Your search keyword '"Seymour CL"' showing total 22 results

1. Facilitation and competition shape a geographical mosaic of flower colour polymorphisms

Author

Coetzee, A, Seymour, CL, Spottiswoode, CN, Coetzee, A [0000-0002-1646-557X], Seymour, CL [0000-0002-6729-2576], Spottiswoode, CN [0000-0003-3232-9559], and Apollo - University of Cambridge Repository

Subjects

flowering phenology, character displacement, interspecific pollen transfer, fungi, food and beverages, Nectariniidae, mimicry rings, reproductive interference

Abstract

1. Flower colour differs dramatically between populations for some plant species, yet we know little about what drives this variation. Such polymorphisms can be influenced by plant-pollinator interactions, but whether they are also influenced by pollinator-mediated plant-plant interactions is unknown. 2. We test whether flower colour polymorphisms can arise through convergence (facilitation) or divergence (competition) of flower phenotypes resulting from plant-plant interactions mediated by the shared, and only, pollinator (orange-breasted sunbird) of ten Erica communities in South Africa. 3. Sunbird visitation rates to the less-preferred Erica species in communities increased with colour similarity to the most visited species, suggesting that polymorphisms can be maintained by selection for colour convergence within communities, which promotes shared signals through rewarding mimicry (i.e. facilitation). 4. Colour similarity was lowest when risk of reproductive interference was greatest: i.e., when reproductive morphology (stigma-anther distance) and flowering phenology was most similar, and when floral density differed greatly between species. This implies that polymorphisms can also be maintained by selection for colour divergence, since this promotes assortative pollinator foraging (i.e., competition). 5. Different populations of a species may experience opposite selective pressures, depending on their community context. This is the first evidence that a geographic mosaic of plant-plant pollination interactions could maintain colour polymorphisms in congeneric species sharing a single pollinator.

Published

2021

2. Pesticide impacts on insect pollinators: Current knowledge and future research challenges.

Author

Basu P, Ngo HT, Aizen MA, Garibaldi LA, Gemmill-Herren B, Imperatriz-Fonseca V, Klein AM, Potts SG, Seymour CL, and Vanbergen AJ

Abstract

With the need to intensify agriculture to meet growing food demand, there has been significant rise in pesticide use to protect crops, but at different rates in different world regions. In 2016, the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) global assessment on pollinators, pollination and food production identified pesticides as one of the major drivers of pollinator decline. This assessment highlighted that studies on the effects of pesticides on pollinating insects have been limited to only a few species, primarily from developed countries. Given the worldwide variation in the scale of intensive agricultural practices, pesticide application intensities are likely to vary regionally and consequently the associated risks for insect pollinators. We provide the first long-term, global analysis of inter-regional trends in the use of different classes of pesticide between 1995 and 2020 (FAOSTAT) and a review of literature since the IPBES pollination assessment (2016). All three pesticide classes use rates varied greatly with some countries seeing increased use by 3000 to 4000 % between 1995 and 2020, while for most countries, growth roughly doubled. We present forecast models to predict regional trends of different pesticides up to 2030. Use of all three pesticide classes is to increase in Africa and South America. Herbicide use is to increase in North America and Central Asia. Fungicide use is to increase across all Asian regions. In each of the respective regions, we also examined the number of studies since 2016 in relation to pesticide use trends over the past twenty-five years. Additionally, we present a comprehensive update on the status of knowledge on pesticide impacts on different pollinating insects from literature published during 2016-2022. Finally, we outline several research challenges and knowledge gaps with respect to pesticides and highlight some regional and international conservation efforts and initiatives that address pesticide reduction and/or elimination., Competing Interests: Declaration of competing interest There are no financial and personal relationships with other people or organizations that could inappropriately influence (bias) this work and the authors have nothing to declare., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

3. Need for shared internal mound conditions by fungus-growing Macrotermes does not predict their species distributions, in current or future climates.

Author

Seymour CL, Korb J, Joseph GS, Hassall R, and Coetzee BWT

Subjects

Animals, Fungi, Ecology, Temperature, Ecosystem, Isoptera

Abstract

The large, iconic nests constructed by social species are engineered to create internal conditions buffered from external climatic extremes, to allow reproduction and/or food production. Nest-inhabiting eusocial Macrotermitinae (Blattodea: Isoptera) are outstanding palaeo-tropical ecosystem engineers that evolved fungus-growing to break down plant matter ca 62 Mya; the termites feed on the fungus and plant matter. Fungus-growing ensures a constant food supply, but the fungi need temperature-buffered, high humidity conditions, created in architecturally complex, often tall, nest-structures (mounds). Given the need for constant and similar internal nest conditions by fungi farmed by different Macrotermes species, we assessed whether current distributions of six African Macrotermes correlate with similar variables, and whether this would reflect in expected species' distribution shifts with climate change. The primary variables explaining species' distributions were not the same for the different species. Distributionally, three of the six species are predicted to see declines in highly suitable climate. For two species, range increases should be small (less than 9%), and for a single species, M. vitrialatus , ' very suitable' climate could increase by 64%. Mismatches in vegetation requirements and anthropogenic habitat transformation may preclude range expansion, however, presaging disruption to ecosystem patterns and processes that will cascade through systems at both landscape and continental scales. This article is part of the theme issue 'The evolutionary ecology of nests: a cross-taxon approach'.

Published

2023

4. Dispersal limitation and fire feedbacks maintain mesic savannas in Madagascar: Comment.

Author

Joseph GS and Seymour CL

Subjects

Madagascar, Feedback, Ecosystem, Grassland, Fires

Published

2023

5. Seasonal Movement Patterns of Urban Domestic Cats Living on the Edge in an African City.

Author

Simmons RE, Seymour CL, George ST, Peters K, Morling F, and O'Riain MJ

Abstract

Domestic cats ( Felis catus ) are amongst the most destructive invasive vertebrates globally, depredating billions of native animals annually. The size and seasonal variation of their geographical "footprint" is key to understanding their effects on wildlife, particularly if they live near conservation areas. Here we report the first GPS-tracking studies of free-roaming owned cats in the city of Cape Town, South Africa. A total of 23 cats was tracked (14 cats in summer, 9 in winter) using miniature (22 g) GPS locators in 2010-2011. In summer, all cats living on the urban-edge (UE: n = 7) made extensive use of protected areas, while only one of seven urban (U) cats (>150 m from the edge) did so. In winter two of four UE and two of five U cats entered protected areas. Home ranges (95% kernel density estimates) were significantly larger in summer (3.00 ± 1.23 ha) than winter (0.87 ± 0.25 ha) and cats ventured further from their homes in summer (maximum 849 m) than in winter (max 298 m). The predation risk posed by caracal ( Caracal caracal ) may limit the time cats spend in protected areas, but our results suggest that cat buffers around conservation areas should be at least ~600 m wide to reduce impacts to native fauna.

Published

2023

6. Are Madagascar's obligate grazing-lawns ancient and evolved with endemic herbivores, or recently selected by introduced cattle?

Author

Joseph GS and Seymour CL

Subjects

Animals, Cattle, Madagascar, Poaceae, Ecosystem, Herbivory

Published

2022

7. Tipping points induced by palaeo-human impacts can explain presence of savannah in Malagasy and global systems where forest is expected.

Author

Joseph GS, Rakotoarivelo AR, and Seymour CL

Subjects

Adaptation, Physiological, Anthropogenic Effects, Forests, Grassland, Humans, Ecosystem, Fires

Abstract

Models aimed at understanding C 4 -savannah distribution for Australia, Africa and South America support transition to forest at high mean annual precipitation (MAP), and savannah grasslands of Madagascar have recently been reported to be similarly limited. Yet, when savannah/grassland presence data are plotted against MAP for the various ecosystems across the Malagasy Central Highlands, the relationship does not hold. Furthermore, it does not always hold in other sites on other continents. Instead, in high-rainfall savannahs, palaeo-human impacts appear to have selected a fire-adapted habitat, creating tipping points that allow savannah persistence despite high rainfall, suppressing forest return. We conducted the largest systematic literature review to date for global evidence of palaeo-human impacts in savannahs, and conclude that impacts are widespread and should be incorporated into models aimed at understanding savannah persistence at elevated precipitation, particularly as more palaeodata emerges. Building on existing studies, we refine the MAP savannah relationship at higher MAP. Palaeoanthropogenic impact can help explain inconsistencies in the savannah/forest boundary at higher MAP, and points to a key role for palaeoecology in understanding systems. Including these effects presents a crucial change to our understanding of factors determining global savannah distribution, supporting a human hand in much of their formation.

Published

2022

8. Author Correction: A global-scale expert assessment of drivers and risks associated with pollinator decline.

Author

Dicks LV, Breeze TD, Ngo HT, Senapathi D, An J, Aizen MA, Basu P, Buchori D, Galetto L, Garibaldi LA, Gemmill-Herren B, Howlett BG, Imperatriz-Fonseca VL, Johnson SD, Kovács-Hostyánszki A, Kwon YJ, Lattorff HMG, Lungharwo T, Seymour CL, Vanbergen AJ, and Potts SG

Published

2021

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

Author

Dicks LV, Breeze TD, Ngo HT, Senapathi D, An J, Aizen MA, Basu P, Buchori D, Galetto L, Garibaldi LA, Gemmill-Herren B, Howlett BG, Imperatriz-Fonseca VL, Johnson SD, Kovács-Hostyánszki A, Kwon YJ, Lattorff HMG, Lungharwo T, Seymour CL, Vanbergen AJ, and Potts SG

Subjects

Crops, Agricultural, Europe, Humans, North America, Pesticides, Pollination

Abstract

Pollinator decline has attracted global attention and substantial efforts are underway to respond through national pollinator strategies and action plans. These policy responses require clarity on what is driving pollinator decline and what risks it generates for society in different parts of the world. Using a formal expert elicitation process, we evaluated the relative regional and global importance of eight drivers of pollinator decline and ten consequent risks to human well-being. Our results indicate that global policy responses should focus on reducing pressure from changes in land cover and configuration, land management and pesticides, as these were considered very important drivers in most regions. We quantify how the importance of drivers and risks from pollinator decline, differ among regions. For example, losing access to managed pollinators was considered a serious risk only for people in North America, whereas yield instability in pollinator-dependent crops was classed as a serious or high risk in four regions but only a moderate risk in Europe and North America. Overall, perceived risks were substantially higher in the Global South. Despite extensive research on pollinator decline, our analysis reveals considerable scientific uncertainty about what this means for human society., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2021

10. Plant shade enhances thermoregulation of internal environments in Trinervitermes trinervoides mounds.

Author

Ndlovu M, Nampa G, Joseph GS, and Seymour CL

Subjects

Animals, Biodiversity, Infrared Rays, Plants, Behavior, Animal, Body Temperature, Isoptera physiology, Movement

Abstract

Microhabitats may be crucial in buffering organisms from temperature extremes, particularly given increases in maximum temperature associated with global climate change. For example, thermoregulation in termite mounds is influenced by prevailing ambient conditions, and plant canopies may reduce external temperatures, in turn lowering internal temperatures. This buffering may be crucial during heat waves. Whether this happens, and to what extent, remains equivocal, however. We tracked internal temperatures in eight inhabited and six uninhabited Trinervitermes trinervoides mounds, half of each group of which were shaded by vegetation. T. trinervoides seek to maintain internal mound temperatures at c. 20 °C in winter and c. 30 °C in summer. Temperatures were logged for 72 h in winter, and again in summer. Internal temperatures of uninhabited mounds mirrored those of external temperatures, with temperatures varying by c. 15 °C, although shading was associated with some buffering of internal temperatures. Internal temperatures within inhabited mounds were far less variable, varying by c. 6 °C over the course of our study. In summer, exposed inhabited mounds maintained temperatures c. 29.5 °C, whilst shaded inhabited mounds were c. 27.5 °C. In winter, mean internal temperatures of exposed and shaded inhabited mounds were very similar, at 21.8 and 22.0 °C, respectively. Internal mound temperature varied significantly with external (ambient) temperature, mound activity, temperature, shading, and to a small extent, mound volume. The buffering effect of shade was evident in summer (c. 2 °C) but not in winter, suggesting that the benefit of such temperature modulation may be most important when ambient temperatures reach heat extremes, e.g. during heat waves., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

11. Repeated surveying over 6 years reveals that fine-scale habitat variables are key to tropical mountain ant assemblage composition and functional diversity.

Author

Muluvhahothe MM, Joseph GS, Seymour CL, Munyai TC, and Foord SH

Abstract

High-altitude-adapted ectotherms can escape competition from dominant species by tolerating low temperatures at cooler elevations, but climate change is eroding such advantages. Studies evaluating broad-scale impacts of global change for high-altitude organisms often overlook the mitigating role of biotic factors. Yet, at fine spatial-scales, vegetation-associated microclimates provide refuges from climatic extremes. Using one of the largest standardised data sets collected to date, we tested how ant species composition and functional diversity (i.e., the range and value of species traits found within assemblages) respond to large-scale abiotic factors (altitude, aspect), and fine-scale factors (vegetation, soil structure) along an elevational gradient in tropical Africa. Altitude emerged as the principal factor explaining species composition. Analysis of nestedness and turnover components of beta diversity indicated that ant assemblages are specific to each elevation, so species are not filtered out but replaced with new species as elevation increases. Similarity of assemblages over time (assessed using beta decay) did not change significantly at low and mid elevations but declined at the highest elevations. Assemblages also differed between northern and southern mountain aspects, although at highest elevations, composition was restricted to a set of species found on both aspects. Functional diversity was not explained by large scale variables like elevation, but by factors associated with elevation that operate at fine scales (i.e., temperature and habitat structure). Our findings highlight the significance of fine-scale variables in predicting organisms' responses to changing temperature, offering management possibilities that might dilute climate change impacts, and caution when predicting assemblage responses using climate models, alone.

Published

2021

12. Post-pollination barriers enable coexistence of pollinator-sharing ornithophilous Erica species.

Author

Coetzee A, Spottiswoode CN, and Seymour CL

Subjects

Animals, Birds, Pollen, Reproduction, Species Specificity, Ericaceae physiology, Flowers physiology, Pollination

Abstract

Some evolutionary radiations produce a number of closely-related species that continue to coexist. In such plant systems, when pre-pollination barriers are weak, relatively strong post-pollination reproductive barriers are required to maintain species boundaries. Even when post-pollination barriers are in place, however, reproductive interference and pollinator dependence may strengthen selection for pre-pollination barriers. We assessed whether coexistence of species from the unusually speciose Erica genus in the fynbos biome, South Africa, is enabled through pre-pollination or post-pollination barriers. We also tested for reproductive interference and pollinator dependence. We investigated this in natural populations of three bird-pollinated Erica species (Erica plukenetii, E. curviflora and E. coccinea), which form part of a large guild of congeneric species that co-flower and share a single pollinator species (Orange-breasted Sunbird Anthobaphes violacea). At least two of the three pre-pollination barriers assessed (distribution ranges, flowering phenology and flower morphology) were weak in each species pair. Hand-pollination experiments revealed that seed set from heterospecific pollination (average 8%) was significantly lower than seed set from outcross pollination (average 50%), supporting the hypothesis that species boundaries are maintained through post-pollination barriers. Reproductive interference, assessed in one population by applying outcross pollen three hours after applying heterospecific pollen, significantly reduced seed set compared to outcross pollen alone. This may drive selection for traits that enhance pre-pollination barriers, particularly given that two of the three species were self-sterile, and therefore pollinator dependent. This study suggests that post-pollination reproductive barriers could facilitate the coexistence of congeneric species, in a recent radiation with weak pre-pollination reproductive barriers.

Published

2020

13. Madagascan highlands: originally woodland and forest containing endemic grasses, not grazing-adapted grassland.

Author

Joseph GS and Seymour CL

Subjects

Madagascar, Adaptation, Physiological, Biodiversity, Forests, Grassland

Abstract

Long considered a consequence of anthropogenic agropastoralism, the origin of Madagascar's central highland grassland is hotly disputed. Arguments that ancient endemic grasses formed grassland maintained by extinct grazers and fire have been persuasive. Consequent calls to repeal fire-suppression legislation, burn protected areas, and accept pastoralism as the 'salvation' of endemic grasses mount, even as the International Union for Conservation of Nature (IUCN) declares 98% of lemurs face extinction through fire-driven deforestation. By analysing grass data from contemporary studies, and assessing endemic vertebrate habitat and feeding guilds, we find that although the grassland potentially dates from the Miocene, it is inhospitable to endemic vertebrates and lacks obligate grazers. Endemic grasses are absent from dominant grassland assemblages, yet not from woodland and forest assemblages. There is compelling evidence that humans entered a highland dominated by woodland and forest, and burned it; by 1000 current era (CE), grass pollens eclipsed tree pollens, reminiscent of prevailing fire-induced transformation of African miombo woodland to grassland. Endemic grasses are survivors from vanished woody habitats where grassy patches were likely small and ephemeral, precluding adaptive radiation by endemic vertebrates to form grazing-guilds. Today forests, relic tapia woodland, and outcompeted endemic grasses progressively retreat in a burning grassland dominated by non-endemic, grazing-adapted grasses and cattle.

Published

2020

14. Global priorities of environmental issues to combat food insecurity and biodiversity loss.

Author

Scherer L, Svenning JC, Huang J, Seymour CL, Sandel B, Mueller N, Kummu M, Bekunda M, Bruelheide H, Hochman Z, Siebert S, Rueda O, and van Bodegom PM

Subjects

Biodiversity, Climate Change, Conservation of Natural Resources, Hydrogen-Ion Concentration, Seawater, Food Supply

Abstract

Various environmental challenges are rapidly threatening ecosystems and societies globally. Major interventions and a strategic approach are required to minimize harm and to avoid reaching catastrophic tipping points. Setting evidence-based priorities aids maximizing the impact of the limited resources available for environmental interventions. Focusing on protecting both food security and biodiversity, international experts prioritized major environmental challenges for intervention based on three comprehensive criteria - importance, neglect, and tractability. The top priorities differ between food security and biodiversity. For food security, the top priorities are pollinator loss, soil compaction, and nutrient depletion, and for biodiversity conservation, ocean acidification and land and sea use (especially habitat degradation) are the main concerns. While climate change might be the most pressing environmental challenge and mitigation is clearly off-track, other issues rank higher because of climate change's high attention in research. Research and policy agendas do not yet consistently cover these priorities. Thus, a shift in attention towards the high-priority environmental challenges, identified here, is needed to increase the effectiveness of global environmental protection., 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., (Copyright © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2020

15. Horizon scanning for South African biodiversity: A need for social engagement as well as science.

Author

Seymour CL, Gillson L, Child MF, Tolley KA, Curie JC, da Silva JM, Alexander GJ, Anderson P, Downs CT, Egoh BN, Ehlers Smith DA, Ehlers Smith YC, Esler KJ, O'Farrell PJ, Skowno AL, Suleman E, and Veldtman R

Subjects

Politics, South Africa, Biodiversity, Conservation of Natural Resources

Abstract

A horizon scan was conducted to identify emerging and intensifying issues for biodiversity conservation in South Africa over the next 5-10 years. South African biodiversity experts submitted 63 issues of which ten were identified as priorities using the Delphi method. These priority issues were then plotted along axes of social agreement and scientific certainty, to ascertain whether issues might be "simple" (amenable to solutions from science alone), "complicated" (socially agreed upon but technically complicated), "complex" (scientifically challenging and significant levels of social disagreement) or "chaotic" (high social disagreement and highly scientifically challenging). Only three of the issues were likely to be resolved by improved science alone, while the remainder require engagement with social, economic and political factors. Fortunately, none of the issues were considered chaotic. Nevertheless, strategic communication, education and engagement with the populace and policy makers were considered vital for addressing emerging issues.

Published

2020

16. Global agricultural productivity is threatened by increasing pollinator dependence without a parallel increase in crop diversification.

Author

Aizen MA, Aguiar S, Biesmeijer JC, Garibaldi LA, Inouye DW, Jung C, Martins DJ, Medel R, Morales CL, Ngo H, Pauw A, Paxton RJ, Sáez A, and Seymour CL

Subjects

Animals, Asia, Crops, Agricultural, Pollination, Agriculture, Ecosystem

Abstract

The global increase in the proportion of land cultivated with pollinator-dependent crops implies increased reliance on pollination services. Yet agricultural practices themselves can profoundly affect pollinator supply and pollination. Extensive monocultures are associated with a limited pollinator supply and reduced pollination, whereas agricultural diversification can enhance both. Therefore, areas where agricultural diversity has increased, or at least been maintained, may better sustain high and more stable productivity of pollinator-dependent crops. Given that >80% of all crops depend, to varying extents, on insect pollination, a global increase in agricultural pollinator dependence over recent decades might have led to a concomitant increase in agricultural diversification. We evaluated whether an increase in the area of pollinator-dependent crops has indeed been associated with an increase in agricultural diversity, measured here as crop diversity, at the global, regional, and country scales for the period 1961-2016. Globally, results show a relatively weak and decelerating rise in agricultural diversity over time that was largely decoupled from the strong and continually increasing trend in agricultural dependency on pollinators. At regional and country levels, there was no consistent relationship between temporal changes in pollinator dependence and crop diversification. Instead, our results show heterogeneous responses in which increasing pollinator dependence for some countries and regions has been associated with either an increase or a decrease in agricultural diversity. Particularly worrisome is a rapid expansion of pollinator-dependent oilseed crops in several countries of the Americas and Asia that has resulted in a decrease in agricultural diversity. In these regions, reliance on pollinators is increasing, yet agricultural practices that undermine pollination services are expanding. Our analysis has thereby identified world regions of particular concern where environmentally damaging practices associated with large-scale, industrial agriculture threaten key ecosystem services that underlie productivity, in addition to other benefits provided by biodiversity., (© 2019 The Authors. Global Change Biology Published by John Wiley & Sons Ltd.)

Published

2019

17. A Horizon Scan of Emerging Issues for Global Conservation in 2019.

Author

Sutherland WJ, Broad S, Butchart SHM, Clarke SJ, Collins AM, Dicks LV, Doran H, Esmail N, Fleishman E, Frost N, Gaston KJ, Gibbons DW, Hughes AC, Jiang Z, Kelman R, LeAnstey B, le Roux X, Lickorish FA, Monk KA, Mortimer D, Pearce-Higgins JW, Peck LS, Pettorelli N, Pretty J, Seymour CL, Spalding MD, Wentworth J, and Ockendon N

Subjects

Biodiversity, Conservation of Natural Resources trends, Forecasting

Abstract

We present the results of our tenth annual horizon scan. We identified 15 emerging priority topics that may have major positive or negative effects on the future conservation of global biodiversity, but currently have low awareness within the conservation community. We hope to increase research and policy attention on these areas, improving the capacity of the community to mitigate impacts of potentially negative issues, and maximise the benefits of issues that provide opportunities. Topics include advances in crop breeding, which may affect insects and land use; manipulations of natural water flows and weather systems on the Tibetan Plateau; release of carbon and mercury from melting polar ice and thawing permafrost; new funding schemes and regulations; and land-use changes across Indo-Malaysia., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2019

18. A 2018 Horizon Scan of Emerging Issues for Global Conservation and Biological Diversity.

Author

Sutherland WJ, Butchart SHM, Connor B, Culshaw C, Dicks LV, Dinsdale J, Doran H, Entwistle AC, Fleishman E, Gibbons DW, Jiang Z, Keim B, Roux XL, Lickorish FA, Markillie P, Monk KA, Mortimer D, Pearce-Higgins JW, Peck LS, Pretty J, Seymour CL, Spalding MD, Tonneijck FH, and Gleave RA

Subjects

Biodiversity, Conservation of Natural Resources, Ecosystem

Abstract

This is our ninth annual horizon scan to identify emerging issues that we believe could affect global biological diversity, natural capital and ecosystem services, and conservation efforts. Our diverse and international team, with expertise in horizon scanning, science communication, as well as conservation science, practice, and policy, reviewed 117 potential issues. We identified the 15 that may have the greatest positive or negative effects but are not yet well recognised by the global conservation community. Themes among these topics include new mechanisms driving the emergence and geographic expansion of diseases, innovative biotechnologies, reassessments of global change, and the development of strategic infrastructure to facilitate global economic priorities., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

19. A horizon scan of future threats and opportunities for pollinators and pollination.

Author

Brown MJ, Dicks LV, Paxton RJ, Baldock KC, Barron AB, Chauzat MP, Freitas BM, Goulson D, Jepsen S, Kremen C, Li J, Neumann P, Pattemore DE, Potts SG, Schweiger O, Seymour CL, and Stout JC

Abstract

Background. Pollinators, which provide the agriculturally and ecologically essential service of pollination, are under threat at a global scale. Habitat loss and homogenisation, pesticides, parasites and pathogens, invasive species, and climate change have been identified as past and current threats to pollinators. Actions to mitigate these threats, e.g., agri-environment schemes and pesticide-use moratoriums, exist, but have largely been applied post-hoc. However, future sustainability of pollinators and the service they provide requires anticipation of potential threats and opportunities before they occur, enabling timely implementation of policy and practice to prevent, rather than mitigate, further pollinator declines. Methods.Using a horizon scanning approach we identified issues that are likely to impact pollinators, either positively or negatively, over the coming three decades. Results.Our analysis highlights six high priority, and nine secondary issues. High priorities are: (1) corporate control of global agriculture, (2) novel systemic pesticides, (3) novel RNA viruses, (4) the development of new managed pollinators, (5) more frequent heatwaves and drought under climate change, and (6) the potential positive impact of reduced chemical use on pollinators in non-agricultural settings. Discussion. While current pollinator management approaches are largely driven by mitigating past impacts, we present opportunities for pre-emptive practice, legislation, and policy to sustainably manage pollinators for future generations.

Published

2016

20. Wild pollinators enhance fruit set of crops regardless of honey bee abundance.

Author

Garibaldi LA, Steffan-Dewenter I, Winfree R, Aizen MA, Bommarco R, Cunningham SA, Kremen C, Carvalheiro LG, Harder LD, Afik O, Bartomeus I, Benjamin F, Boreux V, Cariveau D, Chacoff NP, Dudenhöffer JH, Freitas BM, Ghazoul J, Greenleaf S, Hipólito J, Holzschuh A, Howlett B, Isaacs R, Javorek SK, Kennedy CM, Krewenka KM, Krishnan S, Mandelik Y, Mayfield MM, Motzke I, Munyuli T, Nault BA, Otieno M, Petersen J, Pisanty G, Potts SG, Rader R, Ricketts TH, Rundlöf M, Seymour CL, Schüepp C, Szentgyörgyi H, Taki H, Tscharntke T, Vergara CH, Viana BF, Wanger TC, Westphal C, Williams N, and Klein AM

Subjects

Animals, Bees physiology, Flowers physiology, Crops, Agricultural growth & development, Fruit growth & development, Insecta physiology, Pollination

Abstract

The diversity and abundance of wild insect pollinators have declined in many agricultural landscapes. Whether such declines reduce crop yields, or are mitigated by managed pollinators such as honey bees, is unclear. We found universally positive associations of fruit set with flower visitation by wild insects in 41 crop systems worldwide. In contrast, fruit set increased significantly with flower visitation by honey bees in only 14% of the systems surveyed. Overall, wild insects pollinated crops more effectively; an increase in wild insect visitation enhanced fruit set by twice as much as an equivalent increase in honey bee visitation. Visitation by wild insects and honey bees promoted fruit set independently, so pollination by managed honey bees supplemented, rather than substituted for, pollination by wild insects. Our results suggest that new practices for integrated management of both honey bees and diverse wild insect assemblages will enhance global crop yields.

Published

2013

21. Immunoassay for detection of feline immunodeficiency virus core antigen.

Author

Tilton GK, O'Connor TP Jr, Seymour CL, Lawrence KL, Cohen ND, Andersen PR, and Tonelli QJ

Subjects

Animals, Antibodies, Monoclonal, Antibodies, Viral, Cats, Evaluation Studies as Topic, Retroviridae Infections diagnosis, Antigens, Viral analysis, Enzyme-Linked Immunosorbent Assay, Retroviridae immunology, Viral Core Proteins immunology

Abstract

The feline immunodeficiency virus (FIV) is a recently identified feline lentivirus that has been found at significant levels in domestic cat populations worldwide. A microdilution plate format, monoclonal antibody-based enzyme-linked immunosorbent assay was developed for the detection of the FIV group-associated antigen (gag) designated p24. Assays of serially diluted samples containing disrupted virus showed that the assay had a sensitivity limit of approximately 0.2 ng/ml for FIV p24. The assay was approximately eightfold more sensitive than the assay for viral reverse transcriptase activity when it was tested with diluted tissue culture samples. A qualitative confirmation assay by standard antibody inhibition techniques was coupled to the screening test methodology. The test was used to detect and confirm the presence of virus in cultured feline lymphocytes from infected animals.

Published

1990

22. Evaluation of a diagnostic antigen for the detection of Aujeszky's disease virus-infected subunit-vaccinated pigs.

Author

Platt KB, Hill HT, Seymour CL, and Pirtle EC

Subjects

Animals, Antibody Formation, Cattle, Cell Line, Enzyme-Linked Immunosorbent Assay, Immunization Schedule, Immunoelectrophoresis, Two-Dimensional, Kidney, Macromolecular Substances, Swine, Antigens, Viral analysis, Herpesvirus 1, Suid isolation & purification, Pseudorabies immunology, Vaccination

Abstract

An early virus protein complex that is found in the maintenance medium of Aujeszky's disease (AD) virus-infected cells was evaluated as a subunit diagnostic antigen (SUDA) in the enzyme-linked immunosorbent assay (ELISA). This antigen was found in purer form and in larger quantities for up to 12 h post-infection in the maintenance medium of AD virus-infected MDBK cell cultures than in the maintenance medium of virus-infected porcine Fallopian tube (PFT) and PK1a cell cultures. The SUDA was shown to be compatible with a lectin-derived subunit vaccine by the absence of positive ELISA reactions for antibody to this antigen in 25 AD virus-free subunit-vaccinated pigs. Following virus challenge, all fo 24 surviving vaccinated pigs seroconverted to SUDA within 10 days. Compatibility with the vaccine was further demonstrated by the absence of positive ELISA reactions for antibody to SUDA in 12 pigs that received five or six consecutive vaccine doses at 3-wk intervals. The sensitivity of the ELISA with SUDA was demonstrated by the detection of antibody in virus-infected vaccinated and non-vaccinated pigs for at least 15 and 22 weeks, respectively, following exposure to virus. The SUDA was also economical: it was calculated that 8000-14 000 tests could be run with the antigen present in the maintenance medium of one 850 cm2 plastic tissue culture roller bottle of virus-infected MDBK cells.

Published

1986