1. Introduction
The study of vulnerability constitutes a central axis in the research work on sustainability [
1]. The risk combines aspects related to danger, exposure to it and vulnerability [
2]. This last aspect refers to those physical, social, economic and environmental factors or processes that increase the susceptibility of a community to the impact of hazards [
3]. Adger [
4] considers that vulnerability is associated with damage due to exposure to stress due to environmental and social change and the lack of adaptive capacity. The degree of vulnerability of a human group is decisive for a catastrophe to trigger a disaster, hence the opportunity for analysis incorporating its social dimension [
5].
In the case of disasters, the reduction of social vulnerability (SV) is a central element of risk management or reduction and has been identified as the most important prerequisite for the resilience of areas prone to disasters [
6]. Specifically, SV to hazards plays a fundamental role in the formulation of disaster risk reduction strategies [
7]. It analyzes the differences in human capacity to prepare, respond and recover from disasters [
8] based on socio-economic, political, institutional, psychological and cultural factors [
9]. Its analysis helps to understand humanitarian crises, not as specific, spontaneous and inevitable phenomena, but as the result of structural causes and long and medium term processes, many of them modifiable by human action [
5]. The results highlight its importance as a starting point to define policies for seismic risk mitigation, emergency management and territorial planning to reduce impacts [
6].
Although disasters threaten all the people who suffer from them, they do not affect all members of society equally. Social and economic inequalities make certain groups more vulnerable to disasters. Factors such as age, sex, social class and ethnic identity increase vulnerability to a disaster [
10,
11,
12]. The World Bank estimates at 520 billion dollars the economic loss in annual consumption as a result of disasters, and almost 26 million people are condemned to poverty every year. An important part of the world’s population is vulnerable to disasters [
13]. The EU Science Hub [
14] estimates that in 2017 one in three people in the world is exposed to earthquakes, around one billion are affected by floods and 414 million live near one of the 220 most dangerous volcanoes.
One of the main determinants of SV is gender [
8,
15,
16,
17,
18,
19,
20,
21,
22]. We understand the gender perspective as an analytical category that allows to identify discrimination based on the characteristics of people, due to their sexual identity and the gender role played. For the specific objectives of this work, without intending to impose restrictive binary categories, nor to exclude sexual minorities [
23] this perspective is useful to analyze the differences depending on the person who heads the household, and specifically the differentiated impact when it comes to women or men. In this sense Socio-economic status, educational interruption, workplace, insufficient preventive protection, cultural barriers, marital stress, domestic and sexual violence, persistence of stereotypes, etc. are some of the causes that explain a greater pre-disaster women vulnerability [
15,
16,
17,
19,
20,
24,
25]. The lack of coordination between disaster risk reduction agencies coupled with economic and financial problems, which especially impact women, as a consequence of the feminization of poverty, are additional elements to consider. In the post-disaster, aspects such as poor access to drinking water, disruption of transport systems and inaccessibility to health facilities [
25] stand out.
According to [
2], women and girls around the world have an overwhelming, personal and professional task, with the care of children, housework, the elderly and people with disabilities, and therefore, they are often the last to evacuate the disaster area. So simple life-saving decisions, like deciding when and whether they evacuate, become a difficult choice. They also suffer a greater economic impact after disasters and higher levels of violence. For this reason, numerous investigations incorporate the variable sex as an element of vulnerability [
1,
6,
7,
8,
12,
21]. In the specific case of the 2010 Haiti earthquake, it was found that women are also re-victimized in the post-disaster process [
19].
A significant proportion of Latin American and Caribbean area households do not correspond to the image of a nuclear unit of father, mother and children. Specifically, in 2010, according to CEPAL data [
26], 30% of Latin American households were headed by a woman. Although very limited, some studies show how the disaster’s vulnerability increases in case of women-headed household [
27,
28]. The work carried out by [
28] evaluates the socioeconomic damage of earthquakes in El Salvador in the informal economy of women. It is observed how disasters increase the vulnerability of them and their families through the reduction of their formal and informal work. Furthermore, the fact that women extend their reproductive roles from family to community with unpaid and non-basic decision-making tasks further increases their levels of vulnerability. Bradshaw and Arenas [
27] found different sources of vulnerability in families headed by women during and after Hurricane Mitch: a greater dedication to reproductive and community work against the productive, loss the regular source of income, increase the households headed by women and single mothers, violence against women, etc.
Despite the undeniable advances in the study of SV associated with a catastrophe, knowing what the role of social differences within a population is in the impact of a disaster is an unavoidable issue [
8,
22]. In this sense, one of the main limitations identified in the research carried out is the absence or deficient and incomplete incorporation of the gender perspective [
8,
21,
29]. The analysis of the specialized literature shows that knowledge of the impact of disasters on the living conditions of women is limited. The scientific production on this issue is recent and not very extensive. A good part of the work carried out, of Asian and Anglo-Saxon origin, focuses on the analysis of disasters linked to its territory. This work tries to complement the analysis of the phenomenon in the Latin American and Caribbean area.
After ten years of the 2010 Haiti earthquake, the work deepens the relationship between disasters, social vulnerability and gender, exploring the unequal distribution of social vulnerability to seismic risk. The study analyzes the behavior and characteristics of individual households in Haiti, identifying the differences before and after the disaster, as well as between man -led and women -led households. Taking into account the object of work analysis, the SV will be defined as the set of characteristics of the home and its interaction with the environment that contribute to making it vulnerable to disasters The indicators for assessing social vulnerability caused by disasters are all those characteristics that describe the conditions that contribute to reducing the ability to prepare, respond and recover from hazards [
30]. It helps explain the causes that cause some communities to experience a hazard differently from others, even though they are affected by the same magnitude or severity of the hazard in question [
31]. Taking into account that they define the capacity of an individual or community to prepare, respond and recover from a particular danger, they can be considered as an effect of social inequalities, given that this capacity is a consequence of the unequal access to opportunities [
32,
33].
An intrinsic characteristic of social vulnerability is that it constitutes a process product that has an effect of space-temporal scale. Its measurement at different levels (territorial or individual unit) helps to understand its dynamics, from the global to the local or vice versa [
34]. In this regard, the SV indicators in territorial terms refer primarily to economic, political factors, infrastructures, medical and support services [
35,
36]. There are numerous studies that show how the economic and political conditions of the country or territory of reference affect their vulnerability to a disaster [
37,
38,
39]. The works carried out by Peduzzi et. al [
40] and Kahn [
39] show that developed countries have fewer deaths from disasters than developing countries. The variables most used in the works that analyze the influence of a country’s economic factors on its vulnerability are production [gross domestic product (GDP) or regional production], income, employment, inflation, consumption, expenses, savings, financial transfers national and international, public finance and commerce [
41,
42,
43]. Regarding political factors, Kahn [
39] and Raschky [
37] find that a country’s institutional framework is a key determinant of vulnerability to disasters. Yonson, et al. [
43] find for the Philippines a negative association between disaster deaths and socioeconomic development and good governance. In terms of individual SV, sociodemographic characteristics, life situations and financial status are factors to consider [
44]. At work, the analysis to be carried out is carried out at the level of the individual considering as fundamental factors that affect the degree of SV aspects related to economic, demographic and housing factors [
6,
31,
32,
45].
The work begins by identifying and describing the area of study. A multi-criteria approach based on indicators is used to assess the SV in the event of a catastrophic event through a social vulnerability index [
31], order of preference for similarity to the ideal solution (TOPSIS) [
46]. This technique constitutes one of the most used classification methods for its logic, simplicity, accessibility and computational efficiency [
47,
48]. From a set of alternatives valued in a set of decision-making criteria, TOPSIS selects alternatives that simultaneously present the shortest distance from the positive ideal solution (PIS) and the distance farthest from the negative ideal solution (NIS). The positive ideal solution maximizes the criteria of the type "the more, the better" and minimizes the criteria of the type "the less, the better", while the negative ideal solution maximizes the criteria "the less, the better" and minimizes "the more, top".
In a second stage, using an econometric model Differences in Differences (DID), the effect of the impact of the catastrophe on the SV of Haitian households will be estimated. Additionally, one aspect has not been analyzed so far by specialized literature, variations in gender inequality in social vulnerability as a result of a catastrophic event will be addressed. Specifically, it will be studied whether the gap between the social vulnerability of women-led households and the rest of households increases, or not, as a result of the earthquake.
The study is part of the analysis of the achievement of the Sustainable Development Goals (SDGs). The 2030 Agenda for Sustainable Development, adopted by all United Nations Member States in 2015 recognizes the close relationship between gender equality and disaster resilience, as well as the importance of this relationship to the achievement of the SDGs. Therefore, it raises the need for studies and analyzes that make gender inequalities and vulnerabilities visible and promote a comprehensive risk reduction among all stakeholders [
29].
2. Study Area
Haiti is a country located in the western part of the island of Hispaniola, the most mountainous and rugged of the Antilles. It is located in a territory formed by a complex network of tectonic plates and geological faults. From an administrative point of view, it is divided into ten departments, one hundred and forty communes and five hundred and seventy communal sections. The ten departments are: Ouest, Sud, Sud-Est, Grand-Anse, Nippes, Nord, Nord-Ouest, Nord-Est, Center and l’Artibonite. Port-au-Prince is the capital of the country and the center of political and administrative decisions. The urban areas of six municipalities of the Department of the Ouest, including Port-au-Prince, regrouped to form the Metropolitan Area.
On January 12, 2010, a devastating earthquake of magnitude 7.3 on the Richter scale hit the country, causing one of the most serious human catastrophes in history (
Figure 1).
According to the United States Geological Survey (USGS), its epicenter was located about 25 km from Port-au-Prince and the hypocenter only 13 km from the surface, which caused the earth’s crash forces to be as intense and destructive as possible [
49]. The quake, which mainly affected the city of Port-au-Prince and in the south-west of the country, caused the death of at least 220,000 people, caused more than 300,000 wounded, almost 1.5 million people lost their homes and many others were displaced [
50,
51]. The earthquake severely affected Haiti’s infrastructure, more than 65% of the epicenter buildings, located in the metropolitan area of Port-Prince-Pétionville were completely collapsed or with a high degree of destruction[
52]. In a matter of seconds, the disaster ended with 120 percent of the GDP produced by the country in 2009 [
53]. A catastrophe of devastating consequences in a country of less than 11 million inhabitants, the poorest in America and one of the poorest in the world.
Currently, Haiti continues to experience the consequences of the earthquake that struck the country in 2010. Considered the poorest territory in America with a Human Development Index (HDI) in 2018 of 0.503 points, a life expectancy of 63.6 years and a National Income Gross per capita of
$1665 in 2017 [
54], constitutes a territory of strong inequalities. If the previous indicators adjusted for inequality are considered, in 2018 the HDI suffers a 40.5% decline, presents an inequality in life expectancy of 32.2%, 37.3% in education and 50.4%. in the corresponding to the income. With a Gender Inequality Index of 0.620, Haiti ranks 150th in the ranking of countries ordered from lowest to highest inequality between men and women in 2018, also has a teenage fertility rate of 51.7, a gender differential in percentage of population with at least second grade of education of 13 percentage points in favour of men and an employment gap of 10 percentage points [
54].
4. Results
From the variables collected in
Table 1 and from the information provided by the SHS survey, we selected 15 variables for the preparation of the SV index from a sample of 7787 observations. The corresponding descriptive statistics are shown in
Table 3. For the qualitative variables information is displayed on the number of observations that satisfy the analyzed characteristic and its relative frequency. For the mean quantitative variables and the sample standard deviation are the indicators considered.
Regarding sociodemographic characteristics, in the Haitian context, there are several issues to consider. In all regions and for the two waves of the survey, a high percentage of the population has a very low educational level. Of the total sample, more than 70 percent declare an educational level of primary or lower school and only 2907% of households are led by individuals with a higher educational level in 2005-06, a figure significantly increased in 2012 until the 6.05% The high number of family members, with an average of more than 5 people per family unit in both temporary references and an average percentage of children under 5 years of age close to 20%, is a remarkable fact.
Socio-economic status is visible through indicators of education, occupation and wealth quintile. Regarding the occupation, although in the context of Haiti during the period considered the unemployment rate is 70%, the interviewees declare a very high average occupation close to 90%. Using a variable that identifies those families that declare someone busy seems, therefore, a more appropriate option. The Occupied variable will take the value 1 for the sample units with some occupied and the value 0 otherwise. The variable Agricultural sector identifies the families in which some of its member’s work in the agricultural sector. This variable has a frequency higher than 50% in the 2005-06 wave, decreasing 5 percentage points in the 2012 survey. Finally, the Wealth variable includes the wealth quintile in which the interviewed family is located, understanding as such an indicator prepared by DHS (2019) that constitutes a composite measure of the cumulative standard of living of household wealth.
The indicators of the built environment are related to the availability of electricity, bathroom and running water inside the house, as well as the quality of the materials used in its construction. Haiti is one of the poorest countries in the world and many households lack the basic living conditions. The available statistical information shows that in the 2005-06 wave, 57.72% of the households interviewed have a natural or external source of water supply, only 12.6% of a conventional bathroom-toilet inside the house and 72.01% lack of electricity. The information available in 2012 does not derive a substantial improvement in Haitian habitability conditions, 67.54% still lack electricity, 70.91% water in the home and only 1.22 has a conventional bathroom-toilet inside the living place. Homes built with materials such as wood, palm or bamboo are also very frequent.
The evaluation of social vulnerability in the context of Haitian households is carried out using the TOPSIS method. From studies conducted, the directional direction of the factors is identified taking into account their influence on the SV [
6,
32,
45]. The positive and negative directionality is attributed to factors that decrease or increase, respectively, vulnerability. The determination of the weight of each criterion or indicator shows its comparative importance in the SV. The approaches used to obtain the differential weights of the indicators are diverse [
79]. However, assigning weights equal to all criteria is the most widely used approach [
25,
68,
69] As a working hypothesis, each indicator will be considered to contribute similarly to the social vulnerability of the household. As a final objective, the work aims to analyze the variability in the SV of the home and, ultimately, contribute to understanding its complexity. In the absence of a defensible method of assigning weights, the equal weights option is best [
31,
80].
The quartile division of the scores obtained allows, using the Stata program, the visual comparison of the SV from a spatial perspective (
Figure 4). The legend in
Figure 4 shows the intervals of the distribution made. The relationship between the distribution of the SV and its deviations from the mean is represented in circles. The hollow and filled circles collect the lower and upper deviations, respectively, at the mean of the SV. The larger the circle, the further the value of the region will be from the average of Haiti. In both waves of the survey the circles that identify high values of SV are located in the urban area of Haiti. The Center and Nort-Ouest regions or departments constitute the most vulnerable areas of Haiti in the wave of the 2005–2006 survey with a minimum score of 0.8038 and an average indicator of 0.851396. Sud, Nippes, Sud-Est and Artibonite are the least spatially vulnerable regions with scores ranging between 0.803696 and 0.856845. The rest of the regions of Haiti, which includes the Ouest region where the capital, Port-au-Prince, is located, have average SV levels with scores ranging from 0.850841 to 0.8518284. During the analyzed time period the dispersion of the SV scores is very low, with an average score of 0.851827 and a standard deviation of 0.0053223 is the region with the highest dispersion.
In general terms the average score of the SV decreases by 18.83% between the two waves of the survey, 0.85169316 in 2005-06 compared to 0.69125032 in the wave of 2012. The displacement of the SV to regions where the intensity of the earthquake is higher it is evidenced in
Figure 4. The Ouest region where the tremor affected most intensely becomes one of the most vulnerable regions with an average score of 0.6962173 and values ranging between 0.4974352 and 0.8566667. In a similar situation is the Nippes region that significantly increases its SV level and also highlights the Center region with an average score that decreases by 19.8%. With respect to the number of regions in each quartile, it is evident from the results that the number of regions with high, medium high, medium low and low vulnerability was 2, 4, 4, and 0 in the 2005-06 wave versus 4, 3, 2 and 1 in the 2012 survey, taking into account that in each of the waves the distribution in quartiles was carried out based on the data of that time reference. Finally, if we group the departments into the treatment and control groups, we can visualize the effect of the earthquake on the mean value of SV. In the 2005–2006 wave, the mean SV for the control group was 0.85137026, similar to that for the treatment group, 0.85184319. However, after the 2010 disaster the differences between the two groups are evident. For 2012, the mean SV in the control group is 0.70728437, while the mean for the treatment group is 0.68313921 (
Table 4).
Once the scores of the SV have been obtained and compared, the results obtained from the DID estimate made in order to study the impact of the earthquake on the SV and gender relations are analyzed below through to differences between women- headed household and men-headed household, taking into account that gender stereotypes traditionally attribute this role to men.
Table 5 shows the results obtained from the weighted estimate with the survey weights provided by DHS. From the results obtained, we can estimate how the earthquake that occurred in 2010 affected social vulnerability in the context of Haitian households, in addition to analyzing gender relations within the household. The goal is to find out if women-headed households have worsened or improved their SV after the disaster. The estimators are statistically significant and the contrasts of global significance, from the Wald Chi-square test (2260.430) and the F-Snedecor test, (322.9186) indicate that the model is globally significant for a 99.99 percent confidence level. The collinearity indicators do not show severe problems of linear association between the explanatory variables of the model, with the exception of the variable,
and SH that have a VIF greater than 10 and eigenvalues close to 0. The Breusch-Pagan-Goddfrey contrast visualizes the presence of heterocedasticity in the model (
F-statistic = 3.27.0230;
p-value
= 0.00001) and therefore we decided to consider standard errors and robust covariances.
The fixed effects of the territory on the social vulnerability of Haitian households are collected through the variables D1 (0.000849) and D2 (−000491) whose effect on the SV of families is not statistically significant and, (p-value = 0.9655) and (p-value = 0.8417), respectively. The fixed effect on inequality in the social vulnerability of households by reason of sex is collected through the variable, its effect being expressed in the model as superior for men in relation to women (0.000413) but not statistically significant (p-value = 0.9388) as a result of collinearity noted.
The fixed effects related to the 2012 period are those included in the parameter that accompanies the temporal variable t and are shown as negative (−0.199860) and statistically significant (p-value = 0.00001) for the year 2012 indicating a fixed post-earthquake negative differential effect in the vulnerability of families.
Through the term of interaction with the variable "head of the family" and de temporal variable t, SH × t, it is observed that the negative effects of disaster when the household is headed by a woman, increasing the gap between the social vulnerability of households headed by women and the rest of households. The coefficient accompanying the variable SH × t reflects the differential effect between the pre and post-earthquake states of the fixed effects on the family’s SV due to sex of the head of the family. The sign is displayed as positive (0.036803) and statistically significant (p-value = 0.0000). A positive interaction suggests that the SV of the women-led family’s increases in relation to the masculine ones when the disaster occurs, while a negative interaction would suggest otherwise. In summary, according to the estimation made by the 2010 Haiti earthquake, the SV of women-headed households increased in relation to men-headed households. This highlights the negative impact of gender stereotypes on women, based on the provider role that is traditionally assigned to men, putting women at a disadvantage when they have that role.
The estimate shows how the disaster has positive effects of increasing territory with the intensity of the earthquake and statistically significant on the SV of families, regardless of the sex of the head of the family. The multiplicative effect of earthquake exposure based on its intensity is captured by the term of interaction between the variables that define the territory, D1 and D2, and the temporal variable t. For respondents living in areas with a very strong earthquake intensity, the DID estimator sign is positive (0.118791) and statistically significant (p-value = 0.0000). A similar result is obtained for families residing in areas where the intensity of the earthquake was strong, D2,with an estimator of differences in positive (0.030653) and statistically significant (p-value = 0.0000) differences. This result indicates a reduction in the social vulnerability associated with the territory in the face of a catastrophic effect to a greater extent the greater the intensity of the territory.
When the average intensity of the disaster by department,
I, is used as an indicator of the magnitude of the disaster, based on the model:
Similar results are obtained (
Table 6). The effect of the earthquake intensity on social vulnerability is collected from the variables
I and
I ×
t. It indicates that as the average intensity of the earthquake increases, the SV of households decreases. The estimation of the coefficient associated with the multiplicative term is positive (0.037289) and statistically significant (
p-value
= 0.0000).
5. Conclusions
Natural hazards constitute a serious obstacle to human development and the fulfillment of the Sustainable Development Goals. They are the result of the interaction between human beings and Nature and their risks are highly influenced, both positively and negatively, by the development process. Negative impacts are perceived with greater intensity in poor countries and cause considerable material and human losses [
6,
81]. They destroy infrastructure and destroy the livelihoods of millions of people, especially those who are the poorest and most vulnerable. In the case of natural disasters, social vulnerability plays a fundamental role in the formulation of risk reduction, emergency management and territorial planning strategies to reduce their impacts and their study constitutes one of the central issues in sustainability research. The SV is related to the demographic characteristics, the socioeconomic status and the characteristics of the built environment, as well as to all those elements related to institutional, political and cultural aspects that may affect the response capacity of individuals to cope, recover and adapt to catastrophic events.
This work constitutes an attempt to contribute to knowledge about gender, natural hazards and social vulnerability and aims to complement one aspect of gender studies linked to natural disasters, social vulnerability [
8,
21,
22]. The literature related to the study of the SV of households is limited and even more so if it is linked to gender relations [
21,
22]. They are very scarce the work that analyzes whether or not women-led households are more vulnerable than those related to men and if this (inequality) in the SV increases as a result of the disaster.
This article has analyzed the effect on social vulnerability of one of the most devastating disasters of recent decades in the context of the poorest and most vulnerable country in Latin America and the Caribbean. We study how the 2010 earthquake in Haiti impacted the SV and the gender relations of Haitian households and show how gender inequalities persist and intensify after a disaster.
Investigating the relationship between poverty and disaster risk is a complex task, particularly in low-income territories where data scarcity is a common feature. From the data provided by the DHS survey and using the TOPSIS technique and the DID methodology we have been able to verify how the earthquake that hit Haiti in 2010 has negative effects on the SV of households, effects that intensify with the intensity of the disaster. In addition, we have been able to detect how the gender gap in the SV of households increases as a result of the disaster, increasing the SV of households headed by women in relation to other households.
The results derived from our research reaffirm those obtained in different studies that show how disasters do not produce equal consequences for the population as a whole, but that social and economic inequalities make certain groups more vulnerable[
13,
18,
20]. Specifically, it reinforces studies that show how the disadvantages of post-disaster women persist are intensified in aspects such as education, life expectancy, sexual health, work, etc.[
13,
20,
72,
73].
These results generate important political implications that should not be ignored. The 2030 Agenda for Sustainable Development recognizes the strong relationship between gender equality, vulnerability and resilience to natural disasters, as well as the importance of this relationship for the achievement of the SDGs. The study shows how women and men face different realities and challenges in both pre-disaster and post-disaster. Their different position in the face of natural disasters is manifested in their sociodemographic characteristics, socioeconomic status and built environment, and they constitute key elements that affect their response and recovery capacity. Gender policies thus constitute a key element of the reduction of SV before, during and after the disaster. National and local programs are needed to improve disaster preparedness, mitigation and prevention in the community, with the participation of women and men, promoting gender equality and the empowerment of women.
The analysis carried out is established for the context of the 2010 Haiti earthquake. Similar studies would be necessary in other territories in order to find patterns of similarity and diversity in different environments.