 0.996 | Rejected |
| Vaccination Policy | H7 | 0.454 | 0.650 | Rejected |
| Protection of elderly people | H8 | 0.534 | 0.594 | Rejected |
Source: By author
| Country | Power Distance | Individualism | Masculinity | Uncertainty Avoidance | Long Term Orientation | Indulgence |
|---|---|---|---|---|---|---|
| Canada | 39 | 80 | 52 | 48 | 36 | 68 |
| Germany | 35 | 67 | 66 | 65 | 83 | 40 |
| France | 68 | 71 | 43 | 86 | 63 | 48 |
| Britain | 35 | 89 | 66 | 35 | 51 | 69 |
| Iran | 58 | 41 | 43 | 59 | 14 | 40 |
| Italy | 50 | 76 | 70 | 75 | 61 | 30 |
| Japan | 54 | 46 | 95 | 92 | 88 | 42 |
| USA | 40 | 91 | 62 | 46 | 26 | 68 |
Source: Hofstede (2022)
| Effect | Value | F | df | Sig. | Partial Eta Squared |
|---|---|---|---|---|---|
| Wilks' lambda for C1 | 0.433 | 501.149 | 14 | 0.000 | 0.342 |
| Wilks' lambda for C2 | 0.426 | 513.969 | 14 | 0.000 | 0.348 |
| Wilks' lambda for C3 | 0.451 | 472.011 | 14 | 0.000 | 0.329 |
| Wilks' lambda for C4 | 0.391 | 578.817 | 14 | 0.000 | 0.375 |
| Wilks' lambda for C5 | 0.437 | 495.058 | 14 | 0.000 | 0.339 |
| Wilks' lambda for C6 | 0.448 | 475.766 | 14 | 0.000 | 0.330 |
| Wilks' lambda for C7 | 0.431 | 505.091 | 14 | 0.000 | 0.344 |
| Wilks' lambda for C8 | 0.378 | 604.317 | 14 | 0.000 | 0.385 |
| Wilks' lambda for E1 | 0.443 | 485.228 | 14 | 0.000 | 0.335 |
| Wilks' lambda for E2 | 0.284 | 0.673 | 14 | 0.000 | 0.467 |
| Wilks' lambda for H1 | 0.478 | 430.767 | 14 | 0.000 | 0.309 |
| Wilks' lambda for H2 | 0.407 | 546.576 | 14 | 0.000 | 0.362 |
| Wilks' lambda for H3 | 0.300 | 795.563 | 14 | 0.000 | 0.452 |
| Wilks' lambda for H6 | 0.400 | 560.913 | 14 | 0.000 | 0.368 |
| Wilks' lambda for H7 | 0.539 | 348.907 | 14 | 0.000 | 0.266 |
| Wilks' lambda for H8 | 0.413 | 536.439 | 14 | 0.000 | 0.357 |
Source: By author
| Country | C1 | C3 | C4 | C7 | C8 | E2 | H2 | H3 |
|---|---|---|---|---|---|---|---|---|
| Canada | None | Germany | Germany | Iran | None | None | Britain & Iran | None |
| Germany | Britain | Canada | Canada & USA | France | None | France | Italy | None |
| France | Japan | Britain | Britain & USA | Germany | Italy | Germany | None | Iran & USA |
| Britain | Germany | France | France | Japan | None | None | Canada & Iran | USA |
| Iran | USA | Italy | None | Canada | None | None | Canada & Britain | France & USA |
| Italy | None | Iran | None | None | France | Japan | Germany | None |
| Japan | France | None | None | Britain | None | Italy | None | None |
| USA | Iran | None | Germany | None | None | None | None | France & Iran |
Source: By author
Funding: This research was carried out with the approval and financial support of the research and technology department of the Zahedan Branch, Islamic Azad University, Zahedan, Iran.
Appendix 1: The scores of the investigated countries based on Hofstede’s six-dimensional model of National Culture
Appendix 2: Multivariate variance summary for research indicators
Appendix 3: Tukey’s post hoc test results to determine the similarity of countries’ performance in each index
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Corresponding author
About the author
Vahid Pourshahabi is an Assistant Professor of Faculty of Humanities, Department of Management, Zahedan Branch, Islamic Azad University, Iran. His specialized field of study is public administration in comparative and development, His research interests are in the field of development management.