Definition
''Climate change vulnerability'' is defined as the "propensity or predisposition to be adversely affected" byVulnerability and exposure
In the climate change context, exposure is defined as "the presence of people; livelihoods; species or ecosystems; environmental functions, services, and resources; infrastructure; or economic, social, or cultural assets in places and settings that could be adversely affected.". In earlier definitions of vulnerability to climate change (in the Third IPCC report and Fourth IPCC report) vulnerability was defined as a function of exposure, sensitivity and adaptive capacity. This changed during the Fifth IPCC cycle. In this report, exposure was defined as one of the three interacting elements of climate risk, rather than as one of the external drivers of vulnerability. This change had two main implications. First, it means that vulnerability is understood as independent of exposure (and hazard) but is contextual. Second, it means that vulnerability assessment could focus on indicators for sensitivity and adaptive capacity to understand the current system weaknesses. For example, weaknesses such as the high ground slope of a farmland or marginalization of households in a community would make people or places sensitive to climate impacts. This makes it important to select the most hazard-relevant indicators for any vulnerability assessment. For example, to assess the vulnerability of traditional coastal fishing communities to sea surge, ‘distance of dwellings from sea’ and ‘elevation of dwellings from sea level’ would be hazard-relevant indicators.Types
Climate change vulnerability has a wide variety of different meanings and uses of the term have varied and evolved over time. The main distinction is between biophysical and social (or socioeconomic) vulnerability: * Biophysical vulnerability is about the effects of physical climate hazards such as a heat wave or heavy rain events * Social vulnerability considers the many political, institutional, economic and social structures that form the context for climate changeBiophysical or (physical) vulnerability
Early studies focused on biophysical vulnerability to climate change. In other words, the effects of physical climate hazards such as a heat wave or heavy rain events. This direction of research was shaped by earlier natural hazards research and it emphasised physical changes and energy flows in the landscape. It aims to quantify and measure the impacts of an event on the environment and on people. It plays down the role of people themselves in managing these impacts. Since (biophysical) vulnerability is interpreted here as the negative outcome of climate change on people or places, it is also sometimes referred to as 'outcome vulnerability'. Physical vulnerability tends to focus on outcomes of monetary loss and disruptions. It is also sometimes defined as the "degree of loss" on a scale of 0 (no loss) to 1 (total loss). In this framework, for example, physical vulnerability to surface water hazards in mountain areas has been widely studied.Social (socioeconomic) vulnerability
Social vulnerability is a more people-centred, holistic perspective on how and why people are affected by climate change. Vulnerability of ecosystems and people to climate change is driven by certain unsustainable development patterns such as "unsustainable ocean and land use, inequity, marginalization, historical and ongoing patterns of inequity such asOther categories
Geographic, or place-based vulnerability to climate change is an important dimension. The most geographically vulnerable locations to climate change are those that will be impacted by side effects of natural hazards, such as rising sea levels and by dramatic changes in ecosystem services, including access to food. Island nations are usually noted as more vulnerable but communities that rely heavily on a sustenance based lifestyle are also at greater risk. Around the world, climate change affects rural communities that heavily depend on their agriculture and natural resources for their livelihood. Increased frequency and severity of climate events disproportionately affects women, rural, dryland, and island communities. This leads to more drastic changes in their lifestyles and forces them to adapt to this change. It is becoming more important for local and government agencies to create strategies to react to change and adapt infrastructure to meet the needs of those impacted. Various organizations work to create adaptation, mitigation, and resilience plans that will help rural and at risk communities around the world that depend on the earth's resources to survive.Scale
It has been estimated in 2021 that "approximately 3.3 to 3.6 billion people live in contexts that are highly vulnerable to climate change". The vulnerability of ecosystems and people to climate change is not the same everywhere: there are marked differences among and within regions (see regions that are particularly vulnerable below). Vulnerability can also increase or decrease over time.People who are more vulnerable
People who are more vulnerable to the effects of climate change than others include for example people with low incomes, indigenous peoples, women, children, the elderly. For example, when looking at the effects of climate change on human health, a report published in '' The Lancet'' found that the greatest impact tends to fall on the most vulnerable people such as the poor, women, children, the elderly, people with pre-existing health concerns, other minorities and outdoor workers. There can be "structural deficits related to social, economic, cultural, political, and institutional conditions" which would explain why some parts of the population are more impacted than others. This applies for example to climate-related risks to household water security for women in remote rural regions in Burkina Faso or the urban poor inThe Impact of Climate Change on Health Outcomes
Varying Racial and Ethnic Groups
The extent to which climate change can negatively impact the health outcomes of populations may vary amongst different racial and ethnic groups across the globe. It is also important in this case to note that social positions can be denoted by race or ethnicity. Therefore, there can exist a variance in health outcomes as a result of differences in exposure and accessibility to healthcare to mitigate the health damages caused by climate change. It is understood that increased exposure to high temperatures as a result of global warming can lead to acute heat-related illnesses such as heat stroke or can aggravate pre-existing conditions. In a study done in Los Angeles, California during a heat wave, it was found that African American populations were at greater risk of mortality. In fact, the mortality rate of African Americans during this 2006 heat wave was double that of the average population. Heat-related emergency department visits were also significantly increased for ethnic populations as there was a spike in emergency department visits found amongst Asian/Pacific Islander populations and African American populations. Although some may attribute the discrepancy in mortality and hospitalization rates among ethnic groups to physiological differences between populations, not enough evidence has been provided to support this statement. Rather, studies show that these differences in health outcomes amongst different racial and ethnic groups are more likely to be the result of socioeconomic variance. Racial minorities are more likely to be socioeconomically disadvantaged and are therefore more likely to take on underpaid high-risk occupations, live in hazardous areas, and have difficulty finding the financial resources to maintain a healthy level of thermal comfort. A study done in Phoenix, Arizona highlighted that more heat distress calls were made in neighborhoods consisting of primarily African American and low-income Hispanic populations. It is found that financially disadvantaged communities, often which are composed of ethnic minorities, have a propensity to be warmer neighborhoods despite the lack of access to means of thermal regulation. The urban heat island effect emphasizes the fact that urban areas tend to be most impacted. During a heat wave in Oklahoma City, a study examined the urban island heat effect in varying communities. It was found that the hotter inner city region, one densely populated by minority residents, was severely inadequately equipped with air-conditioning. This inadequate access to resources that allow for thermal regulation in homes, coupled with overcrowded living spaces in low-income, minority communities can be a significant health hazard. It is also important to discuss occupational hazards when elaborating upon the impact of climate change on the health outcomes of varying racial and ethnic groups. Extreme heat can be detrimental to outdoor workers. Several studies have revealed that the agricultural workforce has been negatively affected by the growing effects of climate change. The majority of agricultural workers are from Latin America, with also a significant population who are also composed of Asian and Caribbean migrants, and people of Native American and African American descent. In the same analysis done on the 2006 heat wave in California, it was found that there was a significantly increased rate of hospitalization for cardiac-related illnesses amongst crop workers of Hispanic backgrounds as a result of occupational hazards. To mitigate this concern, more relevant occupational health and safety training programs should be set in place and working conditions should be more carefully monitored. Language barriers may also play a role in the difference of health outcomes amongst varying ethnic groups as a result of climate change. Reduced access to English media and important public health statements as a result of linguistic barriers. This may also lead to a reduction of adaptive behavior and can put some individuals in danger of experiencing heat-related illnesses or exacerbating existing conditions.Older Adults (65+ years)
Introduction
As global temperatures rise, extreme weather events become more frequent, and air quality worsens due to climate change, older adults (aged 65 and above) face increased risks of heat-related illnesses, chronic disease, and infectious diseases. Both physiological vulnerabilities and sociological factors compound the risk of negative health outcomes that older adults face from climate change.Reducing vulnerability
Vulnerability can be reduced through climate change adaptation measures. For this reason, vulnerability is often framed in dialogue with climate change adaptation. Furthermore, measures that reduce poverty, gender inequality, bad governance and violent conflict would also reduce vulnerability. And finally, vulnerability would be reduced for everyone if decisive action on climate change was taken ( climate change mitigation) so that the effects of climate change are less severe.Climate change adaptation
Climate resilience
Climate justice
Equity is another essential component of vulnerability and is closely tied to issues of environmental justice and climate justice. As the most vulnerable communities are likely to be the most heavily impacted, a climate justice movement is coalescing in response. There are many aspects of climate justice that relate to vulnerability and resiliency. The frameworks are similar to other types of justice movements and include contractarianism which attempts to allocate the most benefits for the poor, utilitarianism which seeks to find the most benefits for the most people,Climate Vulnerable Forum
Measurement tools
Vulnerability assessment is important because it provides information that can be used to develop management actions in response to climate change. Climate change vulnerability assessments and tools are available at all scales. Macro-scale vulnerability assessment often uses indices. Modelling and participatory approaches are also in use. Global vulnerability assessments are based on spatial mapping using aggregated data for the regional or national level.Birkmann, J., E. Liwenga, R. Pandey, E. Boyd, R. Djalante, F. Gemenne, W. Leal Filho, P.F. Pinho, L. Stringer, and D. Wrathall, 2022Indicators and indices
Global indices for climate change vulnerability include the ND-GAIN Country Index, which measures national climate vulnerability globally, INFORM Risk Index and the WorldRiskIndex, which include social vulnerability indices. Indicator approaches are also used at national and sub-national levels. They use a composite index of many individual quantifiable indicators. To generate the index value or 'score', most often a simple average is calculated across a set of standardized values. However, sometimes weighting is done according what are thought to be the most important determinants of vulnerability. Climate vulnerability tracking starts identifying the relevant information, preferably open access, produced by state or international bodies at the scale of interest. Then a further effort to make the vulnerability information freely accessible to all development actors is required. Vulnerability tracking has many applications. It constitutes an indicator for the monitoring and evaluation of programs and projects for resilience and adaptation to climate change. Vulnerability tracking is also a decision making tool in regional and national adaptation policies.Vulnerability curves
Climate vulnerability curves are a method of assessing physical vulnerability on various sectors such as agriculture, infrastructure, health, and ecosystems. They show a relationship between different levels of climate-related hazards (like extreme temperatures, sea-level rise, or intense precipitation) and the effects, or damages.Papathoma-Köhle, M., Schlögl, M., Dosser, L., Roesch, F., Borga, M., Erlicher, M., ... & Fuchs, S. (2022)Tools for vulnerability assessment
Similarly as for climate risk assessment, tools for vulnerability assessment vary depending on the sector, the scale at which the study is being carried out, and the entity or system which is thought to vulnerable. Modelling and other participatory tools include WEAP for understanding water resource vulnerabilities and assessing adaptation options. The Vulnerability Sourcebook is a guide for practical and scientific knowledge on vulnerability assessment. Climate vulnerability mapping is also used to understand which areas are the most geographically vulnerable. A systematic review published in 2019 found 84 studies focused on the use of mapping to communicate and do analysis of climate vulnerability.By region and country
All regions of the world are vulnerable to climate change but to a different degree. With high confidence, researchers concluded in 2001 that developing countries would tend to be more vulnerable to climate change than developed countries. Based on development trends in 2001, scientists have found that few developing countries would have the capacity to efficiently adapt to climate change. This was partly due to their low adaptive capacity and the high costs of adaptation in proportion to their GDP. The Arctic is extremely vulnerable to climate change. It was predicted in 2007 that there would be major ecological, sociological, and economic impacts in the region. Among those being disproportionately impacted by issues regarding climate change have been the Indigenous peoples of the Arctic, such as the Inuit, Yupik, and Saami, who are particularly vulnerable. Traditional livelihoods, including hunting, fishing, and reindeer herding, are threatened by changes in ice conditions, wildlife migration patterns, and habitat availability. Additionally, thawing permafrost can damage infrastructure and contaminate water sources, posing health and safety risks to communities. Small island Developing States are particularly vulnerable to climate change. Partly this was attributed to their low adaptive capacity and the high costs of adaptation in proportion to their GDP. Climate change leads to more frequent and intense extreme weather events such as hurricanes, typhoons, and cyclones. Small islands are especially susceptible to these events, which can cause widespread destruction, loss of life, and economic setbacks. In comparison, the climate vulnerability of Europe is lower than in developing countries. This was attributed to Europe's high GNP, stable growth, stable population, and well-developed political, institutional, and technological support systems.See also
* Climate Vulnerability Monitor * Effects of climate change * Effects of climate change on human healthReferences
{{Climate change Climate change adaptation Risk analysis Vulnerability Climate change and society