David Gibbons’s scientific contributions

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Publications (7)


Number of research papers on pollinators and neonicotinoids published since 1998
Time-cumulative toxicity of neonicotinoids in aApis mellifera and b aquatic arthropods. Data sources: a clothianidin (r² = 0.99), Alkassab and Kirchner 2016; imidacloprid (r² = 0.81), Suchail et al. 2001 and Dechaume-Moncharmont et al. 2003; thiamethoxam (r² = 0.90), Oliveira et al. 2013; bCloeon dipterum and thiacloprid (r² = 0.90), van den Brink et al. 2016; Cypridopsis vidua and imidacloprid (r² = 0.88), Sánchez-Bayo 2009; Gammarus kischineffensis and thiamethoxam (r² = 0.95), Uğurlu et al. 2015
of exposure routes and effects of neonicotinoids and fipronil on taxonomic groups. Routes of exposure are depicted by a quarter of circle for air (gray), plants (green), soil (brown), and water (blue). Exposure is scaled with five levels, and colored as variable circular sectors (empty: no route of exposure; small: potential route of exposure assumed neglectible; medium: relevant route of low exposure; large: relevant route of moderate exposure; extra-large: relevant route of high exposure). Ecotoxicological effects are scaled with four levels, according to the number (n) of imbricated red circles (n = 1: potential effects assumed neglectible under normal exposure conditions; n = 2: evidence of effects which can occur at high doses or after chronic exposure; n = 3: evidence of effects which can occur at moderate doses; n = 4: evidence of effects which can occur at low doses or after acute exposure). Probable effects are reported with Ⓟ when no accurate judgment could be made due to incomplete evidence, but for which data suggest a potential effect that can occur at high doses or after chronic exposure. A question mark is reported in situation where no assessment could be made because of lack of evidence (e.g, no data available). Major ecosystem services regulated and supported by these taxonomic groups are listed at the bottom
An update of the Worldwide Integrated Assessment (WIA) on systemic insecticides. Part 2: Impacts on organisms and ecosystems.
  • Literature Review
  • Full-text available

March 2021

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1,572 Reads

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260 Citations

Environmental Science and Pollution Research

Lennard Pisa

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Bonmatin

New information on the lethal and sublethal effects of neonicotinoids and fipronil on organisms is presented in this review, complementing the previous Worldwide Integrated Assessment (WIA) in 2015. The high toxicity of these systemic insecticides to invertebrates has been confirmed and expanded to include more species and compounds. Most of the recent research has focused on bees and the sublethal and ecological impacts these insecticides have on pollinators. Toxic effects on other invertebrate taxa also covered predatory and parasitoid natural enemies and aquatic arthropods. Little new information has been gathered on soil organisms. The impact on marine and coastal ecosystems is still largely uncharted. The chronic lethality of neonicotinoids to insects and crustaceans, and the strengthened evidence that these chemicals also impair the immune system and reproduction, highlights the dangers of this particular insecticidal class (neonicotinoids and fipronil), with the potential to greatly decrease populations of arthropods in both terrestrial and aquatic environments. Sublethal effects on fish, reptiles, frogs, birds, and mammals are also reported, showing a better understanding of the mechanisms of toxicity of these insecticides in vertebrates and their deleterious impacts on growth, reproduction, and neurobehaviour of most of the species tested. This review concludes with a summary of impacts on the ecosystem services and functioning, particularly on pollination, soil biota, and aquatic invertebrate communities, thus reinforcing the previous WIA conclusions (van der Sluijs et al. 2015).

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Call to restrict neonicotinoids

May 2018

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1,149 Reads

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24 Citations

On 28 April 2018 the European Parliament voted for a complete and permanent ban on all outdoor uses of the three most commonly used neonicotinoid pesticides. With the partial exception of the state of Ontario, Canada, governments elsewhere have failed to take action. Below is a letter, signed by 232 scientists from around the world, urgently calling for global action by policy makers to address this issue.


Erratum to: A review of the direct and indirect effects of neonicotinoids and fipronil on vertebrate wildlife

January 2016

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20 Reads

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7 Citations

Environmental Science and Pollution Research

Different microalgae species produce varying quantity and quality of the lipids. Fatty acid methyl ester composition, which comprises both saturated and unsaturated contents, critically affects biodiesel properties. Current study compares six locally isolated microalgae strains belonging to three classes (Trebouxiophyceae, Chlorophyceae, and Cyanophyceae) on the basis of lipid content and biodiesel properties. All the six species are grown in similar condition up to the late stationary phase, and their lipid content and fatty acid methyl ester composition are measured experimentally. Multi-criteria decision analysis (MCDA) tool has ranked Calothrix species (class Cyanophyceae) on the top, owing to better cetane number, density and oxidation stability; whereas Chlorococcum species (class Chlorophyceae) is ranked second because of its higher lipid content, better cold flow property, and low viscosity. Property analysis of these two species is extended in the enlarge temperature range for five properties, vapor pressure, latent heat of vaporization, liquid density, liquid viscosity and vapor diffusivity, which are important in spray and combustion modeling. It is found through detailed property estimation that Chlorococcum sp. is a more suitable species in comparison with Calothrix sp. as it is having better properties and its lipid content is much higher than that of Calothrix sp. Although the properties of microalgae biodiesel are poorer in comparison with conventional diesel fuel, a greater number of such studies will help in understanding the requisite changes as required for microalgae biodiesel–based engine and their properties as compared with conventional diesel.


Conclusions of the Worldwide Integrated Assessment on the risks of neonicotinoids and fipronil to biodiversity and ecosystem functioning

October 2014

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845 Reads

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291 Citations

Environmental Science and Pollution Research

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 (Kohler 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, combined with 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 expose ...


Systemic insecticides (Neonicotinoids and fipronil): Trends, uses, mode of action and metabolites

September 2014

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11,583 Reads

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1,517 Citations

Environmental Science and Pollution Research

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.


Table 2 Other studies of the direct effects of imidacloprid, clothianidin and fipronil on vertebrates 
Table 2 (continued) 
Table 2 (continued) 
Table 3 Indirect effects of imidacloprid and fipronil on vertebrates 
A review of the direct and indirect effects of neonicotinoids and fipronil on vertebrate wildlife

June 2014

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1,675 Reads

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705 Citations

Environmental Science and Pollution Research

Concerns over the role of pesticides affecting vertebrate wildlife populations have recently focussed on systemic products which exert broad-spectrum toxicity. Given that the neonicotinoids have become the fastest-growing class of insecticides globally, we review here 150 studies of their direct (toxic) and indirect (e.g. food chain) effects on vertebrate wildlife-mammals, birds, fish, amphibians and reptiles. We focus on two neonicotinoids, imidacloprid and clothianidin, and a third insecticide, fipronil, which also acts in the same systemic manner. Imidacloprid and fipronil were found to be toxic to many birds and most fish, respectively. All three insecticides exert sub-lethal effects, ranging from genotoxic and cytotoxic effects, and impaired immune function, to reduced growth and reproductive success, often at concentrations well below those associated with mortality. Use of imidacloprid and clothianidin as seed treatments on some crops poses risks to small birds, and ingestion of even a few treated seeds could cause mortality or reproductive impairment to sensitive bird species. In contrast, environmental concentrations of imidacloprid and clothianidin appear to be at levels below those which will cause mortality to freshwater vertebrates, although sub-lethal effects may occur. Some recorded environmental concentrations of fipronil, however, may be sufficiently high to harm fish. Indirect effects are rarely considered in risk assessment processes and there is a paucity of data, despite the potential to exert population-level effects. Our research revealed two field case studies of indirect effects. In one, reductions in invertebrate prey from both imidacloprid and fipronil uses led to impaired growth in a fish species, and in another, reductions in populations in two lizard species were linked to effects of fipronil on termite prey. Evidence presented here suggests that the systemic insecticides, neonicotinoids and fipronil, are capable of exerting direct and indirect effects on terrestrial and aquatic vertebrate wildlife, thus warranting further review of their environmental safety.

Citations (6)


... Recently, the use of pesticide seed treatments has come under scrutiny because the active ingredients in these mixtures, particularly the neonicotinoids, have been linked to negative impacts on populations of some non-target organisms (Hallmann et al., 2014;Pecenka and Lundgren, 2015;Gibbons et al., 2015;Rundlöf et al., 2015), particularly bees (Girolami et al., 2009;Krupke et al., 2012;Goulson, 2013;Godfray et al., 2014;Godfray et al., 2015;Rundlöf et al., 2015;Mogren and Lundgren, 2016). Neonicotinoids from seed treatments have also increasingly been detected in off-target locations, including waterways (Hladik et al., 2014;Gibbons et al., 2015;Rundlöf et al., 2015). ...

Reference:

Evidence for multi-trophic effects of pesticide seed treatments on non-targeted soil fauna
Erratum to: A review of the direct and indirect effects of neonicotinoids and fipronil on vertebrate wildlife

Environmental Science and Pollution Research

... Indeed, despite scientific advice calling for the banning of all neonicotinoids, 70 this study showed that most respondents already experience the effects of the current ban on neonicotinoids and heavily depend on the use of acetamiprid, which is currently the only neonicotinoid freely available in the EU. This may lead to a higher demand for acetamipridcontaining insecticides among plant growers in the coming years. ...

Call to restrict neonicotinoids

... Apart from acute and chronic mortality, low levels of fipronil and neonicotinoids cause a range of sublethal effects in the exposed organisms. A long list of such effects in bees and aquatic organisms has been reported in several reviews on the subject (Desneux et al., 2007;Mamy et al., 2024;Pisa et al., 2015Pisa et al., , 2021, among which the following are noteworthy: loss of memory and disorientation in bees (Decourtye et al., 2009;Siviter and Muth, 2022;Stanley et al., 2015b), impaired olfactory learning in bees (Tan et al., 2017), inefficient pollination of bees and bumblebees (Feltham et al., 2014;Siviter et al., 2021), paralysis in water bugs (Motobayashi et al., 2012), feeding inhibition in mayflies and amphipods (Alexander et al., 2007;Nyman et al., 2013), reduced body size in mayflies and butterflies (Alexander et al., 2008;Whitehorn et al., 2018), frogs (Flach et al., 2023) and fish (Hayasaka et al., 2012), reduced growth in earthworms (van Loon et al., 2022), malformations and endocrine disruption in fish , and immune-suppression in fish (Sánchez-Bayo and Goka, 2005) and bees (Brandt et al., 2017;Di Prisco et al., 2013;Tesovnik et al., 2017). The latter sublethal effect appears to be one of the drivers of the colony collapse disorder (CCD) in managed honey bees (Buczek, 2009), as it fosters parasite infections and unleashes the virulence of bee diseases (Pamminger et al., 2018;Sánchez-Bayo et al., 2016). ...

An update of the Worldwide Integrated Assessment (WIA) on systemic insecticides. Part 2: Impacts on organisms and ecosystems.

Environmental Science and Pollution Research

... Existing approaches currently adopted in plant disease management are overwhelmingly based on chemical applications which have an adverse impact on the environment/human health and are limited by resource availability [1]. In 2009, the European Directive 2009/128/EC invited Member States to restrict the use of pesticides in agriculture because of the significant increase in environmental issues along with the generation of resistant pathogens [2]. In 2020, through the Farm to Fork strategy, the European Commission adopted a series of measures to improve European food systems, making them fairer, healthier, and more eco-friendly. ...

Conclusions of the Worldwide Integrated Assessment on the risks of neonicotinoids and fipronil to biodiversity and ecosystem functioning

Environmental Science and Pollution Research

... Neonicotinoids and phenylpyrazoles are new classes of broadspectrum systemic pesticides (Simon-Delso et al., 2015). Both chemical classes share a similar mode of action and, due to their lower binding efficiencies, have been assumed to have fewer impacts on some non-target groups (Simon-Delso et al., 2015). ...

Systemic insecticides (Neonicotinoids and fipronil): Trends, uses, mode of action and metabolites

Environmental Science and Pollution Research

... These substances induce erythrocytic micronuclei and nuclear abnormalities, and alter muscle and liver architecture in fish (Hong et al. 2018;El-Garawani et al. 2022). At low concentrations, neonicotinoids can cause adverse effects including genotoxic effects, immune system disruption, and impacts on growth, reproductive activity, and various biological functions, highlighting differences in toxicity between invertebrates and vertebrates (Gibbons et al. 2015;Hong et al. 2018). ...

A review of the direct and indirect effects of neonicotinoids and fipronil on vertebrate wildlife

Environmental Science and Pollution Research