Your search keyword '"Breeze, Tom D"' showing total 18 results

1. The future of biodiversity monitoring in Europe

Author

Moersberger, Hannah, Martin, Juliette, Valdez, Jose W., Junker, Jessica, Georgieva, Ivelina, Bauer, Silke, Beja, Pedro, Breeze, Tom D., Lluís Brotons, Bruelheide, Helge, Néstor Fernández, Fernández, Miguel, Jandt, Ute, Langer, Christian, Solheim, Anne Lyche, Maes, Joachim, Moreira, Francisco, Pe'er, Guy, Santana, Joana, Shamoun-Baranes, Judy, Smets, Bruno, McCallum, Ian, Pereira, Henrique Miguel, and Bonn, Aletta

Published

2023

2. Advancing conservation biological control as a component of IPM of horticultural crops

Author

Girling, Robbie D., Breeze, Tom D., Garratt, Michael P., and Collier, Rosemary

Abstract

Conservation biological control is commonly considered to be a key component of IPM because it is compatible with and complementary to many other approaches available in the IPM ‘toolbox’. However, despite significant study of conservation biological approaches in horticultural systems, uptake has been limited. Furthermore, whilst there are many studies that provide examples of positive implementations, there are as many studies in which the evidence for benefits to pest control is either inconsistent or absent . We suggest that careful consideration needs to be given to the scale at which studies of conservation biological control are conducted (both spatial and temporal) and the metrics that are recorded. To-date there has been a bias towards ecological studies, with relatively scant consideration of the economic impacts of conservation biological control measures. We propose a framework for the future study of conservation biological control approaches, which centres around economic costs and benefits.

Published

2022

3. Opportunities to reduce pollination deficits and address production shortfalls in an important \ud insect pollinated crop

Author

Garratt, Michael P. D., de Groot, G. A., Albrecht, Matthias, Bosch, Jordi, Breeze, Tom D., Fountain, Michelle T., Klein, Alex M., McKerchar, Megan, Park, M., Paxton, Robert J., Potts, Simon G., Pufal, Gesine, Rader, Romina, Senapathi, Grace D., Andersson, Georg K. S., Bernauer, Olivia M., Blitzer, Eleanor J., Boreux, Virginie, Campbell, Alistair, Carvell, Claire, Földesi, Rita, García, Daniel, Garibaldi, Lucas A., Hambäck, Peter A., Kirkitadze, Giorgi, Kovács-Hostyánszki, Aniko, Martins, Kyle T., Miñarro, Marcos, O’Connor, Rory, Radzeviciute, Rita, Roquer-Beni, Laura, Samnegård, Ulrika, Scott, Lorraine, Vereecken, Nicholas J., Wäckers, Felix, Webber, Sean, Japoshvili, George, and Zhusupbaeva, Aigul

Abstract

Pollinators face multiple pressures and there is evidence of populations in decline. As demand for insect-pollinated crops increases, crop production is threatened by shortfalls in pollination services. Understanding the extent of current yield deficits due to pollination and identifying opportunities to protect or improve crop yield and quality through pollination management is therefore of international importance. To explore the extent of ‘pollination deficits’, where maximum yield is not being achieved due to insufficient pollination, we use an extensive dataset on a globally important crop, apples. We quantified how these deficits vary between orchards and countries as well as compare ‘pollinator dependence’ across different apple varieties. We found evidence of pollination deficits and in some cases, risks of over-pollination were even apparent where fruit quality could be reduced by too much pollination. In almost all regions studied we found some orchards performing significantly better than others, in terms of avoiding a pollination deficit and crop yield shortfalls due to sub-optimal pollination. This represents an opportunity to improve production through better pollinator and crop management. Our findings also demonstrate that pollinator dependence varies considerably between apple varieties in terms of fruit number and fruit quality. We propose that assessments of pollination service and deficits in crops can be used to quantify supply and demand for pollinators and help target local management to address deficits although crop variety has a strong influence on the role of pollinators.

Published

2021

4. Field boundary features can stabilise bee populations and the pollination of mass-fowering crops in rotational systems

Author

Gardner, Emma, Breeze, Tom D., Clough, Yann, Smith, Henrik G., Baldock, Katherine C. R., Campbell, Alistair, Garratt, Michael P. D., Gillespie, Mark A. K., Kunin, William E., McKerchar, Megan, Potts, Simon G., Senapathi, Deepa, Stone, Graham N., Wackers, Felix, Westbury, Duncan B., Wilby, Andrew, and Oliver, Tom H.

Abstract

1. Pollinators experience large spatio-temporal fluctuations in resource availability when mass-flowering crops are rotated with resource-poor cereal crops. Yet, few studies have considered the effect this has on pollinator population stability, nor how this might be mitigated to maintain consistent crop pollination services.\ud 2. We assess the potential of boundary features (standard narrow 1m grassy margins, hedgerows and wide 4m agri-environment margins) to support and stabilise pollinator populations and pollination service in agricultural landscapes under crop rotation. Assuming a six-year rotation, we use a process-based pollinator model to predict yearly pollinator population size and in-crop visitation rates to oilseed rape and field bean across 117 study landscapes in England with varying amounts of boundary features. We model both ground-nesting bumblebees and solitary bees and compare the predictions including and excluding boundary features from the landscapes.\ud 3. Ground-nesting bumblebee populations, whose longer-lifetime colonies bene�t from continuity of resources, were larger and more stable (relative to the no-features scenario) in landscapes with more boundary features. Ground-nesting solitary bee populations were also larger but not significantly more stable, except with the introduction of wide permanent agri-environment margins, due to their shorter lifetimes and shorter foraging/dispersal ranges.\ud 4. Crop visitation by ground-nesting bumblebees was greater and more stable in landscapes with more boundary features, partly due to increased colony growth prior to crop \ud flowering. Time averaged crop visitation by ground-nesting solitary bees was slightly lower, due to females dividing their foraging time between boundary features and the crop, but the more stable delivery compensated for this by nonetheless increasing the minimum pollination service delivered in any given year.\ud 5. Synthesis and applications. Boundary features have an important role in stabilising pollinator populations and pollination service in rotational systems, although maintenance of larger semi-natural habitat patches may be more effective for stabilising less mobile solitary bee populations. We recommend using combinations of boundary features, accounting for pollinator range when spacing features/rotating crops, and synchronising boundary feature management with crop rotation to maximise their stabilising benefits.

Published

2021

5. Scales matter: maximising the effectiveness of interventions\ud for pollinators and pollination

Author

Faichnie, Rachel, Breeze, Tom D., Senapathi, Deepa, Garratt, Mike P. D., and Potts, Simon G.

Abstract

Evidence of declines in wild and managed pollinators and pollination services is increasingly being documented around the world. This has driven the development of a wide range of practical management and policy responses which were reviewed in the Intergovernmental science-policy Platform on Biodiversity and Ecosystem Services (IPBES) global assessment of ‘Pollinators, Pollination and Food Production’. We take 38 responses from this report as a basis to explore the importance of scale for the effective delivery of an intervention’s benefit to pollinators. We considered five scale categories: Spatial, the spatial scale at which the response is most effective; Temporal, the time scale over which the response is most effective; Actors, the number of actors needed for most effectively implementing a response; Social, the sphere of influence or motivation that determines an effective response; and, Sector, the sector(s) of society which should be involved to increase effectiveness. Each scale category was split into multiple levels and we scored each in terms of how important they\ud were for determining the effectiveness of a given response option. Using our combined scores, we aim to explore general trends and raise awareness around the main issues\ud relating to the importance of scale, with illustrated examples from the literature. We show how scales have impacted on the effectiveness of interventions and provide recommendations on how to improve scale matching when planning a response action. While the relative importance of scales and levels for effectiveness was heterogeneous\ud across response options, there were some general patterns. Interventions were only effective when targeted over the right spatial scales over a sufficient period of time\ud and involved all relevant social and sectoral groups and actors.

Published

2021

6. Evaluating a trait-based approach to compare natural enemy and pest communities in agroforestry versus arable systems

Author

Staton, Tom, Walters, Richard J., Smith, Jo, Breeze, Tom D., and Girling, Robbie D.

Abstract

Diversified farming systems, for example those that incorporate agroforestry elements, have been proposed as a solution that could maintain and improve multiple ecosystem services. However, habitat diversification in and around arable fields has complex and inconsistent effects on invertebrate crop pests and their natural enemies. This hinders the development of policy recommendations to promote the adoption of such management strategies for the provision of natural pest control services. Here, for the first time we conducted a trait-based approach to investigate the effect of farming system on plant, invertebrate herbivore and invertebrate natural enemy communities. We then evaluated this approach by comparing the results to those generated using a traditional taxonomic approach. At each of three working farms, we sampled within an agroforestry field (a diverse farming system comprising alleys of arable crops separated by tree rows), and within a paired non-diversified area of the farm (arable control field). Each of 96 sample points was sampled between eight and ten times, yielding 393,318 invertebrate specimens from 344 taxonomic groups. Diet specialization or granivory, lack of a pupal stage, and wing traits in invertebrates, along with late flowering, short flowering duration, creeping habit and perenniality in plants, were traits more strongly associated with agroforestry crop alleys than the arable control fields. We hypothesise that this is a result of reduced habitat disturbance and increased habitat complexity in the agroforestry system. Taxonomic richness and diversity were higher in the agroforestry crop alleys compared to the arable control fields, but these effects were stronger at lower trophic levels. However, functional trait diversity of natural enemies was significantly higher in the agroforestry crop alleys than the arable control fields, suggesting an improved level of biocontrol, which was not detected by traditional diversity metrics. Of eight key pest taxa, three were significantly suppressed in the agroforestry system, whilst two were more abundant, compared to the arable control fields. Trait-based approaches can provide a better mechanistic understanding of farming system effects on pests and their natural enemies, therefore we recommend their application and testing in future studies of diversified farming systems.

Published

2021

7. EU Pollinator Monitoring Scheme

Author

Potts, Simon G, Dauber, Jens, Hochkirch, Axel, Oteman, Bas, Roy, David, Ahnre, Karin, Biesmeijer, Jacobus C, Breeze, Tom D., Carvell, Claire, Ferreira, Catarina C., Fitzpatrick, Úna, Isaac, Nick John Bendall, Kuussaari, Mikko, Ljubomirov, Toshko, Maes, Joachim, H.T. Ngo, Adara Pardo, Polce, Chiara, Quaranta, Marino, Settele, Josef, Sorg, Martin, Constanti Stefanescu, and Vujic, Ante

Published

2020

8. Editorial: summary for policymakers of the thematic assessment on pollinators, pollination and food production

Author

Potts, Simon G., Imperatriz-Fonseca, V., Ngo, H. T., Biesmeijer, J. C., Breeze, Tom D., Dicks, L. V., Garibaldi, L. A., Hill, R., Settele, J., and Vanbergen, A. J.

Abstract

Values of pollinators and pollination\ud 1. Animal pollination plays a vital role as a regulating ecosystem service in nature. Globally, nearly 90 per cent of wild flowering plant species depend, at least in part, on the transfer of pollen by animals. These plants are critical for the continued functioning of ecosystems as they provide food, form habitats, and provide other resources for a wide range of other species.\ud 2. More than three quarters of the leading types of global\ud food crops rely to some extent on animal pollination for yield and/or quality. Pollinator-dependent crops contribute to 35 per cent of global crop production volume.\ud 3. Given that pollinator-dependent crops rely on animal pollination to varying degrees, it is estimated that 5–8 per cent of current global crop production is directly attributed to animal pollination with an annual market value of $235 billion–$577 billion (in 2015, United States dollars1) worldwide.

Published

2016

9. Protecting an Ecosystem Service: Approaches to Understanding and Mitigating Threats to Wild Insect Pollinators

Author

Gill, Richard J, Baldock, Katherine C R, Brown, Mark J F, Cresswell, James E, Dicks, Lynn V, Fountain, Michelle T, Garratt, Michael P D, Gough, Leonie A, Heard, Matt S, Holland, John M, Ollerton, Jeff, Stone, Graham N, Tang, Cuong Q, Vanbergen, Adam J, Vogler, Alfried P, Woodward, Guy, Arce, Andres N, Boatman, Nigel D, Brand-Hardy, Richard, Breeze, Tom D, Green, Mike, Hartfield, Chris M, O’Connor, Rory S, Osborne, Juliet L, Phillips, James, Sutton, Peter B, Potts, Simon G, and Natural Environment Research Council (NERC)

Subjects

Initiatives, CROP POLLINATION, Biodiversity & Conservation, MIXED POLLEN SAMPLES, Environmental Sciences & Ecology, Conservation, D700, BEE SPECIES RESPONSES, Ecology and Environment, BUMBLEBEE NEST DENSITY, Pollinator populations and communities, Landscape, Engineered habitat, Pollination demand, FLOWER-VISITING INSECTS, Science & Technology, CLIMATE-CHANGE, Ecology, 0602 Ecology, Cabot Institute Food Security Research, C100, AGRI-ENVIRONMENT SCHEMES, Agriculture, C200, Food security, EVIDENCE-BASED CONSERVATION, Policy, PLANT REPRODUCTIVE SUCCESS, Ecological networks, Biodiversity Conservation, AGRICULTURAL LANDSCAPES, Life Sciences & Biomedicine

Abstract

Insect pollination constitutes an ecosystem service of global importance, providing significant economic and aesthetic benefits as well as cultural value to human society, alongside vital ecological processes in terrestrial ecosystems. It is therefore important to understand how insect pollinator populations and communities respond to rapidly changing environments if we are to maintain healthy and effective pollinator services. This chapter considers the importance of conserving pollinator diversity to maintain a suite of functional traits and provide a diverse set of pollinator services. We explore how we can better understand and mitigate the factors that threaten insect pollinator richness, placing our discussion within the context of populations in predominantly agricultural landscapes in addition to urban environments. We highlight a selection of important evidence gaps, with a number of complementary research steps that can be taken to better understand: (i) the stability of pollinator communities in different landscapes in order to provide diverse pollinator services; (ii) how we can study the drivers of population change to mitigate the effects and support stable sources of pollinator services and (iii) how we can manage habitats in complex landscapes to support insect pollinators and provide sustainable pollinator services for the future. We advocate a collaborative effort to gain higher quality abundance data to understand the stability of pollinator populations and predict future trends. In addition, for effective mitigation strategies to be adopted, researchers need to conduct rigorous field testing of outcomes under different landscape settings, acknowledge the needs of end-users when developing research proposals and consider effective methods of knowledge transfer to ensure effective uptake of actions.

Published

2016

10. Costing conservation: an expert appraisal of the pollinator habitat benefits of England’s entry level stewardship

Author

Breeze, Tom D., Bailey, Alison P., Balcombe, Kelvin G., and Potts, Simon G.

Abstract

Pollination services provided by insects play a key role in English crop production and wider ecology. Despite growing evidence of the negative effects of habitat loss on pollinator populations, limited policy support is available to reverse this pressure. One measure that may provide beneficial habitat to pollinators is England’s entry level stewardship agri-environment scheme. This study uses a novel expert survey to develop weights for a range of models which adjust the balance of Entry Level Stewardship options within the current area of spending. The annual costs of establishing and maintaining these option compositions were estimated at £59.3–£12.4 M above current expenditure. Although this produced substantial reduction in private cost:benefit ratios, the benefits of the scheme to pollinator habitat rose by 7–140 %; significantly increasing the public cost:benefit ratio. This study demonstrates that the scheme has significant untapped potential to provide good quality habitat for pollinators across England, even within existing expenditure. The findings should open debate on the costs and benefits of specific entry level stewardship management options and how these can be enhanced to benefit both participants and biodiversity more equitably.

Published

2014

11. Agricultural Policies Exacerbate Honeybee Pollination Service Supply-Demand Mismatches Across Europe

Author

Breeze, Tom D., Vaissière, Bernard E., Bommarco, Riccardo, Petanidou, Theodora, Seraphides, Nicos, Kozák, Lajos, Scheper, Jeroen, Biesmeijer, Jacobus C., Kleijn, David, Gyldenkærne, Steen, Moretti, Marco, Holzschuh, Andrea, Steffan-Dewenter, Ingolf, Stout, Jane C., Pärtel, Meelis, Zobel, Martin, Potts, Simon G., Centre for Agri-Environmental Research, University of Reading (UOR), Abeilles et environnement (AE), Institut National de la Recherche Agronomique (INRA), Swedish University of Agricultural Sciences (SLU), Department of Geography, University of the Aegean, Agricultural Research Institute, University of Debrecen Egyetem [Debrecen], Animal Ecology Team, Alterra, Partenaires INRAE, Naturalis Biodiversity Center [Leiden], Resource Ecology Group, Wageningen University and Research [Wageningen] (WUR), Aarhus University [Aarhus], Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Department of Animal Ecology and Tropical Biology, University of Würzburg, Trinity College Dublin, Institute of Ecology and Earth Sciences [Tartu], University of Tartu, European Project: 244090,EC:FP7:ENV,FP7-ENV-2009-1,STEP(2010), Abeilles & Environnement (UR 406 ), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), University of Debrecen, and Naturalis Biodiversity Center

Subjects

Geography, Science, [SDV]Life Sciences [q-bio], Agriculture, Honey, Bees, Europe, Policy, Állattenyésztési tudományok, ddc:570, Animals, Medicine, Agrártudományok, Pollination, Research Article

Abstract

Erratum : DOI : 10.1371/journal.pone.0091459 Clé UT : 000332396200255; International audience; Declines in insect pollinators across Europe have raised concerns about the supply of pollination services to agriculture. Simultaneously, EU agricultural and biofuel policies have encouraged substantial growth in the cultivated area of insect pollinated crops across the continent. Using data from 41 European countries, this study demonstrates that the recommended number of honeybees required to provide crop pollination across Europe has risen 4.9 times as fast as honeybee stocks between 2005 and 2010. Consequently, honeybee stocks were insufficient to supply >90% of demands in 22 countries studied. These findings raise concerns about the capacity of many countries to cope with major losses of wild pollinators and highlight numerous critical gaps in current understanding of pollination service supplies and demands, pointing to a pressing need for further research into this issue.

Published

2014

12. The decline of England’s bees: policy review and recommendations

Author

Breeze, Tom D, Roberts, Stuart P.M., and Potts, Simon G.

Published

2012

13. Insect pollinators: linking research and policy

Author

Ambrose, Nick, Aston, David, Biesmeijer, Jacobus C., Bourke, Andrew, Breeze, Tom D., Brotherton, Peter, Brown, Mike, Chandler, Dave, Clook, Mark, Connolly, Christopher L., Costigan, Peter, Coulson, Mike, Cresswell, James, Dean, Robin, Dicks, Lynn V., Felicioli, Antonio, Fojt, Otakar, Gallai, Nicola, Genersch, Elke, Godfray, Charles, Grieg-Gran, Maryanne, Halstead, Andrew, Harding, Debbie, Harris, Brian, Hartfield, Chris, Heard, Matt S., Herren, Barbara, Howarth, Julie, Ings, Thomas, Kleijn, David, Klein, Alexandra M., Kunin, Williams E., Lewis, Gavin, MacEwen, Alison, Maus, Christian, McIntosh, Liz, Millar, Neil S., Neumann, Peter, Ollerton, Jeff, Olschewski, Roland, Osborne, Juliet L., Paxton, Robert J., Pettis, Jeff, Phillipson, Belinda, Potts, Simon G., Pywell, Richard, Rasmont, Pierre, Roberts, Stuart P.M., Salles, Jean-Michel, Schweiger, Oliver, Sima, Peter, Thompson, Helen, Titera, Dalibor, Vaissière, Bernard, Van der Sluijs, Jeroen P., Webster, Sarah, Wentworth, Jonathan, Wright, Géraldine A., and Vanbergen, Adam J.

Subjects

insecte pollinisateur, nutrition, pollinisation, pesticide, évaluation économique

Published

2012

14. Insect pollinators: linking research and policy

Author

Vanbergen, Adam J., Ambrose, Nick, Aston, David, Biesmeijer, Jacobus C., Bourke, Andrew, Breeze, Tom D., Brotherton, Peter, Brown, Mike, Chandler, Dave, Clook, Mark, Connolly, Christopher L., Costigan, Peter, Coulson, MiKe, Cresswell, James, Dean, Robin, Dicks, Lynn V., Felicioli, Antonio, Fojt, Otakar, Gallai, Nicola, Genersch, Elke, Godfray, Charles, Grieg-Gran, Maryanne, Halstead, Andrew, Harding, Debbie, Harris, Brian, Hartfield, Chris, Heard, Matt S., Herren, Barbara, Howarth, Julie, Ings, Thomas, Kleijn, David, Klein, Alexandra M., Kunin, Williams E., Lewis, Gavin, MacEwen, Alison, Maus, Christian, McIntosh, Liz, Millar, Neil S., Neumann, Peter, Ollerton, Jeff, Olschewski, Roland, Osborne, Juliet L., Paxton, Robert J., Pettis, Jeff, Phillipson, Belinda, Potts, Simon G., Pywell, Richard, Rasmont, Pierre, Roberts, Stuart P.M., Salles, Jean-Michel, Schweiger, Oliver, Sima, Peter, Thompson, Helen, Titera, Dalibor, Vaissière, Bernard, Van der Sluijs, Jeroen P., Webster, Sarah, Wentworth, Jonathan, Wright, Geraldine A., NERC, Scottish Government-SASA, Partenaires INRAE, British Beekeepers Association, University of Leeds, NCB Naturalis, School of Biological Sciences, University of East Anglia [Norwich] (UEA), School of Agriculture, Policy and Development, University of Reading (UOR), Natural England, Food and Environment Research Agency, School of Life Sciences, University of Warwick [Coventry], Health and Safety Executive, University of Dundee, Dept Food Environm & Rural Affairs Defra, Syngenta Ltd, University of Exeter, The Red Beehive Co. Ltd, Department of Zoology, University of Cambridge [UK] (CAM), Universita degli studi di Pisa, UK Science and Innovation Network, Ecole Nationale de Formation Agronomique de Toulouse (ENFA), Institute for Bee Research Hohen Neuendorf, International Institute for Environment and Development (IIED), Royal Horticultural Society, Polaris House, Natural Environment Research Council (NERC), National Farmers' Union, Food and Agriculture Organization, Queen Mary University of London (QMUL), Alterra Green World Research (ALTERRA), Institut of Ecology, JSC International Ltd, Bayer Pharma AG [Berlin], Department of Neuroscience, Physiology & Pharmacology, University College of London [London] (UCL), Swiss Bee Research Centre, University of Northampton, Swiss Federal Institute for Forest, Snow and Landscape Research WSL, School of Biological Sciences [Belfast], Queen's University [Belfast] (QUB), Institute for Biology, University of Bergen (UiB), United States Department of Agriculture (USDA), Université de Mons (UMons), Laboratoire Montpelliérain d'Économie Théorique et Appliquée (LAMETA), Université Montpellier 1 (UM1)-Université Paul-Valéry - Montpellier 3 (UPVM)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), Koppert Biological Systems, Bee Research Institute, Abeilles & Environnement (UR 406 ), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Utrecht University [Utrecht], Parliamentary Office for Science and Technology, Newcastle University [Newcastle], Naturalis Biodiversity Center [Leiden], Abeilles et environnement (AE), and Institut National de la Recherche Agronomique (INRA)

Subjects

ComputingMilieux_MISCELLANEOUS, [SHS]Humanities and Social Sciences

Abstract

International audience

Published

2012

15. Pollination services in the UK: how important are honeybees?

Author

Breeze, Tom D, Bailey, Alison P., Balcombe, Kelvin G., and Potts, Simon G.

Abstract

Pollination services are known to provide substantial benefits to human populations and agriculture in particular. Although many species are known to provide pollination services, honeybees (Apis mellifera) are often assumed to provide the majority of these services to agriculture. Using data from a range of secondary sources, this study assesses the importance of insect pollinated crops at regional and national scales and investigates the capacity of honeybees to provide optimal pollination services to UK agriculture. The findings indicate that insect pollinated crops have become increasingly important in UK crop agriculture and, as of 2007, accounted for 20% of UK cropland and 19% of total farmgate crop value. Analysis of honeybee hive numbers indicates that current UK populations are only capable of supplying 34% of pollination service demands even under favourable assumptions, falling from 70% in 1984. In spite of this decline, insect pollinated crop yields have risen by an average of 54% since 1984, casting doubt on long held beliefs that honeybees provide the majority of pollination services. Future land use and crop production patterns may further increase the role of pollination services to UK agriculture, highlighting the importance of measures aimed at maintaining both wild and managed species.

Published

2011

16. Quantifying the value of ecosystem services: a case study of honeybee pollination in the UK

Author

Mwebaze, P., Marris, G. C., Budge, G. E., Brown, M., Potts, Simon G., Breeze, Tom D, and Macleod, A.

Abstract

There is concern that insect pollinators, such as honey bees, are currently declining in abundance, and are under serious threat from environmental changes such as habitat loss and climate change; the use of pesticides in intensive agriculture, and emerging diseases. This paper aims to evaluate how much public support there would be in preventing further decline to maintain the current number of bee colonies in the UK. The contingent valuation method (CVM) was used to obtain the willingness to pay (WTP) for a theoretical pollinator protection policy. Respondents were asked whether they would be WTP to support such a policy and how much would they pay? Results show that the mean WTP to support the bee protection policy was £1.37/week/household. Based on there being 24.9 million households in the UK, this is equivalent to £1.77 billion per year. This total value can show the importance of maintaining the overall pollination service to policy makers. We compare this total with estimates obtained using a simple market valuation of pollination for the UK.

Published

2010

17. A global-scale expert assessment of drivers and risks associated with pollinator decline

Author

Dicks, Lynn V, Breeze, Tom D, Ngo, Hien T, Senapathi, Deepa, An, Jiandong, Aizen, Marcelo A, Basu, Parthiba, Buchori, Damayanti, Galetto, Leonardo, Garibaldi, Lucas A, Gemmill-Herren, Barbara, Howlett, Brad G, Imperatriz-Fonseca, Vera L, Johnson, Steven D, Kovács-Hostyánszki, Anikó, Kwon, Yong Jung, Lattorff, H Michael G, Lungharwo, Thingreipi, Seymour, Colleen L, Vanbergen, Adam J, and Potts, Simon G

Subjects

2. Zero hunger, Crops, Agricultural, Europe, 13. Climate action, North America, Humans, 15. Life on land, Pesticides, Pollination

Abstract

Pollinator decline has attracted global attention and substantial efforts are underway to respond through national pollinator strategies and action plans. These policy responses require clarity on what is driving pollinator decline and what risks it generates for society in different parts of the world. Using a formal expert elicitation process, we evaluated the relative regional and global importance of eight drivers of pollinator decline and ten consequent risks to human well-being. Our results indicate that global policy responses should focus on reducing pressure from changes in land cover and configuration, land management and pesticides, as these were considered very important drivers in most regions. We quantify how the importance of drivers and risks from pollinator decline, differ among regions. For example, losing access to managed pollinators was considered a serious risk only for people in North America, whereas yield instability in pollinator-dependent crops was classed as a serious or high risk in four regions but only a moderate risk in Europe and North America. Overall, perceived risks were substantially higher in the Global South. Despite extensive research on pollinator decline, our analysis reveals considerable scientific uncertainty about what this means for human society.

18. Agricultural policies exacerbate honeybee pollination service supply-demand mismatches across Europe

Author

Vaissière, Bernard, Bommarco, Riccardo, Petanidou, Theodora, Seraphides, Nicos, Kozàk, Lajos, Scheper, Jeroen, Biesmeijer, Jacobus C., Kleijn, David, Gyldenkaerne, Steen, Moretti, Marco, Holzschuh, Andrea, Steffan-Dewenter, Ingolf, Stout, Jane C., Pärtel, Meelis, Zobel, Martin, Potts, Simon G., and Breeze, Tom D.

Subjects

insecte pollinisateur, économie de la pollinisation, pollinisateur, analyse statistique, état des stocks, région européenne, abeille, offre et demande, efficacité pollinisatrice, politique agricole

Abstract

Declines in insect pollinators across Europe have raised concerns about the supply of pollination services to agriculture. Simultaneously, EU agricultural and biofuel policies have encouraged substantial growth in the cultivated area of insect pollinated crops across the continent. Using data from 41 European countries, this study demonstrates that the recommended number of honeybees required to provide crop pollination across Europe has risen 4.9 times as fast as honeybee stocks between 2005 and 2010. Consequently, honeybee stocks were insufficient to supply >90% of demands in 22 countries studied. These findings raise concerns about the capacity of many countries to cope with major losses of wild pollinators and highlight numerous critical gaps in current understanding of pollination service supplies and demands, pointing to a pressing need for further research into this issue.

Published

2014