Your search keyword '"Vanbergen, Adam"' showing total 11 results

1. Species traits, landscape quality and floral resource overlap with honeybees determine virus transmission in plant–pollinator networks.

Author

Maurer, Corina, Schauer, Alexandria, Yañez, Orlando, Neumann, Peter, Gajda, Anna, Paxton, Robert J., Pellissier, Loïc, Schweiger, Oliver, Szentgyörgyi, Hajnalka, Vanbergen, Adam J., and Albrecht, Matthias

Published

2024

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

Author

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

Published

2021

3. Soil biota, carbon cycling and crop plant biomass responses to biochar in a temperate mesocosm experiment

Author

McCormack, Sarah A., Ostle, Nick, Bardgett, Richard D., Hopkins, David W., Pereira, M. Gloria, Vanbergen, Adam J., McCormack, Sarah A., Ostle, Nick, Bardgett, Richard D., Hopkins, David W., Pereira, M. Gloria, and Vanbergen, Adam J.

Abstract

Background and aims: Biochar addition to soil is a carbon capture and storage option with potential to mitigate rising atmospheric CO2 concentrations, yet the consequences for soil organisms and linked ecosystem processes are inconsistent or unknown. We tested biochar impact on soil biodiversity, ecosystem functions, and their interactions, in temperate agricultural soils. Methods: We performed a 27-month factorial experiment to determine effects of biochar, soil texture, and crop species treatments on microbial biomass (PFLA), soil invertebrate density, crop biomass and ecosystem CO2 flux in plant-soil mesocosms. Results: Overall soil microbial biomass, microarthropod abundance and crop biomass were unaffected by biochar, although there was an increase in fungal-bacterial ratio and a positive relationship between the 16:1ω5 fatty acid marker of AMF mass and collembolan density in the biochar-treated mesocosms. Ecosystem CO2 fluxes were unaffected by biochar, but soil carbon content of biochar-treated mesocosms was significantly lower, signifying a possible movement/loss of biochar or priming effect. Conclusions: Compared to soil texture and crop type, biochar had minimal impact on soil biota, crop production and carbon cycling. Future research should examine subtler effects of biochar on biotic regulation of ecosystem production and if the apparent robustness to biochar weakens over greater time spans or in combination with other ecological perturbations.

Published

2019

4. Arbuscular Mycorrhizal Fungi and Plant Chemical Defence: Effects of Colonisation on Aboveground and Belowground Metabolomes.

Author

Hill, Elizabeth M., Robinson, Lynne A., Abdul-Sada, Ali, Vanbergen, Adam J., Hodge, Angela, and Hartley, Sue E.

Subjects

VESICULAR-arbuscular mycorrhizas, PLANT chemical defenses, METABOLOMICS, PYRROLIZIDINES, TANSY ragwort

Abstract

Arbuscular mycorrhizal fungal (AMF) colonisation of plant roots is one of the most ancient and widespread interactions in ecology, yet the systemic consequences for plant secondary chemistry remain unclear. We performed the first metabolomic investigation into the impact of AMF colonisation by Rhizophagus irregularis on the chemical defences, spanning above- and below-ground tissues, in its host-plant ragwort (Senecio jacobaea). We used a non-targeted metabolomics approach to profile, and where possible identify, compounds induced by AMF colonisation in both roots and shoots. Metabolomics analyses revealed that 33 compounds were significantly increased in the root tissue of AMF colonised plants, including seven blumenols, plant-derived compounds known to be associated with AMF colonisation. One of these was a novel structure conjugated with a malonyl-sugar and uronic acid moiety, hitherto an unreported combination. Such structural modifications of blumenols could be significant for their previously reported functional roles associated with the establishment and maintenance of AM colonisation. Pyrrolizidine alkaloids (PAs), key anti-herbivore defence compounds in ragwort, dominated the metabolomic profiles of root and shoot extracts. Analyses of the metabolomic profiles revealed an increase in four PAs in roots (but not shoots) of AMF colonised plants, with the potential to protect colonised plants from below-ground organisms. [ABSTRACT FROM AUTHOR]

Published

2018

5. Risks to pollinators and pollination from invasive alien species.

Author

Vanbergen, Adam J., Espíndola, Anahí, and Aizen, Marcelo A.

Published

2018

6. Safeguarding pollinators and their values to human well-being.

Author

Potts, Simon G., Imperatriz-Fonseca, Vera, Ngo, Hien T., Aizen, Marcelo A., Biesmeijer, Jacobus C., Breeze, Thomas D., Dicks, Lynn V., Garibaldi, Lucas A., Hill, Rosemary, Settele, Josef, and Vanbergen, Adam J.

Abstract

Wild and managed pollinators provide a wide range of benefits to society in terms of contributions to food security, farmer and beekeeper livelihoods, social and cultural values, as well as the maintenance of wider biodiversity and ecosystem stability. Pollinators face numerous threats, including changes in land-use and management intensity, climate change, pesticides and genetically modified crops, pollinator management and pathogens, and invasive alien species. There are well-documented declines in some wild and managed pollinators in several regions of the world. However, many effective policy and management responses can be implemented to safeguard pollinators and sustain pollination services. [ABSTRACT FROM AUTHOR]

Published

2016

7. A cocktail of pesticides, parasites and hunger leaves bees down and out.

Author

Vanbergen, Adam J.

Abstract

Pollinators are under threat. A meta-analysis reveals that the combination of agrochemicals, parasites and malnutrition has a cumulative negative effect on bees, and that pesticide–pesticide interactions increase bee mortality.Analysis reveals combinations of stressors that threaten pollinators. [ABSTRACT FROM AUTHOR]

Published

2021

8. Elevated Atmospheric CO Impairs Aphid Escape Responses to Predators and Conspecific Alarm Signals.

Author

Hentley, William, Vanbergen, Adam, Hails, Rosemary, Jones, T., and Johnson, Scott

Subjects

*ATMOSPHERIC carbon dioxide, *APHIDS, *PREDATORY animals, *CLIMATE change, *CHEMICAL ecology, *HERBIVORES

Abstract

Research into the impact of atmospheric change on predator-prey interactions has mainly focused on density dependent responses and trophic linkages. As yet, the chemical ecology underpinning predator-prey interactions has received little attention in environmental change research. Group living animals have evolved behavioral mechanisms to escape predation, including chemical alarm signalling. Chemical alarm signalling between conspecific prey could be susceptible to environmental change if the physiology and behavior of these organisms are affected by changes in dietary quality resulting from environmental change. Using Rubus idaeus plants, we show that elevated concentrations of atmospheric CO (eCO) severely impaired escape responses of the aphid Amphorophora idaei to predation by ladybird larvae ( Harmonia axyridis). Escape responses to ladybirds was reduced by >50 % after aphids had been reared on plants grown under eCO. This behavioral response was rapidly induced, occurring within 24 h of being transferred to plants grown at eCO and, once induced, persisted even after aphids were transferred to plants grown at ambient CO. Escape responses were impaired due to reduced sensitivity to aphid alarm pheromone, ( E)-β-farnesene, via an undefined plant-mediated mechanism. Aphid abundance often increases under eCO, however, reduced efficacy of conspecific signalling may increase aphid vulnerability to predation, highlighting the need to study the chemical ecology of predator-prey interactions under environmental change. [ABSTRACT FROM AUTHOR]

Published

2014

9. Functional traits as indicators of biodiversity response to land use changes across ecosystems and organisms.

Author

Vandewalle, Marie, Bello, Francesco de, Berg, Matty P., Bolger, Thomas, Dolédec, Sylvain, Dubs, Florence, Feld, Christian K., Harrington, Richard, Harrison, Paula A., Lavorel, Sandra, Silva, Pedro Martin da, Moretti, Marco, Niemelä, Jari, Santos, J. Paulo, Sattler, Thomas, Sousa, J., Sykes, Martin T., Vanbergen, Adam, and Woodcock, Ben

Subjects

BIODIVERSITY, BIOTIC communities, GLOBAL environmental change, WILDLIFE conservation, HABITATS, COLLEMBOLA, ENVIRONMENTAL monitoring, INVERTEBRATES, LAND use

Abstract

Rigorous and widely applicable indicators of biodiversity are needed to monitor the responses of ecosystems to global change and design effective conservation schemes. Among the potential indicators of biodiversity, those based on the functional traits of species and communities are interesting because they can be generalized to similar habitats and can be assessed by relatively rapid field assessment across eco-regions. Functional traits, however, have as yet been rarely considered in current common monitoring schemes. Moreover, standardized procedures of trait measurement and analyses have almost exclusively been developed for plants but different approaches have been used for different groups of organisms. Here we review approaches using functional traits as biodiversity indicators focussing not on plants as usual but particularly on animal groups that are commonly considered in different biodiversity monitoring schemes (benthic invertebrates, collembolans, above ground insects and birds). Further, we introduce a new framework based on functional traits indices and illustrate it using case studies where the traits of these organisms can help monitoring the response of biodiversity to different land use change drivers. We propose and test standard procedures to integrate different components of functional traits into biodiversity monitoring schemes across trophic levels and disciplines. We suggest that the development of indicators using functional traits could complement, rather than replace, the existent biodiversity monitoring. In this way, the comparison of the effect of land use changes on biodiversity is facilitated and is expected to positively influence conservation management practices. [ABSTRACT FROM AUTHOR]

Published

2010

10. Scale-specific correlations between habitat heterogeneity and soil fauna diversity along a landscape structure gradient.

Author

Vanbergen, Adam J., Watt, Allan D., Mitchell, Ruth, Truscott, Anne-Marie, Palmer, Stephen C. F., Ivits, Eva, Eggleton, Paul, Jones, T. Hefin, and Sousa, José Paulo

Subjects

*HABITATS, *SOIL animals, *ECOLOGY, *SOIL biology, *BIODIVERSITY, *EARTHWORMS, *SPECIES diversity

Abstract

Habitat heterogeneity contributes to the maintenance of diversity, but the extent that landscape-scale rather than local-scale heterogeneity influences the diversity of soil invertebrates—species with small range sizes—is less clear. Using a Scottish habitat heterogeneity gradient we correlated Collembola and lumbricid worm species richness and abundance with different elements (forest cover, habitat richness and patchiness) and qualities (plant species richness, soil variables) of habitat heterogeneity, at landscape (1 km2) and local (up to 200 m2) scales. Soil fauna assemblages showed considerable turnover in species composition along this habitat heterogeneity gradient. Soil fauna species richness and turnover was greatest in landscapes that were a mosaic of habitats. Soil fauna diversity was hump-shaped along a gradient of forest cover, peaking where there was a mixture of forest and open habitats in the landscape. Landscape-scale habitat richness was positively correlated with lumbricid diversity, while Collembola and lumbricid abundances were negatively and positively related to landscape spatial patchiness. Furthermore, soil fauna diversity was positively correlated with plant diversity, which in turn peaked in the sites that were a mosaic of forest and open habitat patches. There was less evidence that local-scale habitat variables (habitat richness, tree cover, plant species richness, litter cover, soil pH, depth of organic horizon) affected soil fauna diversity: Collembola diversity was independent of all these measures, while lumbricid diversity positively and negatively correlated with vascular plant species richness and tree canopy density. Landscape-scale habitat heterogeneity affects soil diversity regardless of taxon, while the influence of habitat heterogeneity at local scales is dependent on taxon identity, and hence ecological traits, e.g. body size. Landscape-scale habitat heterogeneity by providing different niches and refuges, together with passive dispersal and population patch dynamics, positively contributes to soil faunal diversity. [ABSTRACT FROM AUTHOR]

Published

2007

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

Author

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

Published

2021