In late November 2025, Cyclone Ditwah struck Sri Lanka, causing the worst flooding in over two decades. As of January 2026, the country is transitioning from emergency relief to a massive reconstruction phase. The World Bank estimates direct physical damage at 4. 1bn (approximately 4% of GDP), though total reconstruction needs are expected to exceed 6bn. The reconstruction efforts are divided into several critical sectors: Infrastructure restoration (1. 735bn): Infrastructure represents the largest share of damage (42%). Priority is being given to: Housing and urban planning (985m): Over 6, 000 houses were destroyed, and nearly 114, 000 houses were partially damaged throughout the country. Residential building damage, including contents, accounted for US985m, 24% of the total estimated damage. Hence, housing is a top priority: Education and health (562m): Over 1, 300 schools and 6 universities were affected. Around 500 schools were utilised as temporary shelters at the initial response. Reconstruction focuses on repairing classrooms and replacing lost educational materials before the new academic term starts in early January. Schools utilised as temporary housing require refurbishment to address wear and tear. More than 400 health-care institutions reported some extent of damage following the disaster, including several major referral centres. The estimated cost for the sector to regain full operational capacity is Rs 21, 026. 73m. Eight hospitals are planned for relocation, costing around Rs 7, 904. 28m (Cyclone Ditwah, 2025). In hospitals, mitigating flood risks requires significant investment, encompassing the repair of damaged machinery, the vertical relocation of life-saving equipment and the structural reinforcement of critical care departments, such as ICUs and surgical theatres. Reconstruction of grassroots-level public health units (Medical Officer of Health MOH), field weighing posts and rural clinics will incur a substantial cost. Cyclone Ditwah highlighted that most of the existing infrastructure stock was designed for a “climate that no longer exists”, necessitating a fundamental shift from simple repair to climate-resilient reconstruction. Based on the impacts of Cyclone Ditwah, here are the strategic areas for improving infrastructure to reduce future vulnerabilities. Resilience is not built in the aftermath of a disaster, but in the “quiet months” between them by integrating climate and disaster risk, and their interdependences into every national budget and urban plan. While the acute phase of the current disaster has subsided, persistent uncertainties and escalating risks continue to challenge Sri Lanka’s long-term resilience. The onset of the North-Eastern Monsoon, combined with recurring low-pressure systems, has heightened the risk of a protracted crisis. This situation underscores the fact that risk is systemic and cascading, further destabilising the country’s fragile socio-economic landscape. To navigate this multi-dimensional vulnerability, Sri Lanka must implement strategically calculated, measurable actions. The integration of disaster risk reduction (DRR) must move beyond theoretical frameworks into practical application. This includes developing robust multi-hazard early warning systems that account for the compounding nature of simultaneous risks. All future interventions must address the complexities of modern disasters by tackling exposure, vulnerability and hazard characteristics in a holistic manner. Several key steps are required to mainstream DRR strategies in to post cyclone reconstruction process. This would not only improve the quality of the infrastructure but also make it as disaster resilient as possible. DRR should be an integral part of legal and normative frameworks, risk-informed national and sectoral policy and strategy design and implementation, financing and programme budgeting, codes for design and construction of the built environment both urban and rural, land use planning, both at national and local government levels, preparedness and emergency response planning accountability, monitoring and evaluation mechanisms and donor management (Palliyaguru and Amaratunga, 2008). As disaster risk increases, it must be ensured that the country is built back better with improved recovery outcomes, considering the vulnerabilities of the past, and systems created for the future. This includes ensuring risk assessments to understand the locational vulnerability of relocation sites, arranging finance through grants, international assistance, insurance or other instruments and building the capacity of critical stakeholders on safe (re) construction sites. In this context, it is essential that pre-disaster recovery preparedness is undertaken to enhance resilience rather than rebuilding existing risks (SFDRR mid-term review, 2023). Towards the goal of ensuring that the county (and communities) is ready for targeted and timely post-disaster recovery for long-term resilience, and to change this trajectory, governments and partners worldwide endorsed the Priority Actions to Enhance Readiness for Resilient Recovery (UNDRR, 2025). These ten actions call for stronger governance, inclusive financing, empowered local leadership, resilient housing and infrastructure, livelihood recovery systems and adaptive monitoring. Critical infrastructure (CI) is the lifeline of a society. They are designed to withstand the impacts of a crisis, so that the essential operations can run without interruption; however, their resilience against disasters remains inadequately understood with the increasing interdependencies among different CIs. A functioning water treatment plant is vital for a hospital, as is the uninterrupted power to a water pumping station. A better understanding of these interdependencies and unique operational capabilities is essential for post-disaster recovery and reconstruction (Rathnayaka et al. , 2025). Interdependencies among CI could run into an increasing risk of cascading failures triggered by primary malfunctions, witnessed during the current disaster. Such failures are catastrophic in the immediate aftermath of a disaster, making it impossible to restore the system. Restoration, too, has to be linked rather than restoring one entity after another, understanding their interoperability. It is no secret that much of the CI is a legacy of the country’s colonial past or modifications afterwards. Hence, remodelling them to be disaster resilient is both economically and logistically challenging. Such a situation necessitates continued political will, more investment and technical expertise to modernise the CI to withstand future disasters; and the reconstruction phase offers the best window to implement this change. The severity of human suffering due to recent landslides is accompanied by widespread destruction of physical and social productive infrastructure. As a result, the economy of many administrative districts and communities is at risk of immediate-, medium- and long-term impacts. Further, landslides are likely to increase considerably in the near future due to the impact of climate change and climate variability, resulting in extreme weather conditions. The large-scale destruction of life and property following disasters calls for more sustainable and efficient relocation policies. It is therefore vital that current policies and laws are reviewed that are relevant and applicable for resettlement and land acquisition. Current shortcomings and gaps also need to be identified pertaining to the resettlement of vulnerable populations to safe areas, and recommendations for strengthening policy content and laws conducive to efficient planning and implementation of a national landslide risk mitigation action plan. The policy brief that was compiled using the findings of a study which was undertaken to understand the status of a community that had been displaced and relocated to new locations following landslides in the Kegalle district, Sri Lanka, provide following recommendations that are equally applicable to the current setting (Fernando et al. , 2020): Conducting a need, social impact and capacity assessment before the relocation process; Introducing additional funding opportunities for displaced communities based on the results of need, social impact and capacity assessment; strategies for restoration of livelihood/income generation/enhance skills of family members; providing support to improve the livelihood strategies of relocated communities; expediting the process of issuing deeds for houses and land ownership. Further recommendations for the future include: provision of legal documents to prove land ownership; mechanism to make beneficiaries aware about the resettlement policy; and management of house construction expenditure and reducing the time of receiving the instalments (Fernando et al. , 2021). Relocation strategy must account for the deep cultural and economic ties Sri Lankans hold towards their homes: The NBRO has designated nearly 30% of Sri Lanka as landslide-prone, making the search for safe relocation sites a significant dilemma for both officials and displaced communities. This crisis is intensified by the time-intensive nature of technical land assessments. With island-wide destruction stretching the NBRO’s human resources to their limit, completing these evaluations remains a mammoth challenge. A critical bottleneck exists in the transition from emergency shelter to temporary housing. Many displaced families are currently sheltered in schools, which must soon be vacated to resume educational activities. Because of a lack of alternative campsites for temporary camps, many families remain in a state of “limbo”, with no clear path to safe, mid-term accommodation. While the government has announced a substantial compensation package for rebuilding and repairs, significant gaps remain: While the government’s decision to waive land deed and ownership requirements for disaster compensation is a vital step for landless plantation communities, significant barriers remain. The Right to Information Commission recently emphasised that all compensation guidelines, circulars and forms must be published in Sinhala, Tamil and English to eliminate the information bias, affecting communities in the North, East and plantation sectors. Furthermore, many affected individuals struggle with complex official jargon; without accessible language and dedicated administrative guidance, these communities remain at risk of being excluded from the relief they are legally entitled to receive. Evidence-based, risk-informed urban planning has been recognised as an important strategy for reducing disaster risk. Existing strategies fail to address multi-hazard threats and systemic risk, as well as inadequate community involvement, and limited access to timely disaster risk information (Perera et al. , 2025). Although strict regulations are there in case of buildings and houses, a faulty system, administrative bottlenecks and malpractices to some extents have created many loopholes and avenues to bypass the system. Therefore, a paradigm shift in the necessary processes is essential to fix the system. Strategies for urban planning in hazard-prone areas can be grouped into six broad themes: “community participation, spatial planning, soft and hard engineering, evacuation planning and resilience thinking” (Kamalrathne et al. , 2022; Dissanayake et al. , 2022). The uncertainties and complexities inherent in post-disaster situations pose unique challenges for project design, implementation and monitoring. During reconstruction, particularly significant roadblocks are created by uncertainties regarding land suitability, recurring disaster risks and changing climatic conditions (Ismail et al. , 2014a). These challenges are further compounded by delayed or inadequate assessments, administrative bureaucracy, poor resource allocation and a lack of skilled human resources. The application of ineffective PM strategies during post-disaster reconstruction can further exaggerate the problems associated with reconstruction. For instance, the application of conventional stakeholder management may not be appropriate for post-disaster reconstruction in developing countries because post-disaster construction certainly requires inputs of numerous irregular stakeholders, such as community-based organisations, disaster management bodies, donors, thus managing such irregular stakeholders will require much more thoughtful approaches and processes (Ismail et al. , 2014a). Given the extent of the damage and the risk areas involved in the current disaster, these challenges are likely to be exacerbated during ongoing reconstruction efforts. Delays in assessing and quantifying the damage – due to insufficient technical staff and associated costs – can severely hamper projects. Furthermore, mandatory requirements for completing such assessments before allocating government land or resources will prolong the time it takes for reconstruction to commence. Moreover, there are several reasons pointed out as to why the traditional PM carry limitations in the context of post-disaster reconstruction: it focuses on a single project life cycle or inflexible timeframe for project completion; identify the complexities and unique challenges of large disaster settings; it measures project success in terms of project outcome rather than ongoing processes; it does not count the requirements of the target communities. These issues need careful intervention in the post-cyclone reconstruction activities. This presents another significant challenge. Previous experiences in Sri Lanka suggest that post-disaster reconstruction is often driven primarily by the immediate need for housing for the displaced. However, since current disasters often affect multiple sectors, including roadways, health and education, a structured approach to prioritising reconstruction and managing these diverse projects is warranted. These arrangements are critical for a successful post-disaster reconstruction. The total direct and indirect assistance received by the government for disaster response, relief and reconstruction is around Rs 85bn. Various other funding sources, such as the UN Humanitarian Appeal targets around US35m, while the International Monetary Fund has released US206m to address and ease the fiscal pressure due to Cyclone Ditwah (IMF, 2025). In addition, the “Rebuilding Sri Lanka” fund has amassed over Rs 4. 2bn, with generous support from the general public, diaspora and business community (Predietnaol Secretariat, 2025). How the government plans to channel these funds into priority reconstruction projects, including housing, health, road links and education, must be studied further. One mechanism could be the newly established Presidential Task Force. An extraordinary gazette was issued recently, establishing a 25-member Presidential Task Force under the “Rebuilding Sri Lanka” initiative to coordinate post-disaster rehabilitation, recovery and reconstruction (Relief web, 2026). The role of the development sector, NGOs and civil society organisations have a substantial stake in both project and funding management for reconstruction. A coordinated and planned approach, together with the government agencies, will avoid duplication of efforts and waste of resources during the reconstruction process. Accountability towards the affected populations and community needs must be central to such reconstruction efforts (Ismail et al. , 2014b). We understand risk, but not necessarily the actions needed for disaster resilience and how to make these disasters resilient and sustainable. This editorial has explored what reconstruction approaches and practices are relevant for addressing disaster risks, such as multi-stakeholder engagement and participatory planning, and what are the tools can guide reconstruction planners and related stakeholders for this transformation, where DRR act as a catalyst for the development of novel/transformative reconstruction policies and practices. It seeks to identify and understand how the reconstruction process can be used to mitigate future disaster impacts.
Kodituwakku et al. (Fri,) studied this question.