News Release

Saving moths may be just as important as saving the bees

Peer-Reviewed Publication

University of Sheffield


image: Moth view more 

Credit: Emilie Ellis and Stuart Campbell

  • Night-time pollinators such as moths need protecting as effectively as bees, as new research found they could be less resilient to the pressures of urbanisation
  • Moths account for a third of the pollinator visits to crops, flowers and trees in urban areas
  • More moths were found to be carrying pollen than previously thought, and visiting more types of plant and fruit crops than previously identified
  • Moth abundance has declined by 33 per cent in the last 50 years and this represents a threat to the plants and crops that rely on insects for pollination

Night-time pollinators such as moths may visit just as many plants as bees, and  should also be the focus of conservation and protection efforts, a new study from the University of Sheffield suggests.

The study found that moths under pressure from urbanisation may also be less resilient than bees, due to their more complex life cycle and more specific plant requirements.

It also revealed that despite this threat, moths play a crucial role in supporting urban plant communities, accounting for a third of all pollination in flowering plants, crops and trees.

The researchers suggest that when planning or redeveloping urban areas, supporting the introduction of plant species that are beneficial for moths, as well as bees, will become increasingly important for the health of urban ecosystems.

Dr Emilie Ellis, lead author from the University of Sheffield’s Grantham Institute for Sustainable Futures, and now the Research Centre for Ecological Change (REC) at the University of Helsinki, said: “Our study found that in more urbanised areas the diversity of pollen being carried by moths and bees decreases, meaning that urban pollinators may have less flower resources available to them.

“As moths and bees both rely on plants for survival, plant populations also rely on insects for pollination. Protecting urban green spaces and ensuring they are developed in such a way that moves beyond bee-only conservation but also supports a diverse array of wildlife, will ensure both bee and moth populations remain resilient and our towns and cities remain healthier, greener places.”

In the study, Dr Ellis and her co-authors showed that bees and moths are visiting significantly different plant communities. Along with the usual pale and fragrant flower species moths are known to frequent, the study showed that moths were found to be carrying more pollen than previously thought, and visiting more types of tree and fruit crops than previously identified.

In urbanised areas, there can sometimes be an overabundance of non-native plant species, or just an overall reduction in the diversity of plant species; this may result in lower insect interactions for less attractive plant species, having negative effects on both plant and insect populations.

Dr Ellis says the research demonstrates just how crucial moths are at pollinating plants, including crops, and that the study has implications for wildlife-friendly gardening initiatives, urban planners and policy makers responsible for developing urban green spaces for parks or urban horticulture.

Dr Ellis said: “People don’t generally appreciate moths so they can often be overlooked compared to bees when talking about protection and conservation, but it's becoming apparent that there needs to be a much more focused effort to raise awareness of the important role moths play in establishing healthy environments, especially as we know moth populations have drastically declined over the past 50 years.

“When planning green spaces, consideration needs to be given to ensure planting is diverse and moth-friendly as well as bee-friendly, to ensure both our plants and insects remain resilient in the face of the climate crisis and further losses.”

Dr Stuart Campbell, from the University of Sheffield’s School of Biosciences, and a senior author on the study, said: “Most plants depend on insects for pollination, but knowing which insects do the pollinating is actually a really difficult question to answer. There are about 250 species of bee in the UK, and we know quite a bit about some of these species, but we also have over 2,500 species of moth which visit flowers mostly at night. So, as you might expect, we know a lot less about these. 

“What we were able to do in this study is use DNA sequencing to identify the pollen that gets stuck to night-flying moths when they visit flowers. We found that moths are probably pollinating a range of plant species, many of them wild, that are unlikely to be pollinated by bees - and vice versa.  It's clear from this study that pollination is achieved by complex networks of insects and plants, and these networks may be delicate, and sensitive to urbanisation.  We can also learn which plant species might be the best sources of food for different insects, including nocturnal ones like adult moths, and use that information to better provide for all our pollinators".


Media contact: Shemina Davis, Senior Media Relations Manager, 0114 222 5339 or

Notes to editors:

The University of Sheffield

The University of Sheffield is a leading Russell Group university, with a world-class reputation. Over 30,000 students from 150 countries study at Sheffield. In a truly global community, they learn alongside over 1,500 of the world’s leading academics.

Sheffield’s world-shaping research feeds into its excellent education. Students learn at the leading edge of discovery from researchers who are tackling today’s biggest global challenges.

Driven by outstanding people, staff and students share a commitment to changing the world for the better, through the power and application of ideas and knowledge.

From the first documented use of penicillin as a therapy in 1930, to building Europe’s largest research-led manufacturing cluster, Sheffield’s inventive spirit and top quality research environment sets it apart.

Current research partners include Boeing, Rolls-Royce, Unilever, AstraZeneca, GlaxoSmithKline, Siemens and Airbus, as well as many government agencies and charitable foundations.

Sheffield’s Students’ Union has won the Whatuni Student Choice Award for Best Students’ Union for six consecutive years. Students can choose from 350 societies and clubs, or join over 2,000 volunteers.

Over 300,000 Sheffield alumni from 205 different countries make a significant influence across the world, with six Nobel Prize winners included amongst former staff and students.

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