Your search keyword '"Haubruge, Eric"' showing total 15 results

1. Elevated Carbon Dioxide Concentration Reduces Alarm Signaling in Aphids.

Author

Boullis A, Fassotte B, Sarles L, Lognay G, Heuskin S, Vanderplanck M, Bartram S, Haubruge E, Francis F, and Verheggen FJ

Subjects

Air Pollutants toxicity, Animals, Carbon Dioxide toxicity, Coleoptera physiology, Dose-Response Relationship, Drug, Escape Reaction physiology, Pheromones analysis, Predatory Behavior, Sesquiterpenes analysis, Air Pollutants analysis, Animal Communication, Aphids physiology, Carbon Dioxide analysis, Escape Reaction drug effects, Pheromones metabolism, Sesquiterpenes metabolism

Abstract

Insects often rely on olfaction to communicate with conspecifics. While the chemical language of insects has been deciphered in recent decades, few studies have assessed how changes in atmospheric greenhouse gas concentrations might impact pheromonal communication in insects. Here, we hypothesize that changes in the concentration of atmospheric carbon dioxide affect the whole dynamics of alarm signaling in aphids, including: (1) the production of the active compound (E)-β-farnesene (Eβf), (2) emission behavior when under attack, (3) perception by the olfactory apparatus, and (4) the escape response. We reared two strains of the pea aphid, Acyrthosiphon pisum, under ambient and elevated CO 2 concentrations over several generations. We found that an increase in CO 2 concentration reduced the production (i.e., individual content) and emission (released under predation events) of Eβf. While no difference in Eβf neuronal perception was observed, we found that an increase in CO 2 strongly reduced the escape behavior expressed by an aphid colony following exposure to natural doses of alarm pheromone. In conclusion, our results confirm that changes to greenhouse gases impact chemical communication in the pea aphid, and could potentially have a cascade effect on interactions with higher trophic levels.

Published

2017

2. Aphid alarm pheromone: an overview of current knowledge on biosynthesis and functions.

Author

Vandermoten S, Mescher MC, Francis F, Haubruge E, and Verheggen FJ

Subjects

Animals, Pheromones metabolism, Animal Communication, Aphids metabolism, Food Chain, Pest Control, Biological, Pheromones biosynthesis

Abstract

Aphids are important agricultural and forest pests that exhibit complex behaviors elicited by pheromonal signals. The aphid alarm pheromone--of which (E)-β-farnesene is the key (or only) component in most species--plays important roles in mediating interactions among individuals as well as multitrophic interactions among plants, aphids, and aphid natural enemies. Though many important questions remain to be answered, a large body of research has addressed various aspects of the biology, physiology, and ecology of aphid alarm pheromones. Here we review recent advances in our understanding of (a) the identity and composition of aphid alarm signals; (b) their biosynthesis and production; (c) their effects on conspecifics; (d) their role as cues for other insect species; and (e) their potential application for the management of pest organisms., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

3. Optimisation of a semiochemical slow-release alginate formulation attractive towards Aphidius ervi Haliday parasitoids.

Author

Heuskin S, Lorge S, Godin B, Leroy P, Frère I, Verheggen FJ, Haubruge E, Wathelet JP, Mestdagh M, Hance T, and Lognay G

Subjects

Animals, Aphids physiology, Delayed-Action Preparations chemistry, Female, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Pest Control, Biological, Pheromones chemistry, Polycyclic Sesquiterpenes, Sesquiterpenes chemistry, Sesquiterpenes pharmacology, Wasps physiology, Alginates chemistry, Aphids drug effects, Chemistry, Pharmaceutical methods, Delayed-Action Preparations pharmacology, Pheromones pharmacology, Wasps drug effects

Abstract

Background: Optimisation of alginate formulations is described in order to develop semiochemical (E-β-farnesene and E-β-caryophyllene) slow-release devices in biological control approaches by attracting predators and parasitoids of aphids. Various formulation criteria were optimised with respect to semiochemical encapsulation capacity. Moreover, the optimised formulation was characterised by texturometry and confocal microscopy. The slow-release rates of semiochemicals were calculated in laboratory controlled conditions. The attractiveness of semiochemical formulations towards Aphidius ervi was demonstrated by olfactometry., Results: Two major parameters were highlighted in encapsulation optimisation: the type of alginate (Sigma L) and the type of crosslinker ion (Ca(2+)). Other formulation parameters were optimised: ionic strength (0.5 M), Ca(2+) (0.2 M) and alginate (1.5%) concentrations and the maturation time of beads in CaCl(2) solution (48 h). After physical characterisation of beads, semiochemical slow-release measurements showed that alginate formulations were efficient sesquiterpene releasers, with 503 µg of E-β-farnesene and 1791 µg of E-β-caryophyllene totally released in 35 days. The efficiency of semiochemical alginate beads as attractants for female parasitoids was demonstrated, with high percentages of attraction for semiochemical odours (88 and 90% for E-β-farnesene and E-β-caryophyllene respectively) and significant statistical results., Conclusion: Semiochemical alginate beads can be considered as efficient slow-release systems in biological control. These formulations could be very useful to attract aphid parasitoids on crop fields., (Copyright © 2011 Society of Chemical Industry.)

Published

2012

4. Aphid alarm pheromone as a cue for ants to locate aphid partners.

Author

Verheggen FJ, Diez L, Sablon L, Fischer C, Bartram S, Haubruge E, and Detrain C

Subjects

Animals, Animal Communication, Ants physiology, Aphids physiology, Pheromones metabolism

Abstract

The mutualistic relationships that occur between myrmecophilous aphids and ants are based on the rich food supply that honeydew represents for ants and on the protection they provide against aphid natural enemies. While aphid predators and parasitoids actively forage for oviposition sites by using aphid semiochemicals, scouts of aphid-tending ant species would also benefit from locating honeydew resources by orienting toward aphid pheromone sources. The present study aims to provide additional information on the use of Aphis fabae alarm pheromone, i.e. (E)-β-farnesene (EβF), by ant scouts. The perception and behavioral impact of EβF on Lasius niger were investigated using electroantennography and two bio-assays measuring their attraction and orientation towards aphid semiochemicals. Pronounced electrical depolarizations were observed from L. niger scout antennae to stimulations of A. fabae alarm pheromone, while other sesquiterpenes elicited weak or no responses. L. niger scouts were significantly attracted toward EβF in a four-arm olfactometer, as well as in an two-choice bioassay. These laboratory results suggest for the first time that low amounts of aphid alarm pheromone can be used by L. niger scouts as a cue indicating the presence of aphid colonies and could therefore mediate the aphid-ant partnership in the field.

Published

2012

5. Microorganisms from aphid honeydew attract and enhance the efficacy of natural enemies.

Author

Leroy PD, Sabri A, Heuskin S, Thonart P, Lognay G, Verheggen FJ, Francis F, Brostaux Y, Felton GW, and Haubruge E

Subjects

Animals, Aphids microbiology, Base Sequence, DNA Primers genetics, Molecular Sequence Data, Polymerase Chain Reaction, Sequence Analysis, DNA, Staphylococcus genetics, Staphylococcus metabolism, Volatile Organic Compounds analysis, Aphids chemistry, Bodily Secretions microbiology, Pheromones physiology, Staphylococcus physiology, Symbiosis

Abstract

Aphids are one of the most serious pests of crops worldwide, causing major yield and economic losses. To control aphids, natural enemies could be an option but their efficacy is sometimes limited by their dispersal in natural environment. Here we report the first isolation of a bacterium from the pea aphid Acyrthosiphon pisum honeydew, Staphylococcus sciuri, which acts as a kairomone enhancing the efficiency of aphid natural enemies. Our findings represent the first case of a host-associated bacterium driving prey location and ovipositional preference for the natural enemy. We show that this bacterium has a key role in tritrophic interactions because it is the direct source of volatiles used to locate prey. Some specific semiochemicals produced by S. sciuri were also identified as significant attractants and ovipositional stimulants. The use of this host-associated bacterium could certainly provide a novel approach to control aphids in field and greenhouse systems.

Published

2011

6. Alarm pheromones-chemical signaling in response to danger.

Author

Verheggen FJ, Haubruge E, and Mescher MC

Subjects

Animal Communication, Animals, Humans, Plant Physiological Phenomena, Fear physiology, Pheromones physiology, Stress, Psychological metabolism

Abstract

Many animals respond to the threat of predation by producing alarm signals that warn other individuals of the presence of danger or otherwise reduce the success of predators. While alarm signals may be visual or auditory as well as chemical, alarm pheromones are common, especially among insects and aquatic organisms. Plants too emit chemical signals in response to attack by insect herbivores that recruit the herbivores' natural enemies and can induce preparations for defense in neighboring plants (or other parts of the same plant). In this chapter, we discuss our current understanding of chemical alarm signaling in a variety of animal groups (including social and presocial insects, marine invertebrates, fish, and mammals) and in plants. We also briefly discuss the exploitation of alarm pheromones as foraging cues for natural enemies. We conclude with a brief discussion of the potential exploitation of alarm signaling to achieve the applied goal of managing pest species., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

7. Fast gas chromatography characterisation of purified semiochemicals from essential oils of Matricaria chamomilla L. (Asteraceae) and Nepeta cataria L. (Lamiaceae).

Author

Heuskin S, Godin B, Leroy P, Capella Q, Wathelet JP, Verheggen F, Haubruge E, and Lognay G

Subjects

Pheromones isolation & purification, Chromatography, Gas methods, Gas Chromatography-Mass Spectrometry methods, Matricaria chemistry, Nepeta chemistry, Oils, Volatile analysis, Pheromones analysis, Plant Oils chemistry

Abstract

The chemical composition of Matricaria chamomilla L. and Nepeta cataria L. essential oils was determined by GC-MS on an apolar stationary phase by comparison of the characteristic fragmentation patterns with those of the Wiley 275L database. The GC-MS chromatograms were compared with those obtained by fast GC equipped with a direct resistively heated column (Ultra Fast Module 5% phenyl, 5 mx 0.1 mm, 0.1 microm film thickness). Analytical conditions were optimised to reach a good peak resolution (split ratio=1:100), with analysis time lower than 5 min versus 35-45 min required by conventional GC-MS. The fast chromatographic method was completely validated for the analysis of mono- and sesquiterpene compounds. Essential oils were then fractionated by column chromatography packed with silica gel. Three main fractions with high degree of purity in E-beta-farnesene were isolated from the oil of M. chamomilla. One fraction enriched in (Z,E)-nepetalactone and one enriched in beta-caryophyllene were obtained from the oil of N. cataria. These semiochemical compounds could act as attractants of aphid's predators and parasitoids.

Published

2009

8. Aphid and plant volatiles induce oviposition in an aphidophagous hoverfly.

Author

Verheggen FJ, Arnaud L, Bartram S, Gohy M, and Haubruge E

Subjects

Animals, Diptera physiology, Female, Host-Parasite Interactions, Male, Pheromones physiology, Predatory Behavior, Vicia faba physiology, Aphids physiology, Diptera drug effects, Oviposition drug effects, Pheromones pharmacology, Terpenes pharmacology, Vicia faba parasitology

Abstract

Episyrphus balteatus DeGeer (Diptera, Syrphidae) is an abundant and efficient aphid-specific predator. We tested the electroantennographic (EAG) response of this syrphid fly to the common aphid alarm pheromone, (E)-beta-farnesene (EbetaF), and to several plant volatiles, including terpenoids (mono- and sesquiterpenes) and green leaf volatiles (C6 and C9 alcohols and aldehydes). Monoterpenes evoked significant EAG responses, whereas sesquiterpenes were inactive, except for the aphid alarm pheromone (EbetaF). The most pronounced antennal responses were elicited by six and nine carbon green leaf alcohols and aldehydes [i.e., (Z)-3-hexenol, (E)-2-hexenol, (E)-2-hexenal, and hexanal]. To investigate the behavioral activity of some of these EAG-active compounds, E. balteatus females were exposed to R-(+)-limonene (monoterpene), (Z)-3-hexenol (green leaf alcohol), and EbetaF (sesquiterpene, common aphid alarm pheromone). A single E. balteatus gravid female was exposed for 10 min to an aphid-free Vicia faba plant that was co-located with a semiochemical dispenser. Without additional semiochemical, hoverfly females were not attracted to this plant, and no oviposition was observed. The monoterpene R-(+)-limonene did not affect the females' foraging behavior, whereas (Z)-3-hexenol and EbetaF increased the time of flight and acceptance of the host plant. Moreover, these two chemicals induced oviposition on aphid-free plants, suggesting that selection of the oviposition site by predatory hoverflies relies on the perception of a volatile blend composed of prey pheromone and typical plant green leaf volatiles.

Published

2008

9. Electrophysiological and behavioral responses of the multicolored Asian lady beetle, Harmonia axyridis pallas, to sesquiterpene semiochemicals.

Author

Verheggen FJ, Fagel Q, Heuskin S, Lognay G, Francis F, and Haubruge E

Subjects

Animals, Electrophysiology, Polycyclic Sesquiterpenes, Behavior, Animal drug effects, Coleoptera drug effects, Coleoptera physiology, Pheromones pharmacology, Sesquiterpenes pharmacology

Abstract

The role of two volatile sesquiterpenes, (E)-beta-farnesene and (-)-beta-caryophyllene, in the chemical ecology of the multicolored Asian lady beetle, Harmonia axyridis Pallas, was investigated by using both electrophysiological and behavioral techniques. (E)-beta-Farnesene is the major component of the alarm pheromone of most aphid species, which are preyed on by H. axyridis. (-)-beta-Caryophyllene was previously isolated from the headspace volatiles above overwintering and aggregated H. axyridis females. These sesquiterpenes elicited significant electroantennogram (EAG) activity from both H. axyridis male and female antennae. In a four-arm olfactometer, male and female H. axyridis were highly attracted toward (E)-beta-farnesene, whereas only males were attracted to (-)-beta-caryophyllene. In a bioassay technique that used a passively ventilated plastic box, both male and female H. axyridis aggregated in the (-)-beta-caryophyllene-treated side of the box. These results support the potential usefulness of (E)-beta-farnesene and (-)-beta-caryophyllene in push-pull strategies that use H. axyridis as a biological control agent in aphid-infested sites or to control this new urban pest in residential structures.

Published

2007

10. Olfactory responses to aphid and host plant volatile releases: (E)-beta-farnesene an effective kairomone for the predator Adalia bipunctata.

Author

Francis F, Lognay G, and Haubruge E

Subjects

Animals, Aphids chemistry, Brassica napus chemistry, Brassica napus physiology, Environment, Escape Reaction, Gas Chromatography-Mass Spectrometry, Odorants analysis, Pest Control, Biological, Sinapis chemistry, Sinapis physiology, Vicia faba chemistry, Vicia faba physiology, Aphids physiology, Coleoptera physiology, Feeding Behavior, Pheromones analysis, Sesquiterpenes analysis

Abstract

The volatiles released from several aphid and host plant species, alone or associated, were studied for their infochemical role in prey location. Using a four-arm olfactometer, the attraction of several combinations of three aphid (Myzus persicae, Acyrthosiphon pisum, and Brevicoryne brassicae) and three plant (Vicia faba, Brassica napus, and Sinapis alba) species toward Adalia bipunctata larvae and adults was observed. Both predatory larvae and adults were attracted only by A. pisum and M. persicae when they were crushed, whatever the host plant. (E)-beta-farnesene, the aphid alarm pheromone, was the effective kairomone for the ladybird. Plant leaves alone (V. faba, B. napus, and S. alba) or in association with nonstressed whole aphids (the three species) did not have any attraction for the predator. The B. brassicae specialist aphid is the only prey that was not attracted to A. bipunctata larvae and adults, even if they were crushed. Release of B. brassicae molecules similar to the host plant allelochemicals was demonstrated by GC-MS analysis. The lack of behavioral response of the ladybird at short distance toward the cruciferous specialist aphid was related only to the absence of (E)-beta-farnesene in the aphid prey volatile pattern.

Published

2004

11. Is dimethyldecanal a common aggregation pheromone of Tribolium flour beetles?

Author

Arnaud L, Lognay G, Verscheure M, Leenaers L, Gaspar C, and Haubruge E

Subjects

Aldehydes chemistry, Aldehydes isolation & purification, Animals, Female, Gas Chromatography-Mass Spectrometry, Male, Movement, Orientation, Pheromones chemistry, Pheromones isolation & purification, Volatilization, Aldehydes pharmacology, Pheromones pharmacology, Tribolium physiology

Abstract

Flour beetles are cosmopolitan and common pests in grain stores and flour mills. Their ability to exploit a wide variety of stored products has contributed to their status as major pests of stored food. Although it was previously reported that the same aggregation pheromone, 4,8-dimethyldecanal (DMD), is shared by three flour beetles species (Tribolium castaneum, T. confusum, and T. freemani), the volatiles released by the other Tribolium species associated with stored products have not yet been examined. In the present study, the volatiles produced by males and females of eight Tribolium species were examined by solid phase microextraction (SPME). SPME samples were analyzed by gas chromatography coupled to mass spectrometry (GC-MS). Experiments were conducted to identify volatiles emitted by the adults of different Tribolium species and to determine whether DMD is a common aggregation pheromone. We observed that DMD is not a common pheromone of the eight species tested, but is common to T. castaneum, T. confusum, T. freemani, and T. madens. Two other volatiles were detected, 1-pentadecene, which is shown here to be a common semiochemical of flour beetles, and 1,6-pentadecadiene, which was detected in five species (T. audax, T. brevicornis, T. destructor, T. freemani, and T. madens).

Published

2002

12. First Evidence of a Volatile Sex Pheromone in Lady Beetles.

Author

Fassotte, Bérénice, Fischer, Christophe, Durieux, Delphine, Lognay, Georges, Haubruge, Eric, Francis, Frédéric, and Verheggen, François J.

Subjects

PHEROMONES, VOLATILE organic compounds, LADYBUGS, INSECT sexing, GAS chromatography/Mass spectrometry (GC-MS), PHYSIOLOGICAL control systems

Abstract

To date, volatile sex pheromones have not been identified in the Coccinellidae family; yet, various studies have suggested that such semiochemicals exist. Here, we collected volatile chemicals released by virgin females of the multicolored Asian lady beetle, Harmonia axyridis (Pallas), which were either allowed or not allowed to feed on aphids. Virgin females in the presence of aphids, exhibited “calling behavior”, which is commonly associated with the emission of a sex pheromone in several Coleoptera species. These calling females were found to release a blend of volatile compounds that is involved in the remote attraction (i.e., from a distance) of males. Gas Chromatography-Mass Spectrometry (GC-MS) analyses revealed that (–)-β-caryophyllene was the major constituent of the volatile blend (ranging from 80 to 86%), with four other chemical components also being present; β-elemene, methyl-eugenol, α-humulene, and α-bulnesene. In a second set of experiments, the emission of the five constituents identified from the blend was quantified daily over a 9-day period after exposure to aphids. We found that the quantity of all five chemicals significantly increased across the experimental period. Finally, we evaluated the activity of a synthetic blend of these chemicals by performing bioassays which demonstrated the same attractive effect in males only. The results confirm that female H. axyridis produce a volatile sex pheromone. These findings have potential in the development of more specific and efficient biological pest-control management methods aimed at manipulating the behavior of this invasive lady beetle. [ABSTRACT FROM AUTHOR]

Published

2014

13. Conserved Odorant-Binding Proteins from Aphids and Eavesdropping Predators.

Author

Vandermoten, Sophie, Francis, Frédéric, Haubruge, Eric, and Leal, Walter S.

Subjects

OLFACTORY receptors, APHIDS, CARRIER proteins, PREDATORY animals, SESQUITERPENES, FARNESENE, PHEROMONES, BEETLES, KAIROMONES, CLONING

Abstract

Background: The sesquiterpene (E)-ß-farnesene is the main component of the alarm pheromone system of various aphid species studied to date, including the English grain aphid, Sitobion avenae. Aphid natural enemies, such as the marmalade hoverfly Episyrphus balteatus and the multicolored Asian lady beetle Harmonia axyridis, eavesdrop on aphid chemical communication and utilize (E)-ß-farnesene as a kairomone to localize their immediate or offspring preys. These aphidpredator systems are important models to study how the olfactory systems of distant insect taxa process the same chemical signal. We postulated that odorant-binding proteins (OBPs), which are highly expressed in insect olfactory tissues and involved in the first step of odorant reception, have conserved regions involved in binding (E)-ß-farnesene. Methodology: We cloned OBP genes from the English grain aphid and two major predators of this aphid species. We then expressed these proteins and compare their binding affinities to the alarm pheromone/kairomone. By using a fluorescence reporter, we tested binding of (E)-ß-farnesene and other electrophysiologically and behaviorally active compounds, including a green leaf volatile attractant. Conclusion: We found that OBPs from disparate taxa of aphids and their predators are highly conserved proteins, with apparently no orthologue genes in other insect species. Properly folded, recombinant proteins from the English grain aphid, SaveOBP3, and the marmalade hoverfly, EbalOBP3, specifically bind (E)-ß-farnesene with apparent high affinity. For the first time we have demonstrated that insect species belonging to distinct Orders have conserved OBPs, which specifically bind a common semiochemical and has no binding affinity for related compounds. [ABSTRACT FROM AUTHOR]

Published

2011

14. Pheromone-based management strategie s to control the tomato leafminer, Tuta absoluta (Lepidoptera: Gelechiidae). A review.

Author

Megido, Rudy Caparros, Haubruge, Eric, and Verheggen, François Jean

Subjects

PHEROMONES, LEAFMINERS, LEPIDOPTERA, ENVIRONMENTAL management, PLANT populations

Abstract

Copyright of Biotechnologie, Agronomie, Societe et Environnement is the property of Les Presses Agronomiques de Gembloux and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013

15. The use of semiochemical slow-release devices in integrated pest management strategies.

Author

Heuskin, Stéphanie, Verheggen, François J., Haubruge, Eric, Wathelet, Jean-Paul, and Lognay, Georges

Subjects

INTEGRATED pest control, PHEROMONES, CHEMICAL ecology, PESTICIDES, SEMIOCHEMICALS, DISEASE resistance of plants, BIODEGRADATION

Abstract

Copyright of Biotechnologie, Agronomie, Societe et Environnement is the property of Les Presses Agronomiques de Gembloux and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011