Through a user-friendly web interface and interoperable data services, DROPS-WISE will support operational decision-making, crisis management and longer-term planning for water authorities and other stakeholders. Designed with interoperability, data governance and scalability at its core, the solution aligns with European data standards and Copernicus services, contributing to more resilient, data-driven water management under increasing climate uncertainty.

DROPS-WISE is one of the five consortium selected under the PCP WISE innovation project. PCP WISE is a European innovation project in which public organizations and market parties from across Europe collaborate. The project focuses on developing a usable and applicable tool for water information, enabling water managers to respond better and faster to climate-related challenges. By intelligently combining satellite data with, for example, field measurements, meteorological and hydrological models, greater insight is gained into the dynamics of the aquatic vegetation system.

DROPS-WISE is formed by a consortium between FutureWater, Acacia Water, Nelen & Schuurmans, VITO, Technolution and ARUP. Futurewater is bringing its expertise in Hydrological Modelling and Analysis, Risk Assessment and Water Scarcity and Drought Management.

Since gaining independence in 2002, Timor-Leste has made significant gains in peacebuilding, governance, and infrastructure with goals to achieve upper-middle income status by 2030 as laid out in its Strategy Development Plan (SDP) for 2011-2030, which places agriculture at its core. However, challenges in Timor-Leste persist, particularly with food security.

The Ministry for Agriculture, Livestock, Fisheries and Forestry (MALFF) has developed its own goal under the national SDP to “improve national food security, reduce rural poverty, support the transition from subsistence livelihoods to the commercial production of food crops, livestock, fisheries, forestry and industrial crops; and promote environmental sustainability and conservation of Timor-Leste’s natural resources.”

Under the project TCP/TIM/390, FAO developed a national assessment report compiling indicators for rice production and value chains and a detailed strategy for strengthening the rice industry for MALFF. To further support the goals of MALFF and strengthen the technical capacity of staff there to conduct remote-sensing-based rice mapping and crop water productivity analyses, FAO has hired FutureWater to develop a remote-sensing-based rice mapping and crop water productivity analysis for national GIS/statistics specialists at MALFF, focusing on two priority irrigation schemes (Bebui and Oebaba). This analysis meets MALFF’s immediate needs on assessing rice area and productivity, and FutureWater will also support MALFF in building capacity to undertake these analyses themselves by developing a step-by-step guide on conducting a crop water productivity assessment.

ADB is committed to supporting its developing member countries in scaling up climate action. As part of this commitment, ADB is implementing TA 10098-REG: Bridging the Gap between Climate Adaptation Planning and Financing, also known as the Climate Adaptation Investment Planning (CAIP) TA. The CAIP TA aims to enhance the capacity of developing member countries (DMCs), to identify climate adaptation investment priorities to catalyze financing for adaptation and resilience. The TA delivers three outputs: (i) climate adaptation investment plans developed; (ii) appraisal of climate adaptation projects improved; and (iii) regional knowledge on climate adaptation investment planning strengthened.

The CAIP TA applies a five-step process for climate adaptation investment planning: (i) reviewing country and sector context, including national development plans and strategies, climate policies including the National Adaptation Plan (NAP), Nationally Determined Contribution (NDC), or equivalent adaptation plans; (ii) undertaking more granular climate diagnostic for selected national adaptation priorities; (iii) prioritizing adaptation investments; (iv) linking with public financial management systems; and (v) identifying appropriate financing opportunities.  The CAIP TA brings together different relevant ministries, especially the finance and planning ministry, the respective sector ministry, and the environment ministry. In addition, the implementation process closely collaborates with relevant development partners active in the adaptation space in the country, the private sector, and civil society organizations.

FutureWater was engaged by ADB to develop the climate adaptation investment plans and underlying Climate Risk and Adaptation assessments (CRAs) for selected river basins in Lao PDR and Timor-Leste. Both the CRAs and the investment plans are approached from a multi-sector perspective and strongly adhere to IWRM principles. Water resources modelling (WEAP) is employed to relate water supply and demands in an integrated framework under different scenarios, in addition to extensive mapping of climate hazards, exposure and vulnerability across the study areas, making use of a combination of state-of-the-art global data and tools and locally-sourced information. The investment plans involve mapping and assessment of current and planned investments within the river basins, including nature-based solutions and green-gray infrastructure, followed by an identification of adaptation opportunities and subsequent prioritization. The results of the CAIP process for Lao PDR and Timor-Leste are expected to support the country’s national adaptation priorities into concrete, investment-ready plans and securing the necessary funding for their implementation.

The Asian Development Bank (ADB) is currently developing and testing a new generation climate and disaster risk screening and assessment tool for their investment projects. This builds on a decade of experience in enhancing the climate and disaster resilience of ADB investments and incorporates feedback from a wide range of ADB staff, consultants, and external experts.

The tool is designed to deliver scientifically robust and context-specific risk screening for climate, climate change, and geophysical hazards at the project concept and preparation stage. It aims to support the design of effective adaptation and resilience strategies by offering improved access to underlying data, enhanced flexibility for exploring specific risks, and the ability to handle complex spatial project configurations such as power grids and agricultural projects. A semi-automated module now under testing also supports the generation of light-touch Climate Risk and Adaptation (CRA) assessments. Other modules included will address Paris Agreement alignment,  and enable automated input into relevant sections of the adaptation (BB2) assessment.

FutureWater contributes technical expertise on climate and hazard data, climate projections, and risk assessment methodologies, as well as capacity building. The tool’s development is guided by an iterative, consultative process involving ADB staff, external experts, and software developers. The methodology integrates hazard, exposure, vulnerability, and user-defined data for risk calculation. The tool is being tested in pilot applications in Laos and Uzbekistan, amongst others, to ensure alignment with national contexts and data availability. FutureWater plays a key role in piloting the methodology and developing example risk screening and CRA reports to validate and refine the tool’s functionalities.