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2. A restatement of the natural science evidence base on the effects of endocrine disrupting chemicals on wildlife

Author

Paul Jepson, Susan Jobling, Peter Matthiessen, Godfray Hcj., Angela R. McLean, Stephens Aea., Andrew C. Johnson, John P. Sumpter, and Charles R. Tyler

Subjects
Wildlife, Animals, Wild, Endocrine Disruptors, 010501 environmental sciences, endocrine active chemicals, 01 natural sciences, Ecology and Environment, General Biochemistry, Genetics and Molecular Biology, ecotoxicology, 03 medical and health sciences, Human health, Regulation of chemicals, Animals, Endocrine system, pollution, Environmental planning, wastewater, 030304 developmental biology, 0105 earth and related environmental sciences, General Environmental Science, 0303 health sciences, General Immunology and Microbiology, Ecology, Evidence Synthesis, regulation, Environmental Exposure, General Medicine, Invertebrates, endocrine disrupting chemicals, Potential harm, Vertebrates, Environmental Pollutants, Business, General Agricultural and Biological Sciences
Abstract

© 2019 The Authors. Endocrine disrupting chemicals (EDCs) are substances that alter the function of the endocrine system and consequently cause adverse effects to humans or wildlife. The release of particular EDCs into the environment has been shown to negatively affect certain wildlife populations and has led to restrictions on the use of some EDCs. Current chemical regulations aim to balance the industrial, agricultural and/or pharmaceutical benefits of using these substances with their demonstrated or potential harm to human health or the environment. A summary is provided of the natural science evidence base informing the regulation of chemicals released into the environment that may have endocrine disrupting effects on wildlife. This summary is in a format (a ‘restatement’) intended to be policy-neutral and accessible to informed, but not expert, policy-makers and stakeholders. This study was funded by the Oxford Martin School, Oxford University.

Published
2019

3. Predicting the spatial dynamics of Wolbachia infections in Aedes aegypti arbovirus vector populations in heterogeneous landscapes

Author

Elderd, B, Hancock, PA, Ritchie, SA, Koenraadt, CJM, Scott, TW, Hoffmann, AA, Godfray, HCJ, Elderd, B, Hancock, PA, Ritchie, SA, Koenraadt, CJM, Scott, TW, Hoffmann, AA, and Godfray, HCJ

Abstract

A promising strategy for reducing the transmission of dengue and other arboviral human diseases by Aedes aegypti mosquito vector populations involves field introductions of the endosymbiotic bacteria Wolbachia. Wolbachia infections inhibit viral transmission by the mosquito, and can spread between mosquito hosts to reach high frequencies in the vector population. Wolbachia spreads by maternal transmission, and spread dynamics can be variable and highly dependent on natural mosquito population dynamics, population structure and fitness components. We develop a mathematical model of an A. aegypti metapopulation that incorporates empirically validated relationships describing density‐dependent mosquito fitness components. We assume that density dependent relationships differ across subpopulations, and construct heterogeneous landscapes for which model‐predicted patterns of variation in mosquito abundance and demography approximate those observed in field populations. We then simulate Wolbachia release strategies similar to that used in field trials. We show that our model can produce rates of spatial spread of Wolbachia similar to those observed following field releases. We then investigate how different types of spatio‐temporal variation in mosquito habitat, as well as different fitness costs incurred by Wolbachia on the mosquito host, influence predicted spread rates. We find that fitness costs reduce spread rates more strongly when the habitat landscape varies temporally due to stochastic and seasonal processes. Synthesis and applications: Our empirically based modelling approach represents effects of environmental heterogeneity on the spatial spread of Wolbachia. The models can assist in interpreting observed spread patterns following field releases and in designing suitable release strategies for targeting spatially heterogeneous vector populations.

Published
2019

4. How gene-drive endonucleases can be used to combat pests and disease vectors

Author

Godfray, HCJ, North, A, Burt, A, Grand Challenges in Global Health, and Bill & Melinda Gates Foundation

Subjects
06 Biological Sciences, Developmental Biology
Abstract

Gene-drive endonucleases (GDEs) are genes that can spread through a population through a non-Mendelian mechanism. In a heterozygote they cause a double-strand break in the homologous chromosome opposite to where they are inserted and when the break is repaired using the homologue as a template the GDE heterozygote is converted to a homozygote. Several classes of endonucleases can be engineered to spread in this way, with CRISPR-Cas9 based systems being particularly flexible. There is great interest in using gene-drive endonucleases to impose a genetic load on insects that vector diseases or are economic pests to reduce their population density, or to introduce a beneficial gene such as one that might interrupt disease transmission. This paper reviews the population biology of GDEs, both population genetics and population dynamics. It summarises the theory that guides the design of GDE constructs intended to perform different functions. It also reviews the studies that have explored the likelihood of resistance arising to GDE phenotypes, and how this risk may be reduced. The review is intended for a general audience and mathematical details are kept to a minimum.

Published
2017

5. The dynamics of disease in a metapopulation: The role of dispersal range

Author

North, A and Godfray, HCJ

Abstract

The establishment and spread of a disease within a metapopulation is influenced both by dynamics within each population and by the host and pathogen spatial processes through which they are connected. We develop a spatially explicit metapopulation model to investigate how the form of host and disease dispersal jointly influence the probability of disease establishment and invasion. We show that diseases are more likely to establish if both the host and the disease tend to disperse locally, since the former leads to the spatial aggregation of host populations in the environment while the latter facilitates the pathogen's exploitation of this spatial pattern. In contrast, local pathogen dispersal is likely to reduce the probability of subsequent disease spread because it increases the spatial segregation of infected and uninfected populations. The effects of local dispersal on disease dynamics are less pronounced when the pathogen spreads through the movement of infected hosts and more pronounced when pathogen dispersal is independent (for example through airborne viruses) though the details of host and pathogen biology can be important. These spatial effects tend to be more pronounced if the sites available for host occupation are themselves spatially aggregated.

Published
2017

6. The outcome of competition between two parasitoid species is influenced by a facultative symbiont of their aphid host

Author

Mclean, Ailsa and Godfray, HCJ

Subjects
fungi, food and beverages, biochemical phenomena, metabolism, and nutrition
Abstract

1.Symbiotic bacteria can act to protect their host against natural enemies. Where this protection is asymmetric against different natural enemies protection conferred by symbionts has the potential to mediate interactions between natural enemies, as well as between enemies and the host. 2.In pea aphids (Acyrthosiphon pisum), resistance against parasitoid wasps can be conferred by facultative symbiotic bacteria. We investigated whether the outcome of competition between two parasitoid species can be influenced by the presence of a defensive symbiont in the host. 3.We exposed pea aphids from a single clonal line, with and without a strain of the protective endosymbiont Hamiltonella defensa, to multiparasitism by the parasitoid wasps Aphelinus abdominalis (Aphelinidae) and Aphidius ervi (Braconidae), and recorded the outcome. The symbiont strain is known to impact A. abdominalis more strongly than A. ervi. 4.We found that the presence of a strain of the protective endosymbiont Hamiltonella defensa can reverse the outcome of competition between the wasps. In the absence of the symbiont, A. ervi gains very little success when attacking an aphid previously parasitized by A. abdominalis. However, where the aphids possessed the symbiont, A. abdominalis did not develop successfully, and the success rate of A. ervi was significantly increased. 5.Our results show that defensive facultative symbionts are able to influence community interactions at the trophic level above their host.

Published
2016

9. Quantitative food webs of dipteran leafminers and their parasitoids in Argentina

Author

Valladares, GR, Salvo, A, and Godfray, HCJ

Subjects
fungi
Abstract

The quantitative structure of two host-parasitoid communities based on leaf-mining flies (Diptera, Agromyzidae) in Argentina is described. The two communities consisted of 29 and 27 hosts, 46 and 40 parasitoids, and 193 and 179 recorded host-parasitoid associations. Also, food webs were constructed for one community based solely on samples taken in the wet and dry seasons. Data were expressed as quantitative food webs, and the manner in which food web properties, such as connectance and compartmentalization, were influenced by sampling intensity was explored. The potential importance of indirect effects between hosts mediated by parasitoids (e.g. apparent competition) was assessed using quantitative parasitoid overlap diagrams. The study's results suggest that indirect effects are likely to be important in these highly connected communities. The limitations of the study's analysis, and how the conclusions can be tested experimentally, are discussed.

Published
2016

10. Predicting Wolbachia invasion dynamics in Aedes aegypti populations using models of density-dependent demographic traits

Author

Hancock, PA, White, VL, Ritchie, SA, Hoffmann, AA, Godfray, HCJ, Hancock, PA, White, VL, Ritchie, SA, Hoffmann, AA, and Godfray, HCJ

Abstract

BACKGROUND: Arbovirus transmission by the mosquito Aedes aegypti can be reduced by the introduction and establishment of the endosymbiotic bacteria Wolbachia in wild populations of the vector. Wolbachia spreads by increasing the fitness of its hosts relative to uninfected mosquitoes. However, mosquito fitness is also strongly affected by population size through density-dependent competition for limited food resources. We do not understand how this natural variation in fitness affects symbiont spread, which limits our ability to design successful control strategies. RESULTS: We develop a mathematical model to predict A. aegypti-Wolbachia dynamics that incorporates larval density-dependent variation in important fitness components of infected and uninfected mosquitoes. Our model explains detailed features of the mosquito-Wolbachia dynamics observed in two independent experimental A. aegypti populations, allowing the combined effects on dynamics of multiple density-dependent fitness components to be characterized. We apply our model to investigate Wolbachia field release dynamics, and show how invasion outcomes can depend strongly on the severity of density-dependent competition at the release site. Specifically, the ratio of released relative to wild mosquitoes required to attain a target infection frequency (at the end of a release program) can vary by nearly an order of magnitude. The time taken for Wolbachia to become established following releases can differ by over 2 years. These effects depend on the relative fitness of field and insectary-reared mosquitoes. CONCLUSIONS: Models of Wolbachia invasion incorporating density-dependent demographic variation in the host population explain observed dynamics in experimental A. aegypti populations. These models predict strong effects of density-dependence on Wolbachia dynamics in field populations, and can assist in the effective use of Wolbachia to control the transmission of arboviruses such as dengue, chikungunya and

Published
2016

12. Chapter 10 Evolution of Host Resistance and Parasitoid Counter-Resistance

Author

Kraaijeveld, AR and Godfray, HCJ

Subjects
fungi
Abstract

By their nature, parasitoids will exert a selection pressure on their hosts to evolve a mechanism through which to resist parasitoid attack. In turn, such a resistance mechanism will lead to parasitoids evolving counter-resistance. In this chapter, we present an overview of the research on the (co)evolutionary interaction between Drosophila and their parasitoids, with the main focus on the cellular immune response of D. melanogaster, and the counter-resistance mechanism of one of its main parasitoids, Asobara tabida. A key aspect of this interaction is the existence of genetic variation: in the field, host resistance and parasitoid counter-resistance vary, both between and within populations. Host resistance and parasitoid counter-resistance are costly, and both these costs turn out to be density dependent. These tradeoffs can explain the existence of genetic variation. We briefly touch upon behavioral aspects of the interaction and the parasites and pathogens that the parasitoids themselves suffer from. We end this chapter by considering the data coming from gene chip experiments: early indications suggest that the genes involved in the actual immune response against parasitoids are mostly different from the genes involved in the evolution of resistance. © 2009 Elsevier Ltd. All rights reserved.

Published
2009

13. The identification of 100 ecological questions of high policy relevance in the UK

Author

Sutherland, WJ, Armstrong-Brown, S, Armsworth, PR, Brereton, T, Brickland, J, Campbell, CD, Chamberlain, DE, Cooke, AI, Dulvy, NK, Dusic, NR, Fitton, M, Freckleton, RP, Godfray, HCJ, Grout, N, Harvey, HJ, Hedley, C, Hopkins, JJ, Kift, NB, Kirby, J, Kunin, WE, Macdonald, DW, Marker, B, Naura, M, Neale, AR, Oliver, T, Osborn, D, Pullin, AS, Shardlow, MEA, Showler, DA, Smith, PL, Smithers, RJ, Solandt, JL, Spencer, J, Spray, CJ, Thomas, CD, Thompson, J, Webb, SE, Yalden, DW, and Watkinson, AR

Abstract

1. Evidence-based policy requires researchers to provide the answers to ecological questions that are of interest to policy makers. To find out what those questions are in the UK, representatives from 28 organizations involved in policy, together with scientists from 10 academic institutions, were asked to generate a list of questions from their organizations. 2. During a 2-day workshop the initial list of 1003 questions generated from consulting at least 654 policy makers and academics was used as a basis for generating a short list of 100 questions of significant policy relevance. Short-listing was decided on the basis of the preferences of the representatives from the policy-led organizations. 3. The areas covered included most major issues of environmental concern in the UK, including agriculture, marine fisheries, climate change, ecosystem function and land management. 4. The most striking outcome was the preference for general questions rather than narrow ones. The reason is that policy is driven by broad issues rather than specific ones. In contrast, scientists are frequently best equipped to answer specific questions. This means that it may be necessary to extract the underpinning specific question before researchers can proceed. 5. Synthesis and applications. Greater communication between policy makers and scientists is required in order to ensure that applied ecologists are dealing with issues in a way that can feed into policy. It is particularly important that applied ecologists emphasize the generic value of their work wherever possible. © 2006 The Authors.

Published
2006

14. Potential life-history costs of parasitoid avoidance in Drosophila melanogaster

Author

Kraaijeveld, AR and Godfray, HCJ

Subjects
animal structures, fungi
Abstract

Pupal parasitoids are a common natural enemy of Drosophila. As Drosophila pupae do not have an immunological defence against pupal parasitoids, they have to avoid being attacked. As a first step to identifying the costs of avoidance of parasitism by pupal parasitoids, we explored three traits that potentially influence the probability of D. melanogaster pupae to survive attack by Pachycrepoideus vindemiae. We found that larvae pupating on the food source had a higher probability of avoiding parasitism, but that the distance that larvae pupate away from the food had no effect on survival probability when exposed to pupal parasitoids. We also found no indication that the thickness of the puparial wall influences risk of parasitism. Pupal size, however, was correlated with the probability of surviving parasitoid attack, with smaller pupae having a higher survival probability. If pupal size is indeed the key trait influencing risk of parasitism of D. melanogaster pupae by P. vindemiae, the potential life-history costs of parasitoid avoidance are smaller adult size, leading to lower general fitness.

Published
2003

17. Is there local adaptation in Drosophila-parasitoid interactions?

Author

Kraaijeveld, AR and Godfray, HCJ

Subjects
fungi
Abstract

Local adaptation has received little attention in host-parasitoid associations. Here we combine data on the outcome of parasitism in 20 sympatric populations of Drosophila melanogaster and its parasitoid Asobara tabida. We present data on resistance and virulence when each host is tested against a single allopatric strain of parasitoid, and when each parasitoid is tested against a single allopatric strain of host. We argue that the extent to which these allopatric interactions can be used to predict sympatric interactions sets an upper bound to the importance of local adaptation. In a statistical model, we found that 56% of the variance in the outcome of sympatric interactions could be explained by parasitoid virulence and host resistance measured using the allopatric reference strains, with the former being the much more important of the two. The geographical distance between the provenances of the sympatric and reference parasitoid (but not host) populations was also statistically significant and increased the variance explained to 69%; but against expectation, parasitoid success was negatively correlated with distance. We also explore the factors determining the frequency with which neither host nor parasitoid survive. We conclude that, although the critical tests have yet to be performed, the available evidence points towards local adaptation not being of major importance in this system.

Published
2001

20. Apparent competition between two species of aphid via the fungal pathogen Erynia neoaphidis and its interaction with the aphid parasitoid Aphidius ervi

Author

Pope, T, Croxson, E, Pell, JK, Godfray, HCJ, and Muller, CB

Subjects
food and beverages, biochemical phenomena, metabolism, and nutrition, Entomology
Abstract

1. Motivated by a community study on aphids and their fungal pathogens, three hypotheses were tested experimentally to investigate the influence of the fungal pathogen, Erynia neoaphidis Remaudière and Hennebert, on aphid population and community ecology. 2. Field experiments were performed in 2 years to test whether two susceptible aphid species on different host plants might interact through the shared fungal pathogen. No strong pathogen-mediated indirect interactions (apparent competition) between populations of pea aphid Acyrthosiphon pisum Harris and nettle aphid Microlophium carnosum Buckton were detected. 3. In the first of the field experiments, pea aphids exposed to the fungus showed a weak tendency to produce more winged dispersal morphs than control populations not exposed to the fungus. In a laboratory test, however, no support was found for the hypothesis that the presence of volatiles from fungus-infected cadavers promotes production of winged offspring. 4. The response of the pea aphid parasitoid Aphidius ervi Halliday to colonies containing hosts infected 1 and 3 days previously was assessed. Wasps initiated fewer attacks on 1-day-old infected colonies than on healthy colonies, with the numbers on 3-day-old fungus-infected colonies intermediate.

22. The potential of gene drives in malaria vector species to control malaria in African environments.

Author

Hancock PA, North A, Leach AW, Winskill P, Ghani AC, Godfray HCJ, Burt A, and Mumford JD

Subjects
Animals, Humans, Africa, Western epidemiology, Malaria epidemiology, Malaria transmission, Malaria prevention & control, Mosquito Vectors genetics, Mosquito Vectors parasitology, Gene Drive Technology methods, Mosquito Control methods, Anopheles genetics, Anopheles parasitology
Abstract

Gene drives are a promising means of malaria control with the potential to cause sustained reductions in transmission. In real environments, however, their impacts will depend on local ecological and epidemiological factors. We develop a data-driven model to investigate the impacts of gene drives that causes vector population suppression. We simulate gene drive releases in sixteen ~ 12,000 km 2 areas of west Africa that span variation in vector ecology and malaria prevalence, and estimate reductions in vector abundance, malaria prevalence and clinical cases. Average reductions in vector abundance ranged from 71.6-98.4% across areas, while impacts on malaria depended strongly on which vector species were targeted. When other new interventions including RTS,S vaccination and pyrethroid-PBO bednets were in place, at least 60% more clinical cases were averted when gene drives were added, demonstrating the benefits of integrated interventions. Our results show that different strategies for gene drive implementation may be required across different African settings., (© 2024. The Author(s).)

Published
2024
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23. Opportunities to produce food from substantially less land.

Author

Godfray HCJ, Poore J, and Ritchie H

Subjects
Food Supply, Food Technology methods, Animals, Agriculture methods, Crops, Agricultural
Abstract

The vast majority of the food we eat comes from land-based agriculture, but recent technological advances in agriculture and food technology offer the prospect of producing food using substantially less or even virtually no land. For example, indoor vertical farming can achieve very high yields of certain crops with a very small area footprint, and some foods can be synthesized from inorganic precursors in industrial facilities. Animal-based foods require substantial land per unit of protein or per calorie and switching to alternatives could reduce demand for some types of agricultural land. Plant-based meat substitutes and those produced through fermentation are widely available and becoming more sophisticated while in the future cellular agricultural may become technically and economical viable at scale. We review the state of play of these potentially disruptive technologies and explore how they may interact with other factors, both endogenous and exogenous to the food system, to affect future demand for land., (© 2024. The Author(s).)

Published
2024
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24. A restatement of the natural science evidence base concerning grassland management, grazing livestock and soil carbon storage.

Author

Jordon MW, Buffet JC, Dungait JAJ, Galdos MV, Garnett T, Lee MRF, Lynch J, Röös E, Searchinger TD, Smith P, and Godfray HCJ

Subjects
Animals, Grassland, Livestock, Carbon, Soil, Greenhouse Gases, Natural Science Disciplines
Abstract

Approximately a third of all annual greenhouse gas emissions globally are directly or indirectly associated with the food system, and over a half of these are linked to livestock production. In temperate oceanic regions, such as the UK, most meat and dairy is produced in extensive systems based on pasture. There is much interest in the extent to which such grassland may be able to sequester and store more carbon to partially or completely mitigate other greenhouse gas emissions in the system. However, answering this question is difficult due to context-specificity and a complex and sometimes inconsistent evidence base. This paper describes a project that set out to summarize the natural science evidence base relevant to grassland management, grazing livestock and soil carbon storage potential in as policy-neutral terms as possible. It is based on expert appraisal of a systematically assembled evidence base, followed by a wide stakeholders engagement. A series of evidence statements (in the appendix of this paper) are listed and categorized according to the nature of the underlying information, and an annotated bibliography is provided in the electronic supplementary material.

Published
2024
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25. Positive effects of tree diversity on tropical forest restoration in a field-scale experiment.

Author

Veryard R, Wu J, O'Brien MJ, Anthony R, Both S, Burslem DFRP, Chen B, Fernandez-Miranda Cagigal E, Godfray HCJ, Godoong E, Liang S, Saner P, Schmid B, Sau Wai Y, Xie J, Reynolds G, and Hector A

Subjects
Phylogeny, Rainforest, Asia, Ecosystem, Forests
Abstract

Experiments under controlled conditions have established that ecosystem functioning is generally positively related to levels of biodiversity, but it is unclear how widespread these effects are in real-world settings and whether they can be harnessed for ecosystem restoration. We used remote-sensing data from the first decade of a long-term, field-scale tropical restoration experiment initiated in 2002 to test how the diversity of planted trees affected recovery of a 500-ha area of selectively logged forest measured using multiple sources of satellite data. Replanting using species-rich mixtures of tree seedlings with higher phylogenetic and functional diversity accelerated restoration of remotely sensed estimates of aboveground biomass, canopy cover, and leaf area index. Our results are consistent with a positive relationship between biodiversity and ecosystem functioning in the lowland dipterocarp rainforests of SE Asia and demonstrate that using diverse mixtures of species can enhance their initial recovery after logging.

Published
2023
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26. Sustainable pathways towards climate and biodiversity goals in the UK: the importance of managing land-use synergies and trade-offs.

Author

Smith AC, Harrison PA, Leach NJ, Godfray HCJ, Hall JW, Jones SM, Gall SS, and Obersteiner M

Abstract

Agricultural and environmental policies are being fundamentally reviewed and redesigned in the UK following its exit from the European Union. The UK government and the Devolved Administrations recognise that current land use is not sustainable and that there is now an unprecedented opportunity to define a better land strategy that responds fully to the interconnected challenges of climate change, biodiversity loss and sustainable development. This paper presents evidence from three pathways (current trends, sustainable medium ambition, and sustainable high ambition) to mid-century that were co-created with UK policymakers. The pathways were applied to a national integrated food and land-use model (the FABLE calculator) to explore potential synergies and trade-offs between achieving multiple sustainability targets under limited land availability and constraints to balance food supply and demand at national and global levels. Results show that under the Current Trends pathway all unprotected open natural land would be converted to urban, agriculture and afforested land, with the consequence that from 2030 onwards tree planting targets could not be met. In contrast, the two sustainable pathways illustrate how dietary change, agricultural productivity improvements and waste reduction can free up land for nature recovery and carbon sequestration. This enables a transition to a sustainable food and land-use system that provides a net carbon sink with up to 44% of land able to support biodiversity conservation. We highlight key trade-offs and synergies, which are important to consider for designing and implementing emerging national policies. These include the strong dependence of climate, food and biodiversity targets on dietary shifts, sustainable improvements in agricultural productivity, improved land-use design for protecting and restoring nature, and rapid reductions in food loss and waste., Supplementary Information: The online version contains supplementary material available at 10.1007/s11625-022-01242-8., (© The Author(s) 2022.)

Published
2023
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27. A restatement of the natural science evidence base regarding the source, spread and control of Campylobacter species causing human disease.

Author

Goddard MR, O'Brien S, Williams N, Guitian J, Grant A, Cody A, Colles F, Buffet JC, Adlen E, Stephens A, Godfray HCJ, and Maiden MCJ

Subjects
Animals, Cattle, Humans, Meat microbiology, Prevalence, Sheep, Campylobacter, Campylobacter Infections epidemiology, Campylobacter Infections microbiology, Campylobacter Infections veterinary, Natural Science Disciplines
Abstract

Food poisoning caused by Campylobacter (campylobacteriosis) is the most prevalent bacterial disease associated with the consumption of poultry, beef, lamb and pork meat and unpasteurized dairy products. A variety of livestock industry, food chain and public health interventions have been implemented or proposed to reduce disease prevalence, some of which entail costs for producers and retailers. This paper describes a project that set out to summarize the natural science evidence base relevant to campylobacteriosis control in as policy-neutral terms as possible. A series of evidence statements are listed and categorized according to the nature of the underlying information. The evidence summary forms the appendix to this paper and an annotated bibliography is provided in the electronic supplementary material.

Published
2022
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28. Herbivore-induced plant volatiles, not natural enemies, mediate a positive indirect interaction between insect herbivores.

Author

Frago E, Gols R, Schweiger R, Müller C, Dicke M, and Godfray HCJ

Subjects
Animals, Herbivory, Triticum, Aphids, Fabaceae
Abstract

Many insect herbivores engage in apparent competition whereby two species interact through shared natural enemies. Upon insect attack, plants release volatile blends that attract natural enemies, but whether these volatiles mediate apparent competition between herbivores is not yet known. We investigate the role of volatiles that are emitted by bean plants upon infestation by Acyrthosiphon pisum aphids on the population dynamics and fitness of Sitobion avenae aphids, and on wheat phloem sap metabolites. In a field experiment, the dynamics of S. avenae aphids on wheat were studied by crossing two treatments: exposure of aphid colonies to A. pisum-induced bean volatiles and exclusion of natural enemies. Glasshouse experiments and analyses of primary metabolites in wheat phloem exudates were performed to better understand the results from the field experiment. In the field, bean volatiles did not affect S. avenae dynamics or survival when aphids were exposed to natural enemies. When protected from them, however, volatiles led to larger aphid colonies. In agreement with this observation, in glasshouse experiments, aphid-induced bean volatiles increased the survival of S. avenae aphids on wheat plants, but not on an artificial diet. This suggests that volatiles may benefit S. avenae colonies via metabolic changes in wheat plants, although we did not find any effect on wheat phloem exudate composition. We report a potential case of associational susceptibility whereby plant volatiles weaken the defences of receiving plants, thus leading to increased herbivore performance., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2022
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29. Income, consumer preferences, and the future of livestock-derived food demand.

Author

Komarek AM, Dunston S, Enahoro D, Godfray HCJ, Herrero M, Mason-D'Croz D, Rich KM, Scarborough P, Springmann M, Sulser TB, Wiebe K, and Willenbockel D

Abstract

In recent decades there has been a sustained and substantial shift in human diets across the globe towards including more livestock-derived foods. Continuing debates scrutinize how these dietary shifts affect human health, the natural environment, and livelihoods. However, amidst these debates there remain unanswered questions about how demand for livestock-derived foods may evolve over the upcoming decades for a range of scenarios for key drivers of change including human population, income, and consumer preferences. Future trends in human population and income in our scenarios were sourced from three of the shared socioeconomic pathways. We used scenario-based modeling to show that average protein demand for red meat (beef, sheep, goats, and pork), poultry, dairy milk, and eggs across the globe would increase by 14% per person and 38% in total between the year 2020 and the year 2050 if trends in income and population continue along a mid-range trajectory. The fastest per person rates of increase were 49% in South Asia and 55% in sub-Saharan Africa. We show that per person demand for red meat in high-income countries would decline by 2.8% if income elasticities of demand (a partial proxy for consumer preferences, based on the responsiveness of demand to income changes) in high-income countries decline by 100% by 2050 under a mid-range trajectory for per person income growth, compared to their current trajectory. Prices are an important driver of demand, and our results demonstrate that the result of a decline in red meat demand in high-income countries is strongly related to rising red meat prices, as projected by our scenario-based modeling. If the decline in the income elasticity of demand occurred in all countries rather than only in high-income countries, then per person red meat demand in high-income countries would actually increase in 2050 by 8.9% because the income elasticity-driven decline in global demand reduces prices, and the effect of lower prices outweighs the effect of a decline in the income elasticity of demand. Our results demonstrate the importance of interactions between income, prices, and the income elasticity of demand in projecting future demand for livestock-derived foods. We complement the existing literature on food systems and global change by providing quantitative evidence about the possible space for the future demand of livestock-derived foods, which has important implications for human health and the natural environment., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published
2021
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30. Intraspecific variation in symbiont density in an insect-microbe symbiosis.

Author

Parker BJ, Hrček J, McLean AHC, Brisson JA, and Godfray HCJ

Subjects
Animals, Enterobacteriaceae genetics, Fungi, Phylogeny, Aphids genetics, Symbiosis
Abstract

Many insects host vertically transmitted microbes, which can confer benefits to their hosts but are costly to maintain and regulate. A key feature of these symbioses is variation: for example, symbiont density can vary among host and symbiont genotypes. However, the evolutionary forces maintaining this variation remain unclear. We studied variation in symbiont density using the pea aphid (Acyrthosiphon pisum) and the bacterium Regiella insecticola, a symbiont that can protect its host against fungal pathogens. We found that relative symbiont density varies both between two Regiella phylogenetic clades and among aphid "biotypes." Higher density symbiont infections are correlated with stronger survival costs, but variation in density has little effect on the protection Regiella provides against fungi. Instead, we found that in some aphid genotypes, a dramatic decline in symbiont density precedes the loss of a symbiont infection. Together, our data suggest that the optimal density of a symbiont infection is likely different from the perspective of aphid and microbial fitness. Regiella might prevent loss by maintaining high within-host densities, but hosts do not appear to benefit from higher symbiont numbers and may be advantaged by losing costly symbionts in certain environments. The standing variation in symbiont density observed in natural populations could therefore be maintained by antagonistic coevolutionary interactions between hosts and their symbiotic microbes., (© 2021 John Wiley & Sons Ltd.)

Published
2021
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32. 80 questions for UK biological security.

Author

Kemp L, Aldridge DC, Booy O, Bower H, Browne D, Burgmann M, Burt A, Cunningham AA, Dando M, Dick JTA, Dye C, Weiss Evans S, Gallardo B, Godfray HCJ, Goodfellow I, Gubbins S, Holt LA, Jones KE, Kandil H, Martin P, McCaughan M, McLeish C, Meany T, Millett K, ÓhÉigeartaigh SS, Patron NJ, Rhodes C, Roy HE, Shackelford G, Smith D, Spence N, Steiner H, Sundaram LS, Voeneky S, Walker JR, Watkins H, Whitby S, Wood J, and Sutherland WJ

Subjects
Bioterrorism prevention & control, COVID-19 prevention & control, Clinical Governance trends, Communication, Disease Transmission, Infectious prevention & control, Disease Transmission, Infectious statistics & numerical data, Humans, Pandemics statistics & numerical data, Policy, SARS-CoV-2 pathogenicity, Security Measures statistics & numerical data, Surveys and Questionnaires, United Kingdom epidemiology, Pandemics prevention & control, Security Measures trends
Abstract

Multiple national and international trends and drivers are radically changing what biological security means for the United Kingdom (UK). New technologies present novel opportunities and challenges, and globalisation has created new pathways and increased the speed, volume and routes by which organisms can spread. The UK Biological Security Strategy (2018) acknowledges the importance of research on biological security in the UK. Given the breadth of potential research, a targeted agenda identifying the questions most critical to effective and coordinated progress in different disciplines of biological security is required. We used expert elicitation to generate 80 policy-relevant research questions considered by participants to have the greatest impact on UK biological security. Drawing on a collaboratively-developed set of 450 questions, proposed by 41 experts from academia, industry and the UK government (consulting 168 additional experts) we subdivided the final 80 questions into six categories: bioengineering; communication and behaviour; disease threats (including pandemics); governance and policy; invasive alien species; and securing biological materials and securing against misuse. Initially, the questions were ranked through a voting process and then reduced and refined to 80 during a one-day workshop with 35 participants from a variety of disciplines. Consistently emerging themes included: the nature of current and potential biological security threats, the efficacy of existing management actions, and the most appropriate future options. The resulting questions offer a research agenda for biological security in the UK that can assist the targeting of research resources and inform the implementation of the UK Biological Security Strategy. These questions include research that could aid with the mitigation of Covid-19, and preparation for the next pandemic. We hope that our structured and rigorous approach to creating a biological security research agenda will be replicated in other countries and regions. The world, not just the UK, is in need of a thoughtful approach to directing biological security research to tackle the emerging issues., Competing Interests: Authors TM and HS are affiliated with Opencell. KM is affiliated with Biosecure Ltd. Arcadia provided support in the form of salaries for authors WS and CR. There are no patents, products in development or marketed products to declare. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published
2021
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33. Modelling the suppression of a malaria vector using a CRISPR-Cas9 gene drive to reduce female fertility.

Author

North AR, Burt A, and Godfray HCJ

Subjects
Africa, Western, Animals, Animals, Genetically Modified genetics, Culicidae enzymology, Female, Fertility genetics, Gene Targeting, Insect Proteins chemistry, Models, Genetic, CRISPR-Cas Systems, Culicidae genetics, Endonucleases chemistry, Gene Drive Technology, Malaria prevention & control, Mosquito Control methods, Mosquito Vectors genetics
Abstract

Background: Gene drives based on CRISPR-Cas9 technology are increasingly being considered as tools for reducing the capacity of mosquito populations to transmit malaria, and one of the most promising options is driving endonuclease genes that reduce the fertility of female mosquitoes. In particular, there is much interest in constructs that target the conserved mosquito doublesex (dsx) gene such that the emergence of functional drive-resistant alleles is unlikely. Proof of principle that these constructs can lead to substantial population suppression has been obtained in population cages, and they are being evaluated for use in sub-Saharan Africa. Here, we use simulation modelling to understand the factors affecting the spread of this type of gene drive over a one million-square kilometre area of West Africa containing substantial environmental and social heterogeneity., Results: We found that a driving endonuclease gene targeting female fertility could lead to substantial reductions in malaria vector populations on a regional scale. The exact level of suppression is influenced by additional fitness costs of the transgene such as the somatic expression of Cas9, and its deposition in sperm or eggs leading to damage to the zygote. In the absence of these costs, or of emergent drive-resistant alleles that restore female fertility, population suppression across the study area is predicted to stabilise at ~ 95% 4 years after releases commence. Small additional fitness costs do not greatly affect levels of suppression, though if the fertility of females whose offspring transmit the construct drops by more than ~ 40%, then population suppression is much less efficient. We show the suppression potential of a drive allele with high fitness costs can be enhanced by engineering it also to express male bias in the progeny of transgenic males. Irrespective of the strength of the drive allele, the spatial model predicts somewhat less suppression than equivalent non-spatial models, in particular in highly seasonal regions where dry season stochasticity reduces drive efficiency. We explored the robustness of these results to uncertainties in mosquito ecology, in particular their method of surviving the dry season and their dispersal rates., Conclusions: The modelling presented here indicates that considerable suppression of vector populations can be achieved within a few years of using a female sterility gene drive, though the impact is likely to be heterogeneous in space and time.

Published
2020
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34. Multiple phenotypes conferred by a single insect symbiont are independent.

Author

McLean AHC, Hrček J, Parker BJ, Mathé-Hubert H, Kaech H, Paine C, and Godfray HCJ

Subjects
Animals, Biological Evolution, Phenotype, Symbiosis, Aphids microbiology, Spiroplasma physiology
Abstract

Many microbial symbionts have multiple phenotypic consequences for their animal hosts. However, the ways in which different symbiont-mediated phenotypes combine to affect fitness are not well understood. We investigated whether there are correlations between different symbiont-mediated phenotypes. We used the symbiont Spiroplasma , a striking example of a bacterial symbiont conferring diverse phenotypes on insect hosts. We took 11 strains of Spiroplasma infecting pea aphids ( Acyrthosiphon pisum ) and assessed their ability to provide protection against the fungal pathogen Pandora neoaphidis and the parasitoids Aphidius ervi and Praon volucre . We also assessed effects on male offspring production for five of the Spiroplasma strains. All but one of the Spiroplasma strains provided very strong protection against the parasitoid P. volucre . As previously reported, variable protection against P. neoaphidis and A. ervi was also present; male-killing was likewise a variable phenotype. We find no evidence of any correlation, positive or negative, between the different phenotypes, nor was there any evidence of an effect of symbiont phylogeny on protective phenotype. We conclude that multiple symbiont-mediated phenotypes can evolve independently from one another without trade-offs between them.

Published
2020
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35. Modelling the global economic consequences of a major African swine fever outbreak in China.

Author

Mason-D'Croz D, Bogard JR, Herrero M, Robinson S, Sulser TB, Wiebe K, Willenbockel D, and Godfray HCJ

Abstract

African swine fever is a deadly porcine disease that has spread into East Asia where it is having a detrimental effect on pork production. However, the implications of African swine fever on the global pork market are poorly explored. Two linked global economic models are used to explore the consequences of different scales of the epidemic on pork prices and on the prices of other food types and animal feeds. The models project global pork prices increasing by 17-85% and unmet demand driving price increases of other meats. This price rise reduces the quantity of pork demanded but also spurs production in other parts of the world, and imports make up half the Chinese losses. Demand for, and prices of, food types such as beef and poultry rise, while prices for maize and soybean used in feed decline. There is a slight decline in average per capita calorie availability in China, indicating the importance of assuring the dietary needs of low-income populations. Outside China, projections for calorie availability are mixed, reflecting the direct and indirect effects of the African swine fever epidemic on food and feed markets., Competing Interests: Competing interests The authors declare no competing interests

Published
2020
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37. Host relatedness influences the composition of aphid microbiomes.

Author

McLean AHC, Godfray HCJ, Ellers J, and Henry LM

Subjects
Animals, Aphids classification, Bacteria classification, Bacteria genetics, Metagenomics, Aphids microbiology, Host Microbial Interactions, Microbiota
Abstract

Animals are host to a community of microbes, collectively referred to as their microbiome, that can play a key role in their hosts' biology. The bacterial endosymbionts of insects have a particularly strong influence on their hosts, but despite their importance we still know little about the factors that influence the composition of insect microbial communities. Here, we ask: what is the relative importance of host relatedness and host ecology in structuring symbiont communities of diverse aphid species? We used next-generation sequencing to compare the microbiomes of 46 aphid species with known host plant affiliations. We find that relatedness between aphid species is the key factor explaining the microbiome composition, with more closely related aphid species housing more similar bacterial communities. Endosymbionts dominate the microbial communities, and we find a novel bacterium in the genus Sphingopyxis that is associated with numerous aphid species feeding exclusively on trees. The influence of ecology was less pronounced than that of host relatedness. Our results suggest that co-adaptation between insect species and their facultative symbionts is a more important determinant of symbiont species presence in aphids than shared ecology of hosts., (© 2019 The Authors. Environmental Microbiology Reports published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2019
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38. Modelling the potential of genetic control of malaria mosquitoes at national scale.

Author

North AR, Burt A, and Godfray HCJ

Subjects
Animals, Burkina Faso, Models, Genetic, Pest Control, Biological methods, Seasons, Anopheles genetics, Malaria prevention & control, Mosquito Control methods, Mosquito Vectors genetics
Abstract

Background: The persistence of malaria in large parts of sub-Saharan Africa has motivated the development of novel tools to complement existing control programmes, including gene-drive technologies to modify mosquito vector populations. Here, we use a stochastic simulation model to explore the potential of using a driving-Y chromosome to suppress vector populations in a 10 6 km 2 area of West Africa including all of Burkina Faso., Results: The consequence of driving-Y introductions is predicted to vary across the landscape, causing elimination of the target species in some regions and suppression in others. We explore how this variation is determined by environmental conditions, mosquito behaviour, and the properties of the gene-drive. Seasonality is particularly important, and we find population elimination is more likely in regions with mild dry seasons whereas suppression is more likely in regions with strong seasonality., Conclusions: Despite the spatial heterogeneity, we suggest that repeated introductions of modified mosquitoes over a few years into a small fraction of human settlements may be sufficient to substantially reduce the overall number of mosquitoes across the entire geographic area.

Published
2019
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39. Managing nitrogen to restore water quality in China.

Author

Yu C, Huang X, Chen H, Godfray HCJ, Wright JS, Hall JW, Gong P, Ni S, Qiao S, Huang G, Xiao Y, Zhang J, Feng Z, Ju X, Ciais P, Stenseth NC, Hessen DO, Sun Z, Yu L, Cai W, Fu H, Huang X, Zhang C, Liu H, and Taylor J

Subjects
Agriculture statistics & numerical data, Animals, China, Ecosystem, Environmental Monitoring, Food Supply methods, Food Supply statistics & numerical data, Humans, Water Pollutants, Chemical analysis, Water Pollution analysis, Agriculture methods, Fertilizers analysis, Fertilizers supply & distribution, Nitrogen analysis, Nitrogen supply & distribution, Nitrogen Cycle, Water Quality standards
Abstract

The nitrogen cycle has been radically changed by human activities 1 . China consumes nearly one third of the world's nitrogen fertilizers. The excessive application of fertilizers 2,3 and increased nitrogen discharge from livestock, domestic and industrial sources have resulted in pervasive water pollution. Quantifying a nitrogen 'boundary' 4 in heterogeneous environments is important for the effective management of local water quality. Here we use a combination of water-quality observations and simulated nitrogen discharge from agricultural and other sources to estimate spatial patterns of nitrogen discharge into water bodies across China from 1955 to 2014. We find that the critical surface-water quality standard (1.0 milligrams of nitrogen per litre) was being exceeded in most provinces by the mid-1980s, and that current rates of anthropogenic nitrogen discharge (14.5 ± 3.1 megatonnes of nitrogen per year) to fresh water are about 2.7 times the estimated 'safe' nitrogen discharge threshold (5.2 ± 0.7 megatonnes of nitrogen per year). Current efforts to reduce pollution through wastewater treatment and by improving cropland nitrogen management can partially remedy this situation. Domestic wastewater treatment has helped to reduce net discharge by 0.7 ± 0.1 megatonnes in 2014, but at high monetary and energy costs. Improved cropland nitrogen management could remove another 2.3 ± 0.3 megatonnes of nitrogen per year-about 25 per cent of the excess discharge to fresh water. Successfully restoring a clean water environment in China will further require transformational changes to boost the national nutrient recycling rate from its current average of 36 per cent to about 87 per cent, which is a level typical of traditional Chinese agriculture. Although ambitious, such a high level of nitrogen recycling is technologically achievable at an estimated capital cost of approximately 100 billion US dollars and operating costs of 18-29 billion US dollars per year, and could provide co-benefits such as recycled wastewater for crop irrigation and improved environmental quality and ecosystem services.

Published
2019
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40. A restatement of the natural science evidence base on the effects of endocrine disrupting chemicals on wildlife.

Author

Godfray HCJ, Stephens AEA, Jepson PD, Jobling S, Johnson AC, Matthiessen P, Sumpter JP, Tyler CR, and McLean AR

Subjects
Animals, Animals, Wild, Endocrine Disruptors toxicity, Environmental Pollutants toxicity, Endocrine Disruptors adverse effects, Environmental Exposure adverse effects, Environmental Pollutants adverse effects, Invertebrates drug effects, Vertebrates
Abstract

Endocrine disrupting chemicals (EDCs) are substances that alter the function of the endocrine system and consequently cause adverse effects to humans or wildlife. The release of particular EDCs into the environment has been shown to negatively affect certain wildlife populations and has led to restrictions on the use of some EDCs. Current chemical regulations aim to balance the industrial, agricultural and/or pharmaceutical benefits of using these substances with their demonstrated or potential harm to human health or the environment. A summary is provided of the natural science evidence base informing the regulation of chemicals released into the environment that may have endocrine disrupting effects on wildlife. This summary is in a format (a 'restatement') intended to be policy-neutral and accessible to informed, but not expert, policy-makers and stakeholders.

Published
2019
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41. Intrinsic pre-zygotic reproductive isolation of distantly related pea aphid host races.

Author

Fazalova V, Nevado B, McLean A, and Godfray HCJ

Subjects
Animals, Aphids genetics, Female, Gene Flow, Male, Phylogeny, Reproductive Isolation, Aphids physiology, Hybridization, Genetic, Oviposition
Abstract

Human activities may weaken or destroy reproductive isolation between young taxa, leading to their fusion with consequences for population and community ecology. Pea aphid host races are adapted to different legume taxa, providing a degree of pre-mating isolation mediated by habitat choice. Yet, all races can feed and reproduce on the broad bean ( Vicia faba ), a major crop which represents a 'universal host plant', which can promote hybridization between races. Here, we ask if pea aphid host races have reproductive barriers which prevent or reduce gene flow when they co-occur on the universal host plant. We observed mating behaviour, female survival, number of eggs and egg fertilization rates for three types of crosses: among individuals of the same host race, between closely related host races and between distantly related host races. We did not find significant differences in mating behaviour and female survival among the three types of crosses. However, we observed a drastic reduction in the number of eggs laid, and in the number of fertilized eggs, in distant crosses. We conclude that widespread broad bean cultivation in agriculture may predispose closely related-but not distantly related-host races to hybridize, disrupting reproductive isolation between incipient species., (© 2018 The Author(s).)

Published
2018
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42. Health-motivated taxes on red and processed meat: A modelling study on optimal tax levels and associated health impacts.

Author

Springmann M, Mason-D'Croz D, Robinson S, Wiebe K, Godfray HCJ, Rayner M, and Scarborough P

Subjects
Humans, Health Care Costs, Meat Products economics, Models, Economic, Taxes economics
Abstract

Background: The consumption of red and processed meat has been associated with increased mortality from chronic diseases, and as a result, it has been classified by the World Health Organization as carcinogenic (processed meat) and probably carcinogenic (red meat) to humans. One policy response is to regulate red and processed meat consumption similar to other carcinogens and foods of public health concerns. Here we describe a market-based approach of taxing red and processed meat according to its health impacts., Methods: We calculated economically optimal tax levels for 149 world regions that would account for (internalize) the health costs associated with ill-health from red and processed meat consumption, and we used a coupled modelling framework to estimate the impacts of optimal taxation on consumption, health costs, and non-communicable disease mortality. Health impacts were estimated using a global comparative risk assessment framework, and economic responses were estimated using international data on health costs, prices, and price elasticities., Findings: The health-related costs to society attributable to red and processed meat consumption in 2020 amounted to USD 285 billion (sensitivity intervals based on epidemiological uncertainty (SI), 93-431), three quarters of which were due to processed meat consumption. Under optimal taxation, prices for processed meat increased by 25% on average, ranging from 1% in low-income countries to over 100% in high-income countries, and prices for red meat increased by 4%, ranging from 0.2% to over 20%. Consumption of processed meat decreased by 16% on average, ranging from 1% to 25%, whilst red meat consumption remained stable as substitution for processed meat compensated price-related reductions. The number of deaths attributable to red and processed meat consumption decreased by 9% (222,000; SI, 38,000-357,000), and attributable health costs decreased by 14% (USD 41 billion; SI, 10-57) globally, in each case with greatest reductions in high and middle-income countries., Interpretation: Including the social health cost of red and processed meat consumption in the price of red and processed meat could lead to significant health and environmental benefits, in particular in high and middle-income countries. The optimal tax levels estimated in this study are context-specific and can complement the simple rules of thumb currently used for setting health-motivated tax levels., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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43. Options for keeping the food system within environmental limits.

Author

Springmann M, Clark M, Mason-D'Croz D, Wiebe K, Bodirsky BL, Lassaletta L, de Vries W, Vermeulen SJ, Herrero M, Carlson KM, Jonell M, Troell M, DeClerck F, Gordon LJ, Zurayk R, Scarborough P, Rayner M, Loken B, Fanzo J, Godfray HCJ, Tilman D, Rockström J, and Willett W

Subjects
Climate Change, Crops, Agricultural metabolism, Nitrogen metabolism, Phosphorus metabolism, Uncertainty, Agriculture methods, Agriculture trends, Environment, Food Supply, Sustainable Development
Abstract

The food system is a major driver of climate change, changes in land use, depletion of freshwater resources, and pollution of aquatic and terrestrial ecosystems through excessive nitrogen and phosphorus inputs. Here we show that between 2010 and 2050, as a result of expected changes in population and income levels, the environmental effects of the food system could increase by 50-90% in the absence of technological changes and dedicated mitigation measures, reaching levels that are beyond the planetary boundaries that define a safe operating space for humanity. We analyse several options for reducing the environmental effects of the food system, including dietary changes towards healthier, more plant-based diets, improvements in technologies and management, and reductions in food loss and waste. We find that no single measure is enough to keep these effects within all planetary boundaries simultaneously, and that a synergistic combination of measures will be needed to sufficiently mitigate the projected increase in environmental pressures.

Published
2018
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44. Meat consumption, health, and the environment.

Author

Godfray HCJ, Aveyard P, Garnett T, Hall JW, Key TJ, Lorimer J, Pierrehumbert RT, Scarborough P, Springmann M, and Jebb SA

Subjects
Animals, Diet, Humans, Livestock, Population Growth, Environment, Food Supply economics, Health, Meat adverse effects, Meat economics
Abstract

Both the global average per capita consumption of meat and the total amount of meat consumed are rising, driven by increasing average individual incomes and by population growth. The consumption of different types of meat and meat products has substantial effects on people's health, and livestock production can have major negative effects on the environment. Here, we explore the evidence base for these assertions and the options policy-makers have should they wish to intervene to affect population meat consumption. We highlight where more research is required and the great importance of integrating insights from the natural and social sciences., (Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published
2018
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45. Pathway to Deployment of Gene Drive Mosquitoes as a Potential Biocontrol Tool for Elimination of Malaria in Sub-Saharan Africa: Recommendations of a Scientific Working Group † .

Author

James S, Collins FH, Welkhoff PA, Emerson C, Godfray HCJ, Gottlieb M, Greenwood B, Lindsay SW, Mbogo CM, Okumu FO, Quemada H, Savadogo M, Singh JA, Tountas KH, and Touré YT

Subjects
Africa South of the Sahara, Animals, Gene Drive Technology standards, Pest Control, Biological standards, Culicidae genetics, Gene Drive Technology methods, Malaria prevention & control, Mosquito Vectors genetics, Pest Control, Biological methods
Abstract

Gene drive technology offers the promise for a high-impact, cost-effective, and durable method to control malaria transmission that would make a significant contribution to elimination. Gene drive systems, such as those based on clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR associated protein, have the potential to spread beneficial traits through interbreeding populations of malaria mosquitoes. However, the characteristics of this technology have raised concerns that necessitate careful consideration of the product development pathway. A multidisciplinary working group considered the implications of low-threshold gene drive systems on the development pathway described in the World Health Organization Guidance Framework for testing genetically modified (GM) mosquitoes , focusing on reduction of malaria transmission by Anopheles gambiae s.l. mosquitoes in Africa as a case study. The group developed recommendations for the safe and ethical testing of gene drive mosquitoes, drawing on prior experience with other vector control tools, GM organisms, and biocontrol agents. These recommendations are organized according to a testing plan that seeks to maximize safety by incrementally increasing the degree of human and environmental exposure to the investigational product. As with biocontrol agents, emphasis is placed on safety evaluation at the end of physically confined laboratory testing as a major decision point for whether to enter field testing. Progression through the testing pathway is based on fulfillment of safety and efficacy criteria, and is subject to regulatory and ethical approvals, as well as social acceptance. The working group identified several resources that were considered important to support responsible field testing of gene drive mosquitoes.

Published
2018
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46. Hosts do not simply outsource pathogen resistance to protective symbionts.

Author

Hrček J, Parker BJ, McLean AHC, Simon JC, Mann CM, and Godfray HCJ

Abstract

Microbial symbionts commonly protect their hosts from natural enemies, but it is unclear how protective symbionts influence the evolution of host immunity to pathogens. One possibility is that 'extrinsic' protection provided by symbionts allows hosts to reduce investment in 'intrinsic' immunological resistance mechanisms. We tested this idea using pea aphids (Acyrthosiphon pisum) and their facultative bacterial symbionts that increase host resistance to the fungal pathogen Pandora neoaphidis. The pea aphid taxon is composed of multiple host plant associated populations called biotypes, which harbor characteristic communities of symbionts. We found that biotypes that more frequently carry protective symbionts have higher, rather than lower, levels of intrinsic resistance. Within a biotype there was no difference in intrinsic resistance between clones that did and did not carry a protective symbiont. The host plant on which an aphid feeds did not strongly influence intrinsic resistance. We describe a simple conceptual model of the interaction between intrinsic and extrinsic resistance and suggest that our results may be explained by selection favoring both the acquisition of protective symbionts and enhanced intrinsic resistance in habitats with high pathogen pressure. Such combined protection is potentially more robust than intrinsic resistance alone., (© 2018 The Author(s). Evolution © 2018 The Society for the Study of Evolution.)

Published
2018
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47. The use of driving endonuclease genes to suppress mosquito vectors of malaria in temporally variable environments.

Author

Lambert B, North A, Burt A, and Godfray HCJ

Subjects
Animals, Female, Kenya, Malaria prevention & control, Male, Mali, Models, Genetic, Population Density, Seasons, Anopheles genetics, Endonucleases genetics, Insect Control methods, Insect Proteins genetics, Mosquito Vectors genetics
Abstract

Background: The use of gene drive systems to manipulate populations of malaria vectors is currently being investigated as a method of malaria control. One potential system uses driving endonuclease genes (DEGs) to spread genes that impose a genetic load. Previously, models have shown that the introduction of DEG-bearing mosquitoes could suppress or even extinguish vector populations in spatially-heterogeneous environments which were constant over time. In this study, a stochastic spatially-explicit model of mosquito ecology is combined with a rainfall model which enables the generation of a variety of daily precipitation patterns. The model is then used to investigate how releases of a DEG that cause a bias in population sex ratios towards males are affected by seasonal or random rainfall patterns. The parameters of the rainfall model are then fitted using data from Bamako, Mali, and Mbita, Kenya, to evaluate release strategies in similar climatic conditions., Results: In landscapes with abundant resources and large mosquito populations the spread of a DEG is reliable, irrespective of variability in rainfall. This study thus focuses mainly on landscapes with low density mosquito populations where the spread of a DEG may be sensitive to variation in rainfall. It is found that an introduced DEG will spread into its target population more reliably in wet conditions, yet an established DEG will have more impact in dry conditions. In strongly seasonal environments, it is thus preferable to release DEGs at the onset of a wet season to maximize their spread before the following dry season. If the variability in rainfall has a substantial random component, there is a net increase in the probability that a DEG release will lead to population extinction, due to the increased impact of a DEG which manages to establish in these conditions. For Bamako, where annual rainfall patterns are characterized by a long dry season, it is optimal to release a DEG at the start of the wet season, where the population is growing fastest. By contrast release timing is of lower importance for the less seasonal Mbita., Conclusion: This analysis suggests that DEG based methods of malaria vector control can be effective in a wide range of climates. In environments with substantial temporal variation in rainfall, careful timing of releases which accounts for the temporal variation in population density can substantially improve the probability of mosquito suppression or extinction.

Published
2018
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48. Modelling the persistence of mosquito vectors of malaria in Burkina Faso.

Author

North AR and Godfray HCJ

Subjects
Animal Migration physiology, Animals, Burkina Faso, Estivation physiology, Female, Male, Anopheles physiology, Malaria transmission, Models, Biological, Mosquito Vectors physiology
Abstract

Background: Populations of the Anopheles gambiae complex are found during the rainy season throughout West Africa, even in arid areas with long dry seasons during which mosquitoes appear to be absent. Several hypotheses have been proposed to explain this apparent paradox, including aestivation, dispersal between neighbouring settlements, and long distance migration using high-altitude wind currents., Methods: An individual-based, spatially explicit model of mosquito populations was developed for a region of West Africa centred on, and including all of, Burkina Faso. Populations associated with human settlements were linked by dispersal and the model incorporated geospatial data on the distribution of settlements, water bodies and rainfall., Results: Local dispersal (at rates consistent with experimental data) was necessary to explain observed patterns of rainy season populations across all of the simulation area, but by itself failed to account for the presence of populations in the arid North (the Sahel). The presence of rare dry-season larval sites could explain these northern populations, but seems inconsistent with field surveys. Aestivation by female mosquitoes explained rainy-season populations in all but the very sparsest and driest areas of human habitation, while long-distance migration based on annual wind patterns could account for all observed populations., Conclusions: Modelling studies such as this can help assess the potential validity of different hypotheses and suggest priority areas for experimental study. In particular, the results highlight a shortage of empirical research on mosquito dispersal between neighbouring settlements, which may be critically important to the continued presence of many mosquito populations in West Africa. Further research that establishes the extent to which mosquitoes aestivate, and migrate using high altitude winds, is also much needed to understand Sahelian mosquito populations.

Published
2018
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49. Consequences of symbiont co-infections for insect host phenotypes.

Author

McLean AHC, Parker BJ, Hrček J, Kavanagh JC, Wellham PAD, and Godfray HCJ

Subjects
Animals, Survival Analysis, Aphids microbiology, Aphids parasitology, Enterobacteriaceae physiology, Fungi physiology, Host Microbial Interactions physiology, Wasps physiology
Abstract

Most animals host communities of symbiotic bacteria. In insects, these symbionts may have particularly intimate interactions with their hosts: many are intracellular and can play important roles in host ecology and evolution, including protection against natural enemies. We investigated how interactions between different species or strains of endosymbiotic bacteria within an aphid host influence the outcome of symbiosis for both symbiont and host. We first asked whether different combinations of facultative symbiont species or strains can exist in stable co-infections. We then investigated whether the benefits that facultative bacteria confer on their hosts (protection against natural enemies) are enhanced, reduced or unaltered by the presence of a co-infecting symbiont. We asked this both for co-infecting symbionts that confer different phenotypes on their hosts (protection against fungal pathogens vs. parasitoid wasps) and symbionts with overlapping functions. Finally, we investigated the additional survival costs to aphids of carrying multiple infections of symbiont species or strains, and compared symbiont titres in double and single infections. We found that stable co-infections were possible between all of the combinations of facultative symbiont species (Regiella insecticola + Hamiltonella defensa, Regiella + Rickettsiella sp., Regiella + Spiroplasma sp.) and strains (Hamiltonella) that we studied. Where symbionts provided protection against different natural enemies, no alteration in protection was observed in the presence of co-infections. Where symbionts provided protection against the same natural enemy, the level of protection corresponded to the higher of the two symbionts present. In some instances, aphid hosts suffered additional survival costs when hosting double infections. In the case of Hamiltonella, however, infection with multiple strains of the same symbiont led to lower symbiont titres than single infections, and actually improved aphid survival. We conclude that the long-term maintenance of symbiont co-infections in aphids is likely to be determined primarily by costs of co-infections and in some instances by redundancy of symbiont benefits., (© 2017 The Authors. Journal of Animal Ecology © 2017 British Ecological Society.)

Published
2018
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50. Symbionts protect aphids from parasitic wasps by attenuating herbivore-induced plant volatiles.

Author

Frago E, Mala M, Weldegergis BT, Yang C, McLean A, Godfray HCJ, Gols R, and Dicke M

Subjects
Animals, Enterobacteriaceae physiology, Vicia faba metabolism, Vicia faba physiology, Volatile Organic Compounds metabolism, Aphids microbiology, Aphids parasitology, Herbivory, Host-Parasite Interactions physiology, Symbiosis physiology, Wasps physiology
Abstract

Plants respond to insect attack by releasing blends of volatile chemicals that attract their herbivores' specific natural enemies, while insect herbivores may carry endosymbiotic microorganisms that directly improve herbivore survival after natural enemy attack. Here we demonstrate that the two phenomena can be linked. Plants fed upon by pea aphids release volatiles that attract parasitic wasps, and the pea aphid can carry facultative endosymbiotic bacteria that prevent the development of the parasitic wasp larva and thus markedly improve aphid survival after wasp attack. We show that these endosymbionts also attenuate the systemic release of volatiles by plants after aphid attack, reducing parasitic wasp recruitment and increasing aphid fitness. Our results reveal a novel mechanism through which symbionts can benefit their hosts and emphasise the importance of considering the microbiome in understanding insect ecological interactions.

Published
2017
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