TY - JOUR
T1 - Habitat cues synergize to elicit chemically mediated landing behavior in a specialist phytophagous insect, the grape berry moth
AU - Wolfin, Michael S.
AU - Chilson, Ronald R.
AU - Thrall, Jonathan
AU - Liu, Yuxi
AU - Volo, Sara
AU - Cha, Dong H.
AU - Loeb, Gregory M.
AU - Linn, Charles E.
N1 - Funding Information:
We thank Shinyoung Park, Callie Musto, and Stephen Hesler for helping maintain the greenhouse, GBM colonies, and for setting up cohorts for flight tunnel tests. We thank Stephen Parry at the Cornell University Statistical Consulting Unit for his statistical guidance. Sara Volo, Yuxi Liu, and Jonathan Thrall were undergraduates at Hobart and William Smith Colleges, Geneva, NY, participating in a Summer Scholars Program supported by funding from the David and Brenda Rickey Foundation. We also thank Tim Carroll for his assistance with the table of contents graphic. The research was supported by a USDA‐AFRI proposal # 2012‐67013‐19364, and a USDA Federal Formula Fund Initiative #2014‐15‐154. Opinions, findings, conclusions, and recommendations expressed in this publication are those of the author and do not necessarily reflect the views of the USDA.
Funding Information:
We thank Shinyoung Park, Callie Musto, and Stephen Hesler for helping maintain the greenhouse, GBM colonies, and for setting up cohorts for flight tunnel tests. We thank Stephen Parry at the Cornell University Statistical Consulting Unit for his statistical guidance. Sara Volo, Yuxi Liu, and Jonathan Thrall were undergraduates at Hobart and William Smith Colleges, Geneva, NY, participating in a Summer Scholars Program supported by funding from the David and Brenda Rickey Foundation. We also thank Tim Carroll for his assistance with the table of contents graphic. The research was supported by a USDA-AFRI proposal # 2012-67013-19364, and a USDA Federal Formula Fund Initiative #2014-15-154. Opinions, findings, conclusions, and recommendations expressed in this publication are those of the author and do not necessarily reflect the views of the USDA.
Publisher Copyright:
© 2020 The Netherlands Entomological Society
PY - 2020/12
Y1 - 2020/12
N2 - Many phytophagous insects locate their host plant using mixtures of volatile compounds produced by the plant. A key behavior in the host location process that has been the focus of decades of behavioral research is optomotor anemotaxis. Another key step in host location is landing on (or near) the odor source. In previous work, rubber septa emitting a synthetic blend of volatiles extracted from young shoots of grape plants, Vitus spp. (Vitaceae), elicited equivalent levels of oriented upwind flight by female grape berry moths (GBM), Paralobesia viteana (Clemens) (Lepidoptera: Tortricidae), as did actual (control) grape shoots. However, in contrast to the shoots, females did not land on the odor source. In this study, we used flight tunnel assays to investigate the landing response of GBM females with respect to chemical and visual stimuli, as well as differences in relative humidity. When stimuli were presented individually, only the synthetic blend of host plant volatiles elicited equivalent levels of oriented upwind flight compared to the plants. Interestingly, wet cotton strips elicited low but consistent levels of upwind flight. In paired assays, only the synthetic blend paired with wet cotton strips elicited landing, although at significantly lower levels than that elicited by grape shoots. To achieve landing rates equivalent to live grape shoots, grape berry moth females required all three stimuli we tested: host odor cues, moisture, and visual cues simulating a grape shoot. These results suggest the cues have a synergistic effect, and that landing behavior requires complex sensory processing using multiple sensory inputs. Furthermore, these results suggest that moisture plays an important role in the host plant location process.
AB - Many phytophagous insects locate their host plant using mixtures of volatile compounds produced by the plant. A key behavior in the host location process that has been the focus of decades of behavioral research is optomotor anemotaxis. Another key step in host location is landing on (or near) the odor source. In previous work, rubber septa emitting a synthetic blend of volatiles extracted from young shoots of grape plants, Vitus spp. (Vitaceae), elicited equivalent levels of oriented upwind flight by female grape berry moths (GBM), Paralobesia viteana (Clemens) (Lepidoptera: Tortricidae), as did actual (control) grape shoots. However, in contrast to the shoots, females did not land on the odor source. In this study, we used flight tunnel assays to investigate the landing response of GBM females with respect to chemical and visual stimuli, as well as differences in relative humidity. When stimuli were presented individually, only the synthetic blend of host plant volatiles elicited equivalent levels of oriented upwind flight compared to the plants. Interestingly, wet cotton strips elicited low but consistent levels of upwind flight. In paired assays, only the synthetic blend paired with wet cotton strips elicited landing, although at significantly lower levels than that elicited by grape shoots. To achieve landing rates equivalent to live grape shoots, grape berry moth females required all three stimuli we tested: host odor cues, moisture, and visual cues simulating a grape shoot. These results suggest the cues have a synergistic effect, and that landing behavior requires complex sensory processing using multiple sensory inputs. Furthermore, these results suggest that moisture plays an important role in the host plant location process.
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U2 - 10.1111/eea.13003
DO - 10.1111/eea.13003
M3 - Article
AN - SCOPUS:85097404035
SN - 0013-8703
VL - 168
SP - 880
EP - 889
JO - Entomologia Experimentalis et Applicata
JF - Entomologia Experimentalis et Applicata
IS - 12
ER -