TY - JOUR
T1 - Effects of glucosinolates on a generalist and specialist leaf-chewing herbivore and an associated parasitoid
AU - Kos, M.
AU - Houshyani, B.
AU - Wietsma, R.
AU - Kabouw, P.
AU - Vet, L.E.M.
AU - van Loon, J.J.A.
AU - Dicke, M.
N1 - Reporting year: 2012
Metis note: 5191; WAG; TE
PY - 2012
Y1 - 2012
N2 - Glucosinolates (GLS) are secondary plant metabolites that as a result of tissue damage, for example due to
herbivory, are hydrolysed into toxic compounds that negatively affect generalist herbivores. Specialist
herbivores have evolved specific adaptations to detoxify GLS or inhibit the formation of toxic hydrolytic
products. Although rarely studied, GLS and their breakdown products may also affect parasitoids. The
objectives were to test the effects of GLS in a multitrophic system consisting of the generalist herbivore
Spodoptera exigua, the specialist herbivore Pieris rapae, and the endoparasitoid Hyposoter ebeninus. Three
ecotypes of Arabidopsis thaliana that differ in their GLS composition and concentrations and one transformed
line that constitutively produces higher concentrations of aliphatic GLS were used, the latter
allowing a direct assessment of the effects of aliphatic GLS on insect performance.
Feeding by the generalist S. exigua and the specialist P. rapae induced both higher aliphatic and indole
GLS concentrations in the A. thaliana ecotypes, although induction was stronger for indole than aliphatic
GLS. For both herbivores a negative correlation between performance and aliphatic GLS concentrations
was observed. This suggests that the specialist, despite containing a nitrile-specifier protein (NSP) that
diverts GLS degradation from toxic isothiocyanates to less toxic nitriles, cannot completely inhibit the
formation of toxic GLS hydrolytic products, or that the costs of this mechanism are higher at higher
GLS concentrations. Surprisingly, performance of the parasitoid was positively correlated with higher
concentrations of aliphatic GLS in the plant, possibly caused by negative effects on host immune
responses. Our study indicates that GLS can not only confer resistance against herbivores directly, but
also indirectly by increasing the performance of the parasitoids of these herbivores.
AB - Glucosinolates (GLS) are secondary plant metabolites that as a result of tissue damage, for example due to
herbivory, are hydrolysed into toxic compounds that negatively affect generalist herbivores. Specialist
herbivores have evolved specific adaptations to detoxify GLS or inhibit the formation of toxic hydrolytic
products. Although rarely studied, GLS and their breakdown products may also affect parasitoids. The
objectives were to test the effects of GLS in a multitrophic system consisting of the generalist herbivore
Spodoptera exigua, the specialist herbivore Pieris rapae, and the endoparasitoid Hyposoter ebeninus. Three
ecotypes of Arabidopsis thaliana that differ in their GLS composition and concentrations and one transformed
line that constitutively produces higher concentrations of aliphatic GLS were used, the latter
allowing a direct assessment of the effects of aliphatic GLS on insect performance.
Feeding by the generalist S. exigua and the specialist P. rapae induced both higher aliphatic and indole
GLS concentrations in the A. thaliana ecotypes, although induction was stronger for indole than aliphatic
GLS. For both herbivores a negative correlation between performance and aliphatic GLS concentrations
was observed. This suggests that the specialist, despite containing a nitrile-specifier protein (NSP) that
diverts GLS degradation from toxic isothiocyanates to less toxic nitriles, cannot completely inhibit the
formation of toxic GLS hydrolytic products, or that the costs of this mechanism are higher at higher
GLS concentrations. Surprisingly, performance of the parasitoid was positively correlated with higher
concentrations of aliphatic GLS in the plant, possibly caused by negative effects on host immune
responses. Our study indicates that GLS can not only confer resistance against herbivores directly, but
also indirectly by increasing the performance of the parasitoids of these herbivores.
KW - national
U2 - 10.1016/j.phytochem.2012.01.005
DO - 10.1016/j.phytochem.2012.01.005
M3 - Article
SN - 0031-9422
VL - 77
SP - 162
EP - 170
JO - Phytochemistry
JF - Phytochemistry
ER -