TY - JOUR
T1 - Differences in volatile profiles of turnip plants subjected to single and dual herbivory above- and belowground
AU - Pierre, P.S.
AU - Jansen, J.J.
AU - Hordijk, C.A.
AU - Van Dam, N.M.
AU - Cortesero, A.M.
AU - Dugravot, S.
N1 - Reporting year: 2011
Metis note: 5053; WAG; ME
PY - 2011
Y1 - 2011
N2 - Plants attacked by herbivorous insects emit volatile
organic compounds that are used by natural enemies to locate
their host or prey. The composition of the blend is often
complex and specific. It may vary qualitatively and quantitatively
according to plant and herbivore species, thus providing
specific information for carnivorous arthropods. Most studies
have focused on simple interactions that involve one species
per trophic level, and typically have investigated the aboveground
parts of plants. These investigations need to be
extended to more complex networks that involve multiple
herbivory above- and belowground. A previous study
examined whether the presence of the leaf herbivore Pieris
brassicae on turnip plants (Brassica rapa subsp. rapa)
influences the response of Trybliographa rapae, a specialist
parasitoid of the root feeder Delia radicum. It showed that
the parasitoid was not attracted by volatiles emitted by plants
under simultaneous attack. Here, we analyzed differences in
the herbivore induced plant volatile (HIPV) mixtures that
emanate from such infested plants by using Orthogonal
Partial Least Squares-Discriminant Analysis (OPLS-DA).
This multivariate model focuses on the differences between
odor blends, and highlights the relative importance of each
compound in an HIPV blend. Dual infestation resulted in
several HIPVs that were present in both isolated infestation
types. However, HIPVs collected from simultaneously
infested plants were not the simple combination of volatiles
from isolated forms of above- and belowground herbivory.
Only a few specific compounds characterized the odor blend
of each type of damaged plant. Indeed, some compounds
were specifically induced by root herbivory (4-methyltridecane
and salicylaldehyde) or shoot herbivory (methylsalicylate),
whereas hexylacetate, a green leaf volatile, was
specifically induced after dual herbivory. It remains to be
determined whether or not these minor quantitative variations,
within the background of more commonly induced odors, are
involved in the reduced attraction of the root feeder’s
parasitoid. The mechanisms involved in the specific modification
of the odor blends emitted by dual infested turnip plants
are discussed in the light of interferences between biosynthetic
pathways linked to plant responses to shoot or root herbivory.
AB - Plants attacked by herbivorous insects emit volatile
organic compounds that are used by natural enemies to locate
their host or prey. The composition of the blend is often
complex and specific. It may vary qualitatively and quantitatively
according to plant and herbivore species, thus providing
specific information for carnivorous arthropods. Most studies
have focused on simple interactions that involve one species
per trophic level, and typically have investigated the aboveground
parts of plants. These investigations need to be
extended to more complex networks that involve multiple
herbivory above- and belowground. A previous study
examined whether the presence of the leaf herbivore Pieris
brassicae on turnip plants (Brassica rapa subsp. rapa)
influences the response of Trybliographa rapae, a specialist
parasitoid of the root feeder Delia radicum. It showed that
the parasitoid was not attracted by volatiles emitted by plants
under simultaneous attack. Here, we analyzed differences in
the herbivore induced plant volatile (HIPV) mixtures that
emanate from such infested plants by using Orthogonal
Partial Least Squares-Discriminant Analysis (OPLS-DA).
This multivariate model focuses on the differences between
odor blends, and highlights the relative importance of each
compound in an HIPV blend. Dual infestation resulted in
several HIPVs that were present in both isolated infestation
types. However, HIPVs collected from simultaneously
infested plants were not the simple combination of volatiles
from isolated forms of above- and belowground herbivory.
Only a few specific compounds characterized the odor blend
of each type of damaged plant. Indeed, some compounds
were specifically induced by root herbivory (4-methyltridecane
and salicylaldehyde) or shoot herbivory (methylsalicylate),
whereas hexylacetate, a green leaf volatile, was
specifically induced after dual herbivory. It remains to be
determined whether or not these minor quantitative variations,
within the background of more commonly induced odors, are
involved in the reduced attraction of the root feeder’s
parasitoid. The mechanisms involved in the specific modification
of the odor blends emitted by dual infested turnip plants
are discussed in the light of interferences between biosynthetic
pathways linked to plant responses to shoot or root herbivory.
U2 - 10.1007/s10886-011-9934-3
DO - 10.1007/s10886-011-9934-3
M3 - Article
SN - 0098-0331
VL - 37
SP - 368
EP - 377
JO - Journal of Chemical Ecology
JF - Journal of Chemical Ecology
IS - 4
ER -