Highlight topic funding rounds

Sampling water

A highlight topic focuses strategic research on a defined subject area. The size and duration of projects will be specified for each highlight topic, up to the value of £4 million and four years in length.

This page outlines the science prioritised through the highlight topics mechanism.

New cut-off for highlight topic ideas - 2018

Closing date: 15 May

9 Jan 2018

NERC invites the environmental science community to submit new ideas for highlight topics.

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Three rounds of highlight topics have been announced. The titles of the highlight topics in each round are:

Round three (call closed September 2016)

New insights into space weather impact on UK national grounded infrastructure

This work aims to enhance our geophysical understanding of how the UK near-surface and subsurface responds to severe space weather, information that will ultimately lead to tools for assessing space weather impacts on grounded infrastructure, together with industry and other partners.

Genesis of magmatic-hosted ore deposits: A systems approach

This work aims to develop reliable proxies for distinguishing magmatic rocks associated with mineralization from those that are not, and robust indicators of proximal mineralization from magmatic rocks and/or younger sediments.

Modelling and forecasting the Earth’s radiation belts

This work aims to increase our understanding of the satellite environment by assessing the role of wave particle interactions in the acceleration and loss of radiation belt electrons.

Innovative application of big data techniques to natural hazard prediction and risk mitigation

The aim of this work is to transform our understanding of and ability to respond to environmental hazards by delivering more accurate predictions and challenging our understanding of processes through the merger of both structured observation data, and unstructured or qualitative data, with state-of-the-art computational models.

Round two (call closed October 2015)

Evolutionary biotic response to environmental change: limits to adaptation

The aim of this work is to improve our understanding and predictive capabilities of the dynamics of communities, and the limits of their adaptive capacities in response to environmental change through the integration of ecology and evolutionary genetics.

Coastal morphology: coastal sediment budgets and their role in coastal recovery

The aim of this highlight topic is to better understand dynamic coastal processes, both physical and biological, and their role in coastal recovery.

Closing the global methane budget

The objective of this highlight topic is to close the global methane budget through undertaking new observations and further analysis of existing data.

Reducing uncertainty in the integrity of potential carbon capture and storage sites

This highlight topic aims to improve knowledge of the integrity of the sedimentary overburden of potential CO2 storage reservoirs in the North Sea region.

Round one (call closed April 2015)

Understanding and predicting anomalous trends in surface temperature and implications for decadal to centennial climate behaviour

The aim of this work is to better understand the causes of periods where the rate of global mean surface temperature is increased or decreased at decadal time-scales compared with long term trends at centennial time-scales. The particular focus is to understand the slowdown in the rate of warming since the late 1990s. The work will take a multi-disciplinary approach with the aim of improving the ability to explain and predict anomalous periods in the overall warming trend.

Environmental pathways, impacts and fate of manufactured nanomaterials

The aim of this highlight topic is to increase the understanding of how manufactured nanomaterials (NMs) behave in the real world, including their transport, transformation, impact, and eventual fate within their environmental pathways. The outcomes of the research should help to inform the development of management strategies and policies that minimise the environmental and health risks of NMs without overly precautionary regulation.

Dynamics of freshwater ecosystems within an integrated landscape system

Freshwater ecosystems are losing biodiversity, integrity and function faster than any other ecosystem. Their sensitivity to change is due to their high connectivity to processes and pressures across a range of scales, including climate change, pollutants, regional atmospheric deposition, local inputs of sediment, and invasive species. The aim of this highlight topic is to improve our understanding of this connectivity by supporting the research needed to develop a coherent ecosystems-based understanding of freshwater systems at the landscape scale in the UK, and hence underpin the development of sustainable management strategies.

eDNA: a key new tool for 21st century ecology

Environmental DNA (eDNA) is free DNA molecules that are present outside of organisms, released from microbial cells, skin, mucous, saliva, sperm, secretions, eggs, faeces, urine, blood, root, leaves, fruit, pollen, and rotting bodies etc. eDNA can be sampled and analysed using genomic technologies, including high throughput sequencing, to monitor for the genetic presence of species. The aim of this call is to address the current knowledge gap in the application of eDNA approaches to move from species identification (targeted genome sequencing) to full community profiles (metagenetics, using phylogenetic or functional marker genes) and understanding functional biodiversity and the dynamics of ecosystem functioning (metagenomics). This challenge requires proof-of-concept investigations in exemplar natural systems with independent observation of ecosystem functions.


2015 onwards.

Can I apply for a grant?

No, the next Announcement of Opportunity for highlight topic proposals is expected to be released in autumn 2017.


NERC has allocated £37 million to the first three rounds of highlight topics.

Programme awards

Award details are shown in our online grants browser - Grants on the Web.

View details of funded applications - external link