Modern approaches to study plant–insect interactions in chemical ecology

Lee A. Dyer; Casey S. Philbin; Kaitlin M. Ochsenrider; Lora A. Richards; Tara J. Massad; Angela M. Smilanich; Matthew L. Forister; Thomas L. Parchman; Lanie M. Galland; Paul J. Hurtado; Anne E. Espeset; Andrea E. Glassmire; Joshua G. Harrison; Carmen Mo; Su’ad Yoon; Nicholas A. Pardikes; Nadya D. Muchoney; Joshua P. Jahner; Heather L. Slinn; Oren Shelef; Craig D. Dodson; Massuo J. Kato; Lydia F. Yamaguchi; Christopher S. Jeffrey

doi:10.1038/s41570-018-0009-7

Modern approaches to study plant–insect interactions in chemical ecology

Lee A. Dyer, Casey S. Philbin, Kaitlin M. Ochsenrider, Lora A. Richards, Tara J. Massad, Angela M. Smilanich, Matthew L. Forister, Thomas L. Parchman, Lanie M. Galland, Paul J. Hurtado, Anne E. Espeset, Andrea E. Glassmire, Joshua G. Harrison, Carmen Mo, Su’ad Yoon, Nicholas A. Pardikes, Nadya D. Muchoney, Joshua P. Jahner, Heather L. Slinn, Oren ShelefCraig D. Dodson, Massuo J. Kato, Lydia F. Yamaguchi, Christopher S. Jeffrey

Research output: Contribution to journal › Review article › peer-review

96 Scopus citations

Abstract

Phytochemical variation among plant species is one of the most fascinating and perplexing features of the natural world and has implications for both human health and the functioning of ecosystems. A key area of research on phytochemical variation has focused on insects that feed on plants and the enormous diversity of plant-derived compounds that reduce or deter damage by insects. Empirical studies on the ecology and evolution of these chemically mediated plant–insect interactions have been guided by a long history of theoretical development. However, until recently, such theory was substantially limited by inadequate data, a situation that is rapidly changing as ecologists partner with chemists utilizing the latest technological advances. In this Review, we aim to facilitate the union of ecological theory with modern chemistry by discussing important theoretical frameworks for studying chemical ecology and outlining the steps by which hypotheses on insect–phytochemical interactions can be advanced using current methodologies and statistical approaches. We highlight unique approaches to isolation, synthesis, spectroscopy, metabolomics and genomics relevant to chemical ecology and describe future areas for research that will bring an unprecedented understanding of phytochemical variation.

Original language	English
Pages (from-to)	50-64
Number of pages	15
Journal	Nature Reviews Chemistry
Volume	2
Issue number	6
DOIs	https://doi.org/10.1038/s41570-018-0009-7
State	Published - 1 Jun 2018
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering

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Dyer, L. A., Philbin, C. S., Ochsenrider, K. M., Richards, L. A., Massad, T. J., Smilanich, A. M., Forister, M. L., Parchman, T. L., Galland, L. M., Hurtado, P. J., Espeset, A. E., Glassmire, A. E., Harrison, J. G., Mo, C., Yoon, S., Pardikes, N. A., Muchoney, N. D., Jahner, J. P., Slinn, H. L., ... Jeffrey, C. S. (2018). Modern approaches to study plant–insect interactions in chemical ecology. Nature Reviews Chemistry, 2(6), 50-64. https://doi.org/10.1038/s41570-018-0009-7

@article{06b0026a4135440f9ccbb2c57b90a32e,

title = "Modern approaches to study plant–insect interactions in chemical ecology",

abstract = "Phytochemical variation among plant species is one of the most fascinating and perplexing features of the natural world and has implications for both human health and the functioning of ecosystems. A key area of research on phytochemical variation has focused on insects that feed on plants and the enormous diversity of plant-derived compounds that reduce or deter damage by insects. Empirical studies on the ecology and evolution of these chemically mediated plant–insect interactions have been guided by a long history of theoretical development. However, until recently, such theory was substantially limited by inadequate data, a situation that is rapidly changing as ecologists partner with chemists utilizing the latest technological advances. In this Review, we aim to facilitate the union of ecological theory with modern chemistry by discussing important theoretical frameworks for studying chemical ecology and outlining the steps by which hypotheses on insect–phytochemical interactions can be advanced using current methodologies and statistical approaches. We highlight unique approaches to isolation, synthesis, spectroscopy, metabolomics and genomics relevant to chemical ecology and describe future areas for research that will bring an unprecedented understanding of phytochemical variation.",

author = "Dyer, {Lee A.} and Philbin, {Casey S.} and Ochsenrider, {Kaitlin M.} and Richards, {Lora A.} and Massad, {Tara J.} and Smilanich, {Angela M.} and Forister, {Matthew L.} and Parchman, {Thomas L.} and Galland, {Lanie M.} and Hurtado, {Paul J.} and Espeset, {Anne E.} and Glassmire, {Andrea E.} and Harrison, {Joshua G.} and Carmen Mo and Su{\textquoteright}ad Yoon and Pardikes, {Nicholas A.} and Muchoney, {Nadya D.} and Jahner, {Joshua P.} and Slinn, {Heather L.} and Oren Shelef and Dodson, {Craig D.} and Kato, {Massuo J.} and Yamaguchi, {Lydia F.} and Jeffrey, {Christopher S.}",

note = "Publisher Copyright: {\textcopyright} 2018, Macmillan Publishers Ltd., part of Springer Nature.",

year = "2018",

month = jun,

day = "1",

doi = "10.1038/s41570-018-0009-7",

language = "English",

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Dyer, LA, Philbin, CS, Ochsenrider, KM, Richards, LA, Massad, TJ, Smilanich, AM, Forister, ML, Parchman, TL, Galland, LM, Hurtado, PJ, Espeset, AE, Glassmire, AE, Harrison, JG, Mo, C, Yoon, S, Pardikes, NA, Muchoney, ND, Jahner, JP, Slinn, HL, Shelef, O, Dodson, CD, Kato, MJ, Yamaguchi, LF & Jeffrey, CS 2018, 'Modern approaches to study plant–insect interactions in chemical ecology', Nature Reviews Chemistry, vol. 2, no. 6, pp. 50-64. https://doi.org/10.1038/s41570-018-0009-7

TY - JOUR

T1 - Modern approaches to study plant–insect interactions in chemical ecology

AU - Dyer, Lee A.

AU - Philbin, Casey S.

AU - Ochsenrider, Kaitlin M.

AU - Richards, Lora A.

AU - Massad, Tara J.

AU - Smilanich, Angela M.

AU - Forister, Matthew L.

AU - Parchman, Thomas L.

AU - Galland, Lanie M.

AU - Hurtado, Paul J.

AU - Espeset, Anne E.

AU - Glassmire, Andrea E.

AU - Harrison, Joshua G.

AU - Mo, Carmen

AU - Yoon, Su’ad

AU - Pardikes, Nicholas A.

AU - Muchoney, Nadya D.

AU - Jahner, Joshua P.

AU - Slinn, Heather L.

AU - Shelef, Oren

AU - Dodson, Craig D.

AU - Kato, Massuo J.

AU - Yamaguchi, Lydia F.

AU - Jeffrey, Christopher S.

PY - 2018/6/1

Y1 - 2018/6/1

N2 - Phytochemical variation among plant species is one of the most fascinating and perplexing features of the natural world and has implications for both human health and the functioning of ecosystems. A key area of research on phytochemical variation has focused on insects that feed on plants and the enormous diversity of plant-derived compounds that reduce or deter damage by insects. Empirical studies on the ecology and evolution of these chemically mediated plant–insect interactions have been guided by a long history of theoretical development. However, until recently, such theory was substantially limited by inadequate data, a situation that is rapidly changing as ecologists partner with chemists utilizing the latest technological advances. In this Review, we aim to facilitate the union of ecological theory with modern chemistry by discussing important theoretical frameworks for studying chemical ecology and outlining the steps by which hypotheses on insect–phytochemical interactions can be advanced using current methodologies and statistical approaches. We highlight unique approaches to isolation, synthesis, spectroscopy, metabolomics and genomics relevant to chemical ecology and describe future areas for research that will bring an unprecedented understanding of phytochemical variation.

AB - Phytochemical variation among plant species is one of the most fascinating and perplexing features of the natural world and has implications for both human health and the functioning of ecosystems. A key area of research on phytochemical variation has focused on insects that feed on plants and the enormous diversity of plant-derived compounds that reduce or deter damage by insects. Empirical studies on the ecology and evolution of these chemically mediated plant–insect interactions have been guided by a long history of theoretical development. However, until recently, such theory was substantially limited by inadequate data, a situation that is rapidly changing as ecologists partner with chemists utilizing the latest technological advances. In this Review, we aim to facilitate the union of ecological theory with modern chemistry by discussing important theoretical frameworks for studying chemical ecology and outlining the steps by which hypotheses on insect–phytochemical interactions can be advanced using current methodologies and statistical approaches. We highlight unique approaches to isolation, synthesis, spectroscopy, metabolomics and genomics relevant to chemical ecology and describe future areas for research that will bring an unprecedented understanding of phytochemical variation.

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U2 - 10.1038/s41570-018-0009-7

DO - 10.1038/s41570-018-0009-7

M3 - Review article

AN - SCOPUS:85054471050

SN - 2397-3358

VL - 2

SP - 50

EP - 64

JO - Nature Reviews Chemistry

JF - Nature Reviews Chemistry

IS - 6

ER -

Modern approaches to study plant–insect interactions in chemical ecology

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