Ulrich Kuhlmann scite author profile

Plants under attack by arthropod herbivores often emit volatile compounds from their leaves that attract natural enemies of the herbivores. Here we report the first identification of an insect-induced belowground plant signal, (E )-b-caryophyllene, which strongly attracts an entomopathogenic nematode. Maize roots release this sesquiterpene in response to feeding by larvae of the beetle Diabrotica virgifera virgifera, a maize pest that is currently invading Europe. Most North American maize lines do not release (E )-b-caryophyllene, whereas European lines and the wild maize ancestor, teosinte, readily do so in response to D. v. virgifera attack. This difference was consistent with striking differences in the attractiveness of representative lines in the laboratory. Field experiments showed a fivefold higher nematode infection rate of D. v. virgifera larvae on a maize variety that produces the signal than on a variety that does not, whereas spiking the soil near the latter variety with authentic (E)-b-caryophyllene decreased the emergence of adult D. v. virgifera to less than half. North American maize lines must have lost the signal during the breeding process. Development of new varieties that release the attractant in adequate amounts should help enhance the efficacy of nematodes as biological control agents against root pests like D. v. virgifera.Plants are not simply passive victims of attacking herbivores; they have evolved an arsenal of physical and chemical defences to protect themselves. Often these defences are mobilized only in response to herbivory 1,2 . Among the proposed inducible defences is the production and release of volatile chemicals that could serve as signals to attract natural enemies of the herbivores [3][4][5] . Manipulating these signals can help increase the effectiveness of these natural enemies as control agents [6][7][8] . The induced emission of chemical signals is not limited solely to aboveground plant parts. The entomopathogenic nematode Heterorhabditis megidis was found to be attracted to exudates emitted by plant roots after damage by weevil larvae 9,10 , but the nature of the attractants involved is unknown. Here we show that maize roots damaged by larvae of the economically important coleopteran pest Diabrotica virgifera virgifera LeConte are attractive to entomopathogenic nematodes, and we identify the chemical compound responsible for the attraction. D. v. virgifera or Western corn rootworm (WCR) is a voracious pest of maize that is responsible for the use of the bulk of pesticides applied in the cultivation of this crop in the USA 11 . The recent introduction and rapid spread of WCR into Europe has caused major concern for maize production on this continent and has stimulated the search for new methods of maize protection 12,13 . The use of nematodes to control WCR is an ecologically sound option 14,15 , especially if researchers can optimize their efficacy at finding and killing WCR. Attraction of nematodes by WCR-damaged rootsTo determine whether or not WCR-infested maiz...

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The role of micro-inflammation in the pathogenesis of uraemic pruritus in haemodialysis patients

Kimmel

Alscher²,

Dunst³

et al. 2005

197

148

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Parasitoids, predators and PCR: the use of diagnostic molecular markers in biological control of Arthropods

Gariépy

Kuhlmann

Gillott

et al. 2007

J Applied Entomology

174

144

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Abstract:The polymerase chain reaction (PCR) revolutionized the field of diagnostics, and today it has routine applications in medical, veterinary, forensic and botanical sciences. The fields of biological control and insect pest management have generally been slow to adopt PCR-based diagnostics in comparison with other fields of science. However, there has been increasing interest in the use of molecular diagnostic tools in arthropod biological control. In applied entomology, molecular techniques have generally been used for insect identification and systematics; however, PCR-based techniques are increasingly becoming recognized as valuable tools in ecological studies. Here, we review research that has used PCR-based techniques for parasitoid and predator/prey identification and detection, and place these studies in the context of their contributions to biological control of arthropods. The status and future directions of diagnostic molecular markers in applied entomology and insect pest management are also discussed.

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Monitoring of western corn rootworm ( Diabrotica virgifera virgifera LeConte) in Europe 1992-2003.

Kiss¹,

Edwards²,

Berger³

et al. 2004

102

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Treatment of Renovascular Hypertension With Percutaneous Transluminal Dilatation of a Renal-Artery Stenosis

et al. 1978

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Ulrich Kuhlmann

Recruitment of entomopathogenic nematodes by insect-damaged maize roots

The role of micro-inflammation in the pathogenesis of uraemic pruritus in haemodialysis patients

Parasitoids, predators and PCR: the use of diagnostic molecular markers in biological control of Arthropods

Monitoring of western corn rootworm ( Diabrotica virgifera virgifera LeConte) in Europe 1992-2003.

Treatment of Renovascular Hypertension With Percutaneous Transluminal Dilatation of a Renal-Artery Stenosis

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