Executive Summary
Climate
change is no longer a distant ecological challenge—it is a destabilising force
that intersects with water scarcity, food insecurity, migration, energy
collapse, and violent conflict. The article, The Web of Conflict – When
Scarcity Sparks Crisis, explores how climate-driven resource stress amplifies
existing vulnerabilities across fragile governance systems, urban centres,
rural economies, and global supply chains.
Spanning
five chapters, the analysis unpacks the systemic crises caused by drought in
Syria, water conflicts in South Asia, land grabs in Ethiopia, and urban
migration in Dhaka. It highlights how inequality, delay, and poor governance
transform environmental scarcity into political upheaval and human suffering.
Drawing on over 100 sources, the piece demonstrates that climate adaptation is
not only a technical or environmental issue—it is a test of justice,
leadership, and solidarity.
The
article concludes by presenting integrated, equity-centred strategies that
connect climate resilience with social inclusion, urban reform, communication
reform, and global cooperation. In an era of cascading risks, it argues for
nothing less than a paradigm shift: from reactive crisis response to proactive,
inclusive peacebuilding through climate action.
1
Climate
Stress and the Roots of Scarcity
1.1
Main
Message
Climate
change functions as a formidable stress multiplier, influencing various facets
of our socioeconomic and political systems. Climate change particularly affects
water resources, agriculture, and urban planning. For instance, water shortages
and crop failures are not merely environmental issues; they lead to profound
social repercussions, including community fractures, exacerbation of
inequalities, and potential civil unrest. The transformation of ecological
crises into human crises highlights the intricate linkages between
environmental phenomena and societal stability. Research indicates that the
contribution of fruits and vegetables to the water-scarcity footprint in diets
often surpasses 30% in regions like the UK, underscoring the intersection of
diet and water scarcity (Ridoutt et al., 2019). As elucidated in studies from
the US and Australia, the relationship between drought-induced salinity and
water scarcity further compounds these challenges, illustrating how multiple
stressors can drive local and global insecurity (Thorslund et al., 2022). A
comprehensive understanding of these interdependencies is essential for
developing effective strategies to mitigate water scarcity and its widespread
implications (Kummu et al., 2016).
Moreover,
the multifaceted nature of water scarcity is evident in varying geographical
contexts where underlying drivers include physical, economic, and institutional
factors. For instance, studies have shown that water use efficiency and
management practices are crucial in mitigating the impacts of climate
variability on water resources. In regions faced with chronic drought
conditions, both traditional wisdom and contemporary scientific practices are
needed to tackle the complexities of water management (Li & Long, 2019).
Various authors have stressed the need for integrated approaches to address not
only water scarcity but also the socioeconomic dimensions arising from it,
including health disparities and food security (Hassan & Maiwada, 2022).
1.2
Syria—Drought as a Conflict Multiplier
The
drought that struck Syria between 2006 and 2011 serves as a critical example of
how environmental stresses can exacerbate existing social and political
vulnerabilities, resulting in widespread civil unrest and eventual conflict. Drought,
characterised by severe water shortages and the failure of crops, particularly
in the eastern regions of the country, triggered profound socioeconomic
repercussions. Researchers estimate that approximately 1.5 million people fled
rural areas, notably those dependent upon agriculture and pastoralism, leading
to substantial migration toward overcrowded urban centres such as Aleppo and
Damascus (Eklund et al., 2024). The rapid urbanisation exacerbated by the influx
placed immense strain on already struggling urban infrastructure, contributing
to heightened unemployment and social tension among both migrants and long-time
residents (Kelley et al., 2015).
The
political context of Syria during the period equipped the drought with its
capacity as a conflict multiplier. Syria's governance framework was marked by
weakened institutions and pervasive corruption, along with inadequate responses
to the burgeoning agricultural crisis. Failing governance contributed
significantly to rising discontent among the populace, which, when coupled with
the impacts of the drought, acted as a catalyst for civil unrest. As noted in
various studies, the failure to address environmental degradation and its
socio-political ramifications can lead to heightened frustrations among an
already strained population (Cheung et al., 2020). Thus, it became apparent
that the environmental crisis not only served as a stress factor but also accelerated
political instability by creating fertile ground for civil discord (DeJong et
al., 2017).
Furthermore,
the interplay between environmental challenges and empirical research
demonstrates socioeconomic instability that identifies a significant
correlation between climate-related stresses and the onset of conflict.
Research has pointed out that during the catastrophic drought in Syria, the
resultant rural dislocation was coupled with a severe economic downturn,
further aggravating the political environment (Antoun et al., 2025). A complex
relationship, delineated in studies analysing the role of climate change in the
Fertile Crescent, underscores how such environmental factors can intertwine
with governance failures to facilitate unrest (Kelley et al., 2015). In
specific terms, these studies suggest that the direct impact of drought-induced
migration patterns tends to amplify existing grievances related to governance,
economic opportunities, and social equity (Abouzeid et al., 2021).
In
examining the impacts of the drought more narrowly, one might observe that the
severe consequences on agricultural production and water availability disrupted
traditional livelihoods and social systems that had been in place for
generations. In northeast Syria, where agriculture played a pivotal role in
economic and social stability, the drought led to an acute food crisis that
dramatically increased food prices (Tarnas et al., 2021). Escalation in prices
further intensified socioeconomic insecurities, as families coping with
diminished income from failed crops faced additional pressure from the inflated
costs of basic goods. The combination of food insecurity, livelihood loss, and
urban migration created a volatile environment, nurturing discontent that would
later culminate in widespread protests against the government (Alkhalil et al.,
2023).
When
discussing the broader implications of the Syrian drought as a conflict
multiplier, it is essential to consider the migration patterns it initiated. As
families relocated to urban centres in search of better opportunities, they
encountered existing social issues such as unemployment and inadequate public
services, which left them even more embittered. Research indicates that these
newly displaced populations often faced hostility from urban residents, which
further aggravated civil tensions (Abou‐Saleh
& Mobayed, 2013). Thus, the drought-induced migration does not merely
represent a demographic shift but is closely linked to the socio-political
fracturing that precipitated the civil war in 2011 (Eklund et al., 2024).
The
social dynamics resulting from climate impacts are critical to understanding
the broader narrative of the Syrian civil war. The influx of displaced
populations altered social fabrics within cities, where overstretched resources
and limited job opportunities led to an environment rife with competition and
discord. Government inaction exacerbated the pressure cooker atmosphere and the
apparent inability to provide services and support to both longstanding
residents and new migrants. Studies have underscored that in times of acute
environmental stresses, it is often the disenfranchised segments of
society—those already marginalised by socioeconomic disparities—who face the
brunt of the crisis, potentially leading them towards radicalisation or unrest
as a form of expressing their desperation and grievances (Haar et al., 2018).
Analysing
the Syrian experience through the lens of climate adaptation and resilience
highlights the paramount importance of integrating environmental considerations
into governance and planning frameworks. Evidence suggests that early climate
adaptation strategies, improved public services, and community resilience programmes
can play crucial roles in mitigating the adverse effects of climate stresses
before they amplify socio-political tensions. In the case of Syria, the absence
of effective governance and planning in the face of escalating climate
pressures exacerbated the vulnerabilities of communities already grappling with
weak economic conditions (Darvish et al., 2023).
To
capture the essential relevance of the Syrian drought experience for broader
climate-conflict discussions, it is vital to recognise the intricate
interdependencies between environmental health, social cohesion, and political
stability. The Syrian case demonstrates how the compounding effects of climate
change, when juxtaposed against ineffective governance, can lead to profound
humanitarian crises, emphasising the urgent need for proactive, integrated
policy measures to build resilience in vulnerable communities (Ismail et al.,
2016; Kallström et al., 2020). These lessons are not unique to Syria but
resonate globally, where various nations face similar risks as climate change
continues to exert pressure on socio-political stability.
The
Syrian case is not isolated. Across the Sahel, for example, repeated droughts
have led to widespread displacement, fuelling recruitment by militant groups.
In Central Asia, shrinking rivers and outdated irrigation systems have
triggered regional tensions. These examples highlight how diverse ecological
pressures can yield similar patterns of instability, migration, and unrest, underscoring
the need for integrated resilience across regions.
In
conclusion, the intersection of environmental stressors and governance failures
in Syria provides a poignant lesson in the complexity of contemporary conflicts
shaped by climate change. As the Syrian conflict unfolds, it remains an
essential study for understanding how climate shocks can act as both a symptom
and a catalyst of deeper societal rifts. Addressing these multivariable factors
requires recognition from policymakers and international organisations alike
that, to avert future conflicts, policymakers must frame climate adaptation as
an integral component of sustainable peacebuilding strategies.
1.3
From Denial to Delay
While
the blatant denial of climate change is declining in mainstream discourse, a
new narrative of delay has started to take its place. Discourse accepts the
reality of climate change but promotes various strategies for deferring action,
often by emphasising the costs associated with climate adaptation or
mitigation. The present trend suggests a shift in strategy that can be
detrimental to progress, especially as it can lead to inaction under the guise
of complexity and uncertainty (Dolan et al., 2021). For instance, the emphasis
on technical challenges in water management often distracts from urgent action
needed to address immediate water scarcity issues exacerbated by climate change
(Ioris, 2012). An equitable response requires that stakeholders recognise and
challenge these delay tactics, fostering a climate of accountability and
urgency.
Delaying
actions to confront water scarcity has far-reaching consequences. By shifting
responsibility to different actors—be it governments, communities, or
industries—these narratives not only stall progress but also undermine
collective actions essential for resilience (Degefu et al., 2018). Research
indicates that clear communication about the immediate impacts of water
scarcity and climate change can shift public perception and motivate
engagement, emphasising the urgency for innovative policy interventions (She et
al., 2024). Efforts to reduce water consumption and enhance conservation
measures can be more effective when the messages resonate with public values
and urgency.
1.4
Framing Climate as a Human Story
Effective
communication about climate change must transcend abstract data and statistics,
presenting the issue in a manner that resonates with people's lived
experiences. The framing of climate change in human terms—focusing on health,
employment, dignity, and food security—can galvanise action and foster a more
inclusive dialogue (McNally et al., 2019). Fear and paralysis are often the
result of alarmist rhetoric; however, narratives that highlight shared values
and tangible outcomes are more likely to inspire engagement from diverse societal
segments (Wang et al., 2024).
For
example, the water scarcity footprints associated with various diets highlight
both individual behaviour and broader systemic change. Studies have shown that
diet modifications can have substantial implications for water usage,
presenting an opportunity for public health campaigns to align dietary
recommendations with water conservation goals (Ridoutt et al., 2019; Rose et
al., 2022). Furthermore, local water scarcity can propagate through global
supply chains, indicating that individual choices matter within larger systemic
contexts (Wang et al., 2024). By portraying the significance of water
conservation as a shared societal concern, communities can coalesce around
solutions that address immediate water challenges while also contributing to
broader environmental sustainability (Graham et al., 2020).
Greater
emotional engagement is necessary to build a robust movement for climate
action. Establishing connections between climate impacts and everyday realities
can encourage proactive behaviours, ensuring that communities feel empowered
rather than overwhelmed by the looming threats of climate change (Dahri et al.,
2021). The latest research suggests that localised, community-oriented
strategies that recognise vulnerable populations are crucial in fostering
resilience against climate-related stressors, including water scarcity (Hietala
et al., 2023). approach underscores the importance of incorporating diverse
narratives and experiences in climate discourse, thereby enriching the
conversation and expanding the coalition for action.
Ultimately,
reframing the climate narrative is not merely an academic exercise but a vital
strategy for spurring real progress against water scarcity and the myriad human
issues it engenders. As emphasised in multiple studies, a reframed narrative
acknowledges the intersectionality of environmental action with socioeconomic
realities, thereby inviting broader public and political engagement (Degefu et
al., 2018; Dolan et al., 2021; Wang et al., 2024). Each study contributes
crucial perspectives that enrich our understanding of the complexities
surrounding climate change and its implications for water scarcity, ultimately
empowering stakeholders to enact meaningful change.
2
Conflict Over Water, Land,
and Food
2.1
Water Wars and Displacement
In regions characterised by socio-political
fragility, such as the Middle East and South Asia, dwindling water resources
serve as both a pressure point for existing tensions and a catalyst for new
conflicts. Shared rivers and aquifers become increasingly politicised under
conditions of scarcity, frequently triggering disputes over access and rights.
Recent analyses underscore that competition over water resources can exacerbate
inter-ethnic tensions and provoke violence, particularly in areas where
governance is weak and institutions are unable to manage shared resources
equitably (Jafry, 2016). As water shortages become more pronounced due to
climate change and increasing population pressures, neighbouring communities
are at risk of heightened friction, which can lead to armed conflict as
demonstrated in places like the Nile Basin and the Tigris-Euphrates region
(Bajwa, 2023).
Moreover, drought-induced migration poses
significant risks, as drought and scarcity compel families to leave their homes
in search of water and food security. Movement can strain already burdened
urban centres and alter demographic dynamics, sometimes inciting xenophobic
sentiments in host communities (Cheng, 2016). A case study from Southern Iraq
illustrates how internal displacement due to water scarcity has intensified
social grievances, laying the groundwork for unrest (Bajwa, 2023). Thus, there
is an interplay between water scarcity and governance. Analysts must consider
migration in any comprehensive assessment of environmental conflict dynamics. Additionally,
the historical context reveals that water rights disputes have historically led
to violent confrontations, making challenges a defining aspect of future
socio-political landscapes.
2.2
India-Pakistan – Indus Water Conflict
The Indus River, a critical water source
for both India and Pakistan, is governed by the 1960 Indus Waters Treaty (IWT).
However, ongoing climate change impacts—specifically reduced glacial melt and
altered seasonal flow patterns—have intensified the vulnerabilities of both
nations regarding water security. Reports indicate that India's construction of
dams upstream has raised serious concerns for Pakistan regarding potential
treaty violations and water availability, leading to growing diplomatic
tensions and mutual accusations between the two nuclear-armed states (Munir et
al., 2021; Imran, 2021). Climate-induced alterations in river patterns threaten
agricultural productivity for millions relying on these waters and exacerbate
fears of potential conflicts over water resources (Aslam, 2022; Mehsud et al.,
2020).
The implications of water conflict extend
beyond agricultural concerns; they touch upon the geopolitical stability of the
South Asian region. Studies have suggested that exacerbated climate variability
could transform diplomatic disputes into violent conflicts over shared water
resources (Mehsud et al., 2020). Dynamic illustrates the necessity for robust
climate-resilient treaties and cooperative governance over transboundary
rivers. As the situation evolves, the need for collaborative strategies that
prioritise sustainable use and equitable sharing of water resources becomes
urgent (Munawar, 2018; Imran, 2021). Poor management of rising competition for
diminishing water supplies could lead to significant instability and conflict
in an already fraught regional landscape.
Moreover, the historical context
underscores that water disputes deeply interweave tensions among affected
communities and the broader political landscape of India and Pakistan. The
colonial legacy of irrigation projects established during British rule has
further complicated contemporary water-sharing arrangements, as both nations
continue to grapple with historical grievances (Imran, 2021; Hassan, 2023). An
analysis of the Indus water disputes reveals that underlying power imbalances
and historical animosities fuel perceptions of mistrust and competition, making
it challenging to resolve these water-related conflicts (Haines, 2013;
Mukhopadhyay, 2024). Ambiguities in the interpretation of the IWT and stakeholders'
particular debate on infrastructure development on the western rivers, which
Pakistan relies on, have also been a recurrent source of friction (Munir et
al., 2021; Imran, 2021).
In addressing the impacts of the Indus
Water Conflict, it is essential to recognise its profound effects on both
nations' agricultural sectors. With millions dependent on these rivers for
their livelihoods, the implications of climate change and water management
decisions are dire. Reports suggest that Pakistan, as a downstream riparian
state, faces acute vulnerabilities to any modifications in water flow
orchestrated by upstream dams in India, potentially leading to agricultural
shortfalls and further economic distress (Impiani, 2019; Imran, 2021). The
intersection of water, agriculture, and climate change amplifies concerns
regarding food security, which could incite social unrest and escalate
political tensions across both nations.
Furthermore, studies consulting the
Hydro-Hegemony Framework argue that India's superior position as an upstream
power significantly affects its interactions with Pakistan regarding water
management, pointing to a potential for future negotiations that proactively
address these dynamics (Bakhtiar et al., 2023; Imran, 2021). Without a genuine
commitment to equitable resource management that includes transparency and
cooperative dialogue, the prospects for improved bilateral relations remain
bleak. Innovative solutions that harness joint governance while integrating
climate adaptations into water-sharing agreements are paramount in mitigating
future conflicts (Hassan, 2023; Kadir, 2019).
The urgency to reformulate the IWT in light
of climate change and various scholars underscores increased water scarcity,
who emphasise the importance of joint management of transboundary water
resources in a warming world (Mehsud et al., 2020). Collaborative frameworks
should not only encompass equitable access to water but also incorporate
provisions for climate resilience that anticipate future challenges while
upholding the rights of all riparian states (Kadir, 2019). Strong leadership
and trust-building measures from both sides are vital to navigate the
complexities inherent in the current political climate.
In essence, the Indus Water Conflict serves as a crucial case study illustrating the multifaceted relationships between climate change, water security, and international diplomacy. The intertwining of agricultural sustainability and water disputes has wide-reaching implications for regional stability, making it evident that collaborative governance approaches and climate-resilient treaties are essential to avert future conflicts. As both nations grapple with the existential challenges posed by climate change, stakeholders must build the path forward on mutual understanding, comprehensive dialogue, and shared commitments to sustainable hydrology.
2.3
Land
Degradation and Inequity
Climate-linked land degradation
significantly contributes to the displacement of rural populations while simultaneously
exacerbating existing inequalities. As fertile land becomes increasingly scarce
due to climate change, such as rising temperatures, erratic rainfall patterns,
and salinisation, local communities often find themselves dispossessed at the
hands of elites or corporations who utilise legal and corrupt means to gain
control over prime agricultural areas (Bailey, 2017; Periyasamy, 2019). The
trend of land grabbing has intensified in many developing countries, leaving
local farmers landless and powerless, a situation that harms their livelihoods
and inflicts deep social grievances that can ignite protests or insurgency
(Said et al., 2023; Singh et al., 2024).
Research highlights that communities that have historically depended on agriculture face unique vulnerabilities when climate change intensifies land degradation. As these grassroots populations lose their land, they experience profound economic and social disempowerment (Mwalukasa, 2013). The rise in land inequities catalysed by climate-related events and corporate interests further alienates these communities from necessary resources, worsening their standings in the global socioeconomic hierarchy. Addressing land degradation and its social implications must therefore be central to climate strategies that seek to promote environmental justice and equity (Devi et al., 2023). Furthermore, policymakers must restructure governance frameworks to protect the rights of local populations while ensuring sustainable land management practices (Umetsu & Miura, 2023).
2.4
Ethiopia – Gambela Land Grabs
In Ethiopia's Gambela region, the
phenomenon of land grabbing is profoundly affecting the livelihoods of
indigenous communities. Since the early 2000s, the government has leased vast
tracts of land to foreign investors under agricultural schemes. These
investments have frequently been implemented with little consultation or
compensation for local populations who depend on these lands for their survival
and cultural identity (Teklemariam et al., 2017; Liao et al., 2020). Evidence
suggests that the ongoing climate instability, characterised by erratic
rainfall and variable growing seasons, has further decreased land fertility in
Gambela, creating a dual crisis of environmental degradation and socioeconomic
disempowerment (Zecca & D'Errico, 2021).
The impacts of these land grabs on
indigenous communities are multifaceted. Displacement is one of the most
immediate consequences. These actions often dismantle traditional livelihoods
and undermine cultural identities(Shete, 2020). Communities that previously
thrived on subsistence agriculture have seen their access to fertile land
substantially restricted, leading to food insecurity and economic instability.
Research confirms that the influx of large-scale agricultural projects has
provoked significant social tensions and conflicts over land rights,
illustrating the precarious balance between development aspirations and the
preservation of local rights (Woldeamanuel, 2019). These conflicts highlight
the urgent need for governance frameworks that respect land rights and
incorporate the voices of local communities in decision-making processes.
Moreover, the combination of these
socioeconomic pressures with climate stress intensifies the risk of violence
and long-term instability in the region. Empirical studies have shown that
marginalisation and displacement can lead to increased grievances among
affected communities, creating an environment ripe for conflict (Kedir et al.,
2016). As crop production falters due to both climate change and expropriation
of land, competition for diminishing resources escalates, potentially igniting
violence among displaced communities and local authorities. The scenario
underlines the complex relationship between climate vulnerability and
displacement, and policymakers must address rights over land to prevent the
deterioration of social cohesion and stability. (Rulli et al., 2013).
The situation in Gambela serves as a
poignant reflection of the broader trends observed in many developing nations
where vulnerable populations find themselves at the forefront of the global
land-grabbing phenomenon. Numerous studies have pointed out that land grabbing
often produces adverse social and environmental consequences, particularly when
investments prioritise profit over local welfare (Shitaye et al., 2018). The
notion of land justice emerges strongly from these circumstances, where
equitable land-use policies and inclusive development strategies are not merely
desirable but essential for fostering resilience under climate pressures (Zecca
& D'Errico, 2021).
Furthermore, scholars argue for the
necessity of clear legal frameworks that protect local land rights and promote
participation in decision-making relating to land acquisition (Shete, 2020).
Current policies often favour foreign investment over the rights of indigenous
communities, leading to significant challenges related to social equity and
justice. Observations in the region have revealed a consistent marginalisation
of local populations in favour of corporate interests, which prevails despite
the wealth of knowledge and practices indigenous communities possess regarding
land management and sustainability (Teklemariam et al., 2017; Shete, 2020).
The Gambela case accentuates the urgent
need to rethink agricultural strategies in Ethiopia, and we must anchor them in
principles of justice and sustainability to ensure long-term impact that will
not exacerbate the current vulnerabilities of agricultural communities.
Engaging in participatory governance that involves those most affected by land
grabs can foster more equitable development outcomes and recognise the
intrinsic connection between communities and their land (Liao et al., 2020;
Rulli et al., 2013).
In conclusion, the land grabs in Gambela exemplify the critical intersectionality of climate vulnerability, displacement, and land rights, emphasising that a multidimensional approach is essential to address the inequities facing indigenous communities. A comprehensive strategy aimed at achieving land justice involves recognising the rights of local populations, adapting agricultural practices to climate realities, and ensuring governance frameworks that preempt conflict. Only through such an integrated approach can Ethiopia hope to mitigate the adverse impacts of climate change while securing the livelihoods and rights of its most vulnerable populations.
2.5
Food System Breakdown and Market Shocks
The link between extreme weather events and
food system breakdown is palpable, as crop failures due to climate change lead
to diminished food availability and soaring prices. These conditions create a
precarious landscape for low-income communities, which often face the brunt of
food shortages due to their limited purchasing power (Martin et al., 2024;
Drastig et al., 2012). Historical events, such as the food price riots prior to
the Arab Spring, illustrate the volatile relationship between food security and
social stability. The situation in Tunisia, for example, demonstrated that surging
food prices can lead to widespread civil unrest when people are unable to meet
their basic needs (Jain & Mazhar, 2024).
Empirical data underscores the notion that climate-induced food shortages are likely to trigger political instability, particularly in regions with significant pre-existing vulnerabilities (Sultana, 2021). Agricultural systems that rely heavily on rainfed irrigation are especially susceptible to market shocks from climate impacts, resulting in compounded financial stresses for farming communities (Khajuria & Ravindranath, 2012). Consequently, as policy discussions unfold around food security, it is essential to recognise the multifaceted risks that climate change poses to agricultural systems and food prices across the globe. Addressing these issues proactively through resilient agricultural practices and policies can mitigate these risks and foster more stable food systems (Siddiqui et al., 2022).
2.6
Horn of Africa—2022 Drought
In 2022, the Horn of Africa experienced a
severe multi-season drought that significantly impacted Ethiopia, Somalia, and
Kenya. The drought was characterised by prolonged dry spells and erratic
rainfall patterns, which led to widespread crop failures and critical water
shortages across the region (Marthews et al., 2019). Such adverse climatic
conditions, exacerbated by underlying governance issues and inadequate
infrastructure, precipitated a humanitarian crisis of significant scale.
Millions of individuals were pushed into famine conditions, leading to a
humanitarian emergency that overwhelmed existing aid responses (Cerdà-Bautista
et al., 2023).
The drought's impacts were starkly visible
in the agricultural and pastoral societies that characterise the Horn of
Africa. Traditional livelihoods were decimated as livestock died in large
numbers and crop yields diminished, leading to significant displacement as
communities sought to escape the dire conditions (Senay et al., 2023). The
combination of resource scarcity and displacement has fuelled localised
conflicts over water and arable land, aggravating tensions in already
vulnerable areas. The situation reflects research demonstrating that extreme
weather events can exacerbate existing socioeconomic disparities and tensions,
potentially leading to violent confrontations among different groups competing
for diminishing resources (Weezel, 2019; Alasow et al., 2024).
Scientists and researchers have identified
climate change as a key driver behind the growing frequency and intensity of
extreme weather events in the Horn of Africa. Research links human-induced
climate change to the intensification of droughts, highlighting how rising
temperatures and experts expect altered precipitation patterns to worsen
conditions in already vulnerable regions (Tafelmeyer et al., 2024). The
scenario of recurrent droughts indicates a broader systemic crisis where climate,
governance, and social stability intersect precariously. Studies suggest that
failures to address the multifaceted impacts of climate stress can increase
susceptibility to conflict and humanitarian emergencies (Usman & Nichol,
2018).
Pre-existing vulnerabilities and systemic
deficiencies critically hampered the humanitarian response to the 2022 drought
in governance. Reports suggest that the capacity of aid organisations and
governments to mobilise and allocate resources effectively was severely
challenged by the scale of the crisis (Walker et al., 2022). Early warning
systems, essential for anticipating drought impacts, were often inadequately
developed, leading to a rapid decline into famine conditions (West et al.,
2024). The pressing need for enhanced drought resilience measures and improved
regional cooperation emerged as crucial lessons from the 2022 crisis,
presenting a pathway for more effective future responses.
In terms of regional cooperation, the
complex interplay between the affected nations underscores the necessity for
collaborative frameworks for managing shared resources and addressing the
impacts of climate change. Efforts aimed at fostering regional cooperation in
water and food security management are vital to mitigate future drought impacts
and enhance resilience across borders. Such systemic approaches could include
developing integrated water resource management strategies that take into
account the shared nature of hydrological resources among Ethiopia, Somalia,
and Kenya (Vogels et al., 2019).
These shocks did not remain local. Global
grain prices surged, highlighting how regional droughts in food-exporting
countries like Ethiopia or Kenya can disrupt supply chains worldwide. In a
globalised food system, local climate breakdowns can quickly ripple through
markets, worsening hunger and social unrest in far-off regions.
The Horn of Africa's 2022 drought
highlights a critical opportunity for advancing regional agendas focused on
climate resilience, resource management, and humanitarian preparedness. By
prioritising inclusive policies that engage local communities in
decision-making processes, governments can better target interventions that
meet the needs of vulnerable populations (Cerdà-Bautista et al., 2023).
Furthermore, incorporating climate-risk assessments into planning processes may
provide the necessary tools to enhance adaptive capacity and reduce
vulnerabilities to future shocks (Measho et al., 2021).
In conclusion, the catastrophic drought of 2022 in the Horn of Africa serves as a stark reminder of the cascading crises that may arise from recurrent climatic extremes, particularly in vulnerable regions. Moving forward, it is imperative that all stakeholders—governments, humanitarian organisations, and local communities—collaborate effectively to build drought resilience and mitigate the impacts of climate change. The lessons learnt from the drought crisis must inform future strategies, better equipping the region to face the challenges posed by a changing climate and ensuring that such tragedies do not recur.
2.7
Agricultural Justice and Inequality
Existing food and farm policies often
disproportionately favour large agricultural producers, sidelining smallholders
and marginalised communities, particularly women and Indigenous farmers. Discrepancy
can exacerbate inequities in resource allocation and access to market
opportunities, leaving smaller farms vulnerable to climate impacts (Islam et
al., 2015; Yang et al., 2022). The focus on large-scale, industrial agriculture
enhances the vulnerability of smallholders, who may lack the technological
resources to adapt to changing climate conditions (Bajwa, 2023). In many
developing countries, smallholder farmers constitute a significant portion of
the agricultural workforce, yet their voices and needs are frequently
overlooked in policy discussions (Potenko & Emelianov, 2018).
To ensure a just food system, it is
essential to address these institutional biases by implementing policies that
consider the needs of all stakeholders, particularly those impacted by climate
injustice (Patle & Libang, 2014). As advocated by various scholars,
promoting equitable access to resources, fair pricing structures, and legal
protections for land and labour rights is crucial in creating a more inclusive
agricultural landscape (Sabola, 2023). Moreover, strategies designed to enhance
resilience must focus on empowering smallholder farmers through education,
access to technology, financial support, and market opportunities (Timmermann,
2021). Transitioning to a more equitable and resilient agricultural framework
is imperative for maintaining food security and fostering stable communities in
an era of climate uncertainty.
In summary, the intertwined challenges of
water scarcity, land degradation, food system shocks, and social inequity
present a complex array of risks exacerbated by climate change. Understanding
these dynamics is vital for formulating effective policy responses that not
only address the immediate environmental crises but also alleviate the
underlying social injustices. Transformative approaches that centre on
environmental sustainability and social equity can lead to resilient
communities capable of navigating the uncertainties posed by climate change.
3
Cities, Livelihoods, and the Fragile
Infrastructure of Survival
3.1
Urban Overload and Climate Migration
The surge in climate-driven displacement is
flooding cities with new residents who are fleeing adverse environmental
conditions, such as extreme droughts, flooding, and rising sea levels. Migration
often overwhelms urban areas that already struggle with inadequate housing,
sanitation, and health services. As documented in research on climate-induced
migration, cities across the globe are becoming hotspots where informal
settlements are rapidly expanding, usually in flood-prone or heat-vulnerable
areas (Mittal et al., 2024). creates precarious living conditions and increases
the risk of disease outbreaks and violence, as competition for scarce resources
intensifies (Bonifacio, 2023).
Such migrations are particularly poignant
in the context of the Horn of Africa, where recurring droughts have led to significant
urban migration. Climate shocks have displaced an estimated 38 million people, exacerbated
public health crises linked to overcrowded living conditions (Cerdà-Bautista et
al., 2023). The precarious nature of these informal settlements not only
highlights existing vulnerabilities but also raises questions about the
capacity of urban infrastructure to cope with climate impacts. As noted in the
literature, many of these informal settlers lack access to safe water and
sanitation facilities, making them more susceptible to diseases and
contributing to degraded health outcomes (Marthews et al., 2019).
Further exacerbating these urban crises is the reality that unplanned migration can lead to the emergence of social tensions, often delineated along ethnic lines. In regions where historical grievances coexist, increased migration can fuel conflicts as communities vie for limited resources (Mittal et al., 2024). The relationship between urbanisation and climate migration illustrates a critical need for integrated urban planning and resilient infrastructure that takes into account the potential impacts of climate change (Weezel, 2019).
3.2
Dhaka, Bangladesh—Climate
Urban Migration
Rising sea levels and increased frequency
of cyclones in coastal Bangladesh have rapidly displaced millions of
individuals, many of whom relocate to Dhaka, the capital city. The phenomenon
of climate migration is significant, as it imposes substantial pressures on a
city already grappling with overpopulation and inadequate infrastructure. The
influx of new residents strains Dhaka's housing, water supply, sanitation, and
health services, resulting in the rapid proliferation of informal settlements
in vulnerable areas (Parvin & Shaw, 2011; Miklian & Hoelscher, 2020).
These settlements frequently lack sufficient sanitation facilities and other
essential services, increasing the inhabitants' exposure to health hazards and
leading to rising urban poverty (Swapan et al., 2017; Medimorec, 2013).
The impacts of climate migration on Dhaka's
infrastructure are profound. As the city struggles to accommodate the wave of
newcomers, the tension between resource availability and demand intensifies.
The resultant overcrowding not only threatens public health due to unsanitary
conditions but also escalates the risk of social conflicts as competition for
resources inevitably heightens (Miklian & Hoelscher, 2020; Zaman, 2014).
More critically, these informal settlements are often located in flood-prone or
heat-vulnerable areas, putting residents at continuous risk of climate-induced
disasters, which further limits their prospects for improving their livelihoods
(Shourav et al., 2016).
Research underscores that Dhaka is among
the most climate-vulnerable cities globally, facing increasing hazards due to
its geographical location and sociopolitical landscape. Vulnerable populations,
particularly those newly arrived from rural regions devastated by
climate-related events, find themselves economically marginalised and socially
excluded from essential urban services (Miklian & Hoelscher, 2020; Mortoja
& Yiğitcanlar, 2020). Moreover, marginalisation deepens existing
inequalities, as the poorest residents struggle to access employment
opportunities and basic amenities (Roy et al., 2024).
The relevance of the situation extends
beyond individual hardship and speaks to broader urban development and climate
resilience challenges. It exemplifies how climate migration can exacerbate
urban crises, particularly when city planning fails to anticipate or
accommodate population shifts. As noted by various scholars, cities like Dhaka
must evolve into centres of climate resilience rather than dynamics that
bottleneck social stress and conflict (Ibáñez et al., 2022). Sustainable urban
planning must prioritise adaptive strategies, including the incorporation of
climate data into urban policies and planning frameworks, to mitigate the
unfolding crises (Swapan et al., 2017; Ahmed et al., 2014).
Furthermore, as indicated in the prepared
references, robust planning must integrate comprehensive risk assessment and
improve basic service delivery to vulnerable populations, focusing on their
unique needs. Access to clean water, waste management, housing security, and
healthcare services must become focal points in the development agenda to build
resilience in urban environments facing climate-induced challenges (Ibáñez et
al., 2022; Miklian & Hoelscher, 2020; Roy et al., 2024).
In conclusion, the dynamic of climate migration into Dhaka underscores the urgent need for integrated urban resilience strategies that address not only climate change impacts but also social inequalities and infrastructural deficits. By addressing the factors that contribute to vulnerability and marginalisation, policymakers can help secure a more sustainable future for both migrants and the existing population in Dhaka.
3.2. Energy Poverty and Heat
Inequity
The demand for electricity surges during
heat waves, particularly in urban areas where the use of cooling systems
becomes essential. However, energy systems frequently fail to meet the needs of
the poor, who lack access to consistent power supplies or the financial means
to afford cooling services. The phenomenon, referred to as energy poverty, has
evolved into a public health crisis, exacerbating vulnerabilities, particularly
in urban slums and underfunded rural areas (West et al., 2024).
Research indicates that during extreme heat
events, the population that suffers the most includes those living in informal
settlements, which often lack basic infrastructure and reliable connections to
energy systems. Rising temperatures acutely impact the health of the poor,
increasing their risk of illness and death, who are at greater risk for
heat-related illnesses but do not possess the necessary resources to mitigate
these impacts (Sangeetha & Usha, 2022). The situation highlights the
imperative for policies aiming to expand access to affordable and sustainable
energy solutions as part of broader climate adaptation strategies (Walker et
al., 2022).
Empirical studies emphasise that the
inequity of energy access is not merely an issue of supply but one of
structural inequities deeply entwined within societal frameworks. Vulnerable
populations often face compounded disadvantages, which lead to significant
barriers in accessing energy resources. The situation calls for a reevaluation
of energy distribution policies to ensure equitable access while addressing the
urgent demands of climate resilience (Measho et al., 2021).
3.3 South Africa – 2021 Energy Crisis
In 2021, ageing coal infrastructure triggered a significant energy crisis in South Africa, causing nationwide blackouts, inadequate energy planning and the impacts of climate-related stresses. The reliance on coal, coupled with insufficient investment in renewable energy sources and grid upgrades, contributed to an unstable power supply that often could not meet the increasing electricity demands, particularly during extreme weather events such as heat waves (Bohlmann & Inglesi‐Lotz, 2021). The crisis further highlights the vulnerabilities inherent in South Africa's energy landscape.
The blackouts disproportionately affected low-income communities, which typically lack the resources for generators or backup power systems. As a result, these populations bore the brunt of the crisis, experiencing disruptions to essential services, including health care and household activities (Wright et al., 2024; Kanosvamhira, 2024). Vulnerable residents in township areas faced additional hardships due to the energy crisis, which deepened the existing inequalities related to access to energy and essential services. The situation elucidated significant gaps in energy justice, demonstrating how systemic inequalities can exacerbate the impact of climate stress on disadvantaged populations (Xaba, 2023).
Research indicates that such rolling blackouts have far-reaching implications for public health, especially in a context where healthcare facilities rely heavily on consistent electricity for the adequate provision of care (Wright et al., 2024). The interruptions can lead to delayed medical services and increased risks associated with life-saving technologies. Furthermore, the economic implications of the blackouts are vast, as small businesses that operate within informal sectors may struggle to maintain productivity under these conditions (Bohlmann & Inglesi‐Lotz, 2021).
The relevance of the 2021 energy crisis in South Africa serves as a stark example of how energy transitions must focus on addressing inequality while simultaneously building resilience against climate impacts. Future energy systems must be inclusive, ensuring reliable access for all communities, especially the marginalised (Xaba, 2023; Dorrington & Schulz‐Herzenberg, 2024). The energy challenges experienced during this period highlighted the necessity for a paradigm shift toward sustainable energy solutions that incorporate renewable resources and engage vulnerable populations in energy planning efforts.
To develop a more resilient energy future, South Africa must embrace comprehensive policies that address the structural barriers preventing equitable access to electricity while responding to the urgent need for sustainability. Successful transitions must include investments in decentralised energy systems, as well as policies explicitly incorporating social equity considerations into energy governance frameworks, thereby aiming to close the access gaps exacerbated by systemic inequality (Xaba, 2023).
Additionally, the government and relevant
stakeholders must engage with local communities to identify specific energy
needs and tailor responses accordingly. Investment in renewable energy
technologies not only assists in reducing reliance on fossil fuels but also
offers opportunities for job creation and economic development in communities
previously sidelined by energy policies (Xaba, 2023).
Policies supporting just energy
transitions—like decentralised solar grids or public cooling shelters—can
provide affordable, low-emission energy for the most affected populations,
reducing health impacts and inequality during heatwaves.
In summary, the 2021 energy crisis in South
Africa illustrates a critical intersection between energy, public health, and
social justice. As the country contemplates its future energy strategy, new
policies must prioritise inclusivity, sustainability, and resilience against
climate change to safeguard the well-being of its most vulnerable populations.
3.4
Labour Market Disruption
The multifaceted effects of climate change
are increasingly disrupting entire industries, notably agriculture, tourism,
and fisheries. The impacts of extreme weather events and shifting climate
patterns have resulted in crop failures, decreased yields, and significant job
losses, particularly for those engaged in informal or seasonal work (Ngongolo
& Gayo, 2024). Disruption not only exacerbates economic instability but
also places an immense strain on labour markets as millions face economic
displacement in the wake of climate shocks (Baptista et al., 2024).
Informal workers, who often lack the protection
and benefits afforded to formally employed individuals, are the first
casualties of climate-induced job losses. A segment of the labour force is
typically characterised by precarious employment, making them particularly
vulnerable to economic turbulence. Furthermore, the loss of livelihoods in key
economic sectors necessitates urgent interventions that focus on providing
support systems and job transition pathways for affected workers (Sangeetha
& Usha, 2022; Feriga et al., 2024).
In light of the current challenges, labour
market policies must adapt to address the shifting paradigms that climate
change imposes on employment dynamics. Strategies should include skills
development initiatives and the creation of social safety nets to safeguard
vulnerable populations against the economic upheaval brought about by
environmental changes (Baptista et al., 2024).
3.5
Fiji – Tourism Collapse and
Cyclones
Fiji's economy heavily relies on tourism. The
dual crises of the COVID-19 pandemic and economic disruption dramatically
impacted the system, and multiple severe cyclones in 2021. The COVID-19
lockdowns led to unprecedented shutdowns in tourism, accounting for around 35.3
per cent of Fiji's GDP prior to the pandemic (Shiiba et al., 2023). During this
period, Fijian tourism operators faced massive unemployment and financial
losses, further exacerbated by the destruction caused by Cyclone Yasa and other
severe cyclones that struck the archipelago, damaging infrastructure and
livelihoods.
The interplay of pandemic-induced tourism
collapse and the disruption from cyclones illustrated the vulnerabilities of
economies that are heavily dependent on a single sector. The cyclones
devastated physical infrastructure and led to significant displacement and
disruption of communities that were already under tremendous economic stress.
Such dual crises expose the precariousness of economies reliant on
climate-sensitive sectors, highlighting their susceptibility to both
environmental and external shocks. As communities struggled to recover from
natural disasters while navigating the economic fallout from the pandemic, the
situation underscored severe gaps in resilience and preparedness within the
tourism sector.
As a result of the cyclones and
pandemic-induced shutdowns, Low-income populations experienced particularly
pronounced socioeconomic repercussions. Many individuals in tourism-reliant
communities faced joblessness and a lack of support, creating a fertile ground
for increased inequalities. The lack of immediate recovery plans exacerbated
vulnerabilities, making it difficult for these communities to sustain their
livelihoods and adapt to changing conditions. The situation in Fiji serves as a
salient reminder of how coupling economic reliance on climate-sensitive sectors
with climatic hazards can lead to cascading crises.
Fiji's experiences reveal significant
lessons about the implications of climate change on tourism-dependent
economies. The urgent need for economic diversification emerges as a critical
strategy to mitigate such risks. Sustainable tourism practices, combined with
diversified economic activities, can enhance overall resilience against future
shocks. Additionally, building social safety nets and implementing disaster
recovery frameworks can assist those most affected by these compounded crises.
Establishing these support systems is crucial not only for immediate recovery
but also for reducing future vulnerability to climate impacts.
Moreover, the 2021 crises expose the
necessity of developing climate-resilient infrastructure capable of
withstanding severe weather events while ensuring more reliable operations
within the tourism sector (Scott, 2021). Investments in renewable energy and
sustainable technologies may alleviate some pressures on infrastructure and
align with global environmental goals. Such initiatives would contribute to
greater resilience and facilitate a transition to a more sustainable tourism
model that prioritises environmental stewardship alongside economic stability.
In essence, Fiji's tourism collapse and the
associated cyclone impacts exemplify the compounding nature of crises in
climate-sensitive economies. The urgency for strategic planning that
incorporates economic diversification, social safety nets, and resilient
infrastructure is paramount to ensuring sustainable growth and protection
against future disruptions. Through proactive measures, Fiji can work towards
safeguarding its valuable tourism sector while enhancing the resilience of its
communities amidst the ongoing challenges of climate change (Dube, 2024; Atasoy
& Atasoy, 2020).
To avoid such cascading economic shocks, policy interventions must include reskilling programmes, microloans for climate-resilient businesses, and investment in green infrastructure that creates local employment while reducing vulnerability to tourism volatility.
3.6
The Unseen Workforce Crisis
Informal workers, migrants, and women are
disproportionately affected by the labour disruptions resulting from climate
change. Lacking contracts or protections, these groups are often the first to
experience job losses and the last to be reinstated during recovery periods
(Feriga et al., 2024; Akrofi et al., 2021). Therefore, climate policies must
actively incorporate considerations for fair labour transitions and equitable
social safety nets to prevent exacerbating existing inequalities.
Many studies indicate that women,
particularly those who engage in informal work, face distinct challenges that
affect their livelihoods in the context of climate change. They often possess
less access to resources and opportunities for recovery than their male
counterparts, highlighting the need for gender-sensitive labour market policies
that foster resilience (Kamboj & Verma, 2024; Jain et al., 2022).
Similarly, social safety nets must be inclusive and target those in precarious
employment situations, recognising that climate change's impacts
disproportionately extend to marginalised populations and informal sectors
(Bonifacio, 2023).
Overall, addressing the profound
vulnerabilities faced by informal workers, Climate discussions frequently
overlook these communities, which is critical for promoting equity and
enhancing livelihood resilience. Policies that focus on creating supportive
work environments and inclusive growth strategies can help ensure that the labour
market does not leave the most vulnerable behind as climate impacts intensify
(Arkhipova, 2021; Ibáñez et al., 2022).
In summary, the intertwined challenges of
urban overload, energy poverty, labour market disruption, and workforce
inequities demand comprehensive and integrated approaches to resilience.
Addressing these highlights the necessity for forward-thinking policies that
recognise the complexities of climate adaptation while safeguarding the
livelihoods of those in the most precarious situations.
4
Justice,
Policy, and the Politics of Delay
4.1
Global Adaptation Gaps and Colonial Echoes
Countries
with fewer resources disproportionately feel the impact of climate change, which
have contributed the least to its causes, reflecting deep-rooted historical
imbalances and ongoing colonial echoes in global climate justice dialogues. Wealthier
nations, often responsible for the majority of carbon emissions, have the
financial and infrastructural capabilities to adapt to climate impacts, whereas
poorer nations struggle with limited resources and capacity (Shue, 2022). Disparity
underscores the moral imperative for climate justice, which argues that those
who have incurred minimal responsibility for climate change should not bear its
worst consequences. As articulated in various studies, the situation reveals a
gross injustice that necessitates equitable distribution of adaptation aids and
technological support to marginalised nations (Huttunen, 2024).
The
importance of addressing these adaptation gaps is further highlighted by
examining historical contexts where colonial exploitation left many nations
with weakened socioeconomic structures and vulnerable environments sensitive to
climate impacts. The legacy of colonialism continues to manifest in modern
climate policies, often sidelining the needs of those countries most affected
by ecological degradation and resource extraction (Odwori, 2022). Thus, the
fight for climate justice must also encompass a reclamation of agency for these
nations, enabling them to negotiate the terms of their adaptation in a manner
that fosters equitable and sustainable development.
4.2
Mozambique – Post-Cyclone
Idai Recovery
In March 2019, Cyclone Idai struck
Mozambique, leading to extensive flooding, significant infrastructural damage,
and the displacement of thousands of people. Despite the passage of time since the
catastrophic event, the recovery processes still reveal global inequalities
within disaster finance and response systems that remain relevant today. The
cyclone created monumental challenges that underscored both the immediate
humanitarian needs and the long-term requirements for sustainable recovery
strategies (Ndapassoa, 2023; Vickers & Enos-Edu, 2019).
The aftermath of Cyclone Idai illustrated a
stark reality: aid responses were often slow and unequal, disproportionately
affecting rural and impoverished communities that lacked adequate support
compared to more urbanised areas. Reports indicate that aid agencies primarily
directed immediate humanitarian assistance toward larger towns and cities, many
rural populations were left without access to vital resources and assistance
during critical recovery periods ("Eight months after Idai: Chronology of
displacement, humanitarian needs and challenges going forward", 2019)
(Lequechane et al., 2020). disparity exposed systemic inequities in disaster
finance, revealing that funding often prioritises more visible or politically
influential areas while neglecting the needs of the most vulnerable (Vickers
& Enos-Edu, 2019).
Additionally, Local weaknesses in response
systems intensified the challenges faced during the recovery process.
Mozambique's ongoing issues of economic volatility and poverty have hampered
the country's capacity to manage the aftermath of the cyclone effectively.
Global disparities in disaster recovery systems were evident in the sluggish
pace of aid distribution, emphasising the need for reform within both national
and international response frameworks (Nyahunda et al., 2020). Lessons learnt
from Mozambique's experience can inform discussions about equitable climate
finance that focus on responsiveness and adaptation in nations consistently
facing climate-related disasters (Lequechane et al., 2020).
Mozambique's post-cyclone recovery serves
as a critical case study in the conversation regarding the necessity for fair
and resilient disaster recovery policies. Includes the vital need for increased
commitment to climate-resilient infrastructure capable of withstanding future
disasters and establishing financial models that ensure the sustainability of
recovery efforts in vulnerable communities (Jacobs & Almeida, 2020; Pitts
& Guerguis, 2021). Implementing social protection systems, developing
robust infrastructures, and creating equitable climate financing mechanisms are
essential for building resilience in communities that are deeply affected by
climate impacts.
In summary, Mozambique's recovery from Cyclone Idai highlights the complex interplay of social, economic, and environmental factors that shape disaster response and recovery. Moving forward, prioritising measures that address issues of equity, resilience, and sustainability will be crucial for improving disaster preparedness and ensuring that marginalised communities receive the support they need in the aftermath of climate-induced disasters.
4.3
Health,
Equity, and Public Blind Spots
Climate
change exacerbates existing health inequalities, primarily affecting the most
vulnerable segments of the population, including children, the elderly, the
disabled, and the economically disadvantaged (Boven et al., 2018). Heat-related
illnesses, respiratory issues linked to air pollution, and food insecurity are
just a few examples of how climate change worsens public health outcomes. These
vulnerable populations face increased susceptibility to health issues, yet
health systems and urban planning often fail to incorporate their needs into
adaptation strategies (Friis-Hansen, 2017).
Research indicates that a public health focus that does not prioritise the unique vulnerabilities of these groups can inadvertently perpetuate existing inequities and exacerbate health disparities (Montfort, 2025). Oversight underscores the need for a comprehensive approach to health equity in climate adaptation policies. Policymakers must ensure that Health authorities adequately equip systems to serve vulnerable populations and that urban planning efforts actively mitigate the health-related impacts of climate change (Magistro et al., 2024). Only by addressing these public blind spots can resilience be built into healthcare infrastructures in a manner that genuinely protects those most at risk.
4.4
London – Heatwaves and Health Inequity
London
has been increasingly adapting to urban heatwaves through a variety of climate
action plans. However, these strategies often inadequately address the specific
vulnerabilities of at-risk populations, particularly the elderly and low-income
communities, who experience higher health risks during extreme heat events
(Morabito et al., 2015; Vaidyanathan et al., 2020). The consequences of
neglecting these vulnerable groups are severe; without targeted support
mechanisms, such as access to cool shelters and health outreach programmes,
these populations face increased illnesses and mortality rates during extreme
heat incidents (Vaidyanathan et al., 2020).
Research
indicates that health inequities associated with climate change manifest most
acutely among vulnerable groups within urban environments. The elderly,
children, disabled individuals, and economically disadvantaged populations are
disproportionately affected by the health impacts of climate change, including
heat strokes and respiratory illnesses (Wang, 2023; Loughnan et al., 2014).
Despite vulnerability, urban planning and healthcare systems typically fail to
prioritise the needs of these groups in their adaptation strategies, leading to
exacerbated health disparities.
For
instance, several studies highlight the role of inadequate urban infrastructure
in contributing to adverse health outcomes. The lack of cooling facilities and
support services during heat waves particularly compromises the health and
safety of low-income individuals living in urban areas. These residents often
reside in buildings that are ill-equipped to handle heat extremes, lacking
insulation or proper ventilation, which can elevate indoor temperatures to
dangerous levels (Chen et al., 2016). Consequently, the intersection of heat
vulnerability and inadequate resources creates a precarious situation for those
at the margins of society, exposing them to heightened risks during heat
events.
Additionally,
heatwaves in urban areas expose broader gaps in housing and healthcare
inequities, often linked to systemic issues such as poverty and social
marginalisation. In London, the effects of climate stressors reveal stark
contrasts between socioeconomic groups, as low-income neighbourhoods often have
higher exposure to urban heat islands (UHIs) where Human activity significantly
elevates temperature (Chen et al., 2018). These discrepancies underscore the
importance of incorporating equity into urban climate planning, ensuring that
adaptive strategies include measures specifically designed for the most
vulnerable.
The
relevance of London's heatwave responses demonstrates a critical need for
policies that embed equity into adaptation strategies. Urban climate planning
must take into account the diverse needs of all citizens, particularly those
who are most susceptible to climate-related health risks. Effective
communications about heat risks, access to cooling resources, and community
engagement are essential for protecting vulnerable populations and fostering
resilience (Deng et al., 2024; Stone et al., 2023).
In summary, London's experience with heatwaves illustrates the urgent need for comprehensive urban climate adaptation strategies that prioritise equity. Addressing the disproportionate impacts of extreme heat on vulnerable groups is not only a public health imperative but also a fundamental aspect of fostering social justice in climate action. Future urban planning efforts must focus on creating inclusive and resilient infrastructures that safeguard the health and well-being of all residents, particularly those most at risk from the increasing challenges posed by climate change.
4.5
Policy
Gaps and the Free-Rider Fallacy
The
notion that nations refrain from taking climate action due to fears of being "free
riders" is a commonly held belief; however, it often oversimplifies the
reality of climate policy engagement. While some governments express
apprehension about unilateral actions, many countries are already pursuing
climate initiatives independently, despite the complexities of international
treaties (Colgan et al., 2020; Boda & Jerneck, 2019). The real challenge
lies in domestic political inertia, which hinders progress toward substantial
climate interventions. Institutional fragmentation and lack of coordinated
action across various sectors exacerbate these policy gaps, leading to
ineffective responses to urgent climate threats (Gurney et al., 2022;
Berkebile-Weinberg et al., 2024).
Exploring the motivations behind climate policy resistance reveals that political leadership and public engagement are often sources of stasis rather than free-riding. Political mechanisms and partisan dynamics play significant roles in hampering climate action; therefore, addressing these underlying barriers is crucial for advancing effective climate policies (Dayton et al., 2024; Workman et al., 2020).
4.6
Educational and Institutional Silence
Despite
the urgency of climate action, educational institutions and local governments
frequently neglect to prioritise climate education in their curricula or
planning frameworks. Many public health schools, city administrations, and
academic programmes lack dedicated climate components, which delays the
development of future leaders equipped to tackle climate-related challenges
(Kristianssen & Granberg, 2021; Vraga, 2017). educational gap limits public
understanding of climate issues and their implications for health, equity, and
social justice, which is vital for mobilising informed citizens and empowered
communities.
Enhancing
climate literacy across various educational platforms is critical for equipping
individuals with the knowledge necessary to engage in climate action. By
integrating climate education into existing curricula and fostering
interdisciplinary collaboration, institutions can better prepare future leaders
to address climate challenges comprehensively (Nix et al., 2024). Moreover,
promoting climate-related research initiatives can bolster understanding and
support for adaptive measures within policy frameworks (Tweneboah-Koduah,
2024).
4.7
Media,
Misinformation, and Public Apathy
Media
coverage of climate change often focuses on cost, disaster, or controversy
rather than solutions or hopeful narratives. Misinformation campaigns further
complicate public discourse, fostering confusion or apathy towards a crucial
global issue (Ullah, 2024). Recent studies suggest that the way communicators
tell climate stories can significantly impact public engagement and collective
action, emphasising the necessity for accessible, human-centred, and solution-oriented
storytelling (Kennard & Schnakenberg, 2023; Buse et al., 2022).
To
promote effective climate communication, media outlets must shift their focus
towards constructive dialogues that highlight actionable solutions and foster
collective responsibility. They would engage the public in climate narratives
that empower rather than discourage, provoking a sense of agency and
responsibility toward climate action (Smith et al., 2017). By creating a
landscape where optimism prevails alongside urgency, the media can play a
pivotal role in galvanising public interest and action.
In
conclusion, addressing the themes outlined in Chapter 4 reveals complex layers
of injustice, policy gaps, and systemic failures in the quest for climate
justice. We must confront systemic failures in the quest for climate justice.
By implementing equitable adaptation strategies, improving public health
responses, encouraging educational reforms, and fostering constructive media
narratives, decision-makers can work toward building a more just and resilient
society in the face of climate change.
4.8
US – Fossil Fuel Lobbying and
Delay Tactics
In the United States, fossil fuel companies
have engaged in extensive lobbying efforts aimed at delaying or weakening
climate legislation, significantly hindering climate progress. These tactics
include funding think tanks, sponsoring media campaigns, and shaping political
narratives to cast doubt on climate science and undermine support for climate
initiatives (Franta, 2021; Al‐Rawi
et al., 2021). Such lobbying operations create a considerable challenge in
moving forward with essential legislative actions needed to mitigate the
effects of climate change, as they foster misinformation and political
resistance that distort public understanding of the climate crisis (Lewandowsky
et al., 2017; Al‐Rawi
et al., 2021).
The impacts of these lobbying strategies
are profound and far-reaching. Misinformation campaigns heavily influence
public perceptions of climate change, which serve to confuse the general
populace and stymie political action (McDonnell, 2024; Lewandowsky et al., 2017).
As a result, emissions remain high, and policymakers continue to stall the
vital regulatory reforms needed to address the global emergency. These dynamics
not only reflect vested interests obstructing climate policy but also highlight
a significant barrier to effective governance and meaningful climate action
(Franta, 2021; Al‐Rawi
et al., 2021).
The role of the fossil fuel industry in
promoting misinformation is particularly troubling, as they employ various
strategies to sow discord and foster scepticism about the scientific consensus
on climate change (Al‐Rawi
et al., 2021; Frumhoff et al., 2015). The manipulation of information has
weakened public support for climate action and contributed to polarised
political debates, thereby perpetuating a cycle of inaction. As outlined in
studies examining the effects of lobbying on climate legislation, the strategic
narrative constructed by these interests undermines public confidence in both
science and governmental accountability regarding climate issues (Lewandowsky
et al., 2017; Frumhoff et al., 2015).
Moreover, it is critical to note that the
real obstacles to effective climate action may not merely stem from concerns
about "free riding" among nations, as is often suggested. Instead,
many countries are acting independently from global treaties to implement their
climate policies, underscoring a broader issue of domestic political inertia
and institutional fragmentation (Dayton et al., 2024; Boda & Jerneck,
2019). Thus, addressing the disconnect between public sentiment, political
action, and scientific understanding is essential for fostering a more cohesive
approach to tackling climate change.
The divisive narratives propagated by
fossil fuel interests highlight the necessity for counter-strategies that
stress climate education and raise awareness of the realities of climate change
(Lewandowsky et al., 2017; Linden et al., 2015). Building public understanding
around the scientific consensus and the urgency of climate mitigation efforts
is paramount, as is promoting solutions that prioritise equitable energy
transition strategies (Debnath et al., 2023; McKenzie et al., 2023). Without
addressing the influence of vested interests and their tactics, the potential
for substantial climate progress remains impeded.
In conclusion, the case of fossil fuel
lobbying in the US exemplifies the challenges faced in combating climate change
when opposing interests mobilise to obstruct policy initiatives. Addressing
these obstacles requires exposing and countering misleading narratives,
fostering an informed public discourse, and advancing governance frameworks
that prioritise equitable climate solutions. Ultimately, proactive engagement
is essential to navigate the complexities surrounding climate action and
achieve meaningful progress toward sustainability and resilience.
5
Breaking
the Web – Action, Solidarity, and Shared Futures
5.1
Rethinking Communication for Action
To
galvanise broad support for climate action, climate communication shifts must
focus from technical jargon and abstract data to emphasise real-life
co-benefits such as health, jobs, equity, and safety. Research highlights the
effectiveness of framing climate change in ways that resonate with public
priorities, reinforcing the idea that addressing climate change positively
impacts individual and community welfare (Thaker & Floyd, 2021). For
instance, establishing narratives that connect climate action with enhanced
public health outcomes, such as improved air quality and reduced heat-related
illnesses, can foster greater public engagement and commitment (Lioubimtseva et
al., 2024). By utilising vivid and relatable narratives that build connections
across diverse communities, climate communicators can cultivate a more
inclusive dialogue around action against climate change.
Moreover,
effective climate communication must prioritise outreach to marginalised
populations who are often disproportionately affected by climate impacts yet
frequently overlooked in mainstream narratives. Engaging these communities in
the conversation creates opportunities for authentic participation and
empowerment, ensuring that People intertwine their lived experiences through
shared struggles and resilience with the broader climate dialogue (Lioubimtseva
et al., 2024). By widening the scope of communication efforts and pinpointing
shared values, it becomes possible to build momentum for climate initiatives
that are equitable, productive, and ultimately more effective (Lucas &
Davison, 2018).
5.2
Sweden – Communicating Climate with Clarity
Sweden
has emerged as a leader in climate communication, focusing on the use of plain
language and citizen-centred messaging in its climate policies. The approach
emphasises the co-benefits of climate action, linking it to personal health,
economic well-being, and social equity (Karlsson et al., 2023). By prioritising
clear and relatable communication over technical jargon, the Swedish government
has successfully engaged broader segments of the population, thereby increasing
public awareness and understanding of climate issues. Has proven crucial in
sustaining political will for more ambitious and inclusive climate policies
(Utami, 2023).
In
Sweden, government outreach has effectively conveyed that climate action is not
just an environmental concern but also a pathway to improve public health and
create jobs. For example, initiatives that promote clean energy not only help
to reduce greenhouse gas emissions but also improve air quality, which has
direct health benefits for citizens (Karlsson et al., 2023). Such messaging has
mobilised public support and reinforced the notion that addressing climate
change can enhance quality of life while contributing to sustainable
development.
Importantly,
strategy recognises the need for equitable communication that encompasses the
diverse experiences and concerns of various communities. Addressing the
specific needs of vulnerable populations, such as low-income families and
marginalised groups, ensures that everyone can participate in the climate
dialogue and access the benefits of climate action (Utami, 2023). By embedding
inclusivity into their communication efforts, Swedish policymakers highlight
the importance of participatory approaches to fostering a sense of ownership
and commitment among citizens.
Moreover,
the success of Sweden's communication strategy demonstrates that effective
climate action requires ongoing engagement and education. Ensuring that the
public is informed allows for more meaningful discussions about climate
policies, making it easier to garner support for necessary changes in both
individual behaviour and government action (Karlsson et al., 2023). As Sweden
continues to refine its climate policies, clear communication will remain a
fundamental aspect of its strategy to build a resilient and socially equitable
future.
In
summary, Sweden's proactive stance on climate communication illustrates the
value of framing climate action in ways that resonate with the public. By
emphasising co-benefits, fostering inclusivity, and using straightforward
messaging, Swedish leaders have created a model for effective climate
engagement. The approach should serve as a model for other nations grappling
with the complexities and urgency of climate action, reinforcing the idea that
communication should be a strategic asset within policy frameworks and not an
afterthought.
5.3
Co-benefits and Integrated Strategies
Innovative
climate policies have the potential to yield multiple gains across areas such
as public health, economic growth, and environmental sustainability.
Integrating co-benefits into climate investments, such as cleaner air, active
transportation systems, and green jobs, can significantly enhance community
resilience (Zougmoré et al., 2019; Twinomuhangi et al., 2019). However,
stakeholders must take action to materialise these benefits; policymakers must
develop climate strategies with inclusivity and justice at their core. Funds
directed toward climate-related initiatives must prioritise the needs of
disadvantaged communities, ensuring that the co-benefits of climate action are
widely distributed and accessible to all (Selvey et al., 2022).
In
the context of urban planning, co-benefits can translate into more resilient
cities that are prepared to face the impacts of climate change. Investments in
green infrastructure, for example, not only mitigate the heat island effect but
also provide recreational spaces that improve community well-being
(Lioubimtseva et al., 2024). Public messaging centred around these co-benefits
can galvanise support for climate action while addressing systemic inequities,
ultimately creating a more cooperative and cohesive approach to climate
resilience (Entradas et al., 2019).
5.4
Barcelona – Superblocks Urban Redesign
Barcelona's
Superblocks project represents a transformative urban redesign initiative aimed
at reducing traffic congestion and prioritising pedestrian-friendly
environments and green spaces. Approach reclaims streets for community use,
enhancing environmental quality and urban liveability (Camerín, 2023). By
employing innovative urban design principles, the Superblocks initiative seeks
to create areas that encourage walking and cycling while concurrently improving
mental and physical health through enhanced access to parks and recreational
spaces.
Data
indicate that air pollution levels have dropped in areas implementing the model
and that walkability has notably increased, which can lead to heightened
physical activity among residents (Puig‐Ribera
et al., 2022). Researchers have linked improved access to green spaces to
enhanced mental well-being and increased social interactions among residents,
fostering community cohesion. Furthermore, the design of Superblocks increases
resilience to heat stress by providing shaded areas and reducing urban heat
islands, which is particularly important in the context of rising temperatures
linked to climate change (Magrinyà et al., 2023).
The initiative exemplifies an integrated urban
strategy that delivers multiple co-benefits, highlighting the importance of
equity in urban climate adaptation. Notably, the success of the Superblocks
project lies in its capacity to afford all demographic groups, particularly
marginalised populations, better access to health-promoting environments
(Ciommi et al., 2018). Integrating community feedback into the planning process
has been essential to ensure that diverse needs and preferences are considered,
ultimately leading to more inclusive urban spaces (Ciommi et al., 2018).
As
Barcelona's Superblocks model showcases, urban design can be a powerful tool
for climate adaptation; These examples offer lessons that communities can
replicate worldwide. The project not only demonstrates the importance of
enhancing urban liveability but also emphasises the need for climate-resilient
infrastructure that prioritises public health and community interaction. The
principles established through the Superblocks can guide other cities in
developing their solutions to similar climate-related challenges, proving that Planners
and communities can achieve sustainable urbanisation through innovative
planning and active engagement (Olalla et al., 2017).
In conclusion, Barcelona's expansion of Superblocks serves as a compelling case for how urban redesign can simultaneously address climate change while improving public health and fostering social interactions. The initiative underscores the necessity of embedding equity within urban climate strategies and demonstrates that thoughtful urban planning can yield significant co-benefits for communities facing the challenges of environmental and health inequities.
5.5
Building
Alliances and Collective Leadership
The
complex challenges posed by climate change necessitate collaborative efforts
that transcend governmental boundaries. Sustainable solutions require
cross-sector cooperation—including engagement with civil society, Indigenous
communities, youth movements, and local governments (Thomas et al., 2017).
Public policy cannot operate in isolation; Instead, leaders must form alliances
that combine the expertise of diverse stakeholders and resources of diverse
actors united by a shared vision for climate resilience.
Shared leadership models can foster smarter, more grounded outcomes that reflect the interests and needs of various constituencies (Henshall et al., 2022). By incorporating input from a diverse array of stakeholders, including marginalised and under-represented voices, Policymakers can design policies to serve everyone effectively. Overall, successful adaptation and mitigation efforts hinge on establishing networks of solidarity that leverage collective action and knowledge to advance climate solutions (Roberge et al., 2021).
5.6
Cochabamba, Bolivia – Water Governance Reclaimed
The
protests surrounding the privatisation of water services in Cochabamba,
Bolivia, in the year 2000 marked a significant turning point in the region's
approach to water governance. In the face of extensive public backlash, the
citizen movement prompted the Bolivian government to reclaim public control
over water resources, democratising governance structures that had previously
favoured private interests (Masoumpoor et al., 2015; Clark et al., 2023). A transformative
experience illustrates the power of social mobilisation and community agency,
positioning water governance as a critical arena for environmental justice.
Following
the recovery of public control, significant improvements in water access and
community participation ensued. The restructured governance system has made
water services more accountable and responsive to citizens, effectively
reversing inequities imposed during the period of privatisation (Areia et al.,
2021; Nässén et al., 2024). Research indicates that communities have
experienced enhanced access to water services, signalling a shift toward more
equitable distribution and management of a critical resource that is integral
to public health and socioeconomic well-being (Masoumpoor et al., 2015).
The
experience of Cochabamba is particularly relevant in highlighting the
intersection of climate justice and collective action. As communities grapple
with climate-related challenges, including shifting precipitation patterns and
increased risk of water scarcity, the proactive reclamation of water governance
becomes emblematic of resistance against corporate exploitation and the
prioritisation of community needs. In a way, the local control of water stands
as a testament to grassroots activism's potential to engender transformative
change within affected societies (Acharibasam, 2022; Sivle et al., 2021).
Furthermore,
the implications of Cochabamba's movement extend beyond national borders,
providing a replicable model for similar struggles worldwide. As many regions
continue to confront the adverse impacts of climate change, the Bolivian
example stresses the importance of local governance frameworks that are
equitable and inclusive. It embodies the principles of climate justice,
asserting that access to essential resources like water is a fundamental human
right that must be defended against privatisation and exploitation (Capstick et
al., 2017).
In
conclusion, the journey toward reclaiming water governance in Cochabamba
underscores the critical role that community-led approaches play in fostering
climate justice and resilience. By reinforcing the importance of participatory
governance and equitable access to resources, Cochabamba serves as a beacon for
other communities facing similar challenges. Future climate policies and
governance frameworks must take heed of such grassroots successes, ensuring
that vulnerable populations are empowered to influence decisions that directly
affect their lives.
6
Conclusion: From Scarcity to Solidarity
Systems
fail when they do not adequately respond to changing conditions or the needs of
their constituents; in the context of climate change, this can lead to scarcity
becoming a crisis. However, with a framework emphasising equity, coordination,
and clear communication, what begins as scarcity can become a catalyst for
solidarity (BAYILI & Badolo, 2024). By fostering a network of collaborative
solutions, societies can transcend conflicts and work towards resilient futures.
As climate challenges escalate, experts emphasise the urgency for action; what
is needed is a paradigm shift where delay gives way to concerted efforts for
meaningful change (Rimmer et al., 2023).
The lessons of Syria, Dhaka, Cochabamba, and South Africa show that where governance fails, scarcity multiplies injustice. However, they also prove that when communities reclaim power, design inclusive systems, and act early, communities can transform vulnerability into resilience.
6.1
A Call to
Act Now
The
cost of inaction on climate change is not theoretical—it has tangible
consequences that are escalating in intensity (Safrina et al., 2022). The decade
demands bold choices, emphasising justice while rejecting distractions that
halt progress. The time for transformative action is now, not in the distant
future. Stakeholders must prioritise equitable solutions that embrace
sustainability, foster resilience, and respond to underlying inequities; the
future depends on choices made today (Masefield et al., 2021; Darwishean et
al., 2024).
Act
Before the Threads Break
The web is still ours to untangle—or
strengthen. Share the article. Use it to spark dialogue in the city, the
classroom, and the government. If we act with courage, empathy, and fairness,
we can prevent the crisis from becoming a collapse.
References
Haines, D. (2013). (Inter)Nationalist
rivers?: cooperative development in David Lilienthal’s plan for the Indus
Basin, 1951. *Water History*, 6.0(2), 133-151. https://doi.org/10.1007/s12685-013-0084-0
Timmermann, C. (2021). 2. Adapting
agriculture to a changing climate: a social justice perspective. *nan*, ,
31-35. https://doi.org/10.3920/978-90-8686-915-2_2
Kallström, A., Orwa, A. A., Jan, P.,
Häkkinen, M., Juusola, H., Kauhanen, J. (2020). <i>I had to leave. I had
to leave my clinic, my city, leave everything behind in Syria</i>.
Qualitative accounts from Syrian health care workers migrating from the
war-torn country. *nan*, , . https://doi.org/10.1101/2020.09.19.20178103
Kanosvamhira, T. P. (2024).
<scp>CULTIVATING FOOD JUSTICE</scp>: Redefining Harvest Sales for
Sustainable Urban Agriculture in <scp>Lowâ€Income</scp> Cape Town
post Covidâ€19. *International Journal of Urban and Regional Research*,
48.0(2), 280-292. https://doi.org/10.1111/1468-2427.13224
Clark, S., Roop, H., Gonzales, K. R., Mohr,
C., Dybsetter, A., Kingery, L. (2023). A Communityâ€Based Approach to Climate
Science Communication: Results From a Pilot Climate Extension Program.
*Community Science*, 2.0(4), . https://doi.org/10.1029/2022csj000020
Singh, A., Pandey, A. K., Santhosh, D.,
Ganavi, N. R., Sarma, A., Deori, C., Das, J., D, S. K. (2024). A Comprehensive
Review on Greenhouse Gas Emissions in Agriculture and Evolving Agricultural
Practices for Climate Resilience. *International Journal of Environment and
Climate Change*, 14.0(5), 455-464. https://doi.org/10.9734/ijecc/2024/v14i54206
McNally, A., Verdin, K. L., Harrison, L.,
Getirana, A., Jacob, J. P., Shukla, S., Arsenault, K. R., Petersâ€Lidard, C.
D., Verdin, J. P. (2019). Acute Water-Scarcity Monitoring for Africa. *Water*,
11.0(10), 1968. https://doi.org/10.3390/w11101968
Mwalukasa, N. (2013). Agricultural
information sources used for climate change adaptation in Tanzania. *Library
Review*, 62.0(2025-05-04 00:00:00), 266-292.
https://doi.org/10.1108/lr-12-2011-0096
Roberge, M., Xu, Q. J., Aydin, A. L.,
Huang, W. (2021). An Inclusive Organizational Climate: Conceptualization,
Antecedents, and Multi-Level Consequences. *American Journal of Management*,
21.0(5), . https://doi.org/10.33423/ajm.v21i5.4760
Hassan, M., Maiwada, A. S. (2022).
Assessment of Human Perception on the Impact of Climate Change and Population
Growth on Water Scarcity in Katsina Urban Area, Katsina State, Nigeria. *Dutse
Journal of Pure and Applied Sciences*, 7.0(3a), 77-83. https://doi.org/10.4314/dujopas.v7i3a.8
Measho, S., Chen, B., Pellikka, P., Guo,
L., Zhang, H., Cai, D., Sun, S., Kayiranga, A., Sun, X., Ge, M. (2021).
Assessment of Vegetation Dynamics and Ecosystem Resilience in the Context of
Climate Change and Drought in the Horn of Africa. *Remote Sensing*, 13.0(9),
1668. https://doi.org/10.3390/rs13091668
Colgan, J. D., Green, J., Hale, T. (2020).
Asset Revaluation and the Existential Politics of Climate Change.
*International Organization*, 75.0(2), 586-610.
https://doi.org/10.1017/s0020818320000296
Devi, C. K., Das, P., Nath, M., Mishra, B.
K. (2023). Attitude of Farm Women towards the Effects of Climate Change in
Agriculture and Allied Activities: A Study in Imphal, East Districts of
Manipur, India. *International Journal of Environment and Climate Change*,
13.0(10), 3843-3849. https://doi.org/10.9734/ijecc/2023/v13i103057
Islam, M. R., Biswas, M. J. H., Akanda, M.
G. R., Amin, M. R., Hasan, I., Asif, A. A., Sheheli, S., Sharif, B. N. (2015).
Attitude of the farmers towards climate change effect on agriculture. *Asian
Journal of Medical and Biological Research*, 1.0(2), 367-379.
https://doi.org/10.3329/ajmbr.v1i2.25631
Odwori, E. O. (2022). Barriers to Adapting
Water Supply Management to Climate Change in Nzoia River Basin, Kenya. *Asian
Journal of Environment & Ecology*, , 32-47.
https://doi.org/10.9734/ajee/2022/v19i230342
Lewandowsky, S., Ecker, U. K. H., Cook, J.
(2017). Beyond misinformation: Understanding and coping with the
“post-truth†era. *Journal of Applied Research in Memory and Cognition*,
6.0(4), 353-369. https://doi.org/10.1016/j.jarmac.2017.07.008
Kedir, M., Lelisa, K., Damena, D. (2016).
Bovine Trypanosomosis and Tsetse Fly Vectors in Abobo and Gambela Districts,
Southwestern Ethiopia. *Journal of Veterinary Science & Technology*,
7.0(6), . https://doi.org/10.4172/2157-7579.1000380
Umetsu, C., Miura, K. (2023). Building
Resilience for Food and Nutrition Security in Africa: Focusing on Small-Scale
Farmers. *Journal of Rural Problems*, 59.0(1), 53-59.
https://doi.org/10.7310/arfe.59.53
Bajwa, M. I. K. M. S. (2023). CLIMATE
CHANGE AND WATER CRISIS, CONSEQUENCES ON
AGRICULTURE AND HYDROLOGICAL JUSTICE: CASE STUDY OF PAKISTAN. *Pakistan Journal of
International Affairs*, 6.0(2), . https://doi.org/10.52337/pjia.v6i2.807
Tafelmeyer, L. E., LaSharr, T. N., Binfet,
J., Bredehoft, M., Hiatt, G., Lutz, D., Mitchell, C. D., Monteith, K. L.
(2024). Cannot outrun the past: age, nutrition, and cohort influence horn size
in pronghorn. *Journal of Wildlife Management*, 88.0(8), . https://doi.org/10.1002/jwmg.22653
-Bautista, J. C., Tárraga, J. M., Varando,
G., Arribas, A., Shepherd, T., Campsâ€Valls, G. (2023). Causal inference to
study food insecurity in Africa. *nan*, , .
https://doi.org/10.5194/egusphere-egu23-15000
BAYILI, B. R., Badolo, M. (2024). Cities
resilience to flood risks communication: the B2CresCom scientific framework.
*nan*, , . https://doi.org/10.31219/osf.io/cztve
Sabola, G. A. (2023). Climate Change
Impacts on Agricultural Trade and Food Security in Emerging Economies: Case of
Southern Africa. *nan*, , . https://doi.org/10.21203/rs.3.rs-3100294/v1
Said, A. S., Jeevaragagam, Harun, S.
(2023). Climate Change Variation And Farmer’s Viewpoint On Agriculture In
Semi-Arid Region. *nan*, 1.0(1), 47-55.
https://doi.org/10.59762/jblm845920461120231009101855
Smith, J. A., Vargo, J., Hoverter, S.
(2017). Climate Change and Public Health Policy. *The Journal of Law Medicine
& Ethics*, 45.0(S1), 82-85. https://doi.org/10.1177/1073110517703332
Khajuria, A., Ravindranath, N. H. (2012).
Climate Change in Context of Indian Agricultural Sector. *Journal of Earth
Science & Climatic Change*, 3.0(1), .
https://doi.org/10.4172/2157-7617.1000110
Kamboj, M., Verma, S. (2024). Climate
Change, Women's Rights, and the Way Forward. *nan*, , 381-404.
https://doi.org/10.4018/979-8-3693-6069-9.ch019
Parvin, G. A., Shaw, R. (2011). Climate
Disaster Resilience of Dhaka City Corporation: An Empirical Assessment at Zone
Level. *Risk Hazards & Crisis in Public Policy*, 2.0(2), 1930-01-01
00:00:00. https://doi.org/10.2202/1944-4079.1069
Shiiba, N., Singh, P., Charan, D., Raj, K.,
Stuart, J., Pratap, A., Maekawa, M. (2023). Climate change and coastal
resiliency of Suva, Fiji: a holistic approach for measuring climate risk using
the climate and ocean risk vulnerability index (CORVI). *Mitigation and
Adaptation Strategies for Global Change*, 28.0(2), .
https://doi.org/10.1007/s11027-022-10043-4
McKenzie, M., Henderson, J. A., Nxumalo, F.
(2023). Climate change and educational research: Mapping resistances and
futurities. *Research in Education*, 117.0(1), 2025-10-03 00:00:00.
https://doi.org/10.1177/00345237231203073
Kelley, C. P., Mohtadi, S., Cane, M. A.,
Seager, R., Kushnir, Y. (2015). Climate change in the Fertile Crescent and
implications of the recent Syrian drought. *Proceedings of the National Academy
of Sciences*, 112.0(11), 3241-3246. https://doi.org/10.1073/pnas.1421533112
Karlsson, M., Westling, N., Lindgren, O.
(2023). Climate-Related Co-Benefits and the Case of Swedish Policy. *Climate*,
11.0(2), 40. https://doi.org/10.3390/cli11020040
Thaker, J., Floyd, B. (2021). Co-benefits
associated with public support for climate-friendly COVID-19 recovery policies
and political activism. *Journal of Science Communication*, 20.0(5), A08.
https://doi.org/10.22323/2.20050208
Kennard, A., Schnakenberg, K. E. (2023).
Comment: Global Climate Policy and Collective Action. *Global Environmental
Politics*, 23.0(1), 133-144. https://doi.org/10.1162/glep_c_00699
Ismail, S., Abbara, A., Collin, S. M.,
Orcutt, M., Coutts, A., Maziak, W., Sahloul, Z., Dar, O., Corrah, T., Fouad, F.
M. (2016). Communicable disease surveillance and control in the context of
conflict and mass displacement in Syria. *International Journal of Infectious
Diseases*, 47.0, 15-22. https://doi.org/10.1016/j.ijid.2016.05.011
Selvey, L., Carpenter, M., Lazarou, M.,
Cullerton, K. (2022). Communicating about Energy Policy in a Resource-Rich
Jurisdiction during the Climate Crisis: Lessons from the People of Brisbane,
Queensland, Australia. *International Journal of Environmental Research and
Public Health*, 19.0(8), 4635. https://doi.org/10.3390/ijerph19084635
Safrina, S., Roesa, N., Rosemary, R.
(2022). Community Participation for Adaptation and Mitigation of Climate
Change: Case study the implementation of Program Kampung Iklim (Proklim).
*Batulis Civil Law Review*, 3.0(2), 137. https://doi.org/10.47268/ballrev.v3i2.945
Nässén, N., Lilja, M., Sjöberg, S.,
Colding, J. (2024). Community climate commons for collective climate action.
*Sustainable Development*, 33.0(2), 2078-2095. https://doi.org/10.1002/sd.3227
Friis-Hansen, E. (2017). Conclusion:
towards subnational climate change action amidst ambiguity and contestation
over power and resources. *nan*, , 147-154.
https://doi.org/10.1079/9781786390769.0147
Abouzeid, M., Elzalabany, M., Nuwayhid, I.,
Jabbour, S. (2021). Conflict-related health research in Syria, 2011–2019: a
scoping review for The Lancet - AUB Commission on Syria. *Conflict and Health*,
15.0(1), . https://doi.org/10.1186/s13031-021-00384-3
Debnath, R., Reiner, D., Sovacool, B. K.,
Müller-Hansen, F., Repke, T., Alvarez, R. M., Fitzgerald, S. (2023).
Conspiracy spillovers and geoengineering. *Iscience*, 26.0(3), 106166.
https://doi.org/10.1016/j.isci.2023.106166
Sultana, F. (2021). Critical climate
justice. *Geographical Journal*, 188.0(1), 118-124.
https://doi.org/10.1111/geoj.12417
Eklund, L., Mohr, B., Dinç, P. (2024).
Cropland abandonment in the context of drought, economic restructuring, and
migration in northeast Syria. *Environmental Research Letters*, 19.0(1), 14077.
https://doi.org/10.1088/1748-9326/ad1723
Mukhopadhyay, S. (2024). De-hyphenation of
India and Pakistan: An empirical assessment. *International Journal of
Political Science and Governance*, 6.0(1), 230-234.
https://doi.org/10.33545/26646021.2024.v6.i1d.326
Acharibasam, J. B. (2022). Decolonizing
Climate Change Education: Evidence from an Empirical Study in Ghana. *nan*, , .
https://doi.org/10.7176/jep/13-32-06
Haar, R. J., Risko, C. B., Singh, S.,
Rayes, D., Albaik, A., Alnajar, M., Kewara, M., Clouse, E., Baker, E.,
Rubenstein, L. (2018). Determining the scope of attacks on health in four
governorates of Syria in 2016: Results of a field surveillance program. *Plos
Medicine*, 15.0(4), e1002559. https://doi.org/10.1371/journal.pmed.1002559
Ridoutt, B. G., Baird, D., Anastasiou, K.,
Hendrie, G. A. (2019). Diet Quality and Water Scarcity: Evidence from a Large
Australian Population Health Survey. *Nutrients*, 11.0(8), 1846.
https://doi.org/10.3390/nu11081846
Li, M., Long, K. (2019). Direct or
Spillover Effect: The Impact of Pure Technical and Scale Efficiencies of Water
Use on Water Scarcity in China. *International Journal of Environmental
Research and Public Health*, 16.0(18), 3401. https://doi.org/10.3390/ijerph16183401
Ahmed, B., Islam, M. T., Hasan, A. (2014).
Disaster induced Migration and Social Conflict: An Enquiry in the Light of
Cyclone Sidr in Bangladesh. *Economic Journal of Nepal*, 37.0(2025-02-01
00:00:00), 61-71. https://doi.org/10.3126/ejon.v37i1-2.75155
Walker, D. W., Cavalcante, L., Kchouk, S.,
Neto, G. R., Dewulf, A., Gondim, R. S., Martins, E. S. P. R., Melsen, L.,
Filho, F. d. A. d. S., Vergopolan, N., Oel, P. v. (2022). Drought Diagnosis:
What the Medical Sciences Can Teach Us. *Earth S Future*, 10.0(4), .
https://doi.org/10.1029/2021ef002456
West, L., Rafiq, K., Converse, S. J.,
Wilson, A. M., Jordan, N. R., Golabek, K. A., McNutt, J. W., Abrahms, B.
(2024). Droughts reshape apex predator space use and intraguild overlap.
*Journal of Animal Ecology*, 93.0(11), 1785-1798. https://doi.org/10.1111/1365-2656.14192
Yang, T., Huang, X., Wang, Y., Li, H., Guo,
L. (2022). Dynamic Linkages among Climate Change, Mechanization and
Agricultural Carbon Emissions in Rural China. *International Journal of
Environmental Research and Public Health*, 19.0(21), 14508. https://doi.org/10.3390/ijerph192114508
Teklemariam, D., Azadi, H., Nyssen, J.,
Lanckriet, S., Asfaha, T. G., Haile, M., Taheri, F., Witlox, F. (2017).
Dynamics of the North–South Capital Flows or Rise of South–South Land
Deals? Features of Land Acquisition in Ethiopia. *Land Degradation and
Development*, 28.0(8), 2389-2407. https://doi.org/10.1002/ldr.2769
Munawar, A. (2018). Editorial Treatment of
Burhan Wani Killing: A Comparative Analysis of Pakistan and India Press.
*International Journal of Crisis Communication*, 2.0(1), 15-20.
https://doi.org/10.31907/2617-121x.2018.02.01.2
Unknown Author (2019). Eight months after
Idai: Chronology of displacement, humanitarian needs and challenges going
forward. *nan*, , . https://doi.org/10.55363/idmc.ahfc4791
Henshall, C., Jones, L., Armitage, C.,
Tomlinson, L. (2022). Empowering nurses through inclusive leadership to promote
research capacity building: A James Lind Alliance priority setting Partnership
in Community Nursing. *Journal of Advanced Nursing*, 78.0(9), 2765-2774.
https://doi.org/10.1111/jan.15342
Boda, C., Jerneck, A. (2019). Enabling
local adaptation to climate change: towards collective action in Flagler Beach,
Florida, USA. *Climatic Change*, 157.0(2025-04-03 00:00:00), 631-649.
https://doi.org/10.1007/s10584-019-02611-6
Miklian, J., Hoelscher, K. (2020).
Entrepreneurial Strategies to Address Rural-Urban Climate-Induced
Vulnerabilities: Assessing Adaptation and Innovation Measures in Dhaka,
Bangladesh. *Sustainability*, 12.0(21), 9115.
https://doi.org/10.3390/su12219115
Areia, N. P., Tavares, A. O., Mendes, J. M.
(2021). Environment Actors Confronting a Post Climate-Related Disaster
Scenario: A Feasibility Study of an Action-Based Intervention Aiming to Promote
Climate Action. *International Journal of Environmental Research and Public
Health*, 18.0(11), 5949. https://doi.org/10.3390/ijerph18115949
Hassan, K. W. (2023). Environmental
Challenges in South Asia: Need for Collective Initiatives. *Ecology Environment
and Conservation*, 29.0(Suppl), 462-465.
https://doi.org/10.53550/eec.2023.v29i04s.072
Nyahunda, L., Matlakala, F. K., Makhubele,
J. C. (2020). Environmental social work : accounting for women's tragedies in
the face of climate change-induced disasters in Chimanimani District, Zimbabwe.
*African Journal of Gender Society and Development (Formerly Journal of Gender
Information and Development in Africa)*, 9.0(4), 197-217.
https://doi.org/10.31920/2634-3622/2020/v9n4a9
Hietala, S., Usva, K., Vieraankivi, M.,
Vorne, V., Nousiainen, J., Leinonen, I. (2023). Environmental sustainability of
Finnish pork production: life cycle assessment of climate change and water
scarcity impacts. *The International Journal of Life Cycle Assessment*,
29.0(3), 483-500. https://doi.org/10.1007/s11367-023-02258-7
Lioubimtseva, E., Zylman, H., Carron, K.,
Poynter, K., Rashrash, B. M. (2024). Equity and Inclusion in Climate Action and
Adaptation Plans of Michigan Cities. *nan*, , .
https://doi.org/10.20944/preprints202407.1143.v1
Impiani, I. (2019). Escalation of Military
Conflict Between India and Pakistan in The Post Lahore Declaration (1999 –
2019): Security Dilemma Perspective. *Global Jurnal Politik Internasional*,
21.0(2), 219. https://doi.org/10.7454/global.v21i2.403
She, Y., Chen, J., Zhou, Q., Wang, L.,
Duan, K., Wang, R., Qu, S., Xu, M., Zhao, Y. (2024). Evaluating Losses from
Water Scarcity and Benefits of Water Conservation Measures to Intercity Supply
Chains in China. *Environmental Science & Technology*, 58.0(2), 1119-1130.
https://doi.org/10.1021/acs.est.3c07491
Dolan, F., Lamontagne, J., Link, R.,
Hejazi, M., Reed, P. M., Edmonds, J. (2021). Evaluating the economic impact of
water scarcity in a changing world. *Nature Communications*, 12.0(1), .
https://doi.org/10.1038/s41467-021-22194-0
Dube, K. (2024). Evolving Narratives in
Tourism and Climate Change Research: Trends, Gaps, and Future Directions.
*Atmosphere*, 15.0(4), 455. https://doi.org/10.3390/atmos15040455
Bohlmann, J., Inglesiâ€Lotz, R. (2021).
Examining the determinants of electricity demand by South African households
per income level. *Energy Policy*, 148.0, 111901.
https://doi.org/10.1016/j.enpol.2020.111901
Darwishean, S. E., Rahil, M. Y., Ehsas, M.
S. (2024). Exploring Climate Change Communication in Afghanistan on the X
Platform over the Last Six Months of 2024. *Sprin Journal of Arts Humanities
and Social Sciences*, 3.0(7), 17-24. https://doi.org/10.55559/sjahss.v3i7.374
Martin, P. J., Wen, Y., Woods, A., Fayida,
T., Hobbs, S. R. (2024). Exploring pesticide transport, groundwater, and
environmental justice in a changing climate: a community engaged research
approach. *Environmental Research Letters*, 19.0(9), 94009. https://doi.org/10.1088/1748-9326/ad67f3
Aslam, B. (2022). Exploring the Nexus
between Resource-Scarcity and Violent Conflict in Pakistan. *Pakistan Social
Sciences Review*, 6.0(II), . https://doi.org/10.35484/pssr.2022(6-ii)75
Periyasamy, C. (2019). Farmer’s Awareness
on the Effect of Climate Change in Rainfed Cotton Cultivation in Thoothukudi
District of Tamilnadu. *International Journal of Agricultural Science and
Research*, 9.0(4), 85-90. https://doi.org/10.24247/ijasraug201912
Zecca, F., D’Errico, M. (2021). Food
security and land use: The Ethiopian case. *Economia Agro-Alimentare*, (2),
2022-01-01 00:00:00. https://doi.org/10.3280/ecag2-2021oa12211
Bonifacio, G. T. (2023). Gender and Labor
Market Regimes in Post-Disaster Haiyan Communities in Leyte. *nan*, , 198-219.
https://doi.org/10.1332/policypress/9781529222906.003.0010
Jain, V., Tewathia, N., Barik, K. (2022).
Gender-Differentiated Labor and Adaptation Effects of Climate Change in Rural
Areas: A Systematic Literature Review. *nan*, , .
https://doi.org/10.21203/rs.3.rs-2304249/v1
Rulli, M. C., Saviori, A., D’Odorico, P.
(2013). Global land and water grabbing. *Proceedings of the National Academy of
Sciences*, 110.0(3), 892-897. https://doi.org/10.1073/pnas.1213163110
Jacobs, C., Almeida, B. (2020).
Government-led Resettlement after Natural Disasters as a Durable Solution? The
Case of Cyclone Idai. *Refugee Survey Quarterly*, 40.0(2), 239-247.
https://doi.org/10.1093/rsq/hdaa041
Thomas, V., Remy, C., Hazas, M., Bates, O.
(2017). HCI and Environmental Public Policy. *nan*, , 6986-6992.
https://doi.org/10.1145/3025453.3025579
Shourav, M. S. A., Mohsenipour, M.,
Alamgir, M., Pour, S. H., Ismail, T. (2016). HISTORICAL TRENDS AND FUTURE
PROJECTION OF CLIMATE AT DHAKA CITY OF BANGLADESH. *Jurnal Teknologi*,
78.0(2025-12-06 00:00:00), . https://doi.org/10.11113/jt.v78.9234
Medimorec, N. (2013). Health Risks through
Flooding and Coping Strategies for Citizens of Dhaka. *Journal of Geography
& Natural Disasters*, 3.0(2), . https://doi.org/10.4172/2167-0587.1000114
Alkhalil, M., Alaref, M., Ekzayez, A.,
Mkhallalati, H., Achi, N. E., Alzoubi, Z., Fouad, F., AlatraÅŸ, M. M., Ramadan,
A., Mazumdar, S., Borghi, J., Patel, P. (2023). Health aid displacement during
a decade of conflict (2011–19) in Syria: an exploratory analysis. *BMC Public
Health*, 23.0(1), . https://doi.org/10.1186/s12889-023-16428-7
Vaidyanathan, A., Malilay, J., Schramm, P.,
Saha, S. (2020). Heat-Related Deaths — United States, 2004–2018. *MMWR
Morbidity and Mortality Weekly Report*, 69.0(24), 729-734.
https://doi.org/10.15585/mmwr.mm6924a1
Zaman, T. A. A. U. (2014). Household Waste
Management in High-Rise Residential Building in Dhaka, Bangladesh: Users?
Perspective. *International Journal of Waste Resources*, 4.0(1), .
https://doi.org/10.4172/2252-5211.1000133
Stone, B., Gronlund, C. J., Mallen, E.,
Hondula, D. M., O’Neill, M. S., Rajput, M., Grijalva, S., Lanza, K., Harlan,
S. L., Larsen, L., Augenbroe, G., Krayenhoff, E. S., Broadbent, A. M.,
Georgescu, M. (2023). How Blackouts during Heat Waves Amplify Mortality and
Morbidity Risk. *Environmental Science & Technology*, 57.0(22), 8245-8255.
https://doi.org/10.1021/acs.est.2c09588
Mortoja, M. G., YiÄŸitcanlar, T. (2020).
How Does Peri-Urbanization Trigger Climate Change Vulnerabilities? An
Investigation of the Dhaka Megacity in Bangladesh. *Remote Sensing*, 12.0(23),
3938. https://doi.org/10.3390/rs12233938
Graham, N. T., Hejazi, M., Chen, M.,
Davies, E., Edmonds, J., Kim, S. H., Turner, S., Li, X., Vernon, C., Calvin,
K., Mirallesâ€Wilhelm, F., Clarke, L., Kyle, P., Link, R., Patel, P., Snyder,
A., Wise, M. (2020). Humans drive future water scarcity changes across all
Shared Socioeconomic Pathways. *Environmental Research Letters*, 15.0(1),
14007. https://doi.org/10.1088/1748-9326/ab639b
Loughnan, M., Tapper, N., Phan, T. (2014).
Identifying Vulnerable Populations in Subtropical Brisbane, Australia: A Guide
for Heatwave Preparedness and Health Promotion. *Isrn Epidemiology*, 2014.0,
2025-12-01 00:00:00. https://doi.org/10.1155/2014/821759
Sangeetha, S., Usha, S. (2022). Impact of
Climate Change on the Labor Market. *Ecs Transactions*, 107.0(1), 11287-11294.
https://doi.org/10.1149/10701.11287ecst
Senay, G. B., Kagone, S., Parrish, G. E.
L., Khand, K., Boiko, O., Velpuri, N. M. (2023). Improvements and Evaluation of
the Agro-Hydrologic VegET Model for Large-Area Water Budget Analysis and
Drought Monitoring. *Hydrology*, 10.0(8), 168. https://doi.org/10.3390/hydrology10080168
Tarnas, M. C., Desai, A. N., Lassmann, B.,
Abbara, A. (2021). Increase in vector-borne disease reporting affecting humans
and animals in Syria and neighboring countries after the onset of conflict: A
ProMED analysis 2003–2018. *International Journal of Infectious Diseases*,
102.0, 103-109. https://doi.org/10.1016/j.ijid.2020.09.1453
Puigâ€Ribera, A., Rofin, M., Bortâ€Roig,
J., Aumatell, E., Pujol, A. J. i., Pedro, M. d. S., s, F. G. C., Chamorro, C.,
Perona-Ribes, L., Torrentó, J., Jabardo-CamprubÃ, G., Palmero, F., Geli, M.
(2022). Integrating Health Into the Urban Master Plan of Vic, Barcelona: A
Comprehensive Approach. *Urban Planning*, 7.0(4), .
https://doi.org/10.17645/up.v7i4.5492
Baptista, D., Ayala, J. M. S., Noh, H.,
Novella, R. (2024). Labor Markets and Climate Change: How to Adapt Labor Market
Policies and Improve Employment Opportunities?. *nan*, , .
https://doi.org/10.18235/0012889
Roy, S., Biswas, A., Shawon, M. T. A.,
Akter, S., Rahman, M. M. (2024). Land use and meteorological influences on
dengue transmission dynamics in Dhaka city, Bangladesh. *Bulletin of the
National Research Centre*, 48.0(1), . https://doi.org/10.1186/s42269-024-01188-0
Wang, C., Shuai, C., Chen, X., Sun, J.,
Zhao, B. (2024). Linking local and global: Assessing water scarcity risk
through nested trade networks. *Sustainable Development*, 33.0(1), 2018-01-01
00:00:00. https://doi.org/10.1002/sd.3103
Tweneboah-Koduah, D. (2024). Local
Governments’ Capacity to Adapt to Climate Change in Ghana: Evidence From
Bongo District. *Journal of Asian and African Studies*, , .
https://doi.org/10.1177/00219096241243294
Shitaye, G., Gadisa, E., Grignard, L.,
Shumie, G., Chali, W., Menberu, T., Belachew, M., Tegegn, G., Challi, S.,
Curry, J. L., Mahey, L., Hailu, T., Mamo, H., Menon, M., Balcha, T. T., Aseffa,
A., Drakeley, C., Bousema, T., Tadesse, F. G. (2018). Low and heterogeneous
prevalence of glucose-6-phosphate dehydrogenase deficiency in different
settings in Ethiopia using phenotyping and genotyping approaches. *Malaria
Journal*, 17.0(1), . https://doi.org/10.1186/s12936-018-2437-8
Jafry, T. (2016). Making the case for
gender sensitive climate policy – lessons from South Asia/IGP. *International
Journal of Climate Change Strategies and Management*, 8.0(4), 559-577.
https://doi.org/10.1108/ijccsm-04-2015-0049
Degefu, D. M., He, W., Liao, Z., Yuan, L.,
Huang, Z., An, M. (2018). Mapping Monthly Water Scarcity in Global
Transboundary Basins at Country-Basin Mesh Based Spatial Resolution.
*Scientific Reports*, 8.0(1), . https://doi.org/10.1038/s41598-018-20032-w
Wang, L. (2023). Mediating Effect of Heat
Waves between Ecosystem Services and Heat-Related Mortality of Characteristic
Populations: Evidence from Jiangsu Province, China. *International Journal of
Environmental Research and Public Health*, 20.0(3), 2750.
https://doi.org/10.3390/ijerph20032750
Abouâ€Saleh, M. T., Mobayed, M. (2013).
Mental health in Syria. *International Psychiatry*, 10.0(3), 58-60.
https://doi.org/10.1192/s1749367600003854
MagrinyÃ, F., Aloy, J. M., Ruiz-Apilánez,
B. (2023). Merging Green and Active Transportation Infrastructure towards an
Equitable Accessibility to Green Areas: Barcelona Green Axes. *Land*, 12.0(4),
919. https://doi.org/10.3390/land12040919
Drastig, K., Prochnow, A., Kraatz, S.,
Libra, J. A., Krauß, M., Döring, K., Müller, D., Hunstock, U. (2012).
Modeling the water demand on farms. *Advances in Geosciences*, 32.0, 2013-09-01
00:00:00. https://doi.org/10.5194/adgeo-32-9-2012
Nix, P. E., Goldstein, A., Oppenheimer, M.
(2024). Models of sub-national U.S. quasi-governmental organizations:
implications for climate adaptation governance. *Climatic Change*, 177.0(6), .
https://doi.org/10.1007/s10584-024-03728-z
Lequechane, J., Mahumane, A., Chale, F.,
Nhabomba, C., Salomão, C., Lameira, C., Chicumbe, S., Baltazar, C. S. (2020).
Mozambique’s response to cyclone Idai: how collaboration and surveillance
with water, sanitation and hygiene (WASH) interventions were used to control a
cholera epidemic. *Infectious Diseases of Poverty*, 9.0(1), .
https://doi.org/10.1186/s40249-020-00692-5
Pitts, K., Guerguis, M. (2021). Natural
Adversities: Finding Solid Ground for School Architecture. *nan*, , 91-98.
https://doi.org/10.35483/acsa.teach.2021.13
Vickers, B., Enos-Edu, H. (2019). Natural
Disasters, Trade and LDCs. *nan*, , . https://doi.org/10.14217/c5b9750a-en
Imran, M. I. M. (2021). Nature of
India-Pakistan Water Disputes. *Pakistan Languages and Humanities Review*,
5.0(II), 119-130. https://doi.org/10.47205/plhr.2021(5-ii)2.10
Akrofi, M. M., Mahama, M., Nevo, C. M.
(2021). Nexus between the gendered socio-economic impacts of COVID-19 and
climate change: implications for pandemic recovery. *Sn Social Sciences*,
1.0(8), . https://doi.org/10.1007/s43545-021-00207-5
Lucas, C., Davison, A. (2018). Not
‘getting on the bandwagon’: When climate change is a matter of unconcern.
*Environment and Planning E Nature and Space*, 2.0(1), 129-149.
https://doi.org/10.1177/2514848618818763
Masoumpoor, A., Borhani, F., Abbaszadeh,
A., Rassouli, M. (2015). Nursing instructors’ perception of students’
uncivil behaviors: A qualitative study. *Nursing Ethics*, 24.0(4), 483-492.
https://doi.org/10.1177/0969733015611071
Weezel, S. v. (2019). On climate and
conflict: Precipitation decline and communal conflict in Ethiopia and Kenya.
*Journal of Peace Research*, 56.0(4), 514-528.
https://doi.org/10.1177/0022343319826409
Bakhtiar, F., Ismail, M., Baig, F. (2023).
Pak–India relations: A comparative analysis of political cartoons. *Media War
& Conflict*, 17.0(2), 145-162. https://doi.org/10.1177/17506352231184156
McDonnell, C. (2024). Pension funds and
fossil fuel phase-out: historical developments and limitations of pension
climate strategies. *International Environmental Agreements Politics Law and
Economics*, 24.0(1), 169-191. https://doi.org/10.1007/s10784-024-09626-0
Kadir, J. (2019). Perceiving the Enemy
Differently: A Psycho-cultural Analysis of Pakistan–India Conflict. *Journal
of Asian Security and International Affairs*, 6.0(2), 189-216.
https://doi.org/10.1177/2347797019842445
Capstick, S., Hemstock, S. L., Senikula, R.
(2017). Perspectives of artist–practitioners on the communication of climate
change in the Pacific. *International Journal of Climate Change Strategies and
Management*, 10.0(2), 323-339. https://doi.org/10.1108/ijccsm-03-2017-0058
Vraga, E. K. (2017). Political
Participation and Voting Relevant to Climate Change. *nan*, , .
https://doi.org/10.1093/acrefore/9780190228620.013.339
Magistro, B., Debnath, R., Ebanks, D.,
Wennberg, P. O., Alvarez, R. M. (2024). Political ideology and views toward
solar geoengineering in the United States. *nan*, , .
https://doi.org/10.33774/coe-2024-r6jkf
Workman, A., Blashki, G., Bowen, K.,
Karoly, D. J., Wiseman, J. (2020). Political leadership on climate change: the
role of health in Obama-era U.S. climate policies. *Environmental Research
Letters*, 15.0(10), 105003. https://doi.org/10.1088/1748-9326/aba8c3
Entradas, M., Marcelino, J., Bauer, M. W.,
Lewenstein, B. V. (2019). Public communication by climate scientists: what,
with whom and why?. *Climatic Change*, 154.0(2025-02-01 00:00:00), 69-85.
https://doi.org/10.1007/s10584-019-02414-9
Usman, M., Nichol, J. E. (2018). Remarkable
increase in tree density and fuelwood production in the croplands of northern
Nigeria. *Land Use Policy*, 78.0, 410-419.
https://doi.org/10.1016/j.landusepol.2018.04.046
DeJong, J., Ghattas, H., Bashour, H.,
Mourtada, R., Akik, C., Reeseâ€Masterson, A. (2017). Reproductive, maternal,
neonatal and child health in conflict: a case study on Syria using Countdown
indicators. *BMJ Global Health*, 2.0(3), e000302. https://doi.org/10.1136/bmjgh-2017-000302
Ibáñez, A., Quigua, J., Romero, J. H.,
Velásquez, A. (2022). Responses to Temperature Shocks: Labor Markets and
Migration Decisions in El Salvador. *nan*, , . https://doi.org/10.18235/0004237
Potenko, T. A., Emelianov, A. N. (2018).
Risk management in agriculture and adaptation to climate change. *Regional
Problems*, 21.0(3 (1)), 98-100.
https://doi.org/10.31433/1605-220x-2018-21-3(1)-98-100
Ullah, M. K. (2024). Role Of
Non-Governmental Organizations In Promoting Climate Action In Pakistan. *nan*,
1.0(3), 19-36. https://doi.org/10.69671/3hrf6v56
Twinomuhangi, R., Natuhwera, C., Ampaire,
E. (2019). Role of Local Policies in Facilitating Adaptation of Smallholder
Farming to Climate Change in Uganda. *nan*, , .
https://doi.org/10.7176/jees/9-11-09
Thorslund, J., Bierkens, M. F. P., Scaini,
A., Sutanudjaja, E. H., Vliet, M. T. H. v. (2022). Salinity impacts on
irrigation water-scarcity in food bowl regions of the US and Australia.
*Environmental Research Letters*, 17.0(8), 84002. https://doi.org/10.1088/1748-9326/ac7df4
Zougmoré, R. B., Partey, S. T., Totin, E.,
Ouédraogo, M., Thornton, P. K., Karbo, N., Sogoba, B., Dieye, B., Campbell, B.
M. (2019). Science-policy interfaces for sustainable climate-smart agriculture
uptake: lessons learnt from national science-policy dialogue platforms in West
Africa. *International Journal of Agricultural Sustainability*, 17.0(5),
367-382. https://doi.org/10.1080/14735903.2019.1670934
Rose, D., Willitsâ€Smith, A., Heller, M.
(2022). Single-item substitutions can substantially reduce the carbon and water
scarcity footprints of US diets. *American Journal of Clinical Nutrition*,
115.0(2), 378-387. https://doi.org/10.1093/ajcn/nqab338
Mittal, S., Chandel, A., Le, T. M. (2024).
Social and Economic Impacts of Climate-Induced Migration and Displacement.
*nan*, , 49-82. https://doi.org/10.4018/979-8-3693-5792-7.ch003
Dahri, G. N., Mangan, T., Nangraj, G. M.,
Talpur, B. A., Jarwar, I. A., Sial, M., Nangraj, A. N., Aamir, M. (2021).
Socio-economic Impact and Migration Due to Water Shortage in District Badin
Sindh Province of Pakistan. *Journal of Economic Impact*, 3.0(1), 2025-11-01
00:00:00. https://doi.org/10.52223/jei3012101
Woldeamanuel, B. T. (2019). Socioeconomic,
Demographic, and Environmental Determinants of Under-5 Mortality in Ethiopia:
Evidence from Ethiopian Demographic and Health Survey, 2016. *Child Development
Research*, 2019.0, 2015-01-01 00:00:00. https://doi.org/10.1155/2019/1073782
Cheng, C. (2016). Spatial Climate Justice
and Green Infrastructure Assessment: A case study for the Huron River
watershed, Michigan, USA. *Gi_forum*, 4.0(1), 176-190.
https://doi.org/10.1553/giscience2016_01_s176
Liao, C., Jung, S., Brown, D. G., Agrawal,
A. (2020). Spatial patterns of largeâ€scale land transactions and their
potential socioâ€environmental outcomes in Cambodia, Ethiopia, Liberia, and
Peru. *Land Degradation and Development*, 31.0(10), 1241-1251.
https://doi.org/10.1002/ldr.3544
Bailey, I. (2017). Spatializing Climate
Justice: Justice Claim Making and Carbon Pricing Controversies in Australia.
*Annals of the American Association of Geographers*, 107.0(5), 1128-1143.
https://doi.org/10.1080/24694452.2017.1293497
Chen, Q., Ding, M., Ouyang, Z., Hu, K., Qi,
J. (2018). Spatially explicit assessment of heat health risk by using
multi-sensor remote sensing images and socioeconomic data in Yangtze River
Delta, China. *International Journal of Health Geographics*, 17.0(1), .
https://doi.org/10.1186/s12942-018-0135-y
Vogels, M., Jong, S. d., Sterk, G., Douma,
H., Addink, E. A. (2019). Spatio-Temporal Patterns of Smallholder Irrigated
Agriculture in the Horn of Africa Using GEOBIA and Sentinel-2 Imagery. *Remote
Sensing*, 11.0(2), 143. https://doi.org/10.3390/rs11020143
Alasow, A. A., Hamed, M. M., Rady, M.,
Shahid, S. (2024). Spatiotemporal analysis of compound droughts and heat waves
in the Horn of Africa. *International Journal of Climatology*, 44.0(13),
4529-4547. https://doi.org/10.1002/joc.8595
Masefield, S., Msosa, A., Chinguwo, F. K.,
Grugel, J. (2021). Stakeholder engagement in the health policy process in a low
income country: a qualitative study of stakeholder perceptions of the
challenges to effective inclusion in Malawi. *BMC Health Services Research*,
21.0(1), . https://doi.org/10.1186/s12913-021-07016-9
Shete, M. (2020). Stakeholders’
Perspectives on Large-Scale Agricultural Investment in Ethiopia: An Analysis of
the Disconnects between Expectation and Reality. *Asian Journal of Agricultural
Extension Economics & Sociology*, , 98-113. https://doi.org/10.9734/ajaees/2020/v38i730379
Jain, V., Mazhar, S. H. (2024). Study on
Knowledge Level of Farmers towards Climate Change on Crop Production at Udaipur
District, Rajasthan, India. *Asian Journal of Agricultural Extension Economics
& Sociology*, 42.0(5), 349-355. https://doi.org/10.9734/ajaees/2024/v42i52445
Deng, J., Dong, Y., Deng, Y., Liu, Z.,
Yang, J., Gong, D. (2024). Study on the impact of smart city construction on
the health of the elderly population——A quasi-natural experiment in China.
*Plos One*, 19.0(6), e0305897. https://doi.org/10.1371/journal.pone.0305897
Scott, D. (2021). Sustainable Tourism and
the Grand Challenge of Climate Change. *Sustainability*, 13.0(4), 1966.
https://doi.org/10.3390/su13041966
Ngongolo, K., Gayo, L. (2024). Synergistic
impact of COVID-19 and climate change on agricultural resilience and food
security in Sub-Saharan Africa. *Discover Agriculture*, 2.0(1), .
https://doi.org/10.1007/s44279-024-00056-9
Ndapassoa, A. M. (2023). THE EXPERIENCE OF
MOZAMBIQUE IN CALAMITY MANAGEMENT AND SOCIO-ENVIRONMENTAL DISASTER RECOVERY
(2019-2023). *Veredas Do Direito Direito Ambiental E Desenvolvimento
Sustentável*, , 2029-01-01 00:00:00. https://doi.org/10.18623/rvd.v20.2565-ing
Sivle, A. D., Holm, A. K., Jeuring, J.,
Hygen, H. O., Svehagen, M. F. (2021). TV meteorologists at MET Norway as climate communicators. *Advances in
Science and Research*, 18.0, 27-31. https://doi.org/10.5194/asr-18-27-2021
Buse, K., Tomson, G., Kuruvilla, S.,
Mahmood, J., Alden, A., Meulen, M. v. d., Ottersen, O. P., Haines, A. (2022).
Tackling the politics of intersectoral action for the health of people and
planet. *BMJ*, , e068124. https://doi.org/10.1136/bmj-2021-068124
Olalla, P. G. d., PasarÃn, M., Borrell,
C., Calvo, M., Cormenzana, B., Cortès, I., DÃez, Ã., Echave, C., Espelt, A.,
Olalla, P. G. d., Gòmez, J., Novoa, A. M., Pallarès, M., Pérez, G.,
RodrÃguezâ€Sanz, M. (2017). The Experience of Implementing Urban HEART
Barcelona: a Tool for Action. *Journal of Urban Health*, 95.0(5), 647-661.
https://doi.org/10.1007/s11524-017-0194-6
Huttunen, J. (2024). The Extinction
Rebellion and going beyond politics: can deliberation be the answer in climate
mitigation?. *Fennia - International Journal of Geography*, , .
https://doi.org/10.11143/fennia.142467
Siddiqui, R., Samad, G., Nasir, M. S.,
Jalil, H. H. (2022). The Impact of Climate Change on Major Agricultural Crops:
Evidence from Punjab, Pakistan. *The Pakistan Development Review*, , 261-276.
https://doi.org/10.30541/v51i4iipp.261-276
Atasoy, M., Atasoy, F. G. (2020). The
Impact of Climate Change on Tourism: A Causality Analysis. *Turkish Journal of
Agriculture - Food Science and Technology*, 8.0(2), 515-519.
https://doi.org/10.24925/turjaf.v8i2.515-519.3250
Feriga, M., Lozanoâ€Gracia, N., Serneels,
P. (2024). The Impact of Climate Change on Work: Lessons for Developing
Countries. *The World Bank Research Observer*, 40.0(1), 104-146.
https://doi.org/10.1093/wbro/lkae002
Marthews, T. R., Jones, R., Dadson, S.,
Otto, F. E. L., Mitchell, D., Guillod, B. P., Allen, M. R. (2019). The Impact
of Humanâ€Induced Climate Change on Regional Drought in the Horn of Africa.
*Journal of Geophysical Research Atmospheres*, 124.0(8), 4549-4566.
https://doi.org/10.1029/2018jd030085
Wright, C. Y., Mathee, A., Kapwata, T.,
Laban, T. L., Mahlangeni, N., Shezi, B., Nkambule, S., Webster, C., Naidoo, N.,
Street, R. (2024). The Impact of Rolling Blackouts on Environmental Health in
South Africa. *Journal of Health and Pollution*, 12.0(2025-04-01 00:00:00), .
https://doi.org/10.1289/jhp1090
Utami, A. T. (2023). The Implementation of
the Scandinavian Model of Welfare State in the Swedish Economic Development.
*Juss (Jurnal Sosial Soedirman)*, 6.0(1), 55.
https://doi.org/10.20884/juss.v6i1.8383
Gurney, R. M., Meng, S., Rumschlag, S. L.,
Hamlet, A. F. (2022). The Influences of Political Affiliation and
Weather-Related Impacts on Climate Change Adaptation in U.S. Cities. *Weather
Climate and Society*, 14.0(3), 919-931. https://doi.org/10.1175/wcas-d-21-0030.1
Antoun, I., Alkhayer, A., Eldin, A. J.,
Alkhayer, A., Yazji, K., Somani, R., Ng, G. A., Zakkar, M. (2025). The
Prevalence and Predictors of Atrioventricular Blocks in Syrian Patients
Reporting to the Emergency Department During the Ongoing Conflict: A Crossâ€Sectional
Study. *Journal of Cardiovascular Electrophysiology*, 36.0(3), 576-581.
https://doi.org/10.1111/jce.16578
Montfort, S. (2025). The Rising Importance
of Distributional Barriers to the Adoption of Climate Change Mitigation
Policies. *nan*, , . https://doi.org/10.21203/rs.3.rs-6476964/v1
Arkhipova, M. (2021). The Russian labor
market and its features during a pandemic. *Drukerovskij Vestnik*, (4),
108-123. https://doi.org/10.17213/2312-6469-2021-4-108-123
Linden, S. v. d., Leiserowitz, A.,
Feinberg, G., Maibach, E. (2015). The Scientific Consensus on Climate Change as
a Gateway Belief: Experimental Evidence. *Plos One*, 10.0(2), e0118489.
https://doi.org/10.1371/journal.pone.0118489
Rimmer, J. H., Quach, P., Ward, S. G.,
Young, H., Singh, H., Lai, B. (2023). The Silent Majority: Understanding and
Supporting Access and Inclusion for People with Disabilities Living in
Predominantly Low-Resource Communities. *Disabilities*, 3.0(4), 639-647.
https://doi.org/10.3390/disabilities3040041
Frumhoff, P. C., Heede, R., ОреÑкеÑ,
Ð. (2015). The climate responsibilities of industrial carbon producers.
*Climatic Change*, 132.0(2), 157-171. https://doi.org/10.1007/s10584-015-1472-5
Berkebile-Weinberg, M., Goldwert, D.,
Doell, K. C., Bavel, J. J. V., Vlasceanu, M. (2024). The differential impact of
climate interventions along the political divide in 60 countries. *Nature
Communications*, 15.0(1), . https://doi.org/10.1038/s41467-024-48112-8
Ioris, A. A. R. (2012). The geography of
multiple scarcities: Urban development and water problems in Lima, Peru.
*Geoforum*, 43.0(3), 612-622. https://doi.org/10.1016/j.geoforum.2011.12.005
Cheung, F., Kube, A., Tay, L., Diener, E.,
Jackson, J. J., Lucas, R. E., Ni, M. Y., Leung, G. (2020). The impact of the
Syrian conflict on population well-being. *Nature Communications*, 11.0(1), .
https://doi.org/10.1038/s41467-020-17369-0
Kummu, M., Guillaume, J. H. A., Moel, H.
d., Eisner, S., Flörke, M., Porkka, M., Siebert, S., Veldkamp, T., Ward, P. J.
(2016). The world’s road to water scarcity: shortage and stress in the 20th
century and pathways towards sustainability. *Scientific Reports*, 6.0(1), .
https://doi.org/10.1038/srep38495
Boven, L. V., Ehret, P. J., Sherman, D. K.
(2018). Toward Surmounting the Psychological Barriers to Climate
Policy—Appreciating Contexts and Acknowledging Challenges: A Reply to Weber
(2018). *Perspectives on Psychological Science*, 13.0(4), 512-517. https://doi.org/10.1177/1745691618774535
Kristianssen, A., Granberg, M. (2021).
Transforming Local Climate Adaptation Organization: Barriers and Progress in 13
Swedish Municipalities. *Climate*, 9.0(4), 52.
https://doi.org/10.3390/cli9040052
Swapan, M. S. H., Zaman, A., Ahsan, T.,
Ahmed, F. (2017). Transforming Urban Dichotomies and Challenges of South Asian
Megacities: Rethinking Sustainable Growth of Dhaka, Bangladesh. *Urban
Science*, 1.0(4), 31. https://doi.org/10.3390/urbansci1040031
Patle, G. T., Libang, A. (2014). Trend
analysis of annual and seasonal rainfall to climate variability in North-East
region of India. *Journal of Applied and Natural Science*, 6.0(2), 480-483.
https://doi.org/10.31018/jans.v6i2.486
Dorrington, G., Schulzâ€Herzenberg, C.
(2024). Trusting others in a divided country: The determinants of social trust
in South Africa. *Political Psychology*, 46.0(2), 382-396.
https://doi.org/10.1111/pops.13014
Alâ€Rawi, A., OʼKeefe, D., Kane, O.,
Bizimana, A. (2021). Twitter’s Fake News Discourses Around Climate Change and
Global Warming. *Frontiers in Communication*, 6.0, .
https://doi.org/10.3389/fcomm.2021.729818
Shue, H. (2022). Unseen urgency: Delay as
the new denial. *Wiley Interdisciplinary Reviews Climate Change*, 14.0(1), .
https://doi.org/10.1002/wcc.809
CamerÃn, F. (2023). Urban Governance in
Post-pandemic Barcelona: A Superblock-Based New Normal?. *nan*, , 287-299.
https://doi.org/10.1007/978-3-031-32664-6_22
Ciommi, M., Chelli, F., Carlucci, M.,
Salvati, L. (2018). Urban Growth and Demographic Dynamics in Southern Europe:
Toward a New Statistical Approach to Regional Science. *Sustainability*,
10.0(8), 2765. https://doi.org/10.3390/su10082765
Morabito, M., Crisci, A., Gioli, B.,
Gualtieri, G., Toscano, P., Stefano, V. D., Orlandini, S., Gensini, G. F.
(2015). Urban-Hazard Risk Analysis: Mapping of Heat-Related Risks in the
Elderly in Major Italian Cities. *Plos One*, 10.0(5), e0127277. https://doi.org/10.1371/journal.pone.0127277
Chen, K., Zhou, L., Chen, X., Ma, Z., Liu,
Y., Huang, L., Bi, J., Kinney, P. L. (2016). Urbanization Level and
Vulnerability to Heat-Related Mortality in Jiangsu Province, China.
*Environmental Health Perspectives*, 124.0(12), 1863-1869. https://doi.org/10.1289/ehp204
Mehsud, M. I., Jan, A., Khan, T. A. (2020).
War or Peace on the Rivers of South Asia?. *Liberal Arts and Social Sciences
International Journal (Lassij)*, 4.0(1), 242-254.
https://doi.org/10.47264/idea.lassij/4.1.21
Munir, K., Khalid, I., Shahrukh, W. (2021).
Water conflict between Pakistan and India: Implications to regional peace and
security. *Biological and Clinical Sciences Research Journal*, 2.0(2), 255-270.
https://doi.org/10.47264/idea.jhsms/2.2.19
Franta, B. (2021). Weaponizing economics:
Big Oil, economic consultants, and climate policy delay. *Environmental
Politics*, 31.0(4), 555-575. https://doi.org/10.1080/09644016.2021.1947636
Xaba, N. (2023). Whose just energy
transition? A South African perspective. *Wiley Interdisciplinary Reviews
Energy and Environment*, 12.0(5), . https://doi.org/10.1002/wene.478
Darvish, M. A., Kaddour, A. A., Bourgol,
A., Ramazan, Y., Hallak, Y., Cavers, S., Cottrell, J. (2023). Wild relatives of
fruit trees in Syria: Genetic resources threatened by conflict. *Genetic
Resources*, 4.0(7), 68-75. https://doi.org/10.46265/genresj.etes2274
Dayton, L., Parker, K. A., Ross, J.,
Tharmarajah, S., Latkin, C. A. (2024). “Taking Action in Community Is Much,
Much Preferable to Doing It Aloneâ€: An Examination of Multi-Level
Facilitators of and Barriers to Sustained Collective Climate Change Activism
Among US Residents. *Climate*, 12.0(12), 222.
https://doi.org/10.3390/cli12120222
In
summary, the actions and strategies outlined in the chapter highlight the
various dimensions of climate change response. By rethinking communication,
embracing co-benefits, building alliances, and prioritising equity, society can
transform its approach to climate action and ensure a more resilient future for
all.
No comments:
Post a Comment