Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants

Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants

<i>Research Highlights</i>: We demonstrated that the resistance mechanisms of plants could be used to combat damage caused by pests in forestry plantations. <i>Background and Objectives</i>: Poplar is the main tree species used in plantations in northern China, with <i>...

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Main Authors: Li Guo, Fu Liu, Sufang Zhang, Xiangbo Kong, Zhen Zhang
Format: Article
Language:English
Published: MDPI AG 2019-01-01
Series:Forests
Subjects:
<i>Populus</i> × <i>euramericana</i> clones
<i>Micromelalopha sieversi</i> (Staudinger)
oviposition
induced resistance
plant volatiles
Online Access:https://www.mdpi.com/1999-4907/10/2/110
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spelling doaj-0ac4aebabf1049678609697509521e8a2020-11-25T00:27:21ZengMDPI AGForests1999-49072019-01-0110211010.3390/f10020110f10020110Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring PlantsLi Guo0Fu Liu1Sufang Zhang2Xiangbo Kong3Zhen Zhang4Research Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, ChinaResearch Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, China<i>Research Highlights</i>: We demonstrated that the resistance mechanisms of plants could be used to combat damage caused by pests in forestry plantations. <i>Background and Objectives</i>: Poplar is the main tree species used in plantations in northern China, with <i>Micromelalopha sieversi</i> (Staudinger) representing a major pest species causing defoliation. Here, we investigated whether two poplar clones could resist this pest species and the physiological mechanisms involved. <i>Materials and Methods</i>: Two clones of <i>Populus</i> from section <i>Aigeiros</i> were used, with &#8216;108&#8217; (<i>P.</i> &#215; <i>euramericana</i> &#8216;Guariento&#8217;) being more attractive to <i>M. sieversi</i> than &#8216;111&#8217; (<i>P.</i> &#215; <i>euramericana</i> &#8216;Bellotto&#8217;). Three treatments were set up (oviposited plants, neighboring plants, and control plants) to determine whether resistance was induced in plants neighboring oviposited plants. <i>Results</i>: Significantly fewer eggs were oviposited on neighboring plants compared to control plants for both clones, with more eggs being laid on oviposited and control plants of &#8216;108&#8217; compared to &#8216;111&#8217;. &#946;-Pinene was detected in oviposited and neighboring plants, but not control plants for either clone. Significantly higher concentrations of 3-carene was present in oviposited and neighboring plants of &#8216;108&#8217; and &#8216;111&#8217; compared to control plants at 24, 48, and 72 h after oviposition. Males, females, and mated females primarily responded to electroantennogram (EAG), methyl palmitate and 2-ethylhexyl acrylate at 50 ng/&#956;L, and to 3-carene and &#946;-pinene at 5 ng/&#956;L, and to styrene at 10 ng/&#956;L in EAG assays. When using these concentrations on plant leaves, 3-carene, &#946;-pinene, and styrene significantly reduced the number of eggs laid on &#8216;108&#8217;, while 3-carene and &#946;-pinene were effective for &#8216;111&#8217;. <i>Conclusions</i>: Plants neighboring oviposited plants exhibited defense responses; 3-carene and &#946;-pinene were used to transmit chemical signals (volatile cues) from oviposited plants to neighboring plants; which induced neighboring plants released volatiles as a defense mechanism to prevent egg laying.https://www.mdpi.com/1999-4907/10/2/110<i>Populus</i> × <i>euramericana</i> clones<i>Micromelalopha sieversi</i> (Staudinger)ovipositioninduced resistanceplant volatiles
collection DOAJ
language English
format Article
sources DOAJ
author Li Guo
Fu Liu
Sufang Zhang
Xiangbo Kong
Zhen Zhang
spellingShingle Li Guo
Fu Liu
Sufang Zhang
Xiangbo Kong
Zhen Zhang
Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants
Forests
<i>Populus</i> × <i>euramericana</i> clones
<i>Micromelalopha sieversi</i> (Staudinger)
oviposition
induced resistance
plant volatiles
author_facet Li Guo
Fu Liu
Sufang Zhang
Xiangbo Kong
Zhen Zhang
author_sort Li Guo
title Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants
title_short Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants
title_full Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants
title_fullStr Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants
title_full_unstemmed Egg Deposition of <i>Micromelalopha sieversi</i> (Staudinger) on Clones of <i>Populus</i> from Section <i>Aigeiros</i> Induces Resistance in Neighboring Plants
title_sort egg deposition of <i>micromelalopha sieversi</i> (staudinger) on clones of <i>populus</i> from section <i>aigeiros</i> induces resistance in neighboring plants
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2019-01-01
description <i>Research Highlights</i>: We demonstrated that the resistance mechanisms of plants could be used to combat damage caused by pests in forestry plantations. <i>Background and Objectives</i>: Poplar is the main tree species used in plantations in northern China, with <i>Micromelalopha sieversi</i> (Staudinger) representing a major pest species causing defoliation. Here, we investigated whether two poplar clones could resist this pest species and the physiological mechanisms involved. <i>Materials and Methods</i>: Two clones of <i>Populus</i> from section <i>Aigeiros</i> were used, with &#8216;108&#8217; (<i>P.</i> &#215; <i>euramericana</i> &#8216;Guariento&#8217;) being more attractive to <i>M. sieversi</i> than &#8216;111&#8217; (<i>P.</i> &#215; <i>euramericana</i> &#8216;Bellotto&#8217;). Three treatments were set up (oviposited plants, neighboring plants, and control plants) to determine whether resistance was induced in plants neighboring oviposited plants. <i>Results</i>: Significantly fewer eggs were oviposited on neighboring plants compared to control plants for both clones, with more eggs being laid on oviposited and control plants of &#8216;108&#8217; compared to &#8216;111&#8217;. &#946;-Pinene was detected in oviposited and neighboring plants, but not control plants for either clone. Significantly higher concentrations of 3-carene was present in oviposited and neighboring plants of &#8216;108&#8217; and &#8216;111&#8217; compared to control plants at 24, 48, and 72 h after oviposition. Males, females, and mated females primarily responded to electroantennogram (EAG), methyl palmitate and 2-ethylhexyl acrylate at 50 ng/&#956;L, and to 3-carene and &#946;-pinene at 5 ng/&#956;L, and to styrene at 10 ng/&#956;L in EAG assays. When using these concentrations on plant leaves, 3-carene, &#946;-pinene, and styrene significantly reduced the number of eggs laid on &#8216;108&#8217;, while 3-carene and &#946;-pinene were effective for &#8216;111&#8217;. <i>Conclusions</i>: Plants neighboring oviposited plants exhibited defense responses; 3-carene and &#946;-pinene were used to transmit chemical signals (volatile cues) from oviposited plants to neighboring plants; which induced neighboring plants released volatiles as a defense mechanism to prevent egg laying.
topic <i>Populus</i> × <i>euramericana</i> clones
<i>Micromelalopha sieversi</i> (Staudinger)
oviposition
induced resistance
plant volatiles
url https://www.mdpi.com/1999-4907/10/2/110
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