CFPs: Deep-Sea Ecosystem Knowledge for Biodiversity Protection and Climate Action

Deadline: 17-Sep-2026

The European Commission is seeking proposals to strengthen scientific understanding and conservation of deep-sea ecosystems through advanced biodiversity monitoring, habitat mapping, and ecosystem assessment technologies. The initiative supports research on deep-sea biodiversity, climate impacts, ecological functioning, and long-term ecosystem monitoring to improve marine conservation and environmental management.

The programme promotes the use of advanced imaging, genomics, acoustic systems, multi-omics, and biodiversity data-sharing tools to support policy-relevant knowledge and global deep-sea ecosystem protection.

Overview of the Funding Opportunity

The initiative aims to improve scientific knowledge and conservation strategies for deep-sea ecosystems, which remain among the least explored environments on Earth.

The programme supports research that advances:

• Deep-sea biodiversity assessment
• Habitat mapping
• Species identification
• Ecosystem monitoring
• Climate impact analysis
• Conservation planning
• Marine ecosystem resilience

The project also contributes to global biodiversity goals and evidence-based marine policymaking.

Why Deep-Sea Ecosystems Matter

The deep sea is the largest ecosystem on the planet and plays a major role in:

• Global biodiversity
• Carbon storage and cycling
• Ocean ecosystem balance
• Climate regulation
• Biogeochemical processes

Despite its importance, deep-sea ecosystems remain poorly understood due to:

• Limited exploration capacity
• High research costs
• Technical access challenges
• Lack of long-term monitoring systems

The initiative aims to close these scientific and technological gaps.

Key Objectives

The programme aims to:

• Improve deep-sea habitat mapping
• Strengthen species inventories and taxonomy
• Study ecological functioning and food webs
• Assess ecosystem connectivity
• Develop rapid biodiversity monitoring methods
• Improve global biodiversity data systems
• Support conservation and ecosystem management
• Strengthen climate resilience knowledge

Key Research Areas

Supported research areas include:

• Deep-sea biodiversity
• Habitat and ecosystem mapping
• Genetic diversity analysis
• Marine food webs
• Ecosystem connectivity
• Climate change impacts
• Human impacts on marine ecosystems
• Underwater noise pollution
• Ocean ecosystem modelling
• Long-term biodiversity observation systems

Projects should contribute to scientific understanding and practical conservation applications.

Advanced Technologies and Methods

The initiative encourages the use of innovative marine research technologies, including:

• Advanced imaging systems
• Acoustic monitoring tools
• Multi-omics approaches
• Genomics and genetic sequencing
• AI-supported species identification
• Taxonomic analysis methods
• Remote biodiversity monitoring systems

The programme supports rapid and accurate species identification and ecosystem assessment.

Focus Ecosystems

Research may focus on deep-sea environments such as:

• Seamounts
• Hydrothermal vents
• Deep-sea canyons
• Abyssal plains
• Deep benthic ecosystems

Projects should improve ecological understanding of these vulnerable marine environments.

Biodiversity Data and Monitoring

The programme supports:

• Global biodiversity data sharing
• Reference dataset development
• Standardized monitoring systems
• Long-term ecological observation

Projects are encouraged to contribute to:

• Essential Ocean Variables (EOVs)
• Essential Biodiversity Variables (EBVs)

These indicators help strengthen ecosystem monitoring and environmental policymaking.

Climate Change and Human Impact Research

The initiative also studies the effects of:

• Climate change
• Pollution
• Human disturbance
• Underwater noise
• Resource exploitation pressures

Research should improve understanding of impacts on:

• Ecosystem services
• Carbon cycles
• Marine food webs
• Biodiversity resilience

The programme supports adaptive management and conservation planning.

Expected Outcomes

Projects are expected to contribute to:

• Improved biodiversity knowledge
• Better marine conservation strategies
• Enhanced ecosystem resilience
• Stronger monitoring systems
• Policy-relevant scientific evidence
• Global marine biodiversity collaboration
• Sustainable ocean management

The initiative supports international biodiversity and ocean protection goals.

Who Can Apply?

The programme is expected to support:

• Universities
• Marine research institutes
• Environmental organizations
• Scientific consortia
• Ocean technology developers
• Biodiversity monitoring experts

Applicants should demonstrate expertise in:

• Marine ecology
• Oceanography
• Biodiversity science
• Marine technology
• Environmental genomics
• Ecosystem modelling

How the Programme Works

The initiative supports collaborative marine research and innovation projects.

Project Process

1. Develop a deep-sea ecosystem research proposal
2. Build scientific and technical partnerships
3. Design biodiversity monitoring methodologies
4. Submit the project application
5. Conduct research and ecosystem analysis
6. Share data and policy-relevant findings

Projects should demonstrate scientific excellence and conservation relevance.

Tips for a Strong Application

Applicants should:

• Demonstrate interdisciplinary expertise
• Include advanced monitoring technologies
• Show relevance to marine conservation policy
• Present scalable and harmonised methodologies
• Include strong biodiversity data-sharing plans
• Address climate and ecosystem resilience challenges

Strong proposals usually include:

• Innovative technological approaches
• Long-term monitoring frameworks
• International collaboration strategies
• Policy integration potential
• High-quality ecological datasets

Frequently Asked Questions (FAQs)

What is the focus of this European Commission initiative?

The programme supports research and innovation to improve understanding and conservation of deep-sea ecosystems.

What technologies are encouraged?

Projects may use imaging systems, acoustics, genomics, multi-omics, AI-supported monitoring, and biodiversity data tools.

Which ecosystems are prioritized?

Research may focus on seamounts, hydrothermal vents, canyons, abyssal plains, and other deep-sea environments.

What environmental issues are addressed?

The initiative studies climate change, pollution, underwater noise, biodiversity loss, and ecosystem resilience.

What are Essential Ocean Variables (EOVs)?

EOVs are standardized indicators used to monitor ocean ecosystem conditions and environmental change.

Why is deep-sea biodiversity important?

Deep-sea ecosystems support global biodiversity, climate regulation, carbon cycles, and marine ecosystem balance.

Who can apply?

Universities, marine research institutes, scientific consortia, and environmental organizations are expected to be eligible.

Conclusion

The European Commission Deep-Sea Ecosystem Research and Biodiversity Conservation Grant 2026 supports advanced scientific research aimed at protecting one of the planet’s most important and least understood ecosystems. By funding innovative technologies, biodiversity monitoring systems, and climate impact studies, the initiative seeks to strengthen marine conservation, ecosystem resilience, and evidence-based ocean governance.

The programme also contributes to global biodiversity protection efforts while improving scientific collaboration, environmental monitoring, and sustainable management of deep-sea ecosystems for future generations.

For more information, visit European Commission .