treatments-xml/data/03/87/4D/03874D7AFFD95929E24EA5B250F7FAC0.xml

<document id="D0E6737E6A9C378430249366CFDF94A8" ID-CLB-Dataset="53917" ID-DOI="10.1016/j.phytochem.2021.112768" ID-GBIF-Dataset="4f96b3b8-0989-4d54-9b1d-d47bcc1ec669" ID-ISSN="1873-3700" ID-Zenodo-Dep="8258947" IM.bibliography_approvedBy="felipe" IM.illustrations_approvedBy="felipe" IM.materialsCitations_approvedBy="felipe" IM.metadata_approvedBy="felipe" IM.tables_approvedBy="felipe" IM.taxonomicNames_approvedBy="felipe" IM.treatments_approvedBy="felipe" checkinTime="1692307194320" checkinUser="felipe" docAuthor="Li, Jinjin, Hu, Hao, Chen, Yu, Xie, Jing, Li, Jiawen, Zeng, Tuo, Wang, Manqun, Luo, Jing, Zheng, Riru, Jongsma, Maarten A. &amp; Wang, Caiyun" docDate="2021" docId="03874D7AFFD95929E24EA5B250F7FAC0" docLanguage="en" docName="Phytochemistry.187.112768.pdf" docOrigin="Phytochemistry (112768) 187" docSource="http://dx.doi.org/10.1016/j.phytochem.2021.112768" docStyle="DocumentStyle:F36D69FC8B198FBE91029DF9C24697D3.5:Phytochemistry.2020-.journal_article" docStyleId="F36D69FC8B198FBE91029DF9C24697D3" docStyleName="Phytochemistry.2020-.journal_article" docStyleVersion="5" docTitle="Tanacetum cinerariifolium Schultz Bip." docType="treatment" docVersion="3" lastPageNumber="5" masterDocId="FFBE3502FFD8592DE17CA76F541FFFF9" masterDocTitle="Tissue specificity of (E) - β-farnesene and germacrene D accumulation in pyrethrum flowers" masterLastPageNumber="11" masterPageNumber="1" pageNumber="2" updateTime="1692389414326" updateUser="ExternalLinkService">
<mods:mods id="8CB5FC4A67F903E426E7B54C64D1AE13" xmlns:mods="http://www.loc.gov/mods/v3">
<mods:titleInfo id="173C19526A3A60487A6945A7730EF00B">
<mods:title id="8BCC71D4203D66776AFEBFF820A40FF1">Tissue specificity of (E) - β-farnesene and germacrene D accumulation in pyrethrum flowers</mods:title>
</mods:titleInfo>
<mods:name id="919A462145195F2C9A3C028C7B0633E4" type="personal">
<mods:role id="2C324124670314F3E002B562D8A359F1">
<mods:roleTerm id="2A8D5C394F22EEF3AECAAB0E5469257E">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="53FCD63C76960449AF21289D190D5CB8">Li, Jinjin</mods:namePart>
<mods:affiliation id="6D4BB8F18221FCEDA943DFB45328081E">* &amp; Key Laboratory of Horticultural Plant Biology, Ministry of Education, Huazhong Agricultural University, Wuhan, 430070, China</mods:affiliation>
</mods:name>
<mods:name id="53CBEA1FB33B815BEB31CC79AA989677" type="personal">
<mods:role id="B72C500E9A772E6118BA16F814A49FD0">
<mods:roleTerm id="6E56233F1C8C7ED2BA518E17A9D8E23E">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="FE9B21820861E107EEB4504AEBA0DB8E">Hu, Hao</mods:namePart>
</mods:name>
<mods:name id="AFFFF8D511ED3A6D5AAFBC9C8F01F321" type="personal">
<mods:role id="7476EA9902D66F7BD179D4BB730F7F99">
<mods:roleTerm id="FB455A1E571122E03792CF14E2F61416">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="84EAB38648F7C2BBD108B64AA4AD6923">Chen, Yu</mods:namePart>
</mods:name>
<mods:name id="6F3EDA7C8591272E838C996D9EB4E59E" type="personal">
<mods:role id="FCB91A525F0F79A493CCFED910704433">
<mods:roleTerm id="8CF9637258A0D88D0CE6019D72081230">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="58017C3454312F7A4FFFBFC111CFCCD6">Xie, Jing</mods:namePart>
</mods:name>
<mods:name id="C0D6AD927FC407CA413F85E86EA43265" type="personal">
<mods:role id="7F655E465D5CAA6926C4730A1FD8F48B">
<mods:roleTerm id="34D50144E5B5C73495592551D47A59ED">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="78BDB6A7D345FB18B5EF5F4F951F84FC">Li, Jiawen</mods:namePart>
</mods:name>
<mods:name id="10D700789840FA06C6297B24FC7C0645" type="personal">
<mods:role id="D02EF6F75F9ED633F58AEF3A8C7D18F3">
<mods:roleTerm id="8DD57A36BE49DA5EA8061EB09E9E6830">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="BEB8F941670BB102B6062DACAFA88498">Zeng, Tuo</mods:namePart>
</mods:name>
<mods:name id="8105891948DA1EAF79239818F03A40F7" type="personal">
<mods:role id="533D3040FC9369FC5428D789149805F3">
<mods:roleTerm id="43FC7DA44C4BA7BBEC267B5757C2CC6C">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="22F4BC0FEBB88669779DB42486C6D6AD">Wang, Manqun</mods:namePart>
</mods:name>
<mods:name id="1EBB55872E78E01060077A59B2C770B1" type="personal">
<mods:role id="46574436A6154DFDF1532552D93CF81D">
<mods:roleTerm id="98B8C0C01717360DFA167F456B512CBE">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="A782B82621984D7C0E7A201F1E795291">Luo, Jing</mods:namePart>
</mods:name>
<mods:name id="55D7F5A24F0F5963973A1FDFD992FEB7" type="personal">
<mods:role id="E706570BF44E0962F538FF29E32F80DF">
<mods:roleTerm id="6453D4BE7BF62520C965FB1AAEE7BAF8">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="5C31A00D3AC5E991E01EDF9EC8C6E13C">Zheng, Riru</mods:namePart>
</mods:name>
<mods:name id="20A71DB6E4975F3F5637D1C5672C0CEF" type="personal">
<mods:role id="F5C60BEE15F9A6FC4D4179DF1CC7C452">
<mods:roleTerm id="1459B5ED2B93B6B7EBDB6B5EFD6D9AB5">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="0033B114CDE5C45F7611A6C24A0AD39E">Jongsma, Maarten A.</mods:namePart>
</mods:name>
<mods:name id="74CF421F2D0EA9110115980C60DF846F" type="personal">
<mods:role id="162C32EEE596DAF4A4E1028240C2080F">
<mods:roleTerm id="270293DEEC7838821584E0BC6734B86D">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="C0C99DC2ADE2C42D3D265E49325AC9EE">Wang, Caiyun</mods:namePart>
</mods:name>
<mods:typeOfResource id="6D36ABECBF689B88C717B65F3947D514">text</mods:typeOfResource>
<mods:relatedItem id="8C100FDD23A7E9788B61F1633E221300" type="host">
<mods:titleInfo id="A39C528422874F0D71B9314C770E9186">
<mods:title id="94F0512C26A44301B1CA7B15EBDAABFC">Phytochemistry</mods:title>
</mods:titleInfo>
<mods:part id="B0ED867EE591340A4E30B1CF8FF1E610">
<mods:date id="D5BBBA3155E8CE7646A5C6149105DE32">2021</mods:date>
<mods:detail id="0FF744589B71A1B4452EF2CE0C676D62" type="series">
<mods:title id="B6060B611ECD86D7794E3EA8FE183286">112768</mods:title>
</mods:detail>
<mods:detail id="971E662C7B639526EB945F9CC5F0B77F" type="pubDate">
<mods:number id="A30C15E5CB8E2644D2FA8C6A107D16A6">2021-07-31</mods:number>
</mods:detail>
<mods:detail id="62CF9D79203767955CF5BDEF4A60877A" type="volume">
<mods:number id="B57656C39E6E3AD1E82D60AC06648188">187</mods:number>
</mods:detail>
<mods:extent id="87EEC7E4D2A0B403E93B7CF3E77C34F5" unit="page">
<mods:start id="A9A5E55F4678575A8FDFEA82B16FF027">1</mods:start>
<mods:end id="73311FCD4B9D557ECA8F3A8C1BECAA65">11</mods:end>
</mods:extent>
</mods:part>
</mods:relatedItem>
<mods:location id="AF63566F3AC869677559A172E52D538C">
<mods:url id="1A6F09D01BEEA6D7586D4FB16A85B915">http://dx.doi.org/10.1016/j.phytochem.2021.112768</mods:url>
</mods:location>
<mods:classification id="D614744AC9747D0019CB57C2BE6CC914">journal article</mods:classification>
<mods:identifier id="64EB802825A76CE76CF174F3CCE3BBF3" type="CLB-Dataset">53917</mods:identifier>
<mods:identifier id="1A51ED9DE700779C9A86C574A05A35FF" type="DOI">10.1016/j.phytochem.2021.112768</mods:identifier>
<mods:identifier id="6F875CF4D4CF1455F150D0244255C21F" type="GBIF-Dataset">4f96b3b8-0989-4d54-9b1d-d47bcc1ec669</mods:identifier>
<mods:identifier id="59FE5B830B6E92FFD0FEFCD904861F3D" type="ISSN">1873-3700</mods:identifier>
<mods:identifier id="91F4046604152BDCC691FC243823BA3B" type="Zenodo-Dep">8258947</mods:identifier>
</mods:mods>
<treatment id="03874D7AFFD95929E24EA5B250F7FAC0" ID-DOI="http://doi.org/10.5281/zenodo.8264305" ID-Zenodo-Dep="8264305" LSID="urn:lsid:plazi:treatment:03874D7AFFD95929E24EA5B250F7FAC0" httpUri="http://treatment.plazi.org/id/03874D7AFFD95929E24EA5B250F7FAC0" lastPageId="4" lastPageNumber="5" pageId="1" pageNumber="2">
<subSubSection id="C334AFE7FFD9592CE24EA5B251A0FD09" box="[818,1471,733,753]" pageId="1" pageNumber="2" type="nomenclature">
<paragraph id="8B91FC6CFFD9592CE24EA5B251A0FD09" blockId="1.[818,1471,733,753]" box="[818,1471,733,753]" pageId="1" pageNumber="2">
<heading id="D0D94B00FFD9592CE24EA5B251A0FD09" bold="true" box="[818,1471,733,753]" centered="true" fontSize="36" level="1" pageId="1" pageNumber="2" reason="1">
<emphasis id="B95A207EFFD9592CE24EA5B251A0FD09" bold="true" box="[818,1471,733,753]" italics="true" pageId="1" pageNumber="2">
2.1. Morphological and anatomical analysis of 
<taxonomicName id="4C2E87EFFFD9592CE5A2A5B15166FD09" ID-CoL="54N7B" ID-ENA="118510" authority="Schultz Bip." authorityName="Schultz Bip." box="[1246,1401,733,753]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="1" pageNumber="2" phylum="Tracheophyta" rank="species" species="cinerariifolium">T. cinerariifolium</taxonomicName>
flowers
</emphasis>
</heading>
</paragraph>
</subSubSection>
<subSubSection id="C334AFE7FFD95929E22DA47A50F7FAC0" lastPageId="4" lastPageNumber="5" pageId="1" pageNumber="2" type="description">
<paragraph id="8B91FC6CFFD9592FE22DA47A571CFE5B" blockId="1.[818,1487,789,892]" lastBlockId="2.[100,771,148,418]" lastPageId="2" lastPageNumber="3" pageId="1" pageNumber="2">
The 
<taxonomicName id="4C2E87EFFFD9592CE201A4795006FCD1" box="[893,1049,789,809]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="1" pageNumber="2" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFD9592CE201A4795006FCD1" bold="true" box="[893,1049,789,809]" italics="true" pageId="1" pageNumber="2">T. cinerariifolium</emphasis>
</taxonomicName>
flower head is supported by a long peduncle rising from the base of the plant, and composed of an outer ring of white ray florets and a yellow flower heart densely populated by disk florets in the center of the receptacle (
<figureCitation id="1315E0E9FFD9592CE531A4065089FC85" box="[1101,1174,873,892]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="1" pageNumber="2">Fig. 1A</figureCitation>
). Both disk and ray florets have ribbed achenes, which are seated on the slightly convex receptacle (
<figureCitation id="1315E0E9FFDA592FE110A7DF54ADFF3A" box="[108,178,176,195]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="2" pageNumber="3">Fig. 1A</figureCitation>
). Each disk floret has a yellow tubular corolla opening at the top into five lobes (
<figureCitation id="1315E0E9FFDA592FE07DA7A45591FF26" box="[257,398,203,223]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="2" pageNumber="3">Fig. 1B and C</figureCitation>
). SEM observation of the longitudinal sections of involucre bracts located at the outer side of the receptacle showed that the joining site constituted mostly of parenchyma cells and vascular bundles (
<figureCitation id="1315E0E9FFDA592FE067A67055B1FECB" box="[283,430,287,307]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="2" pageNumber="3">Fig. 1D and E</figureCitation>
). During flower development, the peduncle below the flower head coarsened with the disintegration of the parenchyma cells in the pith to support the heavier flower head (
<figureCitation id="1315E0E9FFDA592FE110A61C54B0FE7F" box="[108,175,371,390]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="2" pageNumber="3">Fig. S1</figureCitation>
). First signs of disintegration of parenchyma cells in the pith were visible in the upper flower peduncle of S2 flowers (
<figureCitation id="1315E0E9FFDA592FE30BA6E056E7FE5B" box="[631,760,399,418]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="2" pageNumber="3">Fig. 1F and G</figureCitation>
).
</paragraph>
<caption id="DF51ACE4FFD9592CE118A02957B4F844" ID-DOI="http://doi.org/10.5281/zenodo.8258949" ID-Zenodo-Dep="8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="1" pageNumber="2" startId="1.[100,130,1862,1879]" targetBox="[151,1437,953,1833]" targetPageId="1" targetType="figure">
<paragraph id="8B91FC6CFFD9592CE118A02957B4F844" blockId="1.[100,1489,1862,1981]" pageId="1" pageNumber="2">
<emphasis id="B95A207EFFD9592CE118A0295482F8AE" bold="true" box="[100,157,1862,1879]" pageId="1" pageNumber="2">Fig. 1.</emphasis>
Morphological and anatomical structures of stage 2 (S2) 
<taxonomicName id="4C2E87EFFFD9592CE3F4A0285744F8AE" box="[648,859,1862,1879]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="1" pageNumber="2" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFD9592CE3F4A0285744F8AE" bold="true" box="[648,859,1862,1879]" italics="true" pageId="1" pageNumber="2">Tanacetum cinerariifolium</emphasis>
</taxonomicName>
flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The 
<emphasis id="B95A207EFFD9592CE28EA00F5009F888" bold="true" box="[1010,1046,1888,1905]" italics="true" pageId="1" pageNumber="2">inset</emphasis>
pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the 
<taxonomicName id="4C2E87EFFFD9592CE27BA015578EF873" box="[775,913,1913,1930]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="1" pageNumber="2" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFD9592CE27BA015578EF873" bold="true" box="[775,913,1913,1930]" italics="true" pageId="1" pageNumber="2">T. cinerariifolium</emphasis>
</taxonomicName>
S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue.
</paragraph>
</caption>
<paragraph id="8B91FC6CFFDA592FE118A6A6561CFE25" blockId="2.[100,515,457,476]" box="[100,515,457,476]" pageId="2" pageNumber="3">
<heading id="D0D94B00FFDA592FE118A6A6561CFE25" bold="true" box="[100,515,457,476]" fontSize="36" level="1" pageId="2" pageNumber="3" reason="1">
<emphasis id="B95A207EFFDA592FE118A6A6561CFE25" bold="true" box="[100,515,457,476]" italics="true" pageId="2" pageNumber="3">2.2. Localization of terpenes in young flowers</emphasis>
</heading>
</paragraph>
<paragraph id="8B91FC6CFFDA592FE1F8A56E5794FE7F" blockId="2.[100,770,513,1062]" lastBlockId="2.[818,1488,148,390]" pageId="2" pageNumber="3">
In our previous work (
<bibRefCitation id="EFBF819DFFDA592FE01CA56E55F6FDED" author="Li, H. &amp; Hu &amp; Mao, J. &amp; Yu, L. &amp; Stoopen, G. &amp; Wang, M. &amp; Mumm, R. &amp; de Ruijter, N. C. A. &amp; Dicke, M. &amp; Jongsma, M. A. &amp; Wang, C." box="[352,489,513,532]" pageId="2" pageNumber="3" pagination="1607 - 1620" refId="ref8737" refString="Li, H., Hu, Mao, J., Yu, L., Stoopen, G., Wang, M., Mumm, R., de Ruijter, N. C. A., Dicke, M., Jongsma, M. A., Wang, C., 2019. Defense of Pyrethrum Flowers: Repelling Herbivore and Recruiting Carnivore by Producing Aphid Alarm Pheromone New Phytol, vol. 223, pp. 1607 - 1620. https: // doi. org / 10.1111 / nph. 15869." type="journal article" year="2019">Li et al., 2019</bibRefCitation>
), we reported that flowering 
<taxonomicName id="4C2E87EFFFDA592FE118A57254E0FDD6" box="[100,255,540,560]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="2" pageNumber="3" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFDA592FE118A57254E0FDD6" bold="true" box="[100,255,540,560]" italics="true" pageId="2" pageNumber="3">T. cinerariifolium</emphasis>
</taxonomicName>
plants emitted a blend of five terpenes and one green leaf volatile in changing ratios as the flowers matured. The ratios in this blend appeared to control ladybird beetle attraction and aphid repellence. To further investigate the location and production of these terpenes, we performed hexane extraction and GC-MS analysis on selected early stage flower tissues (
<collectionCode id="ED3F64A9FFDA592FE015A5C7556AFD42" box="[361,373,680,699]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
0– 
<collectionCode id="ED3F64A9FFDA592FE0F0A5C75587FD42" box="[396,408,680,699]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
2) showing a significant transition in terpene emission composition and quantity. Focusing on terpenes with the terpene-specific mass 93 shows that fewer compounds were in peduncle extracts compared to the flower head (
<tableCitation id="C6ACC9D7FFDA592FE34EA5935666FCF6" box="[562,633,764,783]" captionStart="Table 1" captionStartId="2.[100,150,1105,1121]" captionTargetPageId="2" captionText="Table 1 Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages." httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="2" pageNumber="3" tableUuid="DF51ACE4FFDA592FE118A33E512CFB82">Table 1</tableCitation>
, 
<figureCitation id="1315E0E9FFDA592FE3F9A59356D2FCF6" box="[645,717,764,783]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="2" pageNumber="3">Fig. 2A</figureCitation>
). The principal volatile terpene constituents of the flower head were a set of isomeric sesquiterpenes with very similar mass spectra (
<tableCitation id="C6ACC9D7FFDA592FE3DBA45B56EBFCBE" box="[679,756,820,839]" captionStart="Table 1" captionStartId="2.[100,150,1105,1121]" captionTargetPageId="2" captionText="Table 1 Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages." httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="2" pageNumber="3" tableUuid="DF51ACE4FFDA592FE118A33E512CFB82">Table 1</tableCitation>
). (
<emphasis id="B95A207EFFDA592FE110A43F5467FC9A" bold="true" box="[108,120,848,867]" italics="true" pageId="2" pageNumber="3">E</emphasis>
)-β- farnesene (EβF) and germacrene D (GD) were the predominant molecules, accounting for 68% of total terpenes (34% EβF and 34% GD) in the 
<collectionCode id="ED3F64A9FFDA592FE1E3A4E754B5FC62" box="[159,170,904,923]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
0 flower head and 87% of total terpenes (80% EβF and 7.6% GD) in the upper flower peduncle (
<tableCitation id="C6ACC9D7FFDA592FE0E5A4CC55FCFC4F" box="[409,483,931,950]" captionStart="Table 1" captionStartId="2.[100,150,1105,1121]" captionTargetPageId="2" captionText="Table 1 Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages." httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="2" pageNumber="3" tableUuid="DF51ACE4FFDA592FE118A33E512CFB82">Table 1</tableCitation>
). To our surprise, these two dominant terpene volatiles EβF and GD were not present in common storage site trichomes, so this raised the question how these terpenes were then distributed inside the flower tissues. In fact, we found that approximately 88% of the total amount of GD was concentrated inside the 
<collectionCode id="ED3F64A9FFDA592FE228A7FB577FFF5E" box="[852,864,148,167]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
2 flower head, while in contrast 71% of EβF was stored in the flower peduncle (
<quantity id="4CD65189FFDA592FE2E8A7DF57DCFF3A" box="[916,963,176,195]" metricMagnitude="-2" metricUnit="m" metricValue="4.0" pageId="2" pageNumber="3" unit="cm" value="4.0">4 cm</quantity>
upper and 
<quantity id="4CD65189FFDA592FE54CA7DF5040FF3A" box="[1072,1119,176,195]" metricMagnitude="-2" metricUnit="m" metricValue="4.0" pageId="2" pageNumber="3" unit="cm" value="4.0">4 cm</quantity>
lower peduncle together) with less trichomes (
<figureCitation id="1315E0E9FFDA592FE2F4A7A457D1FF26" box="[904,974,203,223]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="2" pageNumber="3">Fig. 2B</figureCitation>
). 
<tableCitation id="C6ACC9D7FFDA592FE29DA7A45037FF26" box="[993,1064,203,223]" captionStart="Table 1" captionStartId="2.[100,150,1105,1121]" captionTargetPageId="2" captionText="Table 1 Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages." httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="2" pageNumber="3" tableUuid="DF51ACE4FFDA592FE118A33E512CFB82">Table 1</tableCitation>
shows how during flower development, the amount of EβF and GD in the flower head decreased relative to the strongly accumulating of pyrethrins, but maintained a constant level in the flower peduncle. Also in terms of specific weight in the flower head, EβF (
<quantity id="4CD65189FFDA592FE21EA65457B9FEB7" box="[866,934,315,334]" metricMagnitude="-10" metricUnit="kg" metricValue="2.57" pageId="2" pageNumber="3" unit="ng" value="257.0">257 ng</quantity>
per mg fresh tissue) and GD (
<quantity id="4CD65189FFDA592FE5BBA6545115FEB7" box="[1223,1290,315,334]" metricMagnitude="-10" metricUnit="kg" metricValue="2.51" pageId="2" pageNumber="3" unit="ng" value="251.0">251 ng</quantity>
per mg fresh tissue) similarly decreased by a factor two during 
<collectionCode id="ED3F64A9FFDA592FE5BBA63850CDFE93" box="[1223,1234,343,362]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
0 – 
<collectionCode id="ED3F64A9FFDA592FE58AA638511DFE93" box="[1270,1282,343,362]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
2 flower development (
<figureCitation id="1315E0E9FFDA592FE246A61C5760FE7F" box="[826,895,371,390]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="2" pageNumber="3">Fig. 2B</figureCitation>
).
</paragraph>
<paragraph id="8B91FC6CFFDA592FE24EA6C257BFFE25" blockId="2.[818,1471,429,449]" lastBlockId="2.[818,928,457,476]" pageId="2" pageNumber="3">
<heading id="D0D94B00FFDA592FE24EA6C257BFFE25" bold="true" centered="true" fontSize="36" level="1" pageId="2" pageNumber="3" reason="1">
<emphasis id="B95A207EFFDA592FE24EA6C257BFFE25" bold="true" italics="true" pageId="2" pageNumber="3">2.3. Detailed EβF and GD emission and distribution patterns during flower development</emphasis>
</heading>
</paragraph>
<paragraph id="8B91FC6CFFDA592FE22DA56E5141FCD2" blockId="2.[818,1487,513,1062]" pageId="2" pageNumber="3">
The early stage flowers contained similar levels of EβF and GD in the flower head (
<figureCitation id="1315E0E9FFDA592FE2C9A57257E2FDC9" box="[949,1021,541,560]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="2" pageNumber="3">Fig. 2B</figureCitation>
), but in the peduncle EβF levels were ~10-fold higher than GD. From our earlier work (
<bibRefCitation id="EFBF819DFFDA592FE5ACA556517DFDB5" author="Li, H. &amp; Hu &amp; Mao, J. &amp; Yu, L. &amp; Stoopen, G. &amp; Wang, M. &amp; Mumm, R. &amp; de Ruijter, N. C. A. &amp; Dicke, M. &amp; Jongsma, M. A. &amp; Wang, C." box="[1232,1378,569,588]" pageId="2" pageNumber="3" pagination="1607 - 1620" refId="ref8737" refString="Li, H., Hu, Mao, J., Yu, L., Stoopen, G., Wang, M., Mumm, R., de Ruijter, N. C. A., Dicke, M., Jongsma, M. A., Wang, C., 2019. Defense of Pyrethrum Flowers: Repelling Herbivore and Recruiting Carnivore by Producing Aphid Alarm Pheromone New Phytol, vol. 223, pp. 1607 - 1620. https: // doi. org / 10.1111 / nph. 15869." type="journal article" year="2019">Li et al., 2019</bibRefCitation>
), we were interested to understand how the change in EβF/GD emission ratio was achieved during flower development, with GD becoming the dominant volatile in the blend (
<figureCitation id="1315E0E9FFDA592FE286A5E3505FFD66" box="[1018,1088,652,671]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="2" pageNumber="3">Fig. 3A</figureCitation>
). In a first step, we analyzed the kinetics of EβF and GD emissions in the 
<collectionCode id="ED3F64A9FFDA592FE539A5C7504EFD42" box="[1093,1105,680,699]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
0-2 flowering plants, and found that EβF emission levels peaked at 10 a.m., whereas GD emissions peaked 4 h earlier at 6 a.m. and were significantly higher than EβF at night (
<figureCitation id="1315E0E9FFDA592FE246A5935760FCF6" box="[826,895,764,783]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="2" pageNumber="3">Fig. 3B</figureCitation>
). The differences in emissions we presumed to be partly due to differences in storage tissues and gene expression patterns.
</paragraph>
<paragraph id="8B91FC6CFFDA592EE22DA45B56BEFA95" blockId="2.[818,1487,513,1062]" lastBlockId="3.[100,770,1229,1751]" lastPageId="3" lastPageNumber="4" pageId="2" pageNumber="3">
To analyze the temporal distribution of these two sesquiterpenes in the flower and peduncle in detail, we further analyzed hexane extracts of flower heads and flower peduncles from a wider range of developmental stages (
<collectionCode id="ED3F64A9FFDA592FE20AA4E7579BFC62" box="[886,900,904,923]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
1– 
<collectionCode id="ED3F64A9FFDA592FE2E4A4E857B9FC63" box="[920,934,903,922]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="2" pageNumber="3" type="Herbarium">S</collectionCode>
5). Whole plant EβF and GD emissions both increased during flower development (
<figureCitation id="1315E0E9FFDA592FE282A4CC5059FC4F" box="[1022,1094,931,950]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="2" pageNumber="3">Fig. 3A</figureCitation>
), but the content per fresh weight of EβF and GD stored in the flower head decreased and remained constant in the flower peduncle (
<figureCitation id="1315E0E9FFDA592FE282A4B4507FFC17" box="[1022,1120,987,1006]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="2" pageNumber="3">Fig. 3C–D</figureCitation>
). On a per flower basis, the content of EβF and GD in the flower head peaked at stage 2 (
<tableCitation id="C6ACC9D7FFDA592FE465A4985174FBF3" box="[1305,1387,1015,1034]" captionStart="Table 1" captionStartId="2.[100,150,1105,1121]" captionTargetPageId="2" captionText="Table 1 Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages." httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="2" pageNumber="3" tableUuid="DF51ACE4FFDA592FE118A33E512CFB82">Table S1</tableCitation>
). The majority of this stored amount is never emitted as only a small fraction (around 1%) is measured to be released into the environment during a flower lifetime per day (
<figureCitation id="1315E0E9FFDB592EE03BA3865592FB05" box="[327,397,1257,1276]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="3" pageNumber="4">Fig. 3A</figureCitation>
). 
<quantity id="4CD65189FFDB592EE0E1A3865612FB05" box="[413,525,1257,1277]" metricMagnitude="-10" metricUnit="kg" metricValue="1.5" metricValueMax="2.0" metricValueMin="1.0" pageId="3" pageNumber="4" unit="ng" value="150.0" valueMax="200.0" valueMin="100.0">100–200 ng</quantity>
/h EβF or GD was released from 
<collectionCode id="ED3F64A9FFDB592EE1E5A26A54BAFAE1" box="[153,165,1285,1304]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
0-2 whole flowering plant (15–20 flowers) in a 24 h collection period, which means about 
<quantity id="4CD65189FFDB592EE016A24E55C5FACD" box="[362,474,1313,1332]" metricMagnitude="-10" metricUnit="kg" metricValue="2.15" metricValueMax="3.1" metricValueMin="1.2" pageId="3" pageNumber="4" unit="ng" value="215.0" valueMax="310.0" valueMin="120.0">120–310 ng</quantity>
EβF or GD was released from a single flower per day. Yet, we found nearly 18 μg EβF and 28 μg GD to be stored in a single 
<collectionCode id="ED3F64A9FFDB592EE070A2365507FA95" box="[268,280,1369,1388]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
2 flower head (
<tableCitation id="C6ACC9D7FFDB592EE0D4A23655E6FA95" box="[424,505,1369,1388]" captionStart="Table 1" captionStartId="2.[100,150,1105,1121]" captionTargetPageId="2" captionText="Table 1 Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages." httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="3" pageNumber="4" tableUuid="DF51ACE4FFDA592FE118A33E512CFB82">Table S1</tableCitation>
) (
<bibRefCitation id="EFBF819DFFDB592EE373A236568CFA95" author="Li, H. &amp; Hu &amp; Mao, J. &amp; Yu, L. &amp; Stoopen, G. &amp; Wang, M. &amp; Mumm, R. &amp; de Ruijter, N. C. A. &amp; Dicke, M. &amp; Jongsma, M. A. &amp; Wang, C." box="[527,659,1369,1388]" pageId="3" pageNumber="4" pagination="1607 - 1620" refId="ref8737" refString="Li, H., Hu, Mao, J., Yu, L., Stoopen, G., Wang, M., Mumm, R., de Ruijter, N. C. A., Dicke, M., Jongsma, M. A., Wang, C., 2019. Defense of Pyrethrum Flowers: Repelling Herbivore and Recruiting Carnivore by Producing Aphid Alarm Pheromone New Phytol, vol. 223, pp. 1607 - 1620. https: // doi. org / 10.1111 / nph. 15869." type="journal article" year="2019">Li et al., 2019</bibRefCitation>
).
</paragraph>
<caption id="DF51ACE4FFDA592FE118A33E512CFB82" ID-Table-UUID="DF51ACE4FFDA592FE118A33E512CFB82" httpUri="http://table.plazi.org/id/DF51ACE4FFDA592FE118A33E512CFB82" pageId="2" pageNumber="3" startId="2.[100,150,1105,1121]" targetBox="[116,1464,1164,1892]" targetIsTable="true" targetPageId="2" targetType="table">
<paragraph id="8B91FC6CFFDA592FE118A33E54B8FB9B" blockId="2.[100,1331,1105,1148]" box="[100,167,1105,1122]" pageId="2" pageNumber="3">
<emphasis id="B95A207EFFDA592FE118A33E54B8FB9B" bold="true" box="[100,167,1105,1122]" pageId="2" pageNumber="3">Table 1</emphasis>
</paragraph>
<paragraph id="8B91FC6CFFDA592FE118A304512CFB82" blockId="2.[100,1331,1105,1148]" box="[100,1331,1131,1148]" pageId="2" pageNumber="3">Composition of the volatile and non-volatile terpenes of flower bud, upper peduncle and lower peduncle at different early developmental stages.</paragraph>
</caption>
<paragraph id="8B91FC6CFFDA592FE108A3FF5184F89A" pageId="2" pageNumber="3">
<table id="F92E0ECCFFDAA6D2E108A3E351A7F89D" box="[116,1464,1164,1892]" gridcols="12" gridrows="31" pageId="2" pageNumber="3">
<tr id="351EFE2EFFDAA6D2E108A3E351A7FB67" box="[116,1464,1164,1182]" gridrow="0" pageId="2" pageNumber="3" rowspan-11="1" rowspan-5="1" rowspan-8="1">
<th id="76CF9752FFDAA6D2E108A3E3548BFB67" box="[116,148,1164,1182]" gridcol="0" gridrow="0" pageId="2" pageNumber="3">NO.</th>
<th id="76CF9752FFDAA6D2E1CCA3E355CFFB67" box="[176,464,1164,1182]" gridcol="1" gridrow="0" pageId="2" pageNumber="3">Components a</th>
<th id="76CF9752FFDAA6D2E087A3E35632FB67" box="[507,557,1164,1182]" gridcol="2" gridrow="0" pageId="2" pageNumber="3">Kovats</th>
<th id="76CF9752FFDAA6D2E31EA3E3571CFB67" box="[610,771,1164,1182]" colspan="2" colspanRight="1" gridcol="3" gridrow="0" pageId="2" pageNumber="3">Flower bud</th>
<th id="76CF9752FFDAA6D2E2F0A3E35031FB67" box="[908,1070,1164,1182]" colspan="2" colspanRight="1" gridcol="6" gridrow="0" pageId="2" pageNumber="3">Upper peduncle</th>
<th id="76CF9752FFDAA6D2E5CBA3E3514BFB67" box="[1207,1364,1164,1182]" colspan="2" colspanRight="1" gridcol="9" gridrow="0" pageId="2" pageNumber="3">Lower peduncle</th>
</tr>
<tr id="351EFE2EFFDAA6D2E108A3C951A7FB38" box="[116,1464,1190,1217]" gridrow="1" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1">
<td id="76CF9752FFDAA6D2E087A3C95632FB38" box="[507,557,1190,1217]" gridcol="2" gridrow="1" pageId="2" pageNumber="3">Index</td>
<td id="76CF9752FFDAA6D2E31EA3C956BFFB38" box="[610,672,1190,1217]" gridcol="3" gridrow="1" pageId="2" pageNumber="3">S0</td>
<td id="76CF9752FFDAA6D2E3B9A3C9571CFB38" box="[709,771,1190,1217]" gridcol="4" gridrow="1" pageId="2" pageNumber="3">S1</td>
<td id="76CF9752FFDAA6D2E255A3C95778FB38" box="[809,871,1190,1217]" gridcol="5" gridrow="1" pageId="2" pageNumber="3">S2</td>
<td id="76CF9752FFDAA6D2E2F0A3C957D5FB38" box="[908,970,1190,1217]" gridcol="6" gridrow="1" pageId="2" pageNumber="3">S0</td>
<td id="76CF9752FFDAA6D2E28CA3C95031FB38" box="[1008,1070,1190,1217]" gridcol="7" gridrow="1" pageId="2" pageNumber="3">S1</td>
<td id="76CF9752FFDAA6D2E52FA3C9508EFB38" box="[1107,1169,1190,1217]" gridcol="8" gridrow="1" pageId="2" pageNumber="3">S2</td>
<td id="76CF9752FFDAA6D2E5CBA3C950EAFB38" box="[1207,1269,1190,1217]" gridcol="9" gridrow="1" pageId="2" pageNumber="3">S0</td>
<td id="76CF9752FFDAA6D2E46AA3C9514BFB38" box="[1302,1364,1190,1217]" gridcol="10" gridrow="1" pageId="2" pageNumber="3">S1</td>
<td id="76CF9752FFDAA6D2E406A3C951A7FB38" box="[1402,1464,1190,1217]" gridcol="11" gridrow="1" pageId="2" pageNumber="3">S2</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A3BD51A7FB1D" box="[116,1464,1234,1252]" gridrow="2" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A3BD548BFB1D" box="[116,148,1234,1252]" gridcol="0" gridrow="2" pageId="2" pageNumber="3">1</th>
<td id="76CF9752FFDAA6D2E1CCA3BD55CFFB1D" box="[176,464,1234,1252]" gridcol="1" gridrow="2" pageId="2" pageNumber="3">Unknown</td>
<td id="76CF9752FFDAA6D2E087A3BD5632FB1D" box="[507,557,1234,1252]" gridcol="2" gridrow="2" pageId="2" pageNumber="3">1348</td>
<td id="76CF9752FFDAA6D2E31EA3BD56BFFB1D" box="[610,672,1234,1252]" gridcol="3" gridrow="2" pageId="2" pageNumber="3">0.24 ±</td>
<td id="76CF9752FFDAA6D2E3B9A3BD571CFB1D" box="[709,771,1234,1252]" gridcol="4" gridrow="2" pageId="2" pageNumber="3">0.25 ±</td>
<td id="76CF9752FFDAA6D2E255A3BD5778FB1D" box="[809,871,1234,1252]" gridcol="5" gridrow="2" pageId="2" pageNumber="3">0.14 ±</td>
<td id="76CF9752FFDAA6D2E2F0A3BD57D5FB1D" box="[908,970,1234,1252]" gridcol="6" gridrow="2" pageId="2" pageNumber="3">—b</td>
<td id="76CF9752FFDAA6D2E28CA3BD5031FB1D" box="[1008,1070,1234,1252]" gridcol="7" gridrow="2" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E52FA3BD508EFB1D" box="[1107,1169,1234,1252]" gridcol="8" gridrow="2" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E5CBA3BD50EAFB1D" box="[1207,1269,1234,1252]" gridcol="9" gridrow="2" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E46AA3BD514BFB1D" box="[1302,1364,1234,1252]" gridcol="10" gridrow="2" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E406A3BD51A7FB1D" box="[1402,1464,1234,1252]" gridcol="11" gridrow="2" pageId="2" pageNumber="3">–</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A38251A7FB02" box="[116,1464,1261,1275]" gridrow="3" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-10="1" rowspan-11="1" rowspan-2="1" rowspan-6="1" rowspan-7="1" rowspan-8="1" rowspan-9="1">
<td id="76CF9752FFDAA6D2E31EA38256BFFB02" box="[610,672,1261,1275]" gridcol="3" gridrow="3" pageId="2" pageNumber="3">0.04</td>
<td id="76CF9752FFDAA6D2E3B9A382571CFB02" box="[709,771,1261,1275]" gridcol="4" gridrow="3" pageId="2" pageNumber="3">0.02</td>
<td id="76CF9752FFDAA6D2E255A3825778FB02" box="[809,871,1261,1275]" gridcol="5" gridrow="3" pageId="2" pageNumber="3">0.01</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A26C51A7FAEB" box="[116,1464,1283,1298]" gridrow="4" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A26C548BFAEB" box="[116,148,1283,1298]" gridcol="0" gridrow="4" pageId="2" pageNumber="3">2</th>
<td id="76CF9752FFDAA6D2E1CCA26C55CFFAEB" box="[176,464,1283,1298]" gridcol="1" gridrow="4" pageId="2" pageNumber="3">()-gamma-elemene</td>
<td id="76CF9752FFDAA6D2E087A26C5632FAEB" box="[507,557,1283,1298]" gridcol="2" gridrow="4" pageId="2" pageNumber="3">1357</td>
<td id="76CF9752FFDAA6D2E31EA26C56BFFAEB" box="[610,672,1283,1298]" gridcol="3" gridrow="4" pageId="2" pageNumber="3">2.98 ±</td>
<td id="76CF9752FFDAA6D2E3B9A26C571CFAEB" box="[709,771,1283,1298]" gridcol="4" gridrow="4" pageId="2" pageNumber="3">2.93 ±</td>
<td id="76CF9752FFDAA6D2E255A26C5778FAEB" box="[809,871,1283,1298]" gridcol="5" gridrow="4" pageId="2" pageNumber="3">1.69 ±</td>
<td id="76CF9752FFDAA6D2E2F0A26C57D5FAEB" box="[908,970,1283,1298]" gridcol="6" gridrow="4" pageId="2" pageNumber="3">0.74 ±</td>
<td id="76CF9752FFDAA6D2E28CA26C5031FAEB" box="[1008,1070,1283,1298]" gridcol="7" gridrow="4" pageId="2" pageNumber="3">0.67 ±</td>
<td id="76CF9752FFDAA6D2E52FA26C508EFAEB" box="[1107,1169,1283,1298]" gridcol="8" gridrow="4" pageId="2" pageNumber="3">0.71 ±</td>
<td id="76CF9752FFDAA6D2E5CBA26C50EAFAEB" box="[1207,1269,1283,1298]" gridcol="9" gridrow="4" pageId="2" pageNumber="3">0.73 ±</td>
<td id="76CF9752FFDAA6D2E46AA26C514BFAEB" box="[1302,1364,1283,1298]" gridcol="10" gridrow="4" pageId="2" pageNumber="3">0.62 ±</td>
<td id="76CF9752FFDAA6D2E406A26C51A7FAEB" box="[1402,1464,1283,1298]" gridcol="11" gridrow="4" pageId="2" pageNumber="3">0.46 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A27551A7FAD1" box="[116,1464,1306,1320]" gridrow="5" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA27556BFFAD1" box="[610,672,1306,1320]" gridcol="3" gridrow="5" pageId="2" pageNumber="3">0.28</td>
<td id="76CF9752FFDAA6D2E3B9A275571CFAD1" box="[709,771,1306,1320]" gridcol="4" gridrow="5" pageId="2" pageNumber="3">0.29</td>
<td id="76CF9752FFDAA6D2E255A2755778FAD1" box="[809,871,1306,1320]" gridcol="5" gridrow="5" pageId="2" pageNumber="3">0.08</td>
<td id="76CF9752FFDAA6D2E2F0A27557D5FAD1" box="[908,970,1306,1320]" gridcol="6" gridrow="5" pageId="2" pageNumber="3">0.01</td>
<td id="76CF9752FFDAA6D2E28CA2755031FAD1" box="[1008,1070,1306,1320]" gridcol="7" gridrow="5" pageId="2" pageNumber="3">0.04</td>
<td id="76CF9752FFDAA6D2E52FA275508EFAD1" box="[1107,1169,1306,1320]" gridcol="8" gridrow="5" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E5CBA27550EAFAD1" box="[1207,1269,1306,1320]" gridcol="9" gridrow="5" pageId="2" pageNumber="3">0.06</td>
<td id="76CF9752FFDAA6D2E46AA275514BFAD1" box="[1302,1364,1306,1320]" gridcol="10" gridrow="5" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E406A27551A7FAD1" box="[1402,1464,1306,1320]" gridcol="11" gridrow="5" pageId="2" pageNumber="3">0.03</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A25E51A7FAB9" box="[116,1464,1329,1344]" gridrow="6" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A25E548BFAB9" box="[116,148,1329,1344]" gridcol="0" gridrow="6" pageId="2" pageNumber="3">3</th>
<td id="76CF9752FFDAA6D2E1CCA25E55CFFAB9" box="[176,464,1329,1344]" gridcol="1" gridrow="6" pageId="2" pageNumber="3">alpha-ylangene</td>
<td id="76CF9752FFDAA6D2E087A25E5632FAB9" box="[507,557,1329,1344]" gridcol="2" gridrow="6" pageId="2" pageNumber="3">1399</td>
<td id="76CF9752FFDAA6D2E31EA25E56BFFAB9" box="[610,672,1329,1344]" gridcol="3" gridrow="6" pageId="2" pageNumber="3">0.47 ±</td>
<td id="76CF9752FFDAA6D2E3B9A25E571CFAB9" box="[709,771,1329,1344]" gridcol="4" gridrow="6" pageId="2" pageNumber="3">0.42 ±</td>
<td id="76CF9752FFDAA6D2E255A25E5778FAB9" box="[809,871,1329,1344]" gridcol="5" gridrow="6" pageId="2" pageNumber="3">0.22 ±</td>
<td id="76CF9752FFDAA6D2E2F0A25E57D5FAB9" box="[908,970,1329,1344]" gridcol="6" gridrow="6" pageId="2" pageNumber="3">0.10 ±</td>
<td id="76CF9752FFDAA6D2E28CA25E5031FAB9" box="[1008,1070,1329,1344]" gridcol="7" gridrow="6" pageId="2" pageNumber="3">0.10 ±</td>
<td id="76CF9752FFDAA6D2E52FA25E508EFAB9" box="[1107,1169,1329,1344]" gridcol="8" gridrow="6" pageId="2" pageNumber="3">0.01 ±</td>
<td id="76CF9752FFDAA6D2E5CBA25E50EAFAB9" box="[1207,1269,1329,1344]" gridcol="9" gridrow="6" pageId="2" pageNumber="3">0.12 ±</td>
<td id="76CF9752FFDAA6D2E46AA25E514BFAB9" box="[1302,1364,1329,1344]" gridcol="10" gridrow="6" pageId="2" pageNumber="3">0.07 ±</td>
<td id="76CF9752FFDAA6D2E406A25E51A7FAB9" box="[1402,1464,1329,1344]" gridcol="11" gridrow="6" pageId="2" pageNumber="3">–</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A22751A7FAAF" box="[116,1464,1352,1366]" gridrow="7" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-11="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA22756BFFAAF" box="[610,672,1352,1366]" gridcol="3" gridrow="7" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E3B9A227571CFAAF" box="[709,771,1352,1366]" gridcol="4" gridrow="7" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E255A2275778FAAF" box="[809,871,1352,1366]" gridcol="5" gridrow="7" pageId="2" pageNumber="3">0.01</td>
<td id="76CF9752FFDAA6D2E2F0A22757D5FAAF" box="[908,970,1352,1366]" gridcol="6" gridrow="7" pageId="2" pageNumber="3">0.00</td>
<td id="76CF9752FFDAA6D2E28CA2275031FAAF" box="[1008,1070,1352,1366]" gridcol="7" gridrow="7" pageId="2" pageNumber="3">0.01</td>
<td id="76CF9752FFDAA6D2E52FA227508EFAAF" box="[1107,1169,1352,1366]" gridcol="8" gridrow="7" pageId="2" pageNumber="3">0.01</td>
<td id="76CF9752FFDAA6D2E5CBA22750EAFAAF" box="[1207,1269,1352,1366]" gridcol="9" gridrow="7" pageId="2" pageNumber="3">0.02</td>
<td id="76CF9752FFDAA6D2E46AA227514BFAAF" box="[1302,1364,1352,1366]" gridcol="10" gridrow="7" pageId="2" pageNumber="3">0.02</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A23151A7FA94" box="[116,1464,1374,1389]" gridrow="8" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A231548BFA94" box="[116,148,1374,1389]" gridcol="0" gridrow="8" pageId="2" pageNumber="3">4</th>
<td id="76CF9752FFDAA6D2E1CCA23155CFFA94" box="[176,464,1374,1389]" gridcol="1" gridrow="8" pageId="2" pageNumber="3">alpha-copaene</td>
<td id="76CF9752FFDAA6D2E087A2315632FA94" box="[507,557,1374,1389]" gridcol="2" gridrow="8" pageId="2" pageNumber="3">1409</td>
<td id="76CF9752FFDAA6D2E31EA23156BFFA94" box="[610,672,1374,1389]" gridcol="3" gridrow="8" pageId="2" pageNumber="3">0.65 ±</td>
<td id="76CF9752FFDAA6D2E3B9A231571CFA94" box="[709,771,1374,1389]" gridcol="4" gridrow="8" pageId="2" pageNumber="3">0.47 ±</td>
<td id="76CF9752FFDAA6D2E255A2315778FA94" box="[809,871,1374,1389]" gridcol="5" gridrow="8" pageId="2" pageNumber="3">0.21 ±</td>
<td id="76CF9752FFDAA6D2E2F0A23157D5FA94" box="[908,970,1374,1389]" gridcol="6" gridrow="8" pageId="2" pageNumber="3">0.22 ±</td>
<td id="76CF9752FFDAA6D2E28CA2315031FA94" box="[1008,1070,1374,1389]" gridcol="7" gridrow="8" pageId="2" pageNumber="3">0.14 ±</td>
<td id="76CF9752FFDAA6D2E52FA231508EFA94" box="[1107,1169,1374,1389]" gridcol="8" gridrow="8" pageId="2" pageNumber="3">0.03 ±</td>
<td id="76CF9752FFDAA6D2E5CBA23150EAFA94" box="[1207,1269,1374,1389]" gridcol="9" gridrow="8" pageId="2" pageNumber="3">0.20 ±</td>
<td id="76CF9752FFDAA6D2E46AA231514BFA94" box="[1302,1364,1374,1389]" gridcol="10" gridrow="8" pageId="2" pageNumber="3">0.11 ±</td>
<td id="76CF9752FFDAA6D2E406A23151A7FA94" box="[1402,1464,1374,1389]" gridcol="11" gridrow="8" pageId="2" pageNumber="3">–</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A21951A7FA7D" box="[116,1464,1398,1412]" gridrow="9" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-11="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA21956BFFA7D" box="[610,672,1398,1412]" gridcol="3" gridrow="9" pageId="2" pageNumber="3">0.10</td>
<td id="76CF9752FFDAA6D2E3B9A219571CFA7D" box="[709,771,1398,1412]" gridcol="4" gridrow="9" pageId="2" pageNumber="3">0.08</td>
<td id="76CF9752FFDAA6D2E255A2195778FA7D" box="[809,871,1398,1412]" gridcol="5" gridrow="9" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E2F0A21957D5FA7D" box="[908,970,1398,1412]" gridcol="6" gridrow="9" pageId="2" pageNumber="3">0.06</td>
<td id="76CF9752FFDAA6D2E28CA2195031FA7D" box="[1008,1070,1398,1412]" gridcol="7" gridrow="9" pageId="2" pageNumber="3">0.01</td>
<td id="76CF9752FFDAA6D2E52FA219508EFA7D" box="[1107,1169,1398,1412]" gridcol="8" gridrow="9" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E5CBA21950EAFA7D" box="[1207,1269,1398,1412]" gridcol="9" gridrow="9" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E46AA219514BFA7D" box="[1302,1364,1398,1412]" gridcol="10" gridrow="9" pageId="2" pageNumber="3">0.01</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A2E351A7FA62" box="[116,1464,1420,1435]" gridrow="10" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A2E3548BFA62" box="[116,148,1420,1435]" gridcol="0" gridrow="10" pageId="2" pageNumber="3">5</th>
<td id="76CF9752FFDAA6D2E1CCA2E355CFFA62" box="[176,464,1420,1435]" gridcol="1" gridrow="10" pageId="2" pageNumber="3">beta-ylangene</td>
<td id="76CF9752FFDAA6D2E087A2E35632FA62" box="[507,557,1420,1435]" gridcol="2" gridrow="10" pageId="2" pageNumber="3">1439</td>
<td id="76CF9752FFDAA6D2E31EA2E356BFFA62" box="[610,672,1420,1435]" gridcol="3" gridrow="10" pageId="2" pageNumber="3">6.81 ±</td>
<td id="76CF9752FFDAA6D2E3B9A2E3571CFA62" box="[709,771,1420,1435]" gridcol="4" gridrow="10" pageId="2" pageNumber="3">6.43 ±</td>
<td id="76CF9752FFDAA6D2E255A2E35778FA62" box="[809,871,1420,1435]" gridcol="5" gridrow="10" pageId="2" pageNumber="3">3.74 ±</td>
<td id="76CF9752FFDAA6D2E2F0A2E357D5FA62" box="[908,970,1420,1435]" gridcol="6" gridrow="10" pageId="2" pageNumber="3">1.00 ±</td>
<td id="76CF9752FFDAA6D2E28CA2E35031FA62" box="[1008,1070,1420,1435]" gridcol="7" gridrow="10" pageId="2" pageNumber="3">0.84 ±</td>
<td id="76CF9752FFDAA6D2E52FA2E3508EFA62" box="[1107,1169,1420,1435]" gridcol="8" gridrow="10" pageId="2" pageNumber="3">0.82 ±</td>
<td id="76CF9752FFDAA6D2E5CBA2E350EAFA62" box="[1207,1269,1420,1435]" gridcol="9" gridrow="10" pageId="2" pageNumber="3">1.22 ±</td>
<td id="76CF9752FFDAA6D2E46AA2E3514BFA62" box="[1302,1364,1420,1435]" gridcol="10" gridrow="10" pageId="2" pageNumber="3">0.90 ±</td>
<td id="76CF9752FFDAA6D2E406A2E351A7FA62" box="[1402,1464,1420,1435]" gridcol="11" gridrow="10" pageId="2" pageNumber="3">0.54 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A2CC51A7FA48" box="[116,1464,1443,1457]" gridrow="11" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA2CC56BFFA48" box="[610,672,1443,1457]" gridcol="3" gridrow="11" pageId="2" pageNumber="3">0.49</td>
<td id="76CF9752FFDAA6D2E3B9A2CC571CFA48" box="[709,771,1443,1457]" gridcol="4" gridrow="11" pageId="2" pageNumber="3">0.30</td>
<td id="76CF9752FFDAA6D2E255A2CC5778FA48" box="[809,871,1443,1457]" gridcol="5" gridrow="11" pageId="2" pageNumber="3">0.11</td>
<td id="76CF9752FFDAA6D2E2F0A2CC57D5FA48" box="[908,970,1443,1457]" gridcol="6" gridrow="11" pageId="2" pageNumber="3">0.09</td>
<td id="76CF9752FFDAA6D2E28CA2CC5031FA48" box="[1008,1070,1443,1457]" gridcol="7" gridrow="11" pageId="2" pageNumber="3">0.08</td>
<td id="76CF9752FFDAA6D2E52FA2CC508EFA48" box="[1107,1169,1443,1457]" gridcol="8" gridrow="11" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E5CBA2CC50EAFA48" box="[1207,1269,1443,1457]" gridcol="9" gridrow="11" pageId="2" pageNumber="3">0.15</td>
<td id="76CF9752FFDAA6D2E46AA2CC514BFA48" box="[1302,1364,1443,1457]" gridcol="10" gridrow="11" pageId="2" pageNumber="3">0.13</td>
<td id="76CF9752FFDAA6D2E406A2CC51A7FA48" box="[1402,1464,1443,1457]" gridcol="11" gridrow="11" pageId="2" pageNumber="3">0.11</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A2D551A7FA30" box="[116,1464,1466,1481]" gridrow="12" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A2D5548BFA30" box="[116,148,1466,1481]" gridcol="0" gridrow="12" pageId="2" pageNumber="3">6</th>
<td id="76CF9752FFDAA6D2E1CCA2D555CFFA30" box="[176,464,1466,1481]" gridcol="1" gridrow="12" pageId="2" pageNumber="3">Unknown</td>
<td id="76CF9752FFDAA6D2E087A2D55632FA30" box="[507,557,1466,1481]" gridcol="2" gridrow="12" pageId="2" pageNumber="3">1442</td>
<td id="76CF9752FFDAA6D2E31EA2D556BFFA30" box="[610,672,1466,1481]" gridcol="3" gridrow="12" pageId="2" pageNumber="3">0.83 ±</td>
<td id="76CF9752FFDAA6D2E3B9A2D5571CFA30" box="[709,771,1466,1481]" gridcol="4" gridrow="12" pageId="2" pageNumber="3">0.91 ±</td>
<td id="76CF9752FFDAA6D2E255A2D55778FA30" box="[809,871,1466,1481]" gridcol="5" gridrow="12" pageId="2" pageNumber="3">0.39 ±</td>
<td id="76CF9752FFDAA6D2E2F0A2D557D5FA30" box="[908,970,1466,1481]" gridcol="6" gridrow="12" pageId="2" pageNumber="3">0.50 ±</td>
<td id="76CF9752FFDAA6D2E28CA2D55031FA30" box="[1008,1070,1466,1481]" gridcol="7" gridrow="12" pageId="2" pageNumber="3">0.35 ±</td>
<td id="76CF9752FFDAA6D2E52FA2D5508EFA30" box="[1107,1169,1466,1481]" gridcol="8" gridrow="12" pageId="2" pageNumber="3">0.24 ±</td>
<td id="76CF9752FFDAA6D2E5CBA2D550EAFA30" box="[1207,1269,1466,1481]" gridcol="9" gridrow="12" pageId="2" pageNumber="3">0.44 ±</td>
<td id="76CF9752FFDAA6D2E46AA2D5514BFA30" box="[1302,1364,1466,1481]" gridcol="10" gridrow="12" pageId="2" pageNumber="3">0.26 ±</td>
<td id="76CF9752FFDAA6D2E406A2D551A7FA30" box="[1402,1464,1466,1481]" gridcol="11" gridrow="12" pageId="2" pageNumber="3">0.19 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A2BE51A7FA26" box="[116,1464,1489,1503]" gridrow="13" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA2BE56BFFA26" box="[610,672,1489,1503]" gridcol="3" gridrow="13" pageId="2" pageNumber="3">0.08</td>
<td id="76CF9752FFDAA6D2E3B9A2BE571CFA26" box="[709,771,1489,1503]" gridcol="4" gridrow="13" pageId="2" pageNumber="3">0.21</td>
<td id="76CF9752FFDAA6D2E255A2BE5778FA26" box="[809,871,1489,1503]" gridcol="5" gridrow="13" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E2F0A2BE57D5FA26" box="[908,970,1489,1503]" gridcol="6" gridrow="13" pageId="2" pageNumber="3">0.02</td>
<td id="76CF9752FFDAA6D2E28CA2BE5031FA26" box="[1008,1070,1489,1503]" gridcol="7" gridrow="13" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E52FA2BE508EFA26" box="[1107,1169,1489,1503]" gridcol="8" gridrow="13" pageId="2" pageNumber="3">0.02</td>
<td id="76CF9752FFDAA6D2E5CBA2BE50EAFA26" box="[1207,1269,1489,1503]" gridcol="9" gridrow="13" pageId="2" pageNumber="3">0.11</td>
<td id="76CF9752FFDAA6D2E46AA2BE514BFA26" box="[1302,1364,1489,1503]" gridcol="10" gridrow="13" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E406A2BE51A7FA26" box="[1402,1464,1489,1503]" gridcol="11" gridrow="13" pageId="2" pageNumber="3">0.05</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A28851A7FA0F" box="[116,1464,1511,1526]" gridrow="14" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A288548BFA0F" box="[116,148,1511,1526]" gridcol="0" gridrow="14" pageId="2" pageNumber="3">7</th>
<td id="76CF9752FFDAA6D2E1CCA28855CFFA0F" box="[176,464,1511,1526]" gridcol="1" gridrow="14" pageId="2" pageNumber="3">beta-copaene</td>
<td id="76CF9752FFDAA6D2E087A2885632FA0F" box="[507,557,1511,1526]" gridcol="2" gridrow="14" pageId="2" pageNumber="3">1450</td>
<td id="76CF9752FFDAA6D2E31EA28856BFFA0F" box="[610,672,1511,1526]" gridcol="3" gridrow="14" pageId="2" pageNumber="3">3.69 ±</td>
<td id="76CF9752FFDAA6D2E3B9A288571CFA0F" box="[709,771,1511,1526]" gridcol="4" gridrow="14" pageId="2" pageNumber="3">3.73 ±</td>
<td id="76CF9752FFDAA6D2E255A2885778FA0F" box="[809,871,1511,1526]" gridcol="5" gridrow="14" pageId="2" pageNumber="3">2.10 ±</td>
<td id="76CF9752FFDAA6D2E2F0A28857D5FA0F" box="[908,970,1511,1526]" gridcol="6" gridrow="14" pageId="2" pageNumber="3">0.49 ±</td>
<td id="76CF9752FFDAA6D2E28CA2885031FA0F" box="[1008,1070,1511,1526]" gridcol="7" gridrow="14" pageId="2" pageNumber="3">0.45 ±</td>
<td id="76CF9752FFDAA6D2E52FA288508EFA0F" box="[1107,1169,1511,1526]" gridcol="8" gridrow="14" pageId="2" pageNumber="3">0.39 ±</td>
<td id="76CF9752FFDAA6D2E5CBA28850EAFA0F" box="[1207,1269,1511,1526]" gridcol="9" gridrow="14" pageId="2" pageNumber="3">0.60 ±</td>
<td id="76CF9752FFDAA6D2E46AA288514BFA0F" box="[1302,1364,1511,1526]" gridcol="10" gridrow="14" pageId="2" pageNumber="3">0.48 ±</td>
<td id="76CF9752FFDAA6D2E406A28851A7FA0F" box="[1402,1464,1511,1526]" gridcol="11" gridrow="14" pageId="2" pageNumber="3">0.25 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A29051A7F9F4" box="[116,1464,1535,1549]" gridrow="15" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA29056BFF9F4" box="[610,672,1535,1549]" gridcol="3" gridrow="15" pageId="2" pageNumber="3">0.39</td>
<td id="76CF9752FFDAA6D2E3B9A290571CF9F4" box="[709,771,1535,1549]" gridcol="4" gridrow="15" pageId="2" pageNumber="3">0.23</td>
<td id="76CF9752FFDAA6D2E255A2905778F9F4" box="[809,871,1535,1549]" gridcol="5" gridrow="15" pageId="2" pageNumber="3">0.14</td>
<td id="76CF9752FFDAA6D2E2F0A29057D5F9F4" box="[908,970,1535,1549]" gridcol="6" gridrow="15" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E28CA2905031F9F4" box="[1008,1070,1535,1549]" gridcol="7" gridrow="15" pageId="2" pageNumber="3">0.04</td>
<td id="76CF9752FFDAA6D2E52FA290508EF9F4" box="[1107,1169,1535,1549]" gridcol="8" gridrow="15" pageId="2" pageNumber="3">0.04</td>
<td id="76CF9752FFDAA6D2E5CBA29050EAF9F4" box="[1207,1269,1535,1549]" gridcol="9" gridrow="15" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E46AA290514BF9F4" box="[1302,1364,1535,1549]" gridcol="10" gridrow="15" pageId="2" pageNumber="3">0.08</td>
<td id="76CF9752FFDAA6D2E406A29051A7F9F4" box="[1402,1464,1535,1549]" gridcol="11" gridrow="15" pageId="2" pageNumber="3">0.05</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A17A51A7F9DD" box="[116,1464,1557,1572]" gridrow="16" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A17A548BF9DD" box="[116,148,1557,1572]" gridcol="0" gridrow="16" pageId="2" pageNumber="3">8</th>
<td id="76CF9752FFDAA6D2E1CCA17A55CFF9DD" box="[176,464,1557,1572]" gridcol="1" gridrow="16" pageId="2" pageNumber="3">
(
<emphasis id="B95A207EFFDA592FE1CAA17954A0F9DD" bold="true" box="[182,191,1558,1572]" italics="true" pageId="2" pageNumber="3">E</emphasis>
)-beta-farnesene
</td>
<td id="76CF9752FFDAA6D2E087A17A5632F9DD" box="[507,557,1557,1572]" gridcol="2" gridrow="16" pageId="2" pageNumber="3">1461</td>
<td id="76CF9752FFDAA6D2E31EA17A56BFF9DD" box="[610,672,1557,1572]" gridcol="3" gridrow="16" pageId="2" pageNumber="3">34.41 ±</td>
<td id="76CF9752FFDAA6D2E3B9A17A571CF9DD" box="[709,771,1557,1572]" gridcol="4" gridrow="16" pageId="2" pageNumber="3">29.29 ±</td>
<td id="76CF9752FFDAA6D2E255A17A5778F9DD" box="[809,871,1557,1572]" gridcol="5" gridrow="16" pageId="2" pageNumber="3">17.11 ±</td>
<td id="76CF9752FFDAA6D2E2F0A17A57D5F9DD" box="[908,970,1557,1572]" gridcol="6" gridrow="16" pageId="2" pageNumber="3">79.53 ±</td>
<td id="76CF9752FFDAA6D2E28CA17A5031F9DD" box="[1008,1070,1557,1572]" gridcol="7" gridrow="16" pageId="2" pageNumber="3">81.05 ±</td>
<td id="76CF9752FFDAA6D2E52FA17A508EF9DD" box="[1107,1169,1557,1572]" gridcol="8" gridrow="16" pageId="2" pageNumber="3">83.76 ±</td>
<td id="76CF9752FFDAA6D2E5CBA17A50EAF9DD" box="[1207,1269,1557,1572]" gridcol="9" gridrow="16" pageId="2" pageNumber="3">78.91 ±</td>
<td id="76CF9752FFDAA6D2E46AA17A514BF9DD" box="[1302,1364,1557,1572]" gridcol="10" gridrow="16" pageId="2" pageNumber="3">81.76 ±</td>
<td id="76CF9752FFDAA6D2E406A17A51A7F9DD" box="[1402,1464,1557,1572]" gridcol="11" gridrow="16" pageId="2" pageNumber="3">85.87 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A14351A7F9C3" box="[116,1464,1580,1594]" gridrow="17" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA14356BFF9C3" box="[610,672,1580,1594]" gridcol="3" gridrow="17" pageId="2" pageNumber="3">1.65</td>
<td id="76CF9752FFDAA6D2E3B9A143571CF9C3" box="[709,771,1580,1594]" gridcol="4" gridrow="17" pageId="2" pageNumber="3">0.60</td>
<td id="76CF9752FFDAA6D2E255A1435778F9C3" box="[809,871,1580,1594]" gridcol="5" gridrow="17" pageId="2" pageNumber="3">0.72</td>
<td id="76CF9752FFDAA6D2E2F0A14357D5F9C3" box="[908,970,1580,1594]" gridcol="6" gridrow="17" pageId="2" pageNumber="3">1.09</td>
<td id="76CF9752FFDAA6D2E28CA1435031F9C3" box="[1008,1070,1580,1594]" gridcol="7" gridrow="17" pageId="2" pageNumber="3">0.57</td>
<td id="76CF9752FFDAA6D2E52FA143508EF9C3" box="[1107,1169,1580,1594]" gridcol="8" gridrow="17" pageId="2" pageNumber="3">0.75</td>
<td id="76CF9752FFDAA6D2E5CBA14350EAF9C3" box="[1207,1269,1580,1594]" gridcol="9" gridrow="17" pageId="2" pageNumber="3">1.9</td>
<td id="76CF9752FFDAA6D2E46AA143514BF9C3" box="[1302,1364,1580,1594]" gridcol="10" gridrow="17" pageId="2" pageNumber="3">1.88</td>
<td id="76CF9752FFDAA6D2E406A14351A7F9C3" box="[1402,1464,1580,1594]" gridcol="11" gridrow="17" pageId="2" pageNumber="3">1.38</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A12C51A7F9AB" box="[116,1464,1603,1618]" gridrow="18" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A12C548BF9AB" box="[116,148,1603,1618]" gridcol="0" gridrow="18" pageId="2" pageNumber="3">9</th>
<td id="76CF9752FFDAA6D2E1CCA12C55CFF9AB" box="[176,464,1603,1618]" gridcol="1" gridrow="18" pageId="2" pageNumber="3">Unknown</td>
<td id="76CF9752FFDAA6D2E087A12C5632F9AB" box="[507,557,1603,1618]" gridcol="2" gridrow="18" pageId="2" pageNumber="3">1470</td>
<td id="76CF9752FFDAA6D2E31EA12C56BFF9AB" box="[610,672,1603,1618]" gridcol="3" gridrow="18" pageId="2" pageNumber="3">1.94 ±</td>
<td id="76CF9752FFDAA6D2E3B9A12C571CF9AB" box="[709,771,1603,1618]" gridcol="4" gridrow="18" pageId="2" pageNumber="3">1.82 ±</td>
<td id="76CF9752FFDAA6D2E255A12C5778F9AB" box="[809,871,1603,1618]" gridcol="5" gridrow="18" pageId="2" pageNumber="3">0.99 ±</td>
<td id="76CF9752FFDAA6D2E2F0A12C57D5F9AB" box="[908,970,1603,1618]" gridcol="6" gridrow="18" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E28CA12C5031F9AB" box="[1008,1070,1603,1618]" gridcol="7" gridrow="18" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E52FA12C508EF9AB" box="[1107,1169,1603,1618]" gridcol="8" gridrow="18" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E5CBA12C50EAF9AB" box="[1207,1269,1603,1618]" gridcol="9" gridrow="18" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E46AA12C514BF9AB" box="[1302,1364,1603,1618]" gridcol="10" gridrow="18" pageId="2" pageNumber="3">–</td>
<td id="76CF9752FFDAA6D2E406A12C51A7F9AB" box="[1402,1464,1603,1618]" gridcol="11" gridrow="18" pageId="2" pageNumber="3">–</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A13551A7F991" box="[116,1464,1626,1640]" gridrow="19" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-10="1" rowspan-11="1" rowspan-2="1" rowspan-6="1" rowspan-7="1" rowspan-8="1" rowspan-9="1">
<td id="76CF9752FFDAA6D2E31EA13556BFF991" box="[610,672,1626,1640]" gridcol="3" gridrow="19" pageId="2" pageNumber="3">0.06</td>
<td id="76CF9752FFDAA6D2E3B9A135571CF991" box="[709,771,1626,1640]" gridcol="4" gridrow="19" pageId="2" pageNumber="3">0.13</td>
<td id="76CF9752FFDAA6D2E255A1355778F991" box="[809,871,1626,1640]" gridcol="5" gridrow="19" pageId="2" pageNumber="3">0.09</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A11F51A7F986" box="[116,1464,1648,1663]" gridrow="20" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A11F548BF986" box="[116,148,1648,1663]" gridcol="0" gridrow="20" pageId="2" pageNumber="3">10</th>
<td id="76CF9752FFDAA6D2E1CCA11F55CFF986" box="[176,464,1648,1663]" gridcol="1" gridrow="20" pageId="2" pageNumber="3">Unknown</td>
<td id="76CF9752FFDAA6D2E087A11F5632F986" box="[507,557,1648,1663]" gridcol="2" gridrow="20" pageId="2" pageNumber="3">1469</td>
<td id="76CF9752FFDAA6D2E31EA11F56BFF986" box="[610,672,1648,1663]" gridcol="3" gridrow="20" pageId="2" pageNumber="3">2.06 ±</td>
<td id="76CF9752FFDAA6D2E3B9A11F571CF986" box="[709,771,1648,1663]" gridcol="4" gridrow="20" pageId="2" pageNumber="3">1.87 ±</td>
<td id="76CF9752FFDAA6D2E255A11F5778F986" box="[809,871,1648,1663]" gridcol="5" gridrow="20" pageId="2" pageNumber="3">1.12 ±</td>
<td id="76CF9752FFDAA6D2E2F0A11F57D5F986" box="[908,970,1648,1663]" gridcol="6" gridrow="20" pageId="2" pageNumber="3">0.39 ±</td>
<td id="76CF9752FFDAA6D2E28CA11F5031F986" box="[1008,1070,1648,1663]" gridcol="7" gridrow="20" pageId="2" pageNumber="3">0.40 ±</td>
<td id="76CF9752FFDAA6D2E52FA11F508EF986" box="[1107,1169,1648,1663]" gridcol="8" gridrow="20" pageId="2" pageNumber="3">0.36 ±</td>
<td id="76CF9752FFDAA6D2E5CBA11F50EAF986" box="[1207,1269,1648,1663]" gridcol="9" gridrow="20" pageId="2" pageNumber="3">0.52 ±</td>
<td id="76CF9752FFDAA6D2E46AA11F514BF986" box="[1302,1364,1648,1663]" gridcol="10" gridrow="20" pageId="2" pageNumber="3">0.68 ±</td>
<td id="76CF9752FFDAA6D2E406A11F51A7F986" box="[1402,1464,1648,1663]" gridcol="11" gridrow="20" pageId="2" pageNumber="3">0.41 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A1E751A7F96F" box="[116,1464,1672,1686]" gridrow="21" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA1E756BFF96F" box="[610,672,1672,1686]" gridcol="3" gridrow="21" pageId="2" pageNumber="3">0.09</td>
<td id="76CF9752FFDAA6D2E3B9A1E7571CF96F" box="[709,771,1672,1686]" gridcol="4" gridrow="21" pageId="2" pageNumber="3">0.13</td>
<td id="76CF9752FFDAA6D2E255A1E75778F96F" box="[809,871,1672,1686]" gridcol="5" gridrow="21" pageId="2" pageNumber="3">0.06</td>
<td id="76CF9752FFDAA6D2E2F0A1E757D5F96F" box="[908,970,1672,1686]" gridcol="6" gridrow="21" pageId="2" pageNumber="3">0.01</td>
<td id="76CF9752FFDAA6D2E28CA1E75031F96F" box="[1008,1070,1672,1686]" gridcol="7" gridrow="21" pageId="2" pageNumber="3">0.08</td>
<td id="76CF9752FFDAA6D2E52FA1E7508EF96F" box="[1107,1169,1672,1686]" gridcol="8" gridrow="21" pageId="2" pageNumber="3">0.02</td>
<td id="76CF9752FFDAA6D2E5CBA1E750EAF96F" box="[1207,1269,1672,1686]" gridcol="9" gridrow="21" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E46AA1E7514BF96F" box="[1302,1364,1672,1686]" gridcol="10" gridrow="21" pageId="2" pageNumber="3">0.18</td>
<td id="76CF9752FFDAA6D2E406A1E751A7F96F" box="[1402,1464,1672,1686]" gridcol="11" gridrow="21" pageId="2" pageNumber="3">0.07</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A1F151A7F954" box="[116,1464,1694,1709]" gridrow="22" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A1F1548BF954" box="[116,148,1694,1709]" gridcol="0" gridrow="22" pageId="2" pageNumber="3">11</th>
<td id="76CF9752FFDAA6D2E1CCA1F155CFF954" box="[176,464,1694,1709]" gridcol="1" gridrow="22" pageId="2" pageNumber="3">germacrene D</td>
<td id="76CF9752FFDAA6D2E087A1F15632F954" box="[507,557,1694,1709]" gridcol="2" gridrow="22" pageId="2" pageNumber="3">1497</td>
<td id="76CF9752FFDAA6D2E31EA1F156BFF954" box="[610,672,1694,1709]" gridcol="3" gridrow="22" pageId="2" pageNumber="3">34.15 ±</td>
<td id="76CF9752FFDAA6D2E3B9A1F1571CF954" box="[709,771,1694,1709]" gridcol="4" gridrow="22" pageId="2" pageNumber="3">31.6 ±</td>
<td id="76CF9752FFDAA6D2E255A1F15778F954" box="[809,871,1694,1709]" gridcol="5" gridrow="22" pageId="2" pageNumber="3">22.17 ±</td>
<td id="76CF9752FFDAA6D2E2F0A1F157D5F954" box="[908,970,1694,1709]" gridcol="6" gridrow="22" pageId="2" pageNumber="3">7.61 ±</td>
<td id="76CF9752FFDAA6D2E28CA1F15031F954" box="[1008,1070,1694,1709]" gridcol="7" gridrow="22" pageId="2" pageNumber="3">6.90 ±</td>
<td id="76CF9752FFDAA6D2E52FA1F1508EF954" box="[1107,1169,1694,1709]" gridcol="8" gridrow="22" pageId="2" pageNumber="3">6.50 ±</td>
<td id="76CF9752FFDAA6D2E5CBA1F150EAF954" box="[1207,1269,1694,1709]" gridcol="9" gridrow="22" pageId="2" pageNumber="3">9.45 ±</td>
<td id="76CF9752FFDAA6D2E46AA1F1514BF954" box="[1302,1364,1694,1709]" gridcol="10" gridrow="22" pageId="2" pageNumber="3">7.38 ±</td>
<td id="76CF9752FFDAA6D2E406A1F151A7F954" box="[1402,1464,1694,1709]" gridcol="11" gridrow="22" pageId="2" pageNumber="3">4.39 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A1DA51A7F93D" box="[116,1464,1717,1732]" gridrow="23" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA1DA56BFF93D" box="[610,672,1717,1732]" gridcol="3" gridrow="23" pageId="2" pageNumber="3">0.62</td>
<td id="76CF9752FFDAA6D2E3B9A1DA571CF93D" box="[709,771,1717,1732]" gridcol="4" gridrow="23" pageId="2" pageNumber="3">0.40</td>
<td id="76CF9752FFDAA6D2E255A1DA5778F93D" box="[809,871,1717,1732]" gridcol="5" gridrow="23" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E2F0A1DA57D5F93D" box="[908,970,1717,1732]" gridcol="6" gridrow="23" pageId="2" pageNumber="3">0.58</td>
<td id="76CF9752FFDAA6D2E28CA1DA5031F93D" box="[1008,1070,1717,1732]" gridcol="7" gridrow="23" pageId="2" pageNumber="3">0.92</td>
<td id="76CF9752FFDAA6D2E52FA1DA508EF93D" box="[1107,1169,1717,1732]" gridcol="8" gridrow="23" pageId="2" pageNumber="3">0.44</td>
<td id="76CF9752FFDAA6D2E5CBA1DA50EAF93D" box="[1207,1269,1717,1732]" gridcol="9" gridrow="23" pageId="2" pageNumber="3">1.39</td>
<td id="76CF9752FFDAA6D2E46AA1DA514BF93D" box="[1302,1364,1717,1732]" gridcol="10" gridrow="23" pageId="2" pageNumber="3">1.40</td>
<td id="76CF9752FFDAA6D2E406A1DA51A7F93D" box="[1402,1464,1717,1732]" gridcol="11" gridrow="23" pageId="2" pageNumber="3">1.08</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A1A351A7F922" box="[116,1464,1740,1755]" gridrow="24" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A1A3548BF922" box="[116,148,1740,1755]" gridcol="0" gridrow="24" pageId="2" pageNumber="3">12</th>
<td id="76CF9752FFDAA6D2E1CCA1A355CFF922" box="[176,464,1740,1755]" gridcol="1" gridrow="24" pageId="2" pageNumber="3">(1S,2E,6E,10R)-3,7,11,11-</td>
<td id="76CF9752FFDAA6D2E087A1A35632F922" box="[507,557,1740,1755]" gridcol="2" gridrow="24" pageId="2" pageNumber="3">1510</td>
<td id="76CF9752FFDAA6D2E31EA1A356BFF922" box="[610,672,1740,1755]" gridcol="3" gridrow="24" pageId="2" pageNumber="3">3.99 ±</td>
<td id="76CF9752FFDAA6D2E3B9A1A3571CF922" box="[709,771,1740,1755]" gridcol="4" gridrow="24" pageId="2" pageNumber="3">4.09 ±</td>
<td id="76CF9752FFDAA6D2E255A1A35778F922" box="[809,871,1740,1755]" gridcol="5" gridrow="24" pageId="2" pageNumber="3">2.37 ±</td>
<td id="76CF9752FFDAA6D2E2F0A1A357D5F922" box="[908,970,1740,1755]" gridcol="6" gridrow="24" pageId="2" pageNumber="3">1.24 ±</td>
<td id="76CF9752FFDAA6D2E28CA1A35031F922" box="[1008,1070,1740,1755]" gridcol="7" gridrow="24" pageId="2" pageNumber="3">2.08 ±</td>
<td id="76CF9752FFDAA6D2E52FA1A3508EF922" box="[1107,1169,1740,1755]" gridcol="8" gridrow="24" pageId="2" pageNumber="3">0.92 ±</td>
<td id="76CF9752FFDAA6D2E5CBA1A350EAF922" box="[1207,1269,1740,1755]" gridcol="9" gridrow="24" pageId="2" pageNumber="3">1.14 ±</td>
<td id="76CF9752FFDAA6D2E46AA1A3514BF922" box="[1302,1364,1740,1755]" gridcol="10" gridrow="24" pageId="2" pageNumber="3">1.85 ±</td>
<td id="76CF9752FFDAA6D2E406A1A351A7F922" box="[1402,1464,1740,1755]" gridcol="11" gridrow="24" pageId="2" pageNumber="3">1.48 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A18C51A7F908" box="[116,1464,1763,1777]" gridrow="25" pageId="2" pageNumber="3" rowspan-0="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E1CCA18C55CFF908" box="[176,464,1763,1777]" gridcol="1" gridrow="25" pageId="2" pageNumber="3">Tetramethylbicyclo[8.1.0]undeca-2,6-</td>
<td id="76CF9752FFDAA6D2E31EA18C56BFF908" box="[610,672,1763,1777]" gridcol="3" gridrow="25" pageId="2" pageNumber="3">0.22</td>
<td id="76CF9752FFDAA6D2E3B9A18C571CF908" box="[709,771,1763,1777]" gridcol="4" gridrow="25" pageId="2" pageNumber="3">0.03</td>
<td id="76CF9752FFDAA6D2E255A18C5778F908" box="[809,871,1763,1777]" gridcol="5" gridrow="25" pageId="2" pageNumber="3">0.10</td>
<td id="76CF9752FFDAA6D2E2F0A18C57D5F908" box="[908,970,1763,1777]" gridcol="6" gridrow="25" pageId="2" pageNumber="3">0.27</td>
<td id="76CF9752FFDAA6D2E28CA18C5031F908" box="[1008,1070,1763,1777]" gridcol="7" gridrow="25" pageId="2" pageNumber="3">0.87</td>
<td id="76CF9752FFDAA6D2E52FA18C508EF908" box="[1107,1169,1763,1777]" gridcol="8" gridrow="25" pageId="2" pageNumber="3">0.02</td>
<td id="76CF9752FFDAA6D2E5CBA18C50EAF908" box="[1207,1269,1763,1777]" gridcol="9" gridrow="25" pageId="2" pageNumber="3">0.07</td>
<td id="76CF9752FFDAA6D2E46AA18C514BF908" box="[1302,1364,1763,1777]" gridcol="10" gridrow="25" pageId="2" pageNumber="3">0.37</td>
<td id="76CF9752FFDAA6D2E406A18C51A7F908" box="[1402,1464,1763,1777]" gridcol="11" gridrow="25" pageId="2" pageNumber="3">0.43</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A19551A7F8F1" box="[116,1464,1786,1800]" gridrow="26" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A19551A7F8F1" box="[116,1464,1786,1800]" colspan="12" colspanRight="11" gridcol="0" gridrow="26" pageId="2" pageNumber="3">diene</th>
</tr>
<tr id="351EFE2EFFDAA6D2E108A07F51A7F8D9" box="[116,1464,1808,1824]" gridrow="27" pageId="2" pageNumber="3">
<th id="76CF9752FFDAA6D2E108A07F548BF8D9" box="[116,148,1808,1824]" gridcol="0" gridrow="27" pageId="2" pageNumber="3">13</th>
<td id="76CF9752FFDAA6D2E1CCA07F55CFF8D9" box="[176,464,1808,1824]" gridcol="1" gridrow="27" pageId="2" pageNumber="3">cyclohexene,4-[(1E)-1,5-dimethyl-1,4-</td>
<td id="76CF9752FFDAA6D2E087A07F5632F8D9" box="[507,557,1808,1824]" gridcol="2" gridrow="27" pageId="2" pageNumber="3">1559</td>
<td id="76CF9752FFDAA6D2E31EA07F56BFF8D9" box="[610,672,1808,1824]" gridcol="3" gridrow="27" pageId="2" pageNumber="3">1.17 ±</td>
<td id="76CF9752FFDAA6D2E3B9A07F571CF8D9" box="[709,771,1808,1824]" gridcol="4" gridrow="27" pageId="2" pageNumber="3">0.86 ±</td>
<td id="76CF9752FFDAA6D2E255A07F5778F8D9" box="[809,871,1808,1824]" gridcol="5" gridrow="27" pageId="2" pageNumber="3">0.47 ±</td>
<td id="76CF9752FFDAA6D2E2F0A07F57D5F8D9" box="[908,970,1808,1824]" gridcol="6" gridrow="27" pageId="2" pageNumber="3">1.51 ±</td>
<td id="76CF9752FFDAA6D2E28CA07F5031F8D9" box="[1008,1070,1808,1824]" gridcol="7" gridrow="27" pageId="2" pageNumber="3">1.38 ±</td>
<td id="76CF9752FFDAA6D2E52FA07F508EF8D9" box="[1107,1169,1808,1824]" gridcol="8" gridrow="27" pageId="2" pageNumber="3">0.80 ±</td>
<td id="76CF9752FFDAA6D2E5CBA07F50EAF8D9" box="[1207,1269,1808,1824]" gridcol="9" gridrow="27" pageId="2" pageNumber="3">1.00 ±</td>
<td id="76CF9752FFDAA6D2E46AA07F514BF8D9" box="[1302,1364,1808,1824]" gridcol="10" gridrow="27" pageId="2" pageNumber="3">0.34 ±</td>
<td id="76CF9752FFDAA6D2E406A07F51A7F8D9" box="[1402,1464,1808,1824]" gridcol="11" gridrow="27" pageId="2" pageNumber="3">0.17 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A04751A7F8CF" box="[116,1464,1832,1846]" gridrow="28" pageId="2" pageNumber="3" rowspan-0="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E1CCA04755CFF8CF" box="[176,464,1832,1846]" gridcol="1" gridrow="28" pageId="2" pageNumber="3">hexadien-1-yl]-1-methyl-</td>
<td id="76CF9752FFDAA6D2E31EA04756BFF8CF" box="[610,672,1832,1846]" gridcol="3" gridrow="28" pageId="2" pageNumber="3">0.22</td>
<td id="76CF9752FFDAA6D2E3B9A047571CF8CF" box="[709,771,1832,1846]" gridcol="4" gridrow="28" pageId="2" pageNumber="3">0.14</td>
<td id="76CF9752FFDAA6D2E255A0475778F8CF" box="[809,871,1832,1846]" gridcol="5" gridrow="28" pageId="2" pageNumber="3">0.06</td>
<td id="76CF9752FFDAA6D2E2F0A04757D5F8CF" box="[908,970,1832,1846]" gridcol="6" gridrow="28" pageId="2" pageNumber="3">0.52</td>
<td id="76CF9752FFDAA6D2E28CA0475031F8CF" box="[1008,1070,1832,1846]" gridcol="7" gridrow="28" pageId="2" pageNumber="3">0.24</td>
<td id="76CF9752FFDAA6D2E52FA047508EF8CF" box="[1107,1169,1832,1846]" gridcol="8" gridrow="28" pageId="2" pageNumber="3">0.04</td>
<td id="76CF9752FFDAA6D2E5CBA04750EAF8CF" box="[1207,1269,1832,1846]" gridcol="9" gridrow="28" pageId="2" pageNumber="3">0.12</td>
<td id="76CF9752FFDAA6D2E46AA047514BF8CF" box="[1302,1364,1832,1846]" gridcol="10" gridrow="28" pageId="2" pageNumber="3">0.18</td>
<td id="76CF9752FFDAA6D2E406A04751A7F8CF" box="[1402,1464,1832,1846]" gridcol="11" gridrow="28" pageId="2" pageNumber="3">0.09</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A05451A7F8B4" box="[116,1464,1851,1869]" gridrow="29" pageId="2" pageNumber="3" rowspan-2="1">
<th id="76CF9752FFDAA6D2E108A054548BF8B4" box="[116,148,1851,1869]" gridcol="0" gridrow="29" pageId="2" pageNumber="3">14</th>
<td id="76CF9752FFDAA6D2E1CCA05455CFF8B4" box="[176,464,1851,1869]" gridcol="1" gridrow="29" pageId="2" pageNumber="3">pyrethrins c</td>
<td id="76CF9752FFDAA6D2E31EA05456BFF8B4" box="[610,672,1851,1869]" gridcol="3" gridrow="29" pageId="2" pageNumber="3">6.62 ±</td>
<td id="76CF9752FFDAA6D2E3B9A054571CF8B4" box="[709,771,1851,1869]" gridcol="4" gridrow="29" pageId="2" pageNumber="3">15.35 ±</td>
<td id="76CF9752FFDAA6D2E255A0545778F8B4" box="[809,871,1851,1869]" gridcol="5" gridrow="29" pageId="2" pageNumber="3">47.28 ±</td>
<td id="76CF9752FFDAA6D2E2F0A05457D5F8B4" box="[908,970,1851,1869]" gridcol="6" gridrow="29" pageId="2" pageNumber="3">6.69 ±</td>
<td id="76CF9752FFDAA6D2E28CA0545031F8B4" box="[1008,1070,1851,1869]" gridcol="7" gridrow="29" pageId="2" pageNumber="3">5.62 ±</td>
<td id="76CF9752FFDAA6D2E52FA054508EF8B4" box="[1107,1169,1851,1869]" gridcol="8" gridrow="29" pageId="2" pageNumber="3">5.45 ±</td>
<td id="76CF9752FFDAA6D2E5CBA05450EAF8B4" box="[1207,1269,1851,1869]" gridcol="9" gridrow="29" pageId="2" pageNumber="3">5.68 ±</td>
<td id="76CF9752FFDAA6D2E46AA054514BF8B4" box="[1302,1364,1851,1869]" gridcol="10" gridrow="29" pageId="2" pageNumber="3">5.56 ±</td>
<td id="76CF9752FFDAA6D2E406A05451A7F8B4" box="[1402,1464,1851,1869]" gridcol="11" gridrow="29" pageId="2" pageNumber="3">6.23 ±</td>
</tr>
<tr id="351EFE2EFFDAA6D2E108A03A51A7F89D" box="[116,1464,1877,1892]" gridrow="30" pageId="2" pageNumber="3" rowspan-0="1" rowspan-1="1" rowspan-2="1">
<td id="76CF9752FFDAA6D2E31EA03A56BFF89D" box="[610,672,1877,1892]" gridcol="3" gridrow="30" pageId="2" pageNumber="3">1.74</td>
<td id="76CF9752FFDAA6D2E3B9A03A571CF89D" box="[709,771,1877,1892]" gridcol="4" gridrow="30" pageId="2" pageNumber="3">1.35</td>
<td id="76CF9752FFDAA6D2E255A03A5778F89D" box="[809,871,1877,1892]" gridcol="5" gridrow="30" pageId="2" pageNumber="3">0.46</td>
<td id="76CF9752FFDAA6D2E2F0A03A57D5F89D" box="[908,970,1877,1892]" gridcol="6" gridrow="30" pageId="2" pageNumber="3">0.88</td>
<td id="76CF9752FFDAA6D2E28CA03A5031F89D" box="[1008,1070,1877,1892]" gridcol="7" gridrow="30" pageId="2" pageNumber="3">0.77</td>
<td id="76CF9752FFDAA6D2E52FA03A508EF89D" box="[1107,1169,1877,1892]" gridcol="8" gridrow="30" pageId="2" pageNumber="3">0.18</td>
<td id="76CF9752FFDAA6D2E5CBA03A50EAF89D" box="[1207,1269,1877,1892]" gridcol="9" gridrow="30" pageId="2" pageNumber="3">0.44</td>
<td id="76CF9752FFDAA6D2E46AA03A514BF89D" box="[1302,1364,1877,1892]" gridcol="10" gridrow="30" pageId="2" pageNumber="3">0.46</td>
<td id="76CF9752FFDAA6D2E406A03A51A7F89D" box="[1402,1464,1877,1892]" gridcol="11" gridrow="30" pageId="2" pageNumber="3">0.46</td>
</tr>
</table>
</paragraph>
<tableNote id="76C8FDE2FFDA592FE10FA01A55E0F844" pageId="2" pageNumber="3" targetBox="[116,1464,1164,1892]" targetPageId="2">
<paragraph id="8B91FC6CFFDA592FE10FA01A50B8F873" blockId="2.[115,1191,1909,1981]" box="[115,1191,1909,1930]" pageId="2" pageNumber="3">
<superScript id="7C5B5124FFDA592FE10FA01A5465F878" attach="left" box="[115,122,1909,1921]" fontSize="5" pageId="2" pageNumber="3">a</superScript>
Percentages obtained by peak area (TIC) normalization (SH-Rsi-5sil-MS column), mean ± SE of three biological replications.
</paragraph>
<paragraph id="8B91FC6CFFDA592FE10FA0E15755F85D" blockId="2.[115,1191,1909,1981]" box="[115,842,1934,1956]" pageId="2" pageNumber="3">
<superScript id="7C5B5124FFDA592FE10FA0E15464F863" attach="left" box="[115,123,1934,1946]" fontSize="5" pageId="2" pageNumber="3">b</superScript>
Not detected. The bold values consist in the major constituents of the essential oils.
</paragraph>
<paragraph id="8B91FC6CFFDA592FE10FA0C755E0F844" blockId="2.[115,1191,1909,1981]" box="[115,511,1960,1981]" pageId="2" pageNumber="3">
<superScript id="7C5B5124FFDA592FE10FA0C75465F84D" attach="left" box="[115,122,1960,1972]" fontSize="5" pageId="2" pageNumber="3">c</superScript>
Mixture of the six components of pyrethrins.
</paragraph>
</tableNote>
<caption id="DF51ACE4FFDB592EE118A37B55C5FB5D" ID-DOI="http://doi.org/10.5281/zenodo.8258951" ID-Zenodo-Dep="8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="3" pageNumber="4" startId="3.[100,130,1044,1061]" targetBox="[188,1399,150,1015]" targetPageId="3" targetType="figure">
<paragraph id="8B91FC6CFFDB592EE118A37B55C5FB5D" blockId="3.[100,1488,1043,1188]" pageId="3" pageNumber="4">
<emphasis id="B95A207EFFDB592EE118A37B5482FBDC" bold="true" box="[100,157,1044,1061]" pageId="3" pageNumber="4">Fig. 2.</emphasis>
Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of 
<taxonomicName id="4C2E87EFFFDB592EE438A37B51D0FBDD" box="[1348,1487,1043,1060]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="3" pageNumber="4" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFDB592EE438A37B51D0FBDD" bold="true" box="[1348,1487,1043,1060]" italics="true" pageId="3" pageNumber="4">T. cinerariifolium</emphasis>
</taxonomicName>
S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates.
</paragraph>
</caption>
<paragraph id="8B91FC6CFFDB592EE1F8A21A54FAF92F" blockId="3.[100,770,1229,1751]" pageId="3" pageNumber="4">
To reveal the spatial-distribution of stored EβF and GD in more detail, we next dissected the flower head into four parts (upper disk floret; lower disk floret (ovary); bract; receptacle; flower stages 
<collectionCode id="ED3F64A9FFDB592EE3C7A2C356D6FA46" box="[699,713,1452,1471]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
1– 
<collectionCode id="ED3F64A9FFDB592EE3A1A2C356F5FA46" box="[733,746,1452,1471]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
5), extracted the samples in hexane, and analyzed by GC-MS. EβF and GD concentrations stored in the disk flower (upper and lower parts) both decreased during flower development, but the amount of GD in the disk flower and bract was 2–3 times higher than EβF (
<figureCitation id="1315E0E9FFDB592EE359A1735646F9D6" box="[549,601,1564,1583]" captionStart="Fig" captionStartId="5.[100,130,1252,1269]" captionTargetBox="[188,1398,150,1222]" captionTargetId="figure-553@5.[187,1400,148,1224]" captionTargetPageId="5" captionText="Fig. 4. EβF and GD accumulations in different parts of flower head at different developmental stages. Quantitated EβF and GD accumulations in different parts (upper disk floret, lower disk floret, receptacle, bract) of field flower following flower development. Fresh flower tissues were extracted by hexane and analyzed by GC-MS. GD concentration was evaluated by compared with EβF. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258955" httpUri="https://zenodo.org/record/8258955/files/figure.png" pageId="3" pageNumber="4">Fig. 4</figureCitation>
). We interpret the decrease in GD and EβF to result from volatile release when the corolla of the disk floret opens although the increase in flower weight will also play a role in the decrease. The much higher GD content of the upper disk floret (GD, 
<quantity id="4CD65189FFDB592EE181A1E35553F966" box="[253,332,1676,1695]" metricMagnitude="-9" metricUnit="kg" metricValue="1.1809999999999998" pageId="3" pageNumber="4" unit="ng" value="1181.0">1181 ng</quantity>
/mg fresh tissue; EβF, 
<quantity id="4CD65189FFDB592EE363A1E3567DF966" box="[543,610,1676,1695]" metricMagnitude="-10" metricUnit="kg" metricValue="4.779999999999999" pageId="3" pageNumber="4" unit="ng" value="478.0">478 ng</quantity>
/mg fresh tissue) most likely caused the higher ratio of GD/EβF during flower development (
<figureCitation id="1315E0E9FFDB592EE1DFA1AC54C7F92F" box="[163,216,1731,1750]" captionStart="Fig" captionStartId="5.[100,130,1252,1269]" captionTargetBox="[188,1398,150,1222]" captionTargetId="figure-553@5.[187,1400,148,1224]" captionTargetPageId="5" captionText="Fig. 4. EβF and GD accumulations in different parts of flower head at different developmental stages. Quantitated EβF and GD accumulations in different parts (upper disk floret, lower disk floret, receptacle, bract) of field flower following flower development. Fresh flower tissues were extracted by hexane and analyzed by GC-MS. GD concentration was evaluated by compared with EβF. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258955" httpUri="https://zenodo.org/record/8258955/files/figure.png" pageId="3" pageNumber="4">Fig. 4</figureCitation>
).
</paragraph>
<paragraph id="8B91FC6CFFDB592EE118A06C5650F8EF" blockId="3.[100,591,1795,1814]" box="[100,591,1795,1814]" pageId="3" pageNumber="4">
<heading id="D0D94B00FFDB592EE118A06C5650F8EF" bold="true" box="[100,591,1795,1814]" fontSize="36" level="1" pageId="3" pageNumber="4" reason="1">
<emphasis id="B95A207EFFDB592EE118A06C5650F8EF" bold="true" box="[100,591,1795,1814]" italics="true" pageId="3" pageNumber="4">2.4. Terpene volatiles in the flower stigma and corolla</emphasis>
</heading>
</paragraph>
<paragraph id="8B91FC6CFFDB592EE1F8A0545103F92F" blockId="3.[100,770,1851,1982]" lastBlockId="3.[818,1488,1229,1751]" pageId="3" pageNumber="4">
As shown above, with the opening of the disk flower, EβF and GD stored in the disk floret were released. The higher GD emission is correlated with a higher stored content in the upper disk floret. We performed a NADI staining which shows that in closed 
<collectionCode id="ED3F64A9FFDB592EE309A0E0569CF85B" box="[629,643,1935,1954]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
1 and 
<collectionCode id="ED3F64A9FFDB592EE3C1A0E056D6F85B" box="[701,713,1935,1954]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
2 disk flowers purple stained terpene oil (EβF and/or GD based on content analysis) was present in the young two-lobed stigma of the pistil in the form of two channels/cavities/secretory ducts (
<figureCitation id="1315E0E9FFDB592EE472A38651A9FB05" box="[1294,1462,1257,1277]" captionStart="Fig" captionStartId="6.[1111,1141,149,166]" captionTargetBox="[102,1084,150,1548]" captionTargetId="figure-219@6.[100,1086,148,1549]" captionTargetPageId="6" captionText="Fig. 5. NADI staining for longitudinal sections of flower of T. cinerariifolium. (A) NADI staining for disk floret of S1 flower. (B) NADI staining of the upper section of a disk floret of S1 flower. (C) NADI staining of the upper section of a disk floret of an S2 flower showing the bilobed stained stigma on top of a short style. (D) NADI staining of longitudinal sections of S3 flower. (E) NADI staining of the upper sections of disk florets of S4 flower. Df, disk floret; Rec, receptacle; Sty, style; An, anther; Ac, anther cylinder; Sti, stigma; Co, corolla; GT, glandular trichome. Pure GD, EβF and pyrethrins were individually stained by NADI reagent and shown in A. The white arrows point to the positive NADI stained oils. The inset picture in D represents the top view of the flower." figureDoi="http://doi.org/10.5281/zenodo.8258957" httpUri="https://zenodo.org/record/8258957/files/figure.png" pageId="3" pageNumber="4">Fig. 5A–C and S</figureCitation>
<figureCitation id="1315E0E9FFDB592EE4CAA38651DEFB05" box="[1462,1473,1257,1276]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="3" pageNumber="4">3</figureCitation>
). Following the flower bud development, more blue-violet stained oils (mainly pyrethrins, nearly 66%–80% of the stained terpenes) began to emerge in the ovary wall of 
<collectionCode id="ED3F64A9FFDB592EE544A2525059FAA9" box="[1080,1094,1341,1360]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
1 disk floret, and this proceeded further in the 
<collectionCode id="ED3F64A9FFDB592EE22AA236577DFA95" box="[854,866,1369,1388]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
3 flower (Table 
<collectionCode id="ED3F64A9FFDB592EE284A236501BFA95" box="[1016,1028,1369,1388]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
2, 
<figureCitation id="1315E0E9FFDB592EE567A23650BDFA95" box="[1051,1186,1369,1388]" captionStart="Fig" captionStartId="6.[1111,1141,149,166]" captionTargetBox="[102,1084,150,1548]" captionTargetId="figure-219@6.[100,1086,148,1549]" captionTargetPageId="6" captionText="Fig. 5. NADI staining for longitudinal sections of flower of T. cinerariifolium. (A) NADI staining for disk floret of S1 flower. (B) NADI staining of the upper section of a disk floret of S1 flower. (C) NADI staining of the upper section of a disk floret of an S2 flower showing the bilobed stained stigma on top of a short style. (D) NADI staining of longitudinal sections of S3 flower. (E) NADI staining of the upper sections of disk florets of S4 flower. Df, disk floret; Rec, receptacle; Sty, style; An, anther; Ac, anther cylinder; Sti, stigma; Co, corolla; GT, glandular trichome. Pure GD, EβF and pyrethrins were individually stained by NADI reagent and shown in A. The white arrows point to the positive NADI stained oils. The inset picture in D represents the top view of the flower." figureDoi="http://doi.org/10.5281/zenodo.8258957" httpUri="https://zenodo.org/record/8258957/files/figure.png" pageId="3" pageNumber="4">Fig. 5A and D</figureCitation>
). In open 
<collectionCode id="ED3F64A9FFDB592EE583A2365114FA95" box="[1279,1291,1369,1388]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
3 and 
<collectionCode id="ED3F64A9FFDB592EE43AA236514EFA95" box="[1350,1361,1369,1388]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
4 flowers, we found NADI-stained terpenes (mainly EβF and GD, 70–80% of the stained terpene oil droplets) were also pushed upward in the two lobes of the stigma and five lips of the corolla in the opened disk floret with the elongation of the style (Table 
<collectionCode id="ED3F64A9FFDB592EE52EA2A75041FA22" box="[1106,1118,1480,1499]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
2, 
<figureCitation id="1315E0E9FFDB592EE50BA2A75110FA22" box="[1143,1295,1480,1500]" captionStart="Fig" captionStartId="6.[1111,1141,149,166]" captionTargetBox="[102,1084,150,1548]" captionTargetId="figure-219@6.[100,1086,148,1549]" captionTargetPageId="6" captionText="Fig. 5. NADI staining for longitudinal sections of flower of T. cinerariifolium. (A) NADI staining for disk floret of S1 flower. (B) NADI staining of the upper section of a disk floret of S1 flower. (C) NADI staining of the upper section of a disk floret of an S2 flower showing the bilobed stained stigma on top of a short style. (D) NADI staining of longitudinal sections of S3 flower. (E) NADI staining of the upper sections of disk florets of S4 flower. Df, disk floret; Rec, receptacle; Sty, style; An, anther; Ac, anther cylinder; Sti, stigma; Co, corolla; GT, glandular trichome. Pure GD, EβF and pyrethrins were individually stained by NADI reagent and shown in A. The white arrows point to the positive NADI stained oils. The inset picture in D represents the top view of the flower." figureDoi="http://doi.org/10.5281/zenodo.8258957" httpUri="https://zenodo.org/record/8258957/files/figure.png" pageId="3" pageNumber="4">Fig. 5B–E and S</figureCitation>
<figureCitation id="1315E0E9FFDB592EE473A2A75105FA22" box="[1295,1306,1480,1499]" captionStart="Fig" captionStartId="4.[100,130,1053,1070]" captionTargetBox="[188,1398,149,1024]" captionTargetId="figure-587@4.[187,1400,148,1026]" captionTargetPageId="4" captionText="Fig. 3. EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (t-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage T. cinerariifolium flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the T. cinerariifolium flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in T. cinerariifolium peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="3" pageNumber="4">3</figureCitation>
). We dissected the stigma and corolla of the opened disk florets of 
<collectionCode id="ED3F64A9FFDB592EE587A28B5119FA0E" box="[1275,1286,1508,1527]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
4 and 
<collectionCode id="ED3F64A9FFDB592EE43FA28B5150FA0E" box="[1347,1359,1508,1527]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="3" pageNumber="4" type="Herbarium">S</collectionCode>
5 flowers and then did hexane extraction for GC-MS analysis. We found stigma extracts to contain ten times higher concentrations of EβF and GD (EβF, 169 ± 
<quantity id="4CD65189FFDB592EE4CBA1735755F9B2" metricMagnitude="-11" metricUnit="kg" metricValue="7.3" pageId="3" pageNumber="4" unit="ng" value="73.0">73 ng</quantity>
/mg fresh weight; GD, 257 ± 
<quantity id="4CD65189FFDB592EE511A15750AEF9B2" box="[1133,1201,1592,1611]" metricMagnitude="-10" metricUnit="kg" metricValue="1.26" pageId="3" pageNumber="4" unit="ng" value="126.0">126 ng</quantity>
/mg) compared to the corolla (EβF, 17.8 ± 
<quantity id="4CD65189FFDB592EE2D6A13B57F9F99E" box="[938,998,1620,1639]" metricMagnitude="-12" metricUnit="kg" metricValue="4.9" pageId="3" pageNumber="4" unit="ng" value="4.9">4.9 ng</quantity>
/mg; GD, 38.6 ± 
<quantity id="4CD65189FFDB592EE5FEA13B50D6F99E" box="[1154,1225,1620,1639]" metricMagnitude="-11" metricUnit="kg" metricValue="1.09" pageId="3" pageNumber="4" unit="ng" value="10.9">10.9 ng</quantity>
/mg) (
<figureCitation id="1315E0E9FFDB592EE478A13B5127F99E" box="[1284,1336,1620,1639]" captionStart="Fig" captionStartId="7.[100,130,613,630]" captionTargetBox="[153,1435,153,582]" captionTargetId="figure-7@7.[150,1438,148,586]" captionTargetPageId="7" captionText="Fig. 6. Chromatogram profiles of hexane extract of T. cinerariifolium stigma and corolla analyzed by GC–MS. For analysis conditions see text. GC-MS chromatogram of volatiles extracted from stigma and corolla are presented as total extracted ion current (EIC, m/z 93). Methyl laurate was used as an internal standard (IS). The concentration of EβF and GD were showed in the figure and presented as ng/mg fresh tissue. Localization of terpene oils in the closed and open disk floret was shown in the inset drawing pictures with purple (EβF and GD) and blue (pyrethrins) color.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258959" httpUri="https://zenodo.org/record/8258959/files/figure.png" pageId="3" pageNumber="4">Fig. 6</figureCitation>
). We, therefore, propose a scenario that when the corolla opens up, the style and stigma elongates and terpenes are much promoted upwards the terminal ends of the two separating stigma lobes resulting in a release into the air, presumably with the purpose of promoting pollination.
</paragraph>
<paragraph id="8B91FC6CFFDB592EE24EA06C5092F8EF" blockId="3.[818,1165,1795,1815]" box="[818,1165,1795,1815]" pageId="3" pageNumber="4">
<heading id="D0D94B00FFDB592EE24EA06C5092F8EF" bold="true" box="[818,1165,1795,1815]" fontSize="36" level="1" pageId="3" pageNumber="4" reason="1">
<emphasis id="B95A207EFFDB592EE24EA06C5092F8EF" bold="true" box="[818,1165,1795,1815]" italics="true" pageId="3" pageNumber="4">2.5. EβF stored in the flower peduncle</emphasis>
</heading>
</paragraph>
<paragraph id="8B91FC6CFFDB5929E22DA054566CFA19" blockId="3.[818,1487,1851,1982]" lastBlockId="4.[100,771,1290,1979]" lastPageId="4" lastPageNumber="5" pageId="3" pageNumber="4">
EβF was much more dominant and nearly pure in the flower peduncle extract (
<figureCitation id="1315E0E9FFDB592EE2A1A038503CF893" box="[989,1059,1879,1898]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="3" pageNumber="4">Fig. 2A</figureCitation>
) and shown earlier to be mostly produced in cortex cells neighboring vascular bundles (
<bibRefCitation id="EFBF819DFFDB592EE5ABA01C517AF87F" author="Li, H. &amp; Hu &amp; Mao, J. &amp; Yu, L. &amp; Stoopen, G. &amp; Wang, M. &amp; Mumm, R. &amp; de Ruijter, N. C. A. &amp; Dicke, M. &amp; Jongsma, M. A. &amp; Wang, C." box="[1239,1381,1907,1926]" pageId="3" pageNumber="4" pagination="1607 - 1620" refId="ref8737" refString="Li, H., Hu, Mao, J., Yu, L., Stoopen, G., Wang, M., Mumm, R., de Ruijter, N. C. A., Dicke, M., Jongsma, M. A., Wang, C., 2019. Defense of Pyrethrum Flowers: Repelling Herbivore and Recruiting Carnivore by Producing Aphid Alarm Pheromone New Phytol, vol. 223, pp. 1607 - 1620. https: // doi. org / 10.1111 / nph. 15869." type="journal article" year="2019">Li et al., 2019</bibRefCitation>
). Here we looked into the question of the fate of the oil droplets produced early on during later development. Cross sections of young upper flower peduncles showed that parenchymatous cortex with chloroplasts consisting of 6–7 layers and that lamellar collenchyma is discontinuous under the epidermis (
<figureCitation id="1315E0E9FFDC5929E04EA22D556CFAAC" box="[306,371,1346,1365]" captionStart="Fig" captionStartId="1.[100,130,1862,1879]" captionTargetBox="[151,1437,953,1833]" captionTargetId="figure-442@1.[150,1438,952,1835]" captionTargetPageId="1" captionText="Fig. 1. Morphological and anatomical structures of stage 2 (S2) Tanacetum cinerariifolium flowers. (A) Longitudinal section of an S2 flower with peduncle attached. The arrow points to a cavity in the center of the pith that will become larger when the flower matures. The inset pictures show cross sections of the upper and lower peduncle (4 cm individually). (B) A closed disk flower. (C–G) SEM images of the T. cinerariifolium S2 flower organs and tissues. (C) The corollas of closed disk flowers. (D and E) Different magnifications of bract tissue, with an arrow pointing to the longitudinal serpentine vascular system located in the joining site with receptacle. (F and G) Cross sections of the flower peduncle and a detailed view of the disintegrating pith tissue." figureDoi="http://doi.org/10.5281/zenodo.8258949" httpUri="https://zenodo.org/record/8258949/files/figure.png" pageId="4" pageNumber="5">Fig. S1</figureCitation>
). The peduncle has 13–15 open collateral 
<typeStatus id="549542CEFFDC5929E118A2315492FA88" box="[100,141,1374,1393]" pageId="4" pageNumber="5">type</typeStatus>
vascular bundles surrounded by schlerenchyma fibres. There were secretory cavities next to the schlerenchyma fibres that were especially abundant in the upper peduncle (
<figureCitation id="1315E0E9FFDC5929E0C6A2FA55E1FA50" box="[442,510,1429,1449]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="4" pageNumber="5">Fig. S2</figureCitation>
). These secretory cavities developed parallel to the vascular system and may consist of elongated cavities extending into the cortex cells (cortical canals).
</paragraph>
<caption id="DF51ACE4FFDC5929E118A37251CEFB18" ID-DOI="http://doi.org/10.5281/zenodo.8258953" ID-Zenodo-Dep="8258953" httpUri="https://zenodo.org/record/8258953/files/figure.png" pageId="4" pageNumber="5" startId="4.[100,130,1053,1070]" targetBox="[188,1398,149,1024]" targetPageId="4" targetType="figure">
<paragraph id="8B91FC6CFFDC5929E118A37251CEFB18" blockId="4.[100,1489,1053,1249]" pageId="4" pageNumber="5">
<emphasis id="B95A207EFFDC5929E118A3725480FBD7" bold="true" box="[100,159,1053,1070]" pageId="4" pageNumber="5">Fig. 3.</emphasis>
EβF and GD accumulations in flowers and peduncles at different developmental stages. (A) Semi-quantitative comparison of GD and EβF emitted during different developmental stages (Pre-f, pre-flowering stage; S0-2, flowering plants with dominant S0–S2 flowers; S2-4, flowering plants with dominant S2–S4 flowers; S4-6, flowering plants with dominant S4–S6 flowers). Data are means ± SE of three biological replicates and expressed as peak area. The numbers indicate the ratio of EβF/GD emissions; the asterisks indicate the significance of the differences between EβF and GD (
<emphasis id="B95A207EFFDC5929E2E9A3055784FB83" bold="true" box="[917,923,1130,1146]" italics="true" pageId="4" pageNumber="5">t</emphasis>
-test: *, P ≤ 0.05; **, P ≤ 0.01).(B) Emission kinetics of EβF and GD in S0-2 stage 
<taxonomicName id="4C2E87EFFFDC5929E1AAA3EB557EFB6D" box="[214,353,1155,1172]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="4" pageNumber="5" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFDC5929E1AAA3EB557EFB6D" bold="true" box="[214,353,1155,1172]" italics="true" pageId="4" pageNumber="5">T. cinerariifolium</emphasis>
</taxonomicName>
flowering plants are shown. The x-axis indicates the sampling time, and the y axis denotes the emission level of EβF and GD. Data are represented as means ± SD (n = 6). Numbers and asterisks are same as in A. (C) GC-MS analysis of the contents of GD and EβF in the 
<taxonomicName id="4C2E87EFFFDC5929E5BAA3F2514FFB57" box="[1222,1360,1181,1198]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="4" pageNumber="5" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFDC5929E5BAA3F2514FFB57" bold="true" box="[1222,1360,1181,1198]" italics="true" pageId="4" pageNumber="5">T. cinerariifolium</emphasis>
</taxonomicName>
flower head at different developmental stages. Numbering of peduncles and flowers followed the developmental stages. Error bars indicate ± SD of three biological replicates. (D) GC-MS analysis of the contents of GD and EβF in 
<taxonomicName id="4C2E87EFFFDC5929E083A3BF5696FB19" box="[511,649,1231,1248]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="4" pageNumber="5" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFDC5929E083A3BF5696FB19" bold="true" box="[511,649,1231,1248]" italics="true" pageId="4" pageNumber="5">T. cinerariifolium</emphasis>
</taxonomicName>
peduncles at different developmental stages. Error bars indicate ± SD of three biological replicates.
</paragraph>
</caption>
<paragraph id="8B91FC6CFFDC5929E1F8A28656E7F946" blockId="4.[100,771,1290,1979]" pageId="4" pageNumber="5">
In 
<taxonomicName id="4C2E87EFFFDC5929E1E0A286556DFA05" authority=", NADI" authorityName="NADI" box="[156,370,1513,1532]" class="Magnoliopsida" family="Asteraceae" genus="Tanacetum" kingdom="Plantae" order="Asterales" pageId="4" pageNumber="5" phylum="Tracheophyta" rank="species" species="cinerariifolium">
<emphasis id="B95A207EFFDC5929E1E0A286552BFA05" bold="true" box="[156,308,1513,1532]" italics="true" pageId="4" pageNumber="5">T. cinerariifolium</emphasis>
, NADI
</taxonomicName>
staining of cross sections of younger flower peduncles (
<collectionCode id="ED3F64A9FFDC5929E1ACA16A54C3F9E1" box="[208,220,1541,1560]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="4" pageNumber="5" type="Herbarium">S</collectionCode>
0– 
<collectionCode id="ED3F64A9FFDC5929E18FA16A551EF9E1" box="[243,257,1541,1560]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="4" pageNumber="5" type="Herbarium">S</collectionCode>
1 stages) showed up positive for purple-violet terpene oil droplets that largely accumulated inside cortex cells surrounding the vascular bundles (
<figureCitation id="1315E0E9FFDC5929E070A1525550F9A9" box="[268,335,1597,1616]" captionStart="Fig" captionStartId="7.[100,130,1754,1771]" captionTargetBox="[189,1399,793,1726]" captionTargetId="figure-133@7.[187,1400,791,1727]" captionTargetPageId="7" captionText="Fig. 7. NADI and aniline blue staining of cross sections of young T. cinerariifolium flower peduncles. (A and B) NADI staining of two cross sections of S0 and S1 upper flower peduncles. The positive NADI stained oil droplets are pointed out by white arrows. (C) Cross section of S2 flower peduncle stained by NADI reagent coupled with aniline blue staining observed under the bright light. (D) Cross section of the same S2 flower peduncles as in C observed under the UV light, callose in the sieve elements was stained by aniline blue and indicated by white arrowhead. The white arrows point to NADI stained oil droplets in C that appear to be outside the cell wall as indicated by red arrows in D. Ph, phloem; Xy, xylem; Co, cortex; Pi, pith; Se, sieve element.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258961" httpUri="https://zenodo.org/record/8258961/files/figure.png" pageId="4" pageNumber="5">Fig. 7A</figureCitation>
) sometimes also filling parenchyma cells of the pith (
<figureCitation id="1315E0E9FFDC5929E1EAA13654C5F995" box="[150,218,1625,1644]" captionStart="Fig" captionStartId="7.[100,130,1754,1771]" captionTargetBox="[189,1399,793,1726]" captionTargetId="figure-133@7.[187,1400,791,1727]" captionTargetPageId="7" captionText="Fig. 7. NADI and aniline blue staining of cross sections of young T. cinerariifolium flower peduncles. (A and B) NADI staining of two cross sections of S0 and S1 upper flower peduncles. The positive NADI stained oil droplets are pointed out by white arrows. (C) Cross section of S2 flower peduncle stained by NADI reagent coupled with aniline blue staining observed under the bright light. (D) Cross section of the same S2 flower peduncles as in C observed under the UV light, callose in the sieve elements was stained by aniline blue and indicated by white arrowhead. The white arrows point to NADI stained oil droplets in C that appear to be outside the cell wall as indicated by red arrows in D. Ph, phloem; Xy, xylem; Co, cortex; Pi, pith; Se, sieve element.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258961" httpUri="https://zenodo.org/record/8258961/files/figure.png" pageId="4" pageNumber="5">Fig. 7B</figureCitation>
). When flower peduncles develop to the 
<collectionCode id="ED3F64A9FFDC5929E331A1365646F995" box="[589,601,1625,1644]" country="Sweden" lsid="urn:lsid:biocol.org:col:15668" name="Department of Botany, Swedish Museum of Natural History" pageId="4" pageNumber="5" type="Herbarium">S</collectionCode>
2 stage, the pith in the upper peduncle disintegrates. NADI coupled with aniline blue staining revealed the presence of terpene oil droplets in the intercellular space between the two vascular bundles at that stage (
<figureCitation id="1315E0E9FFDC5929E314A1C356F2F946" box="[616,749,1708,1728]" captionStart="Fig" captionStartId="7.[100,130,1754,1771]" captionTargetBox="[189,1399,793,1726]" captionTargetId="figure-133@7.[187,1400,791,1727]" captionTargetPageId="7" captionText="Fig. 7. NADI and aniline blue staining of cross sections of young T. cinerariifolium flower peduncles. (A and B) NADI staining of two cross sections of S0 and S1 upper flower peduncles. The positive NADI stained oil droplets are pointed out by white arrows. (C) Cross section of S2 flower peduncle stained by NADI reagent coupled with aniline blue staining observed under the bright light. (D) Cross section of the same S2 flower peduncles as in C observed under the UV light, callose in the sieve elements was stained by aniline blue and indicated by white arrowhead. The white arrows point to NADI stained oil droplets in C that appear to be outside the cell wall as indicated by red arrows in D. Ph, phloem; Xy, xylem; Co, cortex; Pi, pith; Se, sieve element.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258961" httpUri="https://zenodo.org/record/8258961/files/figure.png" pageId="4" pageNumber="5">Fig. 7C and D</figureCitation>
).
</paragraph>
<paragraph id="8B91FC6CFFDC5929E1F8A1A650F7FAC0" blockId="4.[100,771,1290,1979]" lastBlockId="4.[818,1487,1290,1337]" pageId="4" pageNumber="5">
Moreover, we also observed very large mature secretory cavities close to the vascular bundles filled with purple-violet terpene oil (
<figureCitation id="1315E0E9FFDC5929E3BCA18B5483F8EA" captionStart="Fig" captionStartId="8.[100,130,1116,1133]" captionTargetBox="[188,1398,149,1087]" captionTargetId="figure-571@8.[187,1400,148,1089]" captionTargetPageId="8" captionText="Fig. 8. NADI staining and aniline blue staining for cross and longitudinal sections of young T. cinerariifolium flower peduncles. (A) Bright field micrographs of the cross sections of S2 flower peduncle double-stained by NADI reagent and aniline blue. (B) Cross section of the same S2 flower peduncles as in A observed under the UV light. The arrows point to stained terpene oil droplets. (C and D) NADI staining of two longitudinal sections of flower peduncles. Co, cortex; Vb, vascular bundle. The purple-violet oil droplet in the inset of A is pure EβF standard stained by NADI reagent.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258963" httpUri="https://zenodo.org/record/8258963/files/figure.png" pageId="4" pageNumber="5">Fig. 8A and B</figureCitation>
). Strings of purple (beaded) staining were also found in the cortex cells of longitudinal sections of the flower peduncles (
<figureCitation id="1315E0E9FFDC5929E312A07356E7F8D6" box="[622,760,1820,1839]" captionStart="Fig" captionStartId="8.[100,130,1116,1133]" captionTargetBox="[188,1398,149,1087]" captionTargetId="figure-571@8.[187,1400,148,1089]" captionTargetPageId="8" captionText="Fig. 8. NADI staining and aniline blue staining for cross and longitudinal sections of young T. cinerariifolium flower peduncles. (A) Bright field micrographs of the cross sections of S2 flower peduncle double-stained by NADI reagent and aniline blue. (B) Cross section of the same S2 flower peduncles as in A observed under the UV light. The arrows point to stained terpene oil droplets. (C and D) NADI staining of two longitudinal sections of flower peduncles. Co, cortex; Vb, vascular bundle. The purple-violet oil droplet in the inset of A is pure EβF standard stained by NADI reagent.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258963" httpUri="https://zenodo.org/record/8258963/files/figure.png" pageId="4" pageNumber="5">Fig. 8C and D</figureCitation>
). These purple-violet stained oil droplets consist mainly of EβF based on: (i) our previous gene expression study (
<bibRefCitation id="EFBF819DFFDC5929E0A9A03B564AF89E" author="Li, H. &amp; Hu &amp; Mao, J. &amp; Yu, L. &amp; Stoopen, G. &amp; Wang, M. &amp; Mumm, R. &amp; de Ruijter, N. C. A. &amp; Dicke, M. &amp; Jongsma, M. A. &amp; Wang, C." box="[469,597,1876,1895]" pageId="4" pageNumber="5" pagination="1607 - 1620" refId="ref8737" refString="Li, H., Hu, Mao, J., Yu, L., Stoopen, G., Wang, M., Mumm, R., de Ruijter, N. C. A., Dicke, M., Jongsma, M. A., Wang, C., 2019. Defense of Pyrethrum Flowers: Repelling Herbivore and Recruiting Carnivore by Producing Aphid Alarm Pheromone New Phytol, vol. 223, pp. 1607 - 1620. https: // doi. org / 10.1111 / nph. 15869." type="journal article" year="2019">Li et al., 2019</bibRefCitation>
), (ii) the chemical content of peduncles dominated by EβF (
<figureCitation id="1315E0E9FFDC5929E08EA0005624F87A" box="[498,571,1903,1923]" captionStart="Fig" captionStartId="3.[100,130,1044,1061]" captionTargetBox="[188,1399,150,1015]" captionTargetId="figure-682@3.[187,1400,148,1016]" captionTargetPageId="3" captionText="Fig. 2. Analysis of terpene volatiles in flower head and peduncle (upper and lower) at early flowering stages (S0–S2). (A) Chromatogram profiles of T. cinerariifolium S1 flower head and upper peduncle hexane extracts analyzed by GC–MS and presented as total extracted ion current (EIC, m/z 93). Chromatogram profile of lower peduncle hexane extraction was not shown here due to the same peak patterns with the upper peduncle. For analysis conditions see text. List of the main terpene components, see Table 1 (B) Quantification of EβF and GD content in flower head and lower and upper peduncle at early flowering stages (S0–S2). Fresh flower tissues were extracted with hexane and analyzed by GC-MS. The GD and EβF concentrations were both estimated using an EβF standard reference curve. Error bars indicate ± SE of three biological replicates." figureDoi="http://doi.org/10.5281/zenodo.8258951" httpUri="https://zenodo.org/record/8258951/files/figure.png" pageId="4" pageNumber="5">Fig. 2A</figureCitation>
), and (iii) the correspondence of the violet color with pure EβF stained by NADI reagent (
<figureCitation id="1315E0E9FFDC5929E110A0C854ADF843" box="[108,178,1959,1978]" captionStart="Fig" captionStartId="8.[100,130,1116,1133]" captionTargetBox="[188,1398,149,1087]" captionTargetId="figure-571@8.[187,1400,148,1089]" captionTargetPageId="8" captionText="Fig. 8. NADI staining and aniline blue staining for cross and longitudinal sections of young T. cinerariifolium flower peduncles. (A) Bright field micrographs of the cross sections of S2 flower peduncle double-stained by NADI reagent and aniline blue. (B) Cross section of the same S2 flower peduncles as in A observed under the UV light. The arrows point to stained terpene oil droplets. (C and D) NADI staining of two longitudinal sections of flower peduncles. Co, cortex; Vb, vascular bundle. The purple-violet oil droplet in the inset of A is pure EβF standard stained by NADI reagent.. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)" figureDoi="http://doi.org/10.5281/zenodo.8258963" httpUri="https://zenodo.org/record/8258963/files/figure.png" pageId="4" pageNumber="5">Fig. 8A</figureCitation>
). It may be that these droplets (dominated by EβF) are on a path towards the very large secretory cavities around the vascular bundles to be stored and possibly transported from there.
</paragraph>
</subSubSection>
</treatment>
</document>