Institutional evolution

APGRC’s development reflects the growing recognition of plant genetic resource conservation as a national priority in Sudan. The center has evolved through several key institutional phases (Fig. 1).

Figure 1. Key events and milestones in the development, crisis response, and future resilience building of Sudan’s Agricultural Plant Genetic Resources Conservation and Research Center.

The Plant Genetic Resources Program in Sudan began in 1982 as an activity within the Horticultural Research Section of the Agricultural Research Corporation (ARC). It was initially established as a Horticultural Germplasm Unit and focused on the collection, conservation, and characterization of the local genetic resources of horticultural crops. In 1995, the program was upgraded to a semi-autonomous plant genetic resource unit, and in 2014, it was elevated to the Agricultural Plant Genetic Resources Conservation and Research Center (APGRC 2018; Mohamed Reference Mohamed2025; Crop Trust 2025a).

APGRC operates under the parent organization of the Agricultural Research Corporation (ARC) and is headquartered in Wad Medani, Sudan. The center manages a network of conservation facilities, including the central genebank at Wad Medani, a subnational genebank at the ARC El Obeid Agricultural Research Station in North Kordofan state, a field genebank for banana in Kassala state (eastern Sudan), and a field genebank for date palm in El Hudeiba in the River Nile state (Northern Sudan) (CBD (Sudan fifth national report to the convention on biological diversity) 2014; APGRC 2018; Crop Trust 2025a).

Germplasm collection: Scope and significance

As of November 2022, APGRC’s collection had reached 17,277 accessions including 16,739 seed accessions of 69 crops in long-term storage, 359 accessions of banana in field genebanks, and 179 accessions of date palm in field genebanks (Crop Trust 2025a). This collection is significant because several important crops likely originated in Sudan, including sorghum, pearl millet, okra, melons, watermelon, sesame, and dry dates (CBD (Sudan fifth national report to the convention on biological diversity) 2014). It is particularly rich in sorghum (6,985 accessions) and pearl millet (3,124 accessions), which together constitute approximately 58% of the conserved seed materials. Other significant holdings include okra, melon, watermelon, sesame, and groundnut, each with over 500 accessions (Crop Trust 2025a). Nearly 90% of seed samples are local landraces or farmers’ varieties, and much of the collection is unique and not found in genebanks elsewhere in the world, making the APGRC collection an irreplaceable resource for global agricultural biodiversity (APGRC 2018; Crop Trust 2025a).

According to an assessment report for the APGRC by the Crop Trust (2023), about 70% (11,851) of the accessions conserved are of crops included in Annex I of the International Treaty on Plant Genetic Resources for Food and Agriculture (ITPGRFA) within the multilateral system for access and benefit sharing (Crop Trust 2023). The germplasm collection activities of the APGRC from 2002 to 2022 have significantly contributed to this situation, where crops and plant species covered by the multilateral system of the ITPGRC have become dominant in the germplasm materials held by the APGRC, as recently reported by El Tahir et al. (Reference El Tahir, Babiker, Abdalla, Elhuda Ahmed, Yousif Goda and Mohamed Elgabri2025). The two main cereal crops in Sudan, sorghum and pearl millet, account for 83% of the Annex I crops. The non-Annex I crops are mainly vegetables and oil crops, and five of these crops have more than 500 conserved accessions. Overall, 57% of the non-Annex I accessions were okra, pumpkin, snakemelon, sweet melon, watermelon, sesame, and groundnuts. In general, the composition of the collections would be described as 75% accessions from seven crops, six of which originated in Sudan. The remaining 25% of the collections consisted of accessions from 62 crops of importance to Sudan’s agricultural systems; however, many of these have only a small representation of diversity.

Conservation methods

APGRC implemented international standard conservation protocols. Seeds are dried to a moisture content of 3–7% in a controlled drying room maintained at 15°C and 15% relative humidity before being vacuum-sealed in laminated aluminum foil packets, and placed in freezers. The freezers are housed in rooms with ambient temperature control to reduce thermal stress on the cooling units. Seed samples tested for viability prior to storage and subsequently re-tested at 5–10 year intervals (depend on the crop and the results of last test) to monitor their long-term health, with the collection partially duplicated in long-term storage at El Obeid subnational genebank. Approximately 7000 accessions, primarily landraces of sorghum, millet, and groundnut from western Sudan viz Kordofan and Darfur regions, were stored at the El Obeid. In addition, over 4000 accessions, including unique varieties of sorghum, pearl millet, and cowpea, were safety duplicated internationally at institutions such as the United States Department of Agriculture (USDA), the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), the International Institute of Tropical Agriculture (IITA), the French National Research Institute for Agriculture, Food and Environment (INRAE), and the Millennium Seed Bank (APGRC 2018; Crop Trust 2025a). A complete four-way inventory to determine the exact overlap between the main collection, the El Obeid site, and international genebanks is a critical priority for the recovery phase.

Information management

Information on germplasm collection activities has been documented within the APGRC GenBank documentation system as well as in the global PGR data platform Genesys (El Tahir et al. Reference El Tahir, Babiker, Abdalla, Elhuda Ahmed, Yousif Goda and Mohamed Elgabri2025). Passport data on more than 15,000 accessions have been shared on Genesys, the global portal (http://www.genesys-pgr.org/wiews/SDN002), making them visible to the international research community. However, the availability for distribution has been suspended since the onset of the conflict.

International collaboration

The center has established important international partnerships, and APGRC has collaborated throughout its history with a number of international organizations such as Bioversity International (formerly known as IPGRI), the Crop Trust, FAO, and ICARDA (Svalbard Global Seed Vault 2025; Crop Trust 2025a; Genesys, Reference Genesysn.d.). It was a founding member of the Eastern Africa Plant Genetic Resources Network (EAPGREN), which got significant financial support from the Swedish International Development Cooperation Agency (Sida) during 2003–2010 (El Tahir et al. Reference El Tahir, Babiker, Abdalla, Elhuda Ahmed, Yousif Goda and Mohamed Elgabri2025). These international partnerships focused on capacity building, germplasm exchange, and joint research. For example, collaboration with the Crop Trust and the Food and Agriculture Organization (FAO) facilitated the installation of improved storage infrastructure and staff training in modern conservation techniques. Participation in the Eastern Africa Plant Genetic Resources Network (EAPGREN) enabled Sudanese researchers to engage in regional conservation strategies and benefit from shared expertise.

Chronology of events

Fighting erupted in the capital of Khartoum on April 15, 2023, between the Sudan Armed Forces (SAF) and what has been officially known as the Rapid Support Forces (RSF) in the background of what seemed to be political differences. Both factions have been sharing top ruling political power in the country for a number of years prior to that date. Since then, the SAF declared an RSF rebel militia.

Eight months later, the fighting spread to the south of Khartoum on December 15, 2023, when the RSF started attacking the Gezira state, and moved to capture on December 18, the capital of the state, Wad Medani city, where the headquarters and main compound of the ARC are located, including the headquarters of the APGRC. This situation forced the APGRC staff to flee to safer regions of the country (Mohamed Reference Mohamed2025).

A few days later, news spread that the genebank at the APGRC was looted of all the deep freezers, where seed packets of approximately 17,000 accessions were kept. The seed samples and the boxes they contained were left scattered all around the floors of the seed bank rooms or on the ground outside the rooms, until they were assembled and put back inside the rooms with the efforts of some people who were still there. Moreover, all servers and computers through which the GenBank documentation system was run were looted, impairing access to the GenBank database, including passport, characterization, and management data on thousands of germplasm entries (Eltahir Ibrahim Mohamed Reference Mohamed2025).

Current status

When Wad Medani was liberated by the SAF in January 2025, the top management of the ARC and APGRC returned to find that a number of aluminum pouches of seeds were still around either within the buildings of the APGRC or moved out to other buildings within the ARC compound. Some were ripped open, and the contents were scattered. The pre-conflict holding of 16,739 seed accessions is now considered a baseline. An immediate priority of the recovery effort is to conduct a full inventory of the remaining materials to quantify the exact number of accessions that have been physically lost or rendered nonviable due to exposure.

Attempts to rescue the remaining germplasm materials began onsite at the APGRC headquarters shortly after the liberation of Wad Medani City in January 2025 Seed packets have been visually assessed, separating the damaged from the intact packets (Fig. 1) and, with the generator now repaired, cooler temperature conditions can be maintained inside the genebank storage rooms. Efforts are ongoing to assess the viability and moisture status of the damaged seed samples (outlined in section 5.1) (Mohamed Reference Mohamed2025; Crop Trust 2025c).

Emergency responses

Several international organizations have expressed concerns about what happened to the Sudanese Genebank. In fact, the concern was already shown since the war erupted in Khartoum and prior to its expansion to Wad Medani eight months later. The Genebank Emergency Reserve (GER), managed by the Crop Trust and FAO International Treaty on Plant Genetic Resources, mobilized resources earlier to support the Genebank facility at Wad Medani to install a solar energy system to ensure a constant supply of electricity, when power cut-offs started to prevail for long hours a day since the beginning of the war, with scarcity of fuel supply for the stand-by generator (Crop Trust, 2023). This was not achieved due to the subsequent spread of war into Wad Medani, where the Genebank facilities were looted soon thereafter.

Instead, a solar energy system was later installed using funds from the GER in the sub-national Genebank at Elobeid City in North Kordofan state, where duplicate samples of more than 7000 accessions were deposited, ensuring electricity supply to this Genebank facility as a measure against the probable complete loss of collection in Wad Medani.

Seed samples of more than 2000 accessions were rescued from the Elobeid Sub-National Genebank with support from the Crop Trust to transfer them to the Svalbard Global Seed Vault, passing through the Nordic Genetic Resources Center (Nordgen) in Sweden (Crop Trust 2025b, 2025c). At the Nordic Genetic Resource Center (NordGen), staff sorted, catalogued, re-packed, and documented rescued seeds. In February 2025, more than 1,800 rescued seed samples were deposited in the Svalbard Global Seed Vault (Svalbard Global Seed Vault 2025). Furthermore, ICARDA provided aluminum foil packets to the APGRC to package new seed samples from those still in Elobeid to be sent during the subsequent openings of the vault in the coming months (Crop Trust 2025c).

Phase 1: Immediate actions (0–6 months)

The immediate phase focused on damage assessment, securing the remaining materials, and emergency rescue operations. Immediate recovery actions will be implemented over the next 6 months. The first priority is to conduct a rapid inventory of all remaining germplasms. This inventory categorizes materials into three groups: intact and viable, damaged but potentially recoverable, and completely lost.

Viability testing will be prioritized based on the uniqueness and irreplaceability of the accessions, starting with endemic sorghum and millet landraces for which no safety duplicates exist. For accessions with a limited number of seeds, a single-seed descent approach will be used for regeneration to minimize genetic drift.

Emergency infrastructure repairs will focus on restoring basic storage conditions. The installation of backup power systems, including solar panels and battery storage, will ensure the continuous operation of freezers and air-conditioning systems. Replacement of looted equipment, including computers, servers, and laboratory instruments, is essential for resuming basic operations.

Data recovery efforts will attempt to reconstruct the database from backup sources, including information shared with genesys and partner institutions. Staff will be recalled and provided emergency support to resume basic operations.

Phase 2: Medium-term stabilization (6–24 months)

The medium-term phase covers infrastructure rebuilding, staff capacity development, and the regeneration of key collection subsets. Infrastructure rebuilding includes construction of improved storage facilities with enhanced security features and redundant power systems. The design incorporates lessons learned from other conflict-affected regions, including underground storage areas and distributed storage across multiple sites.

Capacity building will focus on training staff in modern conservation techniques, database management, and emergency preparedness. Partnerships with international institutions will provide opportunities for staff exchange and advanced training programs.

Collection regeneration will begin with the most critical accessions, particularly those unique to Sudan and those with immediate agricultural importance. Field multiplication will be conducted at secure locations using strict protocols to maintain genetic integrity.

Database reconstruction will involve the systematic re-entry of passport data, characterization information, and management records. Digital backup systems will be established using off-site storage to prevent future data loss.

Phase 3: Long-term resilience (2–5 years)

The long-term phase outlines strategies for developing a comprehensive national PGRFA policy, strengthening regional and international collaborations, and implementing advanced conservation technologies.

A key long-term goal will be to develop a comprehensive national policy for the conservation and sustainable use of PGRFA. This policy will establish a national strategy that integrates both in situ and ex situ conservation approaches, clarifies institutional mandates, and creates a framework for benefit-sharing.

This includes documenting the traditional knowledge associated with specific landraces. For example, documenting the cultivation practices and culinary uses of the unique “Feterita” sorghum varieties grown by smallholder farmers in the Kordofan region will be a priority. This knowledge is essential to understand the cultural value and agronomic potential of these genetic resources.

Regional collaboration will be strengthened through renewed participation in networks such as EAPGREN and the establishment of new partnerships with neighboring countries for mutual backup of collections. International partnerships will be expanded to include more institutions that are willing to provide safety duplication services.

Advanced conservation technologies will be implemented, including cryopreservation of recalcitrant seeds and tissue culture for vegetatively propagated crops. Modern characterization techniques, including molecular markers, can be used to better understand and manage collections.

Risk management strategies will be developed to address various threats, including natural disasters, political instability, and climate change. These strategies will include early warning systems, emergency response protocols, and insurance mechanisms. The successful implementation of this recovery framework will require sustained financial commitment from international donors and government.

Successful recovery strategies

Safety duplication is the most critical factor for a successful recovery. The ICARDA genebank’s pre-conflict deposits at the Svalbard Global Seed Vault enabled a complete recovery after the Syrian conflict (Westengen et al. Reference Westengen, Lusty, Yazbek, Amri and Asdal2020). Similarly, Sudan’s partial safety duplication at international institutions is crucial for maintaining access to key genetic resources.

Emergency evacuation protocols have proven effective when implemented early. ICARDA’s timely evacuation of the remaining samples to Lebanon and Morocco prevented total losses (ICARDA 2015). The recent evacuation of Ukrainian genebank materials with support from the FAO and the European Union demonstrates the continued relevance of this strategy (FAO 2023).

The relocation of genebank activities to safer locations, either within the country or internationally, provides a continuity of operations. ICARDA’s establishment of new facilities in Lebanon and Morocco allowed for continued research and conservation activities during the Syrian conflict (Bhattacharya Reference Bhattacharya2016).

International coordination through organizations like the Crop Trust, FAO, and CGIAR centers has been essential for mobilizing resources and expertise. The rapid response to the Sudan crisis, including the Genebank Emergency Reserve funding and Nordic Genetic Resources Center support, exemplifies effective international cooperation (Crop Trust 2023, 2025b).

Critical gaps and challenges

Despite successful intervention, several challenges persist. Incomplete safety duplication remains a major vulnerability. Many genebanks, including the APGRC, have only partially duplicated their collections, leaving unique materials at risk (Fu Reference Fu2017).

Limited early warning systems mean that many crises develop faster than response mechanisms can be activated. The rapid spread of conflict from Khartoum to Wad Medani has caught the international community unprepared.

Insufficient local capacity for emergency responses often delays critical interventions. The lack of trained personnel and equipment in conflict zones hampers the immediate rescue efforts.

Inadequate funding mechanisms for long-term recovery mean that while emergency responses are often well funded, sustained support for rebuilding and capacity development is more difficult to secure.

Recommendations for genebank resilience

Based on Sudan’s experience and lessons from other conflict-affected regions, we recommend several proactive measures that can be implemented to improve resilience in vulnerable regions.

Comprehensive Safety Duplication: All genebanks should prioritize complete safety duplication of their collections, with particular emphasis on unique materials. This should include both international backup (preferably at the Svalbard Global Seed Vault) and regional backup arrangements with neighboring countries.

Decentralized Storage Networks: Rather than concentrating all materials in a single location, genebanks should establish distributed storage networks across multiple sites. This reduces the risk of total losses from localized disasters or conflicts.

Digital Data Backup: Complete digitization of all collected data, with secure off-site backup systems, is essential. Cloud-based storage with multiple geographical locations provides additional security.

Emergency Preparedness Plans: All genebanks should develop and regularly update emergency response plans, including evacuation procedures, staff safety protocols, and communication strategies with international partners.

Regional Cooperation Networks: Strengthening regional networks for mutual support and backup arrangements provides additional security. The success of the EAPGREN in East Africa demonstrates the value of such cooperation (El Tahir et al. Reference El Tahir, Babiker, Abdalla, Elhuda Ahmed, Yousif Goda and Mohamed Elgabri2025).

Staff Training and Capacity Building: Regular training in emergency procedures, modern conservation techniques, and international best practices ensures that staff can respond effectively to crises.

International Partnership Development: Building strong relationships with international organizations and partner institutions before crises occur facilitates rapid responses when emergencies arise.

The role of international organizations

The Sudan crisis highlights both the strengths and limitations of current international support mechanisms. The Crop Trust, FAO, and CGIAR centers have played crucial roles in emergency response and recovery support (Crop Trust 2023, 2025b, 2025c). However, there is scope for improvement in several areas.

Enhanced Early Warning Systems: International organizations should develop better mechanisms for monitoring political and environmental risks to genebanks worldwide. This could include regular risk assessment and contingency planning for vulnerable institutions.

Rapid Response Mechanisms: While the Genebank Emergency Reserve has proven valuable, the faster deployment of resources and expertise could prevent greater losses. Streamlined procedures and pre-positioned resources would improve response times.

Long-term Commitment: International support often focuses on emergency response but may not provide adequate long-term support for rebuilding and capacity development. Sustained funding mechanisms are required to ensure complete recovery.

Capacity Building Programs: International organizations should expand their capacity-building programs to include emergency preparedness and crisis management training for genebank staff in vulnerable regions.

Technology Transfer: Advanced conservation technologies and equipment should be made more accessible to genebanks in developing countries, particularly those in conflict-prone regions.

What can a genebank do to improve resilience? The answer lies in proactive preparation, rather than a reactive response. Genebanks should immediately assess their vulnerability, prioritize the duplication of unique materials, establish emergency protocols, and build strong international partnerships. The cost of preparation is always lower than the cost of recovery, and the value of preserved genetic resources extends far beyond any individual institution or country.