463 results on '"Goulson, D."'
Search Results
2. Comparing the Efficacy of Agri-Environment Schemes to Enhance Bumble Bee Abundance and Diversity on Arable Field Margins
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Pywell, R. F. and Goulson, D.
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- 2007
3. Effects of Climate on Intra- and Interspecific Size Variation in Bumble-Bees
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Peat, J., Darvill, B., Ellis, J., and Goulson, D.
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- 2005
4. Colony Growth of the Bumblebee, Bombus terrestris, in Improved and Conventional Agricultural and Suburban Habitats
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Goulson, D.
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- 2002
5. Polyethism and the Importance of Context in the Alarm Reaction of the Grass-Cutting Ant, Atta capiguara
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Goulson, D.
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- 2001
6. Why Do Pollinators Visit Proportionally Fewer Flowers in Large Patches?
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Goulson, D.
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- 2000
7. Effects of Phenotypic Plasticity on Pathogen Transmission in the Field in a Lepidoptera-NPV System
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Reeson, A. F., Wilson, K., Cory, J. S., Weeks, J. M., Goulson, D., and Hails, R. S.
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- 2000
8. Baculovirus Resistance in the Noctuid Spodoptera exempta is Phenotypically Plastic and Responds to Population Density
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Reeson, A. F., Wilson, K., Gunn, A., Hails, R. S., and Goulson, D.
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- 1998
9. Evidence for habitat and climatic specializations driving the long-term distribution trends of UK and Irish bumblebees
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Casey, L. M., Rebelo, H., Rotheray, E., and Goulson, D.
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- 2015
10. A comparison of techniques for assessing farmland bumblebee populations
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Wood, T. J., Holland, J. M., and Goulson, D.
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- 2015
11. Diet characterisation of solitary bees on farmland: dietary specialisation predicts rarity
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Wood, T. J., Holland, J. M., and Goulson, D.
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- 2016
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12. Role of management in the long-term provision of floral resources on farmland
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Nichols, R.N., primary, Wood, T.J., additional, Holland, J.M., additional, and Goulson, D., additional
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- 2022
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13. Social learning drives handedness in nectar-robbing bumblebees
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Goulson, D., Park, K. J., Tinsley, M. C., Bussière, L. F., and Vallejo-Marin, M.
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- 2013
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14. Breeding System, Pollinator Choice and Variation in Pollen Quality in British Herbaceous Plants
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Hanley, M. E., Franco, M., Pichon, S., Darvill, B., and Goulson, D.
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- 2008
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15. The Benefits of Multiple Mating to Female Seaweed Flies, Coelopa frigida (Diptera: Coelpidae)
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Dunn, D. W., Sumner, J. P., and Goulson, D.
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- 2005
16. Mark recapture estimates of dispersal ability and observations on the territorial behaviour of the rare hoverfly, Hammerschmidtia ferruginea (Diptera, Syrphidae)
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Rotheray, E. L., Bussière, L. F., Moore, Pete, Bergstrom, Linnea, and Goulson, D.
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- 2014
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17. Distribution and forage use of exotic bumblebees in South Island, New Zealand
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Goulson, D. and Hanley, M.E.
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- 2004
18. Transmission Dynamics of a Virus in a Stage-Structured Insect Population
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Goulson, D., Hails, R. S., Williams, T., Hirst, M. L., Vasconcelos, S. D., Green, B. M., Carty, T. M., and Cory, J. S.
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- 1995
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19. Improving pesticide-use data for the EU
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Mesnage, R., Straw, E. A., Antoniou, M. N., Benbrook, C., Chauzat, M. P., Brown, M. J. F., Goulson, D., Finger, R., Leadbeater, E., López-Ballesteros, A., Möhring, M., Neumann, P., Stanley, D., Stout, J. C., Thompson, L. J., Topping, C. J., White, B., Zaller, J. G., Zioga, E., Mesnage, R., Straw, E. A., Antoniou, M. N., Benbrook, C., Chauzat, M. P., Brown, M. J. F., Goulson, D., Finger, R., Leadbeater, E., López-Ballesteros, A., Möhring, M., Neumann, P., Stanley, D., Stout, J. C., Thompson, L. J., Topping, C. J., White, B., Zaller, J. G., and Zioga, E.
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- 2021
20. Genetic variation and population decline of an endangered hoverfly Blera fallax (Diptera: Syrphidae)
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Rotheray, E. L., Lepais, O., Nater, A., Krützen, M., Greminger, M., Goulson, D., and Bussière, L. F.
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- 2012
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21. Effects of Male age and Size on Mating Success in the Bumblebee Bombus terrestris
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Amin, M. R., Bussière, L. F., and Goulson, D.
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- 2012
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22. Polymorphic microsatellite loci for the endangered pine hoverfly Blera fallax (Diptera: Syrphidae)
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Rotheray, E. L., Greminger, M. P., Nater, A., Krützen, M., Goulson, D., and Bussière, L. F.
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- 2012
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23. Population structure, dispersal and colonization history of the garden bumblebee Bombus hortorum in the Western Isles of Scotland
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Goulson, D., Kaden, J. C., Lepais, O., Lye, G. C., and Darvill, B.
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- 2011
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24. Forage use and niche partitioning by non-native bumblebees in New Zealand: implications for the conservation of their populations of origin
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Lye, G. C., Kaden, J. C., Park, K. J., and Goulson, D.
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- 2010
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25. Engineered symbionts to safeguard honeybee health and their pollination services: A response
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Mitchell E. A., D., Aebi, A., Sanchez-Bayo, F., Goulson, D., Simon Delso, N., Brodschneider, R., Bonmatin, Jean-Marc, Bijleveld van Lexmond, M., Wenzel K., W., Baer, B., Arnold, G., Eyer, M., Safer, A., Centre de biophysique moléculaire (CBM), and Université d'Orléans (UO)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)
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[SDE]Environmental Sciences ,[SDE.BE]Environmental Sciences/Biodiversity and Ecology - Abstract
Response to the article "Engineered symbionts activate honey bee immunity and limit pathogens".Sean P. Leonard, J. Elijah Powell, Jiri Perutka, Peng Geng, Luke C. Heckmann, Richard D. Horak, Bryan W. Davies, Andrew D. Ellington, Jeffrey E. Barrick, Nancy A. Moran.Science 31 Jan 2020: Vol. 367, Issue 6477, pp. 573-576.https://science.sciencemag.org/content/367/6477/573/tab-e-letters; International audience; Leonard et al. (1) presented an interesting approach to limit the impact of pathogens on honeybees by stimulating immunity via engineered symbionts. The urgency to safeguard pollinator services is undoubted. Massive declines in bees, insects in general, pose major concerns for ecosystem stability and food production.However, we see potential pitfalls in such technology driven approaches.Leonard et al. attribute high honeybee colony mortality to the parasitic mite Varroa destructor via synergistic interactions with RNA viruses. However, Varroa is only a significant concern for honeybees. The consensus is that pollinator declines are driven primarily by habitat loss and exposure to pesticides (2, 3). The proposed measures will do nothing to aid other insects delivering the bulk of pollination (e.g. (4)).We caution the release of genetically modified organisms into bees and their environments and identify three main risks:1. Potential spill over and unknown impact to the health of wild bees. The benefit to bees is thus uncertain.2. Unpredictable effects for biodiversity, ecosystems and human health: It is impossible to exclude that bacteria with modified genes may cross the species borders through horizontal gene transfer to other microorganisms in the microbiome of bees, other invertebrates, and vertebrates including humans.3. Potential regulatory and economic consequences: What would happen if traces of GMOs are detected in honey or bee products? Labeling of honey and other bee products as GMOs may be required. This would represent a major blow to beekeepers, a commercial and image disaster.Efficient Varroa control methods or other hive management practices are available to reduce the impact of viruses and colony losses, without the risk of spilling genetically modified organisms.We propose a discussion to evaluate possible pathways seeking solutions for the pollinator crisis. Broader approaches embracing conservation, socioeconomics and ethical aspects are required.References and Notes:1. S. P. Leonard et al., Science 367, 573-576 (2020).2. S. G. Potts et al., 25, 345-353 (2010).3. D. Goulson, E. Nicholls, C. Botías, E. L. Rotheray, 347, 1255957 (2015).4. R. Winfree, N. M. Williams, H. Gaines, J. S. Ascher, C. Kremen, 45, 793-802 (2008).Acknowledgments: N.a.Funding: N.a.Author contributions: EM wrote the first draft which all authors the edited.
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- 2020
26. Biotope Associations and the Decline of Bumblebees (Bombus spp.)
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Goulson, D., Hanley, M. E., Darvill, B., and Ellis, J. S.
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- 2006
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27. Delineating species for conservation using mitochondrial sequence data: the taxonomic status of two problematic Bombus species (Hymenoptera: Apidae)
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Ellis, J. S., Knight, M. E., and Goulson, D.
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- 2005
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28. Do exotic bumblebees and honeybees compete with native flower-visiting insects in Tasmania?
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Goulson, D., Stout, J.C., and Kells, A.R.
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- 2002
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29. Polyethism and the importance of context in the alarm reaction of the grass-cutting ant, Atta capiguara
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Hughes, W.O.H. and Goulson, D.
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- 2001
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30. Luring houseflies (Musca domestica) to traps: do cuticular hydrocarbons and visual cues increase catch?
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HANLEY, M. E., CRUICKSHANKS, K. L., DUNN, D., STEWART-JONES, A., and GOULSON, D.
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- 2009
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31. Can flower constancy in nectaring butterflies be explained by Darwin’s interference hypothesis?
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Goulson, D., Stout, Jane C., and Hawson, Sadie A.
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- 1997
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32. Wipfelkrankheit: modification of host behaviour during baculoviral infection
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Goulson, D.
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- 1997
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33. Paternal investment in relation to size in the deathwatch beetle,Xestobium rufovillosum (Coleoptera: Anobiidae), and evidence for female selection for large mates
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Goulson, D., Birch, M. C., and Wyatt, T. D.
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- 1993
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34. Call to restrict neonicotinoids
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Goulson, D., Liess, Matthias, and 231 other signatories, Goulson, D., Liess, Matthias, and and 231 other signatories
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- 2019
35. Quantifying resilience of humans and other animals.
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Melis R.J.F., Michael Romero L., Scheffer M., Elizabeth Bolhuis J., Borsboom D., Buchman T.G., Gijzel S.M.W., Goulson D., Kammenga J.E., Kemp B., van de Leemput I.A., Levin S., Martin C.M., van Nes E.H., Olde Rikkert M.G.M., Melis R.J.F., Michael Romero L., Scheffer M., Elizabeth Bolhuis J., Borsboom D., Buchman T.G., Gijzel S.M.W., Goulson D., Kammenga J.E., Kemp B., van de Leemput I.A., Levin S., Martin C.M., van Nes E.H., and Olde Rikkert M.G.M.
- Abstract
All life requires the capacity to recover from challenges that are as inevitable as they are unpredictable. Understanding this resilience is essential for managing the health of humans and their livestock. It has long been difficult to quantify resilience directly, forcing practitioners to rely on indirect static indicators of health. However, measurements from wearable electronics and other sources now allow us to analyze the dynamics of physiology and behavior with unsurpassed resolution. The resulting flood of data coincides with the emergence of novel analytical tools for estimating resilience from the pattern of microrecoveries observed in natural time series. Such dynamic indicators of resilience may be used to monitor the risk of systemic failure across systems ranging from organs to entire organisms. These tools invite a fundamental rethinking of our approach to the adaptive management of health and resilience.Copyright © 2018 National Academy of Sciences. All rights reserved.
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- 2018
36. Environmental fate and exposure; neonicotinoids and fipronil
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Bonmatin, J. M, Giorio, C, Girolami, V, Goulson, D, Kreutzweiser, David. P, Krupke, C, Liess, M, Long, E, Marzaro, M, Mitchell, Edward A. D, Noome Dominique A, Simon-Delso, N, Tapparo, A, Bonmatin, J. M, Giorio, C, Girolami, V, Goulson, D, Kreutzweiser, David. P, Krupke, C, Liess, M, Long, E, Marzaro, M, Mitchell, Edward A. D, Noome Dominique A, Simon-Delso, N, and Tapparo, A
- Abstract
Systemic insecticides are applied to plants using a wide variety of methods, ranging from foliar sprays to seed treatments and soil drenches. Neonicotinoids and fipronil are among the most widely used pesticides in the world. Their popularity is largely due to their high toxicity to invertebrates, the ease and flexibility with which they can be applied, their long persistence, and their systemic nature, which ensures that they spread to all parts of the target crop. However, these properties also increase the probability of environmental contamination and exposure of nontarget organisms. Environmental contamination occurs via a number of routes including dust generated during drilling of dressed seeds, contamination and accumulation in arable soils and soil water, runoff into waterways, and uptake of pesticides by nontarget plants via their roots or dust deposition on leaves. Persistence in soils, waterways, and nontarget plants is variable but can be prolonged; for example, the half-lives of neonicotinoids in soils can exceed 1,000 days, so they can accumulate when used repeatedly. Similarly, they can persist in woody plants for periods exceeding 1 year. Breakdown results in toxic metabolites, though concentrations of these in the environment are rarely measured. Overall, there is strong evidence that soils, waterways, and plants in agricultural environments and neighboring areas are contaminated with variable levels of neonicotinoids or fipronil mixtures and their metabolites (soil, parts per billion (ppb)-parts per million (ppm) range; water, parts per trillion (ppt)-ppb range; and plants, ppb-ppm range). This provides multiple routes for chronic (and acute in some cases) exposure of nontarget animals. For example, pollinators are exposed through direct contact with dust during drilling; consumption of pollen, nectar, or guttation drops from seed-treated crops, water, and consumption of contaminated pollen and nectar from wild flowers and trees growing near-treat
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- 2018
37. Systemic insecticides (neonicotinoids and fipronil): trends, uses, mode of action and metabolites
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Simon-Delso, N, Amaral-Rogers, V, Belzunces, L. P, Bonmatin, J. M, Chagnon, Madeleine, Downs, C. A, Furlan, L, Gibbons, D. W, Giorio, C, Girolami, V, Goulson, D, Kreutzweiser, David. P, Krupke, C, Liess, M, Long, E, McField, M, Mineau, Pierre, Mitchell, Edward A. D, Morrissey, Christy A, Noome Dominique A, Pisa, L, Settele, J, Stark, J. D, Tapparo, A, Van Dyck, H, van Praagh, J, Van der Sluijs, Jeroen P, Whitehorn, P. R, Wiemers, M, Simon-Delso, N, Amaral-Rogers, V, Belzunces, L. P, Bonmatin, J. M, Chagnon, Madeleine, Downs, C. A, Furlan, L, Gibbons, D. W, Giorio, C, Girolami, V, Goulson, D, Kreutzweiser, David. P, Krupke, C, Liess, M, Long, E, McField, M, Mineau, Pierre, Mitchell, Edward A. D, Morrissey, Christy A, Noome Dominique A, Pisa, L, Settele, J, Stark, J. D, Tapparo, A, Van Dyck, H, van Praagh, J, Van der Sluijs, Jeroen P, Whitehorn, P. R, and Wiemers, M
- Abstract
Since their discovery in the late 1980s, neonicotinoid pesticides have become the most widely used class of insecticides worldwide, with large-scale applications ranging from plant protection (crops, vegetables, fruits), veterinary products, and biocides to invertebrate pest control in fish farming. In this review, we address the phenyl-pyrazole fipronil together with neonicotinoids because of similarities in their toxicity, physicochemical profiles, and presence in the environment. Neonicotinoids and fipronil currently account for approximately one third of the world insecticide market; the annual world production of the archetype neonicotinoid, imidacloprid, was estimated to be ca. 20,000 tonnes active substance in 2010. There were several reasons for the initial success of neonicotinoids and fipronil: (1) there was no known pesticide resistance in target pests, mainly because of their recent development, (2) their physicochemical properties included many advantages over previous generations of insecticides (i.e., organophosphates, carbamates, pyrethroids, etc.), and (3) they shared an assumed reduced operator and consumer risk. Due to their systemic nature, they are taken up by the roots or leaves and translocated to all parts of the plant, which, in turn, makes them effectively toxic to herbivorous insects. The toxicity persists for a variable period of time—depending on the plant, its growth stage, and the amount of pesticide applied. A wide variety of applications are available, including the most common prophylactic non-Good Agricultural Practices (GAP) application by seed coating. As a result of their extensive use and physicochemical properties, these substances can be found in all environmental compartments including soil, water, and air. Neonicotinoids and fipronil operate by disrupting neural transmission in the central nervous system of invertebrates. Neonicotinoids mimic the action of neurotransmitters, while fipronil inhibits neuronal receptors. In do
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- 2018
38. Conclusions of the Worldwide Integrated Assessment on the risks of neonicotinoids and fipronil to biodiversity and ecosystem functioning
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van der Sluijs, J. P, Amaral-Rogers, V, Belzunces, L. P, Bijleveld van Lexmond, Maarten Frank Iman Jacobus, Bonmatin, J. M, Chagnon, M, Downs, C. A, Furlan, L, Gibbons, D. W, Giorio, C, Girolami, V, Goulson, D, Kreutzweiser, D. P, Krupke, C, Liess, M, Long, E, McField, M, Mineau, Pierre, Mitchell, Edward A. D, Morrissey, C. A, Noome D. A, Pisa, L, Settele, J, Simon-Delso, N, Stark, J. D, Tapparo, A, Van Dyck, H, van Praagh, J, Whitehorn, P. R, Wiemers, M, van der Sluijs, J. P, Amaral-Rogers, V, Belzunces, L. P, Bijleveld van Lexmond, Maarten Frank Iman Jacobus, Bonmatin, J. M, Chagnon, M, Downs, C. A, Furlan, L, Gibbons, D. W, Giorio, C, Girolami, V, Goulson, D, Kreutzweiser, D. P, Krupke, C, Liess, M, Long, E, McField, M, Mineau, Pierre, Mitchell, Edward A. D, Morrissey, C. A, Noome D. A, Pisa, L, Settele, J, Simon-Delso, N, Stark, J. D, Tapparo, A, Van Dyck, H, van Praagh, J, Whitehorn, P. R, and Wiemers, M
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- 2018
39. The database of the Predicts (Projecting responses of ecological diversity in changing terrestrial systems) project
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Hudson, LN, Newbold, T, Contu, S, Hill, SLL, Lysenko, I, De Palma, A, Phillips, HRP, Alhusseini, TI, Bedford, FE, Bennett, DJ, Booth, H, Burton, VJ, Chng, CWT, Choimes, A, Correia, DLP, Day, J, Echeverría-Londoño, S, Emerson, SR, Gao, D, Garon, M, Harrison, MLK, Ingram, DJ, Jung, M, Kemp, V, Kirkpatrick, L, Martin, CD, Pan, Y, Pask-Hale, GD, Pynegar, EL, Robinson, AN, Sanchez-Ortiz, K, Senior, RA, Simmons, BI, White, HJ, Zhang, H, Aben, J, Abrahamczyk, S, Adum, GB, Aguilar-Barquero, V, Aizen, MA, Albertos, B, Alcala, EL, del Mar Alguacil, M, Alignier, A, Ancrenaz, M, Andersen, AN, Arbeláez-Cortés, E, Armbrecht, I, Arroyo-Rodríguez, V, Aumann, T, Axmacher, JC, Azhar, B, Azpiroz, AB, Baeten, L, Bakayoko, A, Báldi, A, Banks, JE, Baral, SK, Barlow, J, Barratt, BIP, Barrico, L, Bartolommei, P, Barton, DM, Basset, Y, Batáry, P, Bates, AJ, Baur, B, Bayne, EM, Beja, P, Benedick, S, Berg, Å, Bernard, H, Berry, NJ, Bhatt, D, Bicknell, JE, Bihn, JH, Blake, RJ, Bobo, KS, Bóçon, R, Boekhout, T, Böhning-Gaese, K, Bonham, KJ, Borges, PAV, Borges, SH, Boutin, C, Bouyer, J, Bragagnolo, C, Brandt, JS, Brearley, FQ, Brito, I, Bros, V, Brunet, J, Buczkowski, G, Buddle, CM, Bugter, R, Buscardo, E, Buse, J, Cabra-García, J, Cáceres, NC, Cagle, NL, Calviño-Cancela, M, Cameron, SA, Cancello, EM, Caparrós, R, Cardoso, P, Carpenter, D, Carrijo, TF, Carvalho, AL, Cassano, CR, Castro, H, Castro-Luna, AA, Rolando, CB, Cerezo, A, Chapman, KA, Chauvat, M, Christensen, M, Clarke, FM, Cleary, DFR, Colombo, G, Connop, SP, Craig, MD, Cruz-López, L, Cunningham, SA, D'Aniello, B, D'Cruze, N, da Silva, PG, Dallimer, M, Danquah, E, Darvill, B, Dauber, J, Davis, ALV, Dawson, J, de Sassi, C, de Thoisy, B, Deheuvels, O, Dejean, A, Devineau, J-L, Diekötter, T, Dolia, JV, Domínguez, E, Dominguez-Haydar, Y, Dorn, S, Draper, I, Dreber, N, Dumont, B, Dures, SG, Dynesius, M, Edenius, L, Eggleton, P, Eigenbrod, F, Elek, Z, Entling, MH, Esler, KJ, de Lima, RF, Faruk, A, Farwig, N, Fayle, TM, Felicioli, A, Felton, AM, Fensham, RJ, Fernandez, IC, Ferreira, CC, Ficetola, GF, Fiera, C, Filgueiras, BKC, Fırıncıoğlu, HK, Flaspohler, D, Floren, A, Fonte, SJ, Fournier, A, Fowler, RE, Franzén, M, Fraser, LH, Fredriksson, GM, Freire, GB, Frizzo, TLM, Fukuda, D, Furlani, D, Gaigher, R, Ganzhorn, JU, García, KP, Garcia-R, JC, Garden, JG, Garilleti, R, Ge, B-M, Gendreau-Berthiaume, B, Gerard, PJ, Gheler-Costa, C, Gilbert, B, Giordani, P, Giordano, S, Golodets, C, Gomes, LGL, Gould, RK, Goulson, D, Gove, AD, Granjon, L, Grass, I, Gray, CL, Grogan, J, Gu, W, Guardiola, M, Gunawardene, NR, Gutierrez, AG, Gutiérrez-Lamus, DL, Haarmeyer, DH, Hanley, ME, Hanson, T, Hashim, NR, Hassan, SN, Hatfield, RG, Hawes, JE, Hayward, MW, Hébert, C, Helden, AJ, Henden, J-A, Henschel, P, Hernández, L, Herrera, JP, Herrmann, F, Herzog, F, Higuera-Diaz, D, Hilje, B, Höfer, H, Hoffmann, A, Horgan, FG, Hornung, E, Horváth, R, Hylander, K, Isaacs-Cubides, P, Ishida, H, Ishitani, M, Jacobs, CT, Jaramillo, VJ, Jauker, B, Hernández, FJ, Johnson, MF, Jolli, V, Jonsell, M, Juliani, SN, Jung, TS, Kapoor, V, Kappes, H, Kati, V, Katovai, E, Kellner, K, Kessler, M, Kirby, KR, Kittle, AM, Knight, ME, Knop, E, Kohler, F, Koivula, M, Kolb, A, Kone, M, Kőrösi, Á, Krauss, J, Kumar, A, Kumar, R, Kurz, DJ, Kutt, AS, Lachat, T, Lantschner, V, Lara, F, Lasky, JR, Latta, SC, Laurance, WF, Lavelle, P, Le Féon, V, LeBuhn, G, Légaré, J-P, Lehouck, V, Lencinas, MV, Lentini, PE, Letcher, SG, Li, Q, Litchwark, SA, Littlewood, NA, Liu, Y, Lo-Man-Hung, N, López-Quintero, CA, Louhaichi, M, Lövei, GL, Lucas-Borja, ME, Luja, VH, Luskin, MS, MacSwiney G, MC, Maeto, K, Magura, T, Mallari, NA, Malone, LA, Malonza, PK, Malumbres-Olarte, J, Mandujano, S, Måren, IE, Marin-Spiotta, E, Marsh, CJ, Marshall, EJP, Martínez, E, Martínez Pastur, G, Moreno Mateos, D, Mayfield, MM, Mazimpaka, V, McCarthy, JL, McCarthy, KP, McFrederick, QS, McNamara, S, Medina, NG, Medina, R, Mena, JL, Mico, E, Mikusinski, G, Milder, JC, Miller, JR, Miranda-Esquivel, DR, Moir, ML, Morales, CL, Muchane, MN, Muchane, M, Mudri-Stojnic, S, Munira, AN, Muoñz-Alonso, A, Munyekenye, BF, Naidoo, R, Naithani, A, Nakagawa, M, Nakamura, A, Nakashima, Y, Naoe, S, Nates-Parra, G, Navarrete Gutierrez, DA, Navarro-Iriarte, L, Ndang'ang'a, PK, Neuschulz, EL, Ngai, JT, Nicolas, V, Nilsson, SG, Noreika, N, Norfolk, O, Noriega, JA, Norton, DA, Nöske, NM, Nowakowski, AJ, Numa, C, O'Dea, N, O'Farrell, PJ, Oduro, W, Oertli, S, Ofori-Boateng, C, Oke, CO, Oostra, V, Osgathorpe, LM, Otavo, SE, Page, NV, Paritsis, J, Parra-H, A, Parry, L, Pe'er, G, Pearman, PB, Pelegrin, N, Pélissier, R, Peres, CA, Peri, PL, Persson, AS, Petanidou, T, Peters, MK, Pethiyagoda, RS, Phalan, B, Philips, TK, Pillsbury, FC, Pincheira-Ulbrich, J, Pineda, E, Pino, J, Pizarro-Araya, J, Plumptre, AJ, Poggio, SL, Politi, N, Pons, P, Poveda, K, Power, EF, Presley, SJ, Proença, V, Quaranta, M, Quintero, C, Rader, R, Ramesh, BR, Ramirez-Pinilla, MP, Ranganathan, J, Rasmussen, C, Redpath-Downing, NA, Reid, JL, Reis, YT, Rey Benayas, JM, Rey-Velasco, JC, Reynolds, C, Ribeiro, DB, Richards, MH, Richardson, BA, Richardson, MJ, Ríos, RM, Robinson, R, Robles, CA, Römbke, J, Romero-Duque, LP, Rös, M, Rosselli, L, Rossiter, SJ, Roth, DS, Roulston, TH, Rousseau, L, Rubio, AV, Ruel, J-C, Sadler, JP, Sáfián, S, Saldaña-Vázquez, RA, Sam, K, Samnegård, U, Santana, J, Santos, X, Savage, J, Schellhorn, NA, Schilthuizen, M, Schmiedel, U, Schmitt, CB, Schon, NL, Schüepp, C, Schumann, K, Schweiger, O, Scott, DM, Scott, KA, Sedlock, JL, Seefeldt, SS, Shahabuddin, G, Shannon, G, Sheil, D, Sheldon, FH, Shochat, E, Siebert, SJ, Silva, FAB, Simonetti, JA, Slade, EM, Smith, J, Smith-Pardo, AH, Sodhi, NS, Somarriba, EJ, Sosa, RA, Soto Quiroga, G, St-Laurent, M-H, Starzomski, BM, Stefanescu, C, Steffan-Dewenter, I, Stouffer, PC, Stout, JC, Strauch, AM, Struebig, MJ, Su, Z, Suarez-Rubio, M, Sugiura, S, Summerville, KS, Sung, Y-H, Sutrisno, H, Svenning, J-C, Teder, T, Threlfall, CG, Tiitsaar, A, Todd, JH, Tonietto, RK, Torre, I, Tóthmérész, B, Tscharntke, T, Turner, EC, Tylianakis, JM, Uehara-Prado, M, Urbina-Cardona, N, Vallan, D, Vanbergen, AJ, Vasconcelos, HL, Vassilev, K, Verboven, HAF, Verdasca, MJ, Verdú, JR, Vergara, CH, Vergara, PM, Verhulst, J, Virgilio, M, Vu, LV, Waite, EM, Walker, TR, Wang, H-F, Wang, Y, Watling, JI, Weller, B, Wells, K, Westphal, C, Wiafe, ED, Williams, CD, Willig, MR, Woinarski, JCZ, Wolf, JHD, Wolters, V, Woodcock, BA, Wu, J, Wunderle, JM, Yamaura, Y, Yoshikura, S, Yu, DW, Zaitsev, AS, Zeidler, J, Zou, F, Collen, B, Ewers, RM, Mace, GM, Purves, DW, Scharlemann, JPW, Purvis, A, The Natural History Museum [London] (NHM), United Nations Environment Programme World Conservation Monitoring Centre, Department of Genetics, Evolution and Environment, Centre for Biodiversity and Environment, Research, University College of London [London] (UCL), Department of Life Sciences [Trieste], Università degli studi di Trieste, Imperial College London, Department of Zoology, Auburn University (AU), Frankfurt Zoological Society, Science and Solutions for a Changing Planet DTP and the Department of Life Sciences, Centre d’étude de la forêt, Université Laval, School of Life Sciences, University of Sussex, School of Biological Sciences [London], Queen Mary University of London (QMUL), School of Biological and Ecological Sciences, University of Stirling, School of Biological Sciences [Egham), Royal Holloway [University of London] (RHUL), School of Environment, Natural Resources and Geography, Bangor University, University College London (UCL), School of Biological Sciences [Clayton], Monash University [Clayton], Institute of Biological and Environmental Sciences, (SFIRC), Evolutionary Ecology Group, University of Antwerp (UA), Nees Institute for Plant Biodiversity, Rheinische Friedrich-Wilhelms-Universität Bonn, Wildlife and Range Management Department, Faculty of Renewable Natural Resources, College of Agriculture and Natural Resources (CANR), Kwame Nkrumah University of Science and Technology (KNUST), Save the frogs!, Escuela de Biología, Universidad Nacional de Costa Rica, Instituto Nacional de Investigaciones en Biodiversidad y Medioambiente [Bariloche] (INIBIOMA-CONICET), Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET)-Universidad Nacional del Comahue [Neuquén] (UNCOMA), Departamento de Botánica, Facultad de Farmacia, Universidad de Valencia, Marine Laboratory, Silliman University-Angelo King Center for Research and Environmental Management, Silliman University, Department of Soil and Water Conservation, Centro de Edafologia y Biologia Aplicada del Segura, SAD Paysage (SAD Paysage), Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST, Dynamiques Forestières dans l'Espace Rural (DYNAFOR), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Supérieure Agronomique de Toulouse-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Animal, Santé, Territoires, Risques et Ecosystèmes (UMR ASTRE), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA), Unité Mixte de Recherches sur les Herbivores - UMR 1213 (UMRH), VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Institut National de la Recherche Agronomique (INRA), Centre de Biologie pour la Gestion des Populations (UMR CBGP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Université de Montpellier (UM)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Abeilles et Environnement (AE), Institut National de la Recherche Agronomique (INRA)-Avignon Université (AU), Patrimoines locaux, Environnement et Globalisation (PALOC), Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU), Università degli studi di Trieste = University of Trieste, Université Laval [Québec] (ULaval), Institut National de la Recherche Agronomique (INRA)-École nationale supérieure agronomique de Toulouse (ENSAT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT), Unité Mixte de Recherche sur les Herbivores - UMR 1213 (UMRH), Institut National de la Recherche Agronomique (INRA)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS), The Royal Society, Natural Environment Research Council (NERC), Kwame Nkrumah University of Science and Technology [GHANA] (KNUST), AGROCAMPUS OUEST, 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)-Institut National de la Recherche Agronomique (INRA), Institut National de la Recherche Agronomique (INRA)-École nationale supérieure agronomique de Toulouse [ENSAT]-Institut National Polytechnique (Toulouse) (Toulouse INP), VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Institut National de la Recherche Agronomique (INRA)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, 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), Institut National de la Recherche Agronomique (INRA)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Westerdijk Fungal Biodiversity Institute, Westerdijk Fungal Biodiversity Institute - Yeast Research, Hudson, Lawrence N [0000-0003-4072-7469], Choimes, Argyrios [0000-0002-9849-1500], Jung, Martin [0000-0002-7569-1390], Apollo - University of Cambridge Repository, Hudson, Lawrence N, Newbold, Tim, Contu, Sara, Hill, Samantha L. L., Lysenko, Igor, De Palma, Adriana, Phillips, Helen R. P., Alhusseini, Tamera I., Bedford, Felicity E., Bennett, Dominic J., Booth, Hollie, Burton, Victoria J., Chng, Charlotte W. T., Choimes, Argyrio, Correia, David L. P., Day, Julie, Echeverría Londoño, Susy, Emerson, Susan R., Gao, Di, Garon, Morgan, Harrison, Michelle L. K., Ingram, Daniel J., Jung, Martin, Kemp, Victoria, Kirkpatrick, Lucinda, Martin, Callum D., Pan, Yuan, Pask Hale, Gwilym D., Pynegar, Edwin L., Robinson, Alexandra N., Sanchez Ortiz, Katia, Senior, Rebecca A., Simmons, Benno I., White, Hannah J., Zhang, Hanbin, Aben, Job, Abrahamczyk, Stefan, Adum, Gilbert B., Aguilar Barquero, Virginia, Aizen, Marcelo A., Albertos, Belén, Alcala, E. L., del Mar Alguacil, Maria, Alignier, Audrey, Ancrenaz, Marc, Andersen, Alan N., Arbeláez Cortés, Enrique, Armbrecht, Inge, Arroyo Rodríguez, Víctor, Aumann, Tom, Axmacher, Jan C., Azhar, Badrul, Azpiroz, Adrián B., Baeten, Lander, Bakayoko, Adama, Báldi, Andrá, Banks, John E., Baral, Sharad K., Barlow, Jo, Barratt, Barbara I. P., Barrico, Lurde, Bartolommei, Paola, Barton, Diane M., Basset, Yve, Batáry, Péter, Bates, Adam J., Baur, Bruno, Bayne, Erin M., Beja, Pedro, Benedick, Suzan, Berg, Åke, Bernard, Henry, Berry, Nicholas J., Bhatt, Dinesh, Bicknell, Jake E., Bihn, Jochen H., Blake, Robin J., Bobo, Kadiri S., Bóçon, Roberto, Boekhout, Teun, Böhning Gaese, Katrin, Bonham, Kevin J., Borges, Paulo A. V., Borges, Sérgio H., Boutin, Céline, Bouyer, Jérémy, Bragagnolo, Cibele, Brandt, Jodi S., Brearley, Francis Q., Brito, Isabel, Bros, Vicenç, Brunet, Jörg, Buczkowski, Grzegorz, Buddle, Christopher M., Bugter, Rob, Buscardo, Erika, Buse, Jörn, Cabra García, Jimmy, Cáceres, Nilton C., Cagle, Nicolette L., Calviño Cancela, María, Cameron, Sydney A., Cancello, Eliana M., Caparrós, Rut, Cardoso, Pedro, Carpenter, Dan, Carrijo, Tiago F., Carvalho, Anelena L., Cassano, Camila R., Castro, Helena, Castro Luna, Alejandro A., Rolando, Cerda B., Cerezo, Alexi, Chapman, Kim Alan, Chauvat, Matthieu, Christensen, Morten, Clarke, Francis M., Cleary, Daniel F. R., Colombo, Giorgio, Connop, Stuart P., Craig, Michael D., Cruz López, Leopoldo, Cunningham, Saul A., D'Aniello, Biagio, D'Cruze, Neil, da Silva, Pedro Giovâni, Dallimer, Martin, Danquah, Emmanuel, Darvill, Ben, Dauber, Jen, Davis, Adrian L. V., Dawson, Jeff, de Sassi, Claudio, de Thoisy, Benoit, Deheuvels, Olivier, Dejean, Alain, Devineau, Jean Loui, Diekötter, Tim, Dolia, Jignasu V., Domínguez, Erwin, Dominguez Haydar, Yamileth, Dorn, Silvia, Draper, Isabel, Dreber, Niel, Dumont, Bertrand, Dures, Simon G., Dynesius, Mat, Edenius, Lar, Eggleton, Paul, Eigenbrod, Felix, Elek, Zoltán, Entling, Martin H., Esler, Karen J., de Lima, Ricardo F., Faruk, Aisyah, Farwig, Nina, Fayle, Tom M., Felicioli, Antonio, Felton, Annika M., Fensham, Roderick J., Fernandez, Ignacio C., Ferreira, Catarina C., Ficetola, Gentile F., Fiera, Cristina, Filgueiras, Bruno K. C., Fırıncıoğlu, Hüseyin K., Flaspohler, David, Floren, Andrea, Fonte, Steven J., Fournier, Anne, Fowler, Robert E., Franzén, Marku, Fraser, Lauchlan H., Fredriksson, Gabriella M., Freire, Geraldo B., Frizzo, Tiago L. M., Fukuda, Daisuke, Furlani, Dario, Gaigher, René, Ganzhorn, Jörg U., García, Karla P., Garcia R, Juan C., Garden, Jenni G., Garilleti, Ricardo, Ge, Bao Ming, Gendreau Berthiaume, Benoit, Gerard, Philippa J., Gheler Costa, Carla, Gilbert, Benjamin, Giordani, Paolo, Giordano, Simonetta, Golodets, Carly, Gomes, Laurens G. L., Gould, Rachelle K., Goulson, Dave, Gove, Aaron D., Granjon, Laurent, Grass, Ingo, Gray, Claudia L., Grogan, Jame, Gu, Weibin, Guardiola, Moisè, Gunawardene, Nihara R., Gutierrez, Alvaro G., Gutiérrez Lamus, Doris L., Haarmeyer, Daniela H., Hanley, Mick E., Hanson, Thor, Hashim, Nor R., Hassan, Shombe N., Hatfield, Richard G., Hawes, Joseph E., Hayward, Matt W., Hébert, Christian, Helden, Alvin J., Henden, John André, Henschel, Philipp, Hernández, Lionel, Herrera, James P., Herrmann, Farina, Herzog, Felix, Higuera Diaz, Diego, Hilje, Branko, Höfer, Hubert, Hoffmann, Anke, Horgan, Finbarr G., Hornung, Elisabeth, Horváth, Roland, Hylander, Kristoffer, Isaacs Cubides, Paola, Ishida, Hiroaki, Ishitani, Masahiro, Jacobs, Carmen T., Jaramillo, Víctor J., Jauker, Birgit, Hernández, F. Jiménez, Johnson, McKenzie F., Jolli, Virat, Jonsell, Mat, Juliani, S. Nur, Jung, Thomas S., Kapoor, Vena, Kappes, Heike, Kati, Vassiliki, Katovai, Eric, Kellner, Klau, Kessler, Michael, Kirby, Kathryn R., Kittle, Andrew M., Knight, Mairi E., Knop, Eva, Kohler, Florian, Koivula, Matti, Kolb, Annette, Kone, Mouhamadou, Kőrösi, Ádám, Krauss, Jochen, Kumar, Ajith, Kumar, Raman, Kurz, David J., Kutt, Alex S., Lachat, Thibault, Lantschner, Victoria, Lara, Francisco, Lasky, Jesse R., Latta, Steven C., Laurance, William F., Lavelle, Patrick, Le Féon, Violette, Lebuhn, Gretchen, Légaré, Jean Philippe, Lehouck, Valérie, Lencinas, María V., Lentini, Pia E., Letcher, Susan G., Li, Qi, Litchwark, Simon A., Littlewood, Nick A., Liu, Yunhui, Lo Man Hung, Nancy, López Quintero, Carlos A., Louhaichi, Mounir, Lövei, Gabor L., Lucas Borja, Manuel Esteban, Luja, Victor H., Luskin, Matthew S., MacSwiney G, M. Cristina, Maeto, Kaoru, Magura, Tibor, Mallari, Neil Aldrin, Malone, Louise A., Malonza, Patrick K., Malumbres Olarte, Jagoba, Mandujano, Salvador, Måren, Inger E., Marin Spiotta, Erika, Marsh, Charles J., Marshall, E. J. P., Martínez, Eliana, Martínez Pastur, Guillermo, Moreno Mateos, David, Mayfield, Margaret M., Mazimpaka, Vicente, Mccarthy, Jennifer L., Mccarthy, Kyle P., Mcfrederick, Quinn S., Mcnamara, Sean, Medina, Nagore G., Medina, Rafael, Mena, Jose L., Mico, Estefania, Mikusinski, Grzegorz, Milder, Jeffrey C., Miller, James R., Miranda Esquivel, Daniel R., Moir, Melinda L., Morales, Carolina L., Muchane, Mary N., Muchane, Muchai, Mudri Stojnic, Sonja, Munira, A. Nur, Muoñz Alonso, Antonio, Munyekenye, B. F., Naidoo, Robin, Naithani, A., Nakagawa, Michiko, Nakamura, Akihiro, Nakashima, Yoshihiro, Naoe, Shoji, Nates Parra, Guiomar, Navarrete Gutierrez, Dario A., Navarro Iriarte, Lui, Ndang'Ang'A, Paul K., Neuschulz, Eike L., Ngai, Jacqueline T., Nicolas, Violaine, Nilsson, Sven G., Noreika, Norberta, Norfolk, Olivia, Noriega, Jorge Ari, Norton, David A., Nöske, Nicole M., Nowakowski, A. Justin, Numa, Catherine, O'Dea, Niall, O'Farrell, Patrick J., Oduro, William, Oertli, Sabine, Ofori Boateng, Caleb, Oke, Christopher Omamoke, Oostra, Vicencio, Osgathorpe, Lynne M., Otavo, Samuel Eduardo, Page, Navendu V., Paritsis, Juan, Parra H, Alejandro, Parry, Luke, Pe'Er, Guy, Pearman, Peter B., Pelegrin, Nicolá, Pélissier, Raphaël, Peres, Carlos A., Peri, Pablo L., Persson, Anna S., Petanidou, Theodora, Peters, Marcell K., Pethiyagoda, Rohan S., Phalan, Ben, Philips, T. Keith, Pillsbury, Finn C., Pincheira Ulbrich, Jimmy, Pineda, Eduardo, Pino, Joan, Pizarro Araya, Jaime, Plumptre, A. J., Poggio, Santiago L., Politi, Natalia, Pons, Pere, Poveda, Katja, Power, Eileen F., Presley, Steven J., Proença, Vânia, Quaranta, Marino, Quintero, Carolina, Rader, Romina, Ramesh, B. R., Ramirez Pinilla, Martha P., Ranganathan, Jai, Rasmussen, Clau, Redpath Downing, Nicola A., Reid, J. Leighton, Reis, Yana T., Rey Benayas, José M., Rey Velasco, Juan Carlo, Reynolds, Chevonne, Ribeiro, Danilo Bandini, Richards, Miriam H., Richardson, Barbara A., Richardson, Michael J., Ríos, Rodrigo Macip, Robinson, Richard, Robles, Carolina A., Römbke, Jörg, Romero Duque, Luz Piedad, Rös, Matthia, Rosselli, Loreta, Rossiter, Stephen J., Roth, Dana S., Roulston, T'ai H., Rousseau, Laurent, Rubio, André V., Ruel, Jean Claude, Sadler, Jonathan P., Sáfián, Szabolc, Saldaña Vázquez, Romeo A., Sam, Katerina, Samnegård, Ulrika, Santana, Joana, Santos, Xavier, Savage, Jade, Schellhorn, Nancy A., Schilthuizen, Menno, Schmiedel, Ute, Schmitt, Christine B., Schon, Nicole L., Schüepp, Christof, Schumann, Katharina, Schweiger, Oliver, Scott, Dawn M., Scott, Kenneth A., Sedlock, Jodi L., Seefeldt, Steven S., Shahabuddin, Ghazala, Shannon, Graeme, Sheil, Dougla, Sheldon, Frederick H., Shochat, Eyal, Siebert, Stefan J., Silva, Fernando A. B., Simonetti, Javier A., Slade, Eleanor M., Smith, Jo, Smith Pardo, Allan H., Sodhi, Navjot S., Somarriba, Eduardo J., Sosa, Ramón A., Soto Quiroga, Grimaldo, St Laurent, Martin Hugue, Starzomski, Brian M., Stefanescu, Constanti, Steffan Dewenter, Ingolf, Stouffer, Philip C., Stout, Jane C., Strauch, Ayron M., Struebig, Matthew J., Su, Zhimin, Suarez Rubio, Marcela, Sugiura, Shinji, Summerville, Keith S., Sung, Yik Hei, Sutrisno, Hari, Svenning, Jens Christian, Teder, Tiit, Threlfall, Caragh G., Tiitsaar, Anu, Todd, Jacqui H., Tonietto, Rebecca K., Torre, Ignasi, Tóthmérész, Béla, Tscharntke, Teja, Turner, Edgar C., Tylianakis, Jason M., Uehara Prado, Marcio, Urbina Cardona, Nicola, Vallan, Deni, Vanbergen, Adam J., Vasconcelos, Heraldo L., Vassilev, Kiril, Verboven, Hans A. F., Verdasca, Maria João, Verdú, José R., Vergara, Carlos H., Vergara, Pablo M., Verhulst, Jort, Virgilio, Massimiliano, Vu, Lien Van, Waite, Edward M., Walker, Tony R., Wang, Hua Feng, Wang, Yanping, Watling, James I., Weller, Britta, Wells, Konstan, Westphal, Catrin, Wiafe, Edward D., Williams, Christopher D., Willig, Michael R., Woinarski, John C. Z., Wolf, Jan H. D., Wolters, Volkmar, Woodcock, Ben A., Wu, Jihua, Wunderle, Joseph M., Yamaura, Yuichi, Yoshikura, Satoko, Yu, Douglas W., Zaitsev, Andrey S., Zeidler, Juliane, Zou, Fasheng, Collen, Ben, Ewers, Rob M., Mace, Georgina M., Purves, Drew W., Scharlemann, Jörn P. W., Purvis, Andy, Centre National de la Recherche Scientifique - CNRS (FRANCE), Institut National Polytechnique de Toulouse - INPT (FRANCE), Institut National de la Recherche Agronomique - INRA (FRANCE), Université Toulouse III - Paul Sabatier - UT3 (FRANCE), Institut National Polytechnique de Toulouse - Toulouse INP (FRANCE), Natural History Museum, 3Department of Genetics, Evolution and Environment, Centre for Biodiversity and Environment, Research, University College London ( UCL ), Department of Life Sciences, Universita di Trieste, Auburn University, Queen Mary University of London ( QMUL ), Royal Holloway [University of London] ( RHUL ), ( SFIRC ), University of Antwerp ( UA ), University of Bonn (Rheinische Friedrich-Wilhelms), Kwame Nkrumah University of Science and Technology ( KNUST ), Universidad de Costa Rica, Laboratorio Ecotono-CRUB, Universidad Nacional del Comahue, SAD Paysage ( SAD Paysage ), Institut National de la Recherche Agronomique ( INRA ) -AGROCAMPUS OUEST, Dynamiques Forestières dans l'Espace Rural ( DYNAFOR ), Institut National Polytechnique [Toulouse] ( INP ) -Institut National de la Recherche Agronomique ( INRA ) -Ecole Nationale Supérieure Agronomique de Toulouse, Contrôle des maladies animales exotiques et émergentes [Montpellier] ( CMAEE ), Institut National de la Recherche Agronomique ( INRA ) -Centre de coopération internationale en recherche agronomique pour le développement [CIRAD] : UMR15, Unité Mixte de Recherches sur les Herbivores ( UMR 1213 Herbivores ), VetAgro Sup ( VAS ) -AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Institut National de la Recherche Agronomique ( INRA ), Centre de Biologie pour la Gestion des Populations ( CBGP ), Centre de Coopération Internationale en Recherche Agronomique pour le Développement ( CIRAD ) -Centre international d'études supérieures en sciences agronomiques ( Montpellier SupAgro ) -Institut national de la recherche agronomique [Montpellier] ( INRA Montpellier ) -Université de Montpellier ( UM ) -Institut de Recherche pour le Développement ( IRD [France-Sud] ) -Institut national d’études supérieures agronomiques de Montpellier ( Montpellier SupAgro ), Abeilles et Environnement ( AE ), and Institut National de la Recherche Agronomique ( INRA ) -Université d'Avignon et des Pays de Vaucluse ( UAPV )
- Subjects
VDP::Mathematics and natural science: 400::Zoology and botany: 480::Ecology: 488 ,Biodiversité et Ecologie ,data sharing ,habitat ,Biológiai tudományok ,Q1 ,BIRD SPECIES RICHNESS ,TROPICAL DRY FOREST ,VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Økologi: 488 ,MEXICAN COFFEE PLANTATIONS ,Természettudományok ,Data and Information ,Milieux et Changements globaux ,LOWLAND ,ComputingMilieux_MISCELLANEOUS ,Original Research ,Ecology ,global biodiversity modeling ,global change ,habitat destruction ,land use ,Ecology, Evolution, Behavior and Systematics ,Nature and Landscape Conservation ,LAND-USE CHANGE ,[ SDE.MCG ] Environmental Sciences/Global Changes ,Chemistry ,Earth and Related Environmental Sciences ,Evolution ,[SDE.MCG]Environmental Sciences/Global Changes ,INTENSIVELY MANAGED FARMLAND ,Ingénierie de l'environnement ,CARABID BEETLE ASSEMBLAGES ,FRUIT-FEEDING BUTTERFLIES ,Ecology and Environment ,Biodiversity and Ecology ,keywords: data sharing ,Behavior and Systematics ,Biology ,Ekologi ,[ SDE.BE ] Environmental Sciences/Biodiversity and Ecology ,QL ,DIPTEROCARP FOREST ,QH ,PLANT COMMUNITY COMPOSITION ,Geovetenskap och miljövetenskap ,Biology and Life Sciences ,destruction ,Ecology, Evolution, Behavior and Systematic ,URBAN-RURAL GRADIENT ,Earth and Environmental Sciences ,Environnement et Société ,[SDE.BE]Environmental Sciences/Biodiversity and Ecology - Abstract
Source at https://doi.org/10.1002/ece3.2579. The PREDICTS project—Projecting Responses of Ecological Diversity In Changing Terrestrial Systems (www.predicts.org.uk)—has collated from published studies a large, reasonably representative database of comparable samples of biodiversity from multiple sites that differ in the nature or intensity of human impacts relating to land use. We have used this evidence base to develop global and regional statistical models of how local biodiversity responds to these measures. We describe and make freely available this 2016 release of the database, containing more than 3.2 million records sampled at over 26,000 locations and representing over 47,000 species. We outline how the database can help in answering a range of questions in ecology and conservation biology. To our knowledge, this is the largest and most geographically and taxonomically representative database of spatial comparisons of biodiversity that has been collated to date; it will be useful to researchers and international efforts wishing to model and understand the global status of biodiversity.
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- 2017
40. The database of the PREDICTS (Projecting Responses of Ecological Diversity In Changing Terrestrial Systems) project
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Hudson, L., Newbold, T., Contu, S., Hill, S., Lysenko, I., De Palma, A., Phillips, H., Alhusseini, T., Bedford, F., Bennett, D., Booth, H., Burton, V., Chng, C., Choimes, A., Correia, D., Day, J., Echeverria-Londono, S., Emerson, S., Gao, D., Garon, M., Harrison, M., Ingram, D., Jung, M., Kemp, V., Kirkpatrick, L., Martin, C., Pan, Y., Pask-Hale, G., Pynegar, E., Robinson, A., Sanchez-Ortiz, K., Senior, R., Simmons, B., White, H., Zhang, H., Aben, J., Abrahamczyk, S., Adum, G., Aguilar-Barquero, V., Aizen, M., Albertos, B., Alcala, E., del Mar Alguacil, M., Alignier, A., Ancrenaz, M., Andersen, A., Arbelaez-Cortes, E., Armbrecht, I., Arroyo-Rodriguez, V., Aumann, T., Axmacher, J., Azhar, B., Azpiroz, A., Baeten, L., Bakayoko, A., Baldi, A., Banks, J., Baral, S., Barlow, J., Barratt, B., Barrico, L., Bartolommei, P., Barton, D., Basset, Y., Batary, P., Bates, A., Baur, B., Bayne, E., Beja, P., Benedick, S., Berg, A., Bernard, H., Berry, N., Bhatt, D., Bicknell, J., Bihn, J., Blake, R., Bobo, K., Bocon, R., Boekhout, T., Bohning-Gaese, K., Bonham, K., Borges, P., Borges, S., Boutin, C., Bouyer, J., Bragagnolo, C., Brandt, J., Brearley, F., Brito, I., Bros, V., Brunet, J., Buczkowski, G., Buddle, C., Bugter, R., Buscardo, E., Buse, J., Cabra-Garcia, J., Caceres, N., Cagle, N., Calvino-Cancela, M., Cameron, S., Cancello, E., Caparros, R., Cardoso, P., Carpenter, D., Carrijo, T., Carvalho, A., Cassano, C., Castro, H., Castro-Luna, A., Cerda, R., Cerezo, A., Chapman, K., Chauvat, M., Christensen, M., Clarke, F., Cleary, D., Colombo, G., Connop, S., Craig, M., Cruz-Lopez, L., Cunningham, S., D'Aniello, B., D'Cruze, N., da Silva, P., Dallimer, M., Danquah, E., Darvill, B., Dauber, J., Davis, A., Dawson, J., de Sassi, C., de Thoisy, B., Deheuvels, O., Dejean, A., Devineau, J., Diekoetter, T., Dolia, J., Dominguez, E., Dominguez-Haydar, Y., Dorn, S., Draper, I., Dreber, N., Dumont, B., Dures, S., Dynesius, M., Edenius, L., Eggleton, P., Eigenbrod, F., Elek, Z., Entling, M., Esler, K., De Lima, R., Faruk, A., Farwig, N., Fayle, T., Felicioli, A., Felton, A., Fensham, R., Fernandez, I., Ferreira, C., Ficetola, G., Fiera, C., Filgueiras, B., Firincioglu, H., Flaspohler, D., Floren, A., Fonte, S., Fournier, A., Fowler, R., Franzen, M., Fraser, L., Fredriksson, G., Freire-, G., Frizzo, T., Fukuda, D., Furlani, D., Gaigher, R., Ganzhorn, J., Garcia, K., Garcia-R, J., Garden, J., Garilleti, R., Ge, B., Gendreau-Berthiaume, B., Gerard, P., Gheler-Costa, C., Gilbert, B., Giordani, P., Giordano, S., Golodets, C., Gomes, L., Gould, R., Goulson, D., Gove, Aaron, Granjon, L., Grass, I., Gray, C., Grogan, J., Gu, W., Guardiola, M., Gunawardene, Nihara, Gutierrez, A., Gutierrez-Lamus, D., Haarmeyer, D., Hanley, M., Hanson, T., Hashim, N., Hassan, S., Hatfield, R., Hawes, J., Hayward, M., Hebert, C., Helden, A., Henden, J., Henschel, P., Hernandez, L., Herrera, J., Herrmann, F., Herzog, F., Higuera-Diaz, D., Hilje, B., Hofer, H., Hoffmann, A., Horgan, F., Hornung, E., Horvath, R., Hylander, K., Isaacs-Cubides, P., Ishida, H., Ishitani, M., Jacobs, C., Jaramillo, V., Jauker, B., Jimenez Hernandez, F., Johnson, M., Jolli, V., Jonsell, M., Juliani, S., Jung, T., Kapoor, V., Kappes, H., Kati, V., Katovai, E., Kellner, K., Kessler, M., Kirby, K., Kittle, A., Knight, M., Knop, E., Kohler, F., Koivula, M., Kolb, A., Kone, M., Koroesi, A., Krauss, J., Kumar, A., Kumar, R., Kurz, D., Kutt, A., Lachat, T., Lantschner, V., Lara, F., Lasky, J., Latta, S., Laurance, W., Lavelle, P., Le Feon, V., LeBuhn, G., Legare, J., Lehouck, V., Lencinas, M., Lentini, P., Letcher, S., Li, Q., Litchwark, S., Littlewood, N., Liu, Y., Lo-Man-Hung, N., Lopez-Quintero, C., Louhaichi, M., Lovei, G., Lucas-Borja, M., Luja, V., Luskin, M., MacSwiney G, M., Maeto, K., Magura, T., Mallari, N., Malone, L., Malonza, P., Malumbres-Olarte, J., Mandujano, S., Maren, I., Marin-Spiotta, E., Marsh, C., Marshall, E., Martinez, E., Pastur, G., Mateos, D., Mayfield, M., Mazimpaka, V., McCarthy, J., McCarthy, K., McFrederick, Q., McNamara, S., Medina, N., Medina, R., Mena, J., Mico, E., Mikusinski, G., Milder, J., Miller, J., Miranda-Esquivel, D., Moir, M., Morales, C., Muchane, M., Mudri-Stojnic, S., Munira, A., Muonz-Alonso, A., Munyekenye, B., Naidoo, R., Naithani, A., Nakagawa, M., Nakamura, A., Nakashima, Y., Naoe, S., Nates-Parra, G., Gutierrez, D., Navarro-Iriarte, L., Ndang'ang'a, P., Neuschulz, E., Ngai, J., Nicolas, V., Nilsson, S., Noreika, N., Norfolk, O., Noriega, J., Norton, D., Noeske, N., Nowakowski, A., Numa, C., O'Dea, N., O'Farrell, P., Oduro, W., Oertli, S., Ofori-Boateng, C., Oke, C., Oostra, V., Osgathorpe, L., Eduardo Otavo, S., Page, N., Paritsis, J., Parra-H, A., Parry, L., Pe'er, G., Pearman, P., Pelegrin, N., Pelissier, R., Peres, C., Peri, P., Persson, A., Petanidou, T., Peters, M., Pethiyagoda, R., Phalan, B., Philips, T., Pillsbury, F., Pincheira-Ulbrich, J., Pineda, E., Pino, J., Pizarro-Araya, J., Plumptre, A., Poggio, S., Politi, N., Pons, P., Poveda, K., Power, E., Presley, S., Proenca, V., Quaranta, M., Quintero, C., Rader, R., Ramesh, B., Ramirez-Pinilla, M., Ranganathan, J., Rasmussen, C., Redpath-Downing, N., Reid, J., Reis, Y., Rey Benayas, J., Carlos Rey-Velasco, J., Reynolds, C., Ribeiro, D., Richards, M., Richardson, B., Richardson, M., Macip Rios, R., Robinson, R., Robles, C., Roembke, J., Romero-Duque, L., Ros, M., Rosselli, L., Rossiter, S., Roth, D., Roulston, T., Rousseau, L., Rubio, A., Ruel, J., Sadler, J., Safian, S., Saldana-Vazquez, R., Sam, K., Samnegard, U., Santana, J., Santos, X., Savage, J., Schellhorn, N., Schilthuizen, M., Schmiedel, U., Schmitt, C., Schon, N., Schuepp, C., Schumann, K., Schweiger, O., Scott, D., Scott, K., Sedlock, J., Seefeldt, S., Shahabuddin, G., Shannon, G., Sheil, D., Sheldon, F., Shochat, E., Siebert, S., Silva, F., Simonetti, J., Slade, E., Smith, J., Smith-Pardo, A., Sodhi, N., Somarriba, E., Sosa, R., Soto Quiroga, G., St-Laurent, M., Starzomski, B., Stefanescu, C., Steffan-Dewenter, I., Stouffer, P., Stout, J., Strauch, A., Struebig, M., Su, Z., Suarez-Rubio, M., Sugiura, S., Summerville, K., Sung, Y., Sutrisno, H., Svenning, J., Teder, T., Threlfall, C., Tiitsaar, A., Todd, J., Tonietto, R., Torre, I., Tothmeresz, B., Tscharntke, T., Turner, E., Tylianakis, J., Uehara-Prado, M., Urbina-Cardona, N., Vallan, D., Vanbergen, A., Vasconcelos, H., Vassilev, K., Verboven, H., Verdasca, M., Verdu, J., Vergara, C., Vergara, P., Verhulst, J., Virgilio, M., Van Vu, L., Waite, E., Walker, T., Wang, H., Wang, Y., Watling, J., Weller, B., Wells, K., Westphal, C., Wiafe, E., Williams, C., Willig, M., Woinarski, J., Wolf, J., Wolters, V., Woodcock, B., Wu, J., Wunderle, J., Yamaura, Y., Yoshikura, S., Yu, D., Zaitsev, A., Zeidler, J., Zou, F., Collen, B., Ewers, R., Mace, G., Purves, D., Scharlemann, J., Purvis, A., Hudson, L., Newbold, T., Contu, S., Hill, S., Lysenko, I., De Palma, A., Phillips, H., Alhusseini, T., Bedford, F., Bennett, D., Booth, H., Burton, V., Chng, C., Choimes, A., Correia, D., Day, J., Echeverria-Londono, S., Emerson, S., Gao, D., Garon, M., Harrison, M., Ingram, D., Jung, M., Kemp, V., Kirkpatrick, L., Martin, C., Pan, Y., Pask-Hale, G., Pynegar, E., Robinson, A., Sanchez-Ortiz, K., Senior, R., Simmons, B., White, H., Zhang, H., Aben, J., Abrahamczyk, S., Adum, G., Aguilar-Barquero, V., Aizen, M., Albertos, B., Alcala, E., del Mar Alguacil, M., Alignier, A., Ancrenaz, M., Andersen, A., Arbelaez-Cortes, E., Armbrecht, I., Arroyo-Rodriguez, V., Aumann, T., Axmacher, J., Azhar, B., Azpiroz, A., Baeten, L., Bakayoko, A., Baldi, A., Banks, J., Baral, S., Barlow, J., Barratt, B., Barrico, L., Bartolommei, P., Barton, D., Basset, Y., Batary, P., Bates, A., Baur, B., Bayne, E., Beja, P., Benedick, S., Berg, A., Bernard, H., Berry, N., Bhatt, D., Bicknell, J., Bihn, J., Blake, R., Bobo, K., Bocon, R., Boekhout, T., Bohning-Gaese, K., Bonham, K., Borges, P., Borges, S., Boutin, C., Bouyer, J., Bragagnolo, C., Brandt, J., Brearley, F., Brito, I., Bros, V., Brunet, J., Buczkowski, G., Buddle, C., Bugter, R., Buscardo, E., Buse, J., Cabra-Garcia, J., Caceres, N., Cagle, N., Calvino-Cancela, M., Cameron, S., Cancello, E., Caparros, R., Cardoso, P., Carpenter, D., Carrijo, T., Carvalho, A., Cassano, C., Castro, H., Castro-Luna, A., Cerda, R., Cerezo, A., Chapman, K., Chauvat, M., Christensen, M., Clarke, F., Cleary, D., Colombo, G., Connop, S., Craig, M., Cruz-Lopez, L., Cunningham, S., D'Aniello, B., D'Cruze, N., da Silva, P., Dallimer, M., Danquah, E., Darvill, B., Dauber, J., Davis, A., Dawson, J., de Sassi, C., de Thoisy, B., Deheuvels, O., Dejean, A., Devineau, J., Diekoetter, T., Dolia, J., Dominguez, E., Dominguez-Haydar, Y., Dorn, S., Draper, I., Dreber, N., Dumont, B., Dures, S., Dynesius, M., Edenius, L., Eggleton, P., Eigenbrod, F., Elek, Z., Entling, M., Esler, K., De Lima, R., Faruk, A., Farwig, N., Fayle, T., Felicioli, A., Felton, A., Fensham, R., Fernandez, I., Ferreira, C., Ficetola, G., Fiera, C., Filgueiras, B., Firincioglu, H., Flaspohler, D., Floren, A., Fonte, S., Fournier, A., Fowler, R., Franzen, M., Fraser, L., Fredriksson, G., Freire-, G., Frizzo, T., Fukuda, D., Furlani, D., Gaigher, R., Ganzhorn, J., Garcia, K., Garcia-R, J., Garden, J., Garilleti, R., Ge, B., Gendreau-Berthiaume, B., Gerard, P., Gheler-Costa, C., Gilbert, B., Giordani, P., Giordano, S., Golodets, C., Gomes, L., Gould, R., Goulson, D., Gove, Aaron, Granjon, L., Grass, I., Gray, C., Grogan, J., Gu, W., Guardiola, M., Gunawardene, Nihara, Gutierrez, A., Gutierrez-Lamus, D., Haarmeyer, D., Hanley, M., Hanson, T., Hashim, N., Hassan, S., Hatfield, R., Hawes, J., Hayward, M., Hebert, C., Helden, A., Henden, J., Henschel, P., Hernandez, L., Herrera, J., Herrmann, F., Herzog, F., Higuera-Diaz, D., Hilje, B., Hofer, H., Hoffmann, A., Horgan, F., Hornung, E., Horvath, R., Hylander, K., Isaacs-Cubides, P., Ishida, H., Ishitani, M., Jacobs, C., Jaramillo, V., Jauker, B., Jimenez Hernandez, F., Johnson, M., Jolli, V., Jonsell, M., Juliani, S., Jung, T., Kapoor, V., Kappes, H., Kati, V., Katovai, E., Kellner, K., Kessler, M., Kirby, K., Kittle, A., Knight, M., Knop, E., Kohler, F., Koivula, M., Kolb, A., Kone, M., Koroesi, A., Krauss, J., Kumar, A., Kumar, R., Kurz, D., Kutt, A., Lachat, T., Lantschner, V., Lara, F., Lasky, J., Latta, S., Laurance, W., Lavelle, P., Le Feon, V., LeBuhn, G., Legare, J., Lehouck, V., Lencinas, M., Lentini, P., Letcher, S., Li, Q., Litchwark, S., Littlewood, N., Liu, Y., Lo-Man-Hung, N., Lopez-Quintero, C., Louhaichi, M., Lovei, G., Lucas-Borja, M., Luja, V., Luskin, M., MacSwiney G, M., Maeto, K., Magura, T., Mallari, N., Malone, L., Malonza, P., Malumbres-Olarte, J., Mandujano, S., Maren, I., Marin-Spiotta, E., Marsh, C., Marshall, E., Martinez, E., Pastur, G., Mateos, D., Mayfield, M., Mazimpaka, V., McCarthy, J., McCarthy, K., McFrederick, Q., McNamara, S., Medina, N., Medina, R., Mena, J., Mico, E., Mikusinski, G., Milder, J., Miller, J., Miranda-Esquivel, D., Moir, M., Morales, C., Muchane, M., Mudri-Stojnic, S., Munira, A., Muonz-Alonso, A., Munyekenye, B., Naidoo, R., Naithani, A., Nakagawa, M., Nakamura, A., Nakashima, Y., Naoe, S., Nates-Parra, G., Gutierrez, D., Navarro-Iriarte, L., Ndang'ang'a, P., Neuschulz, E., Ngai, J., Nicolas, V., Nilsson, S., Noreika, N., Norfolk, O., Noriega, J., Norton, D., Noeske, N., Nowakowski, A., Numa, C., O'Dea, N., O'Farrell, P., Oduro, W., Oertli, S., Ofori-Boateng, C., Oke, C., Oostra, V., Osgathorpe, L., Eduardo Otavo, S., Page, N., Paritsis, J., Parra-H, A., Parry, L., Pe'er, G., Pearman, P., Pelegrin, N., Pelissier, R., Peres, C., Peri, P., Persson, A., Petanidou, T., Peters, M., Pethiyagoda, R., Phalan, B., Philips, T., Pillsbury, F., Pincheira-Ulbrich, J., Pineda, E., Pino, J., Pizarro-Araya, J., Plumptre, A., Poggio, S., Politi, N., Pons, P., Poveda, K., Power, E., Presley, S., Proenca, V., Quaranta, M., Quintero, C., Rader, R., Ramesh, B., Ramirez-Pinilla, M., Ranganathan, J., Rasmussen, C., Redpath-Downing, N., Reid, J., Reis, Y., Rey Benayas, J., Carlos Rey-Velasco, J., Reynolds, C., Ribeiro, D., Richards, M., Richardson, B., Richardson, M., Macip Rios, R., Robinson, R., Robles, C., Roembke, J., Romero-Duque, L., Ros, M., Rosselli, L., Rossiter, S., Roth, D., Roulston, T., Rousseau, L., Rubio, A., Ruel, J., Sadler, J., Safian, S., Saldana-Vazquez, R., Sam, K., Samnegard, U., Santana, J., Santos, X., Savage, J., Schellhorn, N., Schilthuizen, M., Schmiedel, U., Schmitt, C., Schon, N., Schuepp, C., Schumann, K., Schweiger, O., Scott, D., Scott, K., Sedlock, J., Seefeldt, S., Shahabuddin, G., Shannon, G., Sheil, D., Sheldon, F., Shochat, E., Siebert, S., Silva, F., Simonetti, J., Slade, E., Smith, J., Smith-Pardo, A., Sodhi, N., Somarriba, E., Sosa, R., Soto Quiroga, G., St-Laurent, M., Starzomski, B., Stefanescu, C., Steffan-Dewenter, I., Stouffer, P., Stout, J., Strauch, A., Struebig, M., Su, Z., Suarez-Rubio, M., Sugiura, S., Summerville, K., Sung, Y., Sutrisno, H., Svenning, J., Teder, T., Threlfall, C., Tiitsaar, A., Todd, J., Tonietto, R., Torre, I., Tothmeresz, B., Tscharntke, T., Turner, E., Tylianakis, J., Uehara-Prado, M., Urbina-Cardona, N., Vallan, D., Vanbergen, A., Vasconcelos, H., Vassilev, K., Verboven, H., Verdasca, M., Verdu, J., Vergara, C., Vergara, P., Verhulst, J., Virgilio, M., Van Vu, L., Waite, E., Walker, T., Wang, H., Wang, Y., Watling, J., Weller, B., Wells, K., Westphal, C., Wiafe, E., Williams, C., Willig, M., Woinarski, J., Wolf, J., Wolters, V., Woodcock, B., Wu, J., Wunderle, J., Yamaura, Y., Yoshikura, S., Yu, D., Zaitsev, A., Zeidler, J., Zou, F., Collen, B., Ewers, R., Mace, G., Purves, D., Scharlemann, J., and Purvis, A.
- Abstract
The PREDICTS project—Projecting Responses of Ecological Diversity In Changing Terrestrial Systems (www.predicts.org.uk)—has collated from published studies a large, reasonably representative database of comparable samples of biodiversity from multiple sites that differ in the nature or intensity of human impacts relating to land use. We have used this evidence base to develop global and regional statistical models of how local biodiversity responds to these measures. We describe and make freely available this 2016 release of the database, containing more than 3.2 million records sampled at over 26,000 locations and representing over 47,000 species. We outline how the database can help in answering a range of questions in ecology and conservation biology. To our knowledge, this is the largest and most geographically and taxonomically representative database of spatial comparisons of biodiversity that has been collated to date; it will be useful to researchers and international efforts wishing to model and understand the global status of biodiversity.
- Published
- 2017
41. Ornamental plants on sale to the public are a significant source of pesticide residues with implications for the health of pollinating insects
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Lentola, A., primary, David, A., additional, Abdul-Sada, A., additional, Tapparo, A., additional, Goulson, D., additional, and Hill, E.M., additional
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- 2017
- Full Text
- View/download PDF
42. Causes of colony mortality in bumblebees
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Goulson, D., primary, O'Connor, S., additional, and Park, K. J., additional
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- 2017
- Full Text
- View/download PDF
43. The combined effects of a monotonous diet and exposure to thiamethoxam on the performance of bumblebee micro-colonies
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Dance, C., primary, Botías, C., additional, and Goulson, D., additional
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- 2017
- Full Text
- View/download PDF
44. First indication of acetylcholine-based communication in honeybee haemocytes and its modulation by a neonicotinoid insecticide
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Pamminger, T., primary, Basley, K., additional, Goulson, D, additional, and Hughes, WOH, additional
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- 2017
- Full Text
- View/download PDF
45. Experimental evidence of the benefit of wild flower strips to crop pollination
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Feltham, H, Park, K, Minderman, J, and Goulson, D
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QL ,fungi ,QK ,food and beverages ,QK0900 - Abstract
Wild bees provide a free and potentially diverse ecosystem service to farmers growing pollinator dependent crops. Whilst many crops benefit from insect pollination, soft fruit crops, including strawberries are commonly dependent on this ecosystem service to produce viable fruit. However, as a result of intensive farming practices and declining pollinator populations, farmers are increasingly turning to commercially reared bees to ensure that crops are adequately pollinated throughout the season. Wildflower strips are a commonly used measure aimed at the conservation of wild pollinators. It has been suggested that commercial crops may also benefit from the presence of sown wild flowers however, the efficacy and economic benefits of sowing flower strips for crops has been little investigated. Here we test whether wildflower strips increase the number of visits to adjacent commercial strawberry crops by wild pollinators. This was quantified by experimentally sowing wildflower strips approximately 20 meters away from the crop and recording the number of pollinator visits to crops with, and without, flower strips. Between June and August 2013 we walked 292 crop transects at six farms in Scotland, recording a total of 3,102 pollinators. On average, the frequency of pollinator visits was 25% higher for crops with adjacent flower strips compared to those without, with bumblebees (Bombus spp.) accounting for 62% of all pollinators observed. This effect was independent of other (potentially important) confounding effects, such as the number of flowers on the crop, date and temperature. Whilst commercial bees may still be required early in the season, this study provides evidence that soft fruit farmers can increase the number of pollinators that visit their crops by sowing inexpensive flower seed mixes nearby. The cost of planting these strips was substantially lower than the annual cost of purchasing commercial bumblebees, with the added advantage that this management option has the potential to increase and sustain pollinator populations over time.
- Published
- 2015
46. Systemic insecticides (neonicotinoids and fipronil): trends, uses, mode of action and metabolites: Environmental Science and Pollution Research
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Simon-Delso, N., Amaral-Rogers, V., Belzunces, L.P., Bonmatin, J.M., Chagnon, M., Downs, C., Furlan, L., Gibbons, D.W., Giorio, C., Girolami, V., Goulson, D., Kreutzweiser, D.P., Krupke, C.H., Liess, M., Long, E., McField, M., Mineau, P., Mitchell, E.A.D., Morrissey, C.A., Noome, D.A., Pisa, L., Settele, J., Stark, J.D., Tapparo, A., Van Dyck, H., Van Praagh, J., Van der Sluijs, J.P., Whitehorn, P.R., Wiemers, M., and Environmental Sciences
- Subjects
Systemic insecticides ,Metabolites ,Neonicotinoid ,Agriculture ,Fipronil ,Trends ,Mechanism of action ,Seed treatment - Abstract
Since their discovery in the late 1980s, neonicotinoid pesticides have become the most widely used class of insecticides worldwide, with large-scale applications ranging from plant protection (crops, vegetables, fruits), veterinary products, and biocides to invertebrate pest control in fish farming. In this review, we address the phenyl-pyrazole fipronil together with neonicotinoids because of similarities in their toxicity, physicochemical profiles, and presence in the environment. Neonicotinoids and fipronil currently account for approximately one third of the world insecticide market; the annual world production of the archetype neonicotinoid, imidacloprid, was estimated to be ca. 20,000 tonnes active substance in 2010. There were several reasons for the initial success of neonicotinoids and fipronil: (1) there was no known pesticide resistance in target pests, mainly because of their recent development, (2) their physicochemical properties included many advantages over previous generations of insecticides (i.e., organophosphates, carbamates, pyrethroids, etc.), and (3) they shared an assumed reduced operator and consumer risk. Due to their systemic nature, they are taken up by the roots or leaves and translocated to all parts of the plant, which, in turn, makes them effectively toxic to herbivorous insects. The toxicity persists for a variable period of time— depending on the plant, its growth stage, and the amount of pesticide applied. Awide variety of applications are available, including the most common prophylactic non-Good Agricultural Practices (GAP) application by seed coating. As a result of their extensive use and physicochemical properties, these substances can be found in all environmental compartments including soil, water, and air. Neonicotinoids and fipronil operate by disrupting neural transmission in the central nervous system of invertebrates. Neonicotinoids mimic the action of neurotransmitters, while fipronil inhibits neuronal receptors. In doing so, they continuously stimulate neurons leading ultimately to death of target invertebrates. Like virtually all insecticides, they can also have lethal and sublethal impacts on non-target organisms, including insect predators and vertebrates. Furthermore, a range of synergistic effects with other stressors have been documented. Here, we review extensively their metabolic pathways, showing how they form both compound-specific and common metabolites which can themselves be toxic. These may result in prolonged toxicity. Considering their wide commercial expansion, mode of action, the systemic properties in plants, persistence and environmental fate, coupled with limited information about the toxicity profiles of these compounds and their metabolites, neonicotinoids and fipronil may entail significant risks to the environment. A global evaluation of the potential collateral effects of their use is therefore timely. The present paper and subsequent chapters in this review of the global literature explore these risks and show a growing body of evidence that persistent, low concentrations of these insecticides pose serious risks of undesirable environmental impacts.
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- 2015
47. Environmental fate and exposure; neonicotinoids and fipronil
- Author
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Bonmatin, J.-M., Giorio, C., Girolami, V., Goulson, D., Kreutzweiser, D. P., Krupke, C., Liess, M., Long, E., Marzaro, M., Mitchell, E. A. D., Noome, D. A., Simon-Delso, N., Tapparo, A., Centre de biophysique moléculaire (CBM), Université d'Orléans (UO)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC), Department of Chemistry [Cambridge, UK], University of Cambridge [UK] (CAM), Dipartimento di Agronomia Animali Alimenti Risorse Naturali e Ambiente, Universita degli Studi di Padova, School of Life Sciences, University of Sussex, Canadian Forest Service - CFS (CANADA), Purdue University [West Lafayette], Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), Laboratory of Soil Biology, Université de Neuchâtel (UNINE), Environmental Sciences [Utrecht], Copernicus Institute for Sustainable Development, Utrecht University [Utrecht]-Utrecht University [Utrecht], and Dipartimento di Scienze Chimiche [Padova]
- Subjects
fungi ,food and beverages ,Water ,Dust ,Plant ,Invertebrates ,Nontarget ,Soil ,Vertebrates ,[SDE]Environmental Sciences ,Guttation ,Neonicotinoid ,Pollen ,Fipronil ,Bee - Abstract
International audience; c insecticides are applied to plants using a wide variety of methods, ranging from foliar sprays to seed treatments and soil drenches. Neonicotinoids and fipronil are among the most widely used pesticides in the world. Their popularity is largely due to their high toxicity to invertebrates, the ease and flexibility with which they can be applied, their long persistence, and their systemic nature, which ensures that they spread to all parts of the target crop. However, these properties also increase the probability of environmental contamination and exposure of nontarget organisms. Environmental contamination occurs via a number of routes including dust generated during drilling of dressed seeds, contamination and accumulation in arable soils and soil water, runoff into waterways, and uptake of pesticides by nontarget plants via their roots or dust deposition on leaves. Persistence in soils, waterways, and nontarget plants is variable but can be prolonged; for example, the half-lives of neonicotinoids in soils can exceed 1,000 days, so they can accumulate when used repeatedly. Similarly, they can persist in woody plants for periods exceeding 1 year. Breakdown results in toxic metabolites, though concentrations of these in the environment are rarely measured. Overall, there is strong evidence that soils, waterways, and plants in agricultural environments and neighboring areas are contaminated with variable levels of neonicotinoids or fipronil mixtures and their metabolites (soil, parts per billion (ppb)-parts per million (ppm) range; water, parts per trillion (ppt)-ppb range; and plants, ppb-ppm range). This provides multiple routes for chronic (and acute in some cases) exposure of nontarget animals. For example, pollinators are exposed through direct contact with dust during drilling; consumption of pollen, nectar, or guttation drops from seed-treated crops, water, and consumption of contaminated pollen and nectar from wild flowers and trees growing near-treated crops. Studies of food stores in honeybee colonies from across the globe demonstrate that colonies are routinely and chronically exposed to neonicotinoids, fipronil, and their metabolites (generally in the 1-100 ppb range), mixed with other pesticides some of which are known to act synergistically with neonicotinoids. Other nontarget organisms, particularly those inhabiting soils, aquatic habitats, or herbivorous insects feeding on noncrop plants in farmland, will also inevitably receive exposure, although data are generally lacking for these groups. We summarize the current state of knowledge regarding the environmental fate of these compounds by outlining what is known about the chemical properties of these compounds, and placing these properties in the context of modern agricultural practices.; Les insecticides systémiques sont appliqués à des plantes en utilisant une grande variété de méthodes allant des
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- 2015
48. Conclusions of the Worldwide Integrated Assessment on the risks of neonicotinoids and fipronil to biodiversity and ecosystem functioning: Environmental Science and Pollution Research
- Author
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van der Sluijs, J.P., Amaral-Rogers, V., Belzunces, L.P., Bijleveld van Lexmond, M.F.I.J., Bonmatin, J-M., Chagnon, M., Downs, C.A., Furlan, L., Gibbons, D.W., Giorio, C., Girolami, V., Goulson, D., Kreutzweiser, D.P., Krupke, C., Liess, M., Long, E., McField, M., Mineau, P., Mitchell, E.A.D., Morrissey, C.A., Noome, D.A., Pisa, L., Settele, J., Simon-Delso, N., Stark, J.D., Tapparo, A., Van Dyck, H., van Praagh, J., Whitehorn, P.R., Wiemers, M., and Environmental Sciences
- Abstract
The side effects of the current global use of pesticides on wildlife, particularly at higher levels of biological organization: populations, communities and ecosystems, are poorly understood (Köhler and Triebskorn 2013). Here, we focus on one of the problematic groups of agrochemicals, the systemic insecticides fipronil and those of the neonicotinoid family. The increasing global reliance on the partly prophylactic use of these persistent and potent neurotoxic systemic insecticides has raised concerns about their impacts on biodiversity, ecosystem functioning and ecosystem services provided by a wide range of affected species and environments. The present scale of use, combinedwith the properties of these compounds, has resulted in widespread contamination of agricultural soils, freshwater resources, wetlands, non-target vegetation and estuarine and coastal marine systems, which means that many organisms inhabiting these habitats are being repeatedly and chronically exposed to effective concentrations of these insecticides.
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- 2015
49. Effects of neonicotinoids and fipronil on non-target invertebrates: Environmental Science and Pollution Research
- Author
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Pisa, L.W., Amaral-Rogers, V., Belzunces, L.P., Bonmatin, J.M., Downs, C.A., Goulson, D., Kreutzweiser, D.P., Krupke, C., Liess, M., McField, M., Morrissey, C.A., Noome, D.A., Settele, J., Simon-Delso, N., Stark, J.D., Van der Sluijs, J.P., Van Dyck, H., Wiemers, M., and Environmental Sciences
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Neonicotinoids ,Non-target species ,Honeybee ,Earthworms ,Freshwater habitat ,Pesticides ,Fipronil ,Marine habitat ,Invertebrates ,Butterflies - Abstract
We assessed the state of knowledge regarding the effects of large-scale pollution with neonicotinoid insecticides and fipronil on non-target invertebrate species of terrestrial, freshwater and marine environments. A large section of the assessment is dedicated to the state of knowledge on sublethal effects on honeybees (Apis mellifera) because this important pollinator is the most studied non-target invertebrate species. Lepidoptera (butterflies and moths), Lumbricidae (earthworms), Apoidae sensu lato (bumblebees, solitary bees) and the section “other invertebrates” review available studies on the other terrestrial species. The sections on freshwater and marine species are rather short as little is known so far about the impact of neonicotinoid insecticides and fipronil on the diverse invertebrate fauna of these widely exposed habitats.
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- 2015
50. Incomplete sexual isolation in sympatry between subspecies of the butterfly Danaus chrysippus (L.) and the creation of a hybrid zone
- Author
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Lushai, G., Smith, D.A.S., Gordon, I. J., Goulson, D., Allen, J. A., and Maclean, N.
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Heredity -- Research ,Heredity -- Genetic aspects ,Reproduction -- Genetic aspects ,Hybridization -- Genetic aspects ,Butterflies -- Genetic aspects ,Heterozygosis -- Genetic aspects ,Haplotypes -- Genetic aspects ,Genotype -- Physiological aspects ,Biological sciences - Abstract
Research has been conducted on well-separated populations of the butterfly Danaus chrysippus. The authors have examined the congruence between the nuclear genotype and haplotype within the species from both allopatric and sympatric ranges in an attempt to gather evidence for sexual isolation of these populations, and they present the results.
- Published
- 2003
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