Drivers and Repercussions of UK Insect Declines (DRUID)

Lead Research Organisation: University of Reading
Department Name: Sch of Agriculture Policy and Dev

Abstract

Due to their vast numbers and diversity, insects dominate natural ecosystems and processes. Wholesale insect declines could have profound consequences. Yet despite growing public concern about a possible "insect Armageddon," evidence of widespread insect declines remains fragmentary, even in the UK (arguably one of the best studied countries on Earth); nor do we understand the value that insects provide for wider society. A far stronger evidence-base is required to provide a secure basis for policy, to devise methods to reverse insect declines and protect the roles that insects play in multiple ecosystem services.

We have assembled four of the UK's leading insect dynamics research teams to assess the causes, consequences and potential remedies of insect declines. We will combine data from standardised insect monitoring programmes of a wide range of taxa, modelled outputs of biodiversity databases, and novel assays using weather radar signals to assess shifts in insect abundance, diversity, functional composition and biomass in both terrestrial and freshwater ecosystems across Britain. Species-level trend data will be assessed relative to a range of potential driver variables and species' traits in an overarching synthesis of decline patterns across taxa and environments. The team has unrivalled access to the latest UK datasets and modelling developments covering insects and environmental drivers down to 1-km resolution or finer, through a wide range of on-going environmental research projects and collaborating partner organisations. Our results will be used to inform mechanistic models to predict the dynamics of insect species and functional-groups across the UK in space and time. Functional consequences of insect declines will be assessed, with particular focus on trophic roles as prey in aerial (bird/bat) and aquatic (fish) systems, pollination and pest control functions, and in nutrient transport between freshwater and terrestrial ecosystems. How alterations in insect communities are linked to economic and cultural values will be assessed through a review of existing studies, augmented with participatory valuation approaches for ecosystem services that are poorly studied, such as cultural services. The population, community and functional models developed above will be applied to a diverse set of contrasting future climate, land-use and policy scenarios, to predict insect dynamics with and without specific mitigation measures. Both scenarios and mitigation options will be co-designed together with relevant stakeholders and linked to existing climate scenarios and planned agri-environmental schemes. Consequences of recent past, current and future scenarios for human welfare and natural capital will be estimated, using stakeholder-based valuations. Our novel, integrated approach will guarantee high quality and high impact research outputs, which will be widely disseminated to the scientific and stakeholder communities, and the general public. By engaging relevant policy and decision-makers at an early stage of the project, results will be tailored and directly relevant to on-going policy development in land management, biodiversity conservation and the implementation of natural capital approaches, maximising the likelihood of substantial impacts on both society and the natural world.

Publications

10 25 50
 
Description We have passed the mid-point of the award, and its findings are beginning to become clearer. We are amassing a growing set of results showing positive and negative trends in specific insect species and groups, and responses to key environmental and management drivers. We have compiled datasets covering a wide range of UK insect taxa (including Aquatic bugs; Ants, Bees; Butterflies; Caddisflies; Carabids; Craneflies; Dragonflies and damselflies; Earwigs; Empid & Dolichopodid Flies; Fungus gnats; Grasshoppers and allies; Hoverflies; Ladybirds; Leaf and seed beetles, Longhorn beetles; Mayflies; Moths; Shield bugs; Soldierflies; Stoneflies; Wasps), both from existing recording schemes and from standardised monitoring programs -- including new data from suction trap by-catch. We have run hierarchical occupancy models for the above groups, giving species-specific annual times-series of occupancy (estimating the proportion of occupied UK/GB grid cells from 1970 to 2020+) for 3585 species (of which we were able to extract meaningful trend data for over 1400), providing the most comprehensive update of its kind. The DRUID team at UKCEH have co-led development of a new framework for assessing risk-of-bias in studies of temporal trends (ROBITT). Such assessments are common in many disciplines, notably medical research, but until now have been lacking in ecology. We have developed an initial version of a shiny app designed to facilitate feedback from taxonomic group experts on the annual occupancy outputs and bias assessments described above and their associated trends. We have also compiled data on many of the key potential drivers of insect change, and are linking these to local and national insect dynamics. Using novel "Explainable neural net" methods, we have shown strong links between moth occupancy and both climate and habitat -- and in particular woodland cover. Work in progress across a wider set of taxa examines how species' traits modulate these trends, with strong effects of body size and generation time emerging. We have developed novel tools for assessing the abundance of airborne insects over wide areas of Britain, using data from weather radar. We have also begun to make progress towards measuring the impact of insects on ecosystems, demonstrating for example strong links between the abundance of specific caterpillar species and the growth of bird populations. Work on assessing the economic and societal value of insects is progressing well, and will feed into detailed alternative scenarios for future UK landscapes. These and other aspects of the work will be completed in the final year of the project.
Exploitation Route Shared with the projects stakeholder advisory board
Sectors Agriculture

Food and Drink

Environment

Government

Democracy and Justice

URL https://druidproject.org.uk/
 
Description Even though our project is not yet completed, it is already having substantial impact. Several key members of the project team (Simon Potts, Claire Carvell, James Bell and our PI William Kunin) were asked to present oral evidence to public hearings of Parliamentary Science Innovation and Technology Committee's hearings on "Insect Declines and UK food Security" in June 2023. These formal hearings have been complemented by large numbers of informal public engagement events, ranging from meetings in pubs to the Great Yorkshire Show. We have brought together a Stakeholder Advisory Board, including representatives from BASF, Buglife, Butterfly Conservation, Department of Agriculture, Environment and Rural Affairs (DAFRA), Department for Environment, Food and Rural Affairs (DEFRA), The Environment Agency, The Joint Nature Conservation Committee (JNCC), The National Farmers Union, Natural England, The Northern Ireland Government and The Royal Society for the Protection of Birds (RSPB); which is helping us design our project outputs (fact sheets, policy briefs and videos) to maximize policy and public impact. These outputs, together with ongoing engagement activities, will continue throughout the remaining duration of the project and beyond.
First Year Of Impact 2022
Sector Agriculture, Food and Drink,Environment
Impact Types Policy & public services

 
Title Data from: On-site floral resources and surrounding landscape characteristics impact pollinator biodiversity at solar parks 
Description There is increasing land use change for solar parks and growing recognition that they could be used to support insect pollinators. However, understanding of pollinator response to solar park developments is limited and empirical data are lacking. We combine field observations with landcover data to quantify the impact of on-site floral resources and surrounding landscape characteristics on solar park pollinator abundance and species richness. We surveyed pollinators and flowering plants at 15 solar parks across England in 2021, used a landcover map to assess the surrounding high-quality habitat and aerial imagery to measure woody linear features (hedgerows, woodland edges and lines of trees). In total, 1,397 pollinators were recorded, including 899 butterflies (64%), 171 hoverflies (12%), 161 bumble bees (12%), 157 moths (11%) and nine honeybees (< 1%). At least 30 pollinator species were observed, the majority of which were common, generalist species. Pollinator biodiversity varied between solar parks and was explained by a combination of on-site floral resources and surrounding landscape characteristics. Floral species richness was the most influential on-site characteristic and woody linear feature density generally had a greater impact than the cover of surrounding high-quality habitats, although drivers differed by pollinator group. Our findings suggest that a range of factors affect pollinator biodiversity at solar parks, but maximising floral resources within a park through appropriate management actions may be the most achievable way to support most pollinator groups, especially where solar parks are located in resource-poor, disconnected landscapes. 
Type Of Material Database/Collection of data 
Year Produced 2024 
Provided To Others? Yes  
URL https://datadryad.org/stash/dataset/doi:10.5061/dryad.qrfj6q5pf
 
Description Bees Needs Week 2022 
Form Of Engagement Activity Participation in an open day or visit at my research institution
Part Of Official Scheme? No
Geographic Reach Regional
Primary Audience Public/other audiences
Results and Impact Exhibition with an assortment of interactive activities to share knowledge around pollinators and the benefits they bring society (e.g. pollinator shopping game; Bumble-arium, meet the pollinators)
Year(s) Of Engagement Activity 2022
 
Description FAO Global seminar on strengthening regulations to protect pollinators from pesticides webinar, Importance of pollinators for human well-being 
Form Of Engagement Activity Participation in an activity, workshop or similar
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Policymakers/politicians
Results and Impact To raise awareness with policy makers the multiple values of pollinators and pollination services
Year(s) Of Engagement Activity 2022
 
Description Promote Pollinators, Workshops on national pollinator strategy (webinar), Safeguarding European wild pollinators 
Form Of Engagement Activity Participation in an activity, workshop or similar
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Policymakers/politicians
Results and Impact Raise awareness with policy makers of the values, status and trends and response options to conserve pollinators and sustainably manage pollination services
Year(s) Of Engagement Activity 2022
 
Description Stakeholder engagement workshop 
Form Of Engagement Activity A formal working group, expert panel or dialogue
Part Of Official Scheme? No
Geographic Reach National
Primary Audience Professional Practitioners
Results and Impact The workshop had 3 aims to: (i) help shape the DRUID research agenda by providing expert knowledge and data; (ii) provide guidance and opportunities to disseminate outputs and develop impact; and, (iii) facilitate links and interactions between DRUID and other networks and project. Attendees included representatives of National Farmers Union, Butterfly Conservation, RSPB, Buglife, BASF, Natural England, Environment Agency, as well as researchers from DRUID.
Year(s) Of Engagement Activity 2023
 
Description The Importance of Pollinators 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach Local
Primary Audience Schools
Results and Impact A short talk on the bees of the UK and the importance of pollination to food systems
Year(s) Of Engagement Activity 2022