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Journal Abstract Search

167 related items for PubMed ID: 38270732

  • 1. Simulated Herbivory Affects the Volatile Emissions of Oak Saplings, while Neighbourhood Affects Flavan-3-ols Content of Their Leaves.
    Molleman F, Mandal M, Sokół-Łętowska A, Walczak U, Volf M, Mallick S, Moos M, Vodrážka P, Prinzing A, Mezzomo P.
    J Chem Ecol; 2024 Jun; 50(5-6):250-261. PubMed ID: 38270732
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  • 3. Oak genotype and phenolic compounds differently affect the performance of two insect herbivores with contrasting diet breadth.
    Damestoy T, Brachi B, Moreira X, Jactel H, Plomion C, Castagneyrol B.
    Tree Physiol; 2019 Apr 01; 39(4):615-627. PubMed ID: 30668790
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  • 6. Integration of two herbivore-induced plant volatiles results in synergistic effects on plant defence and resistance.
    Hu L, Ye M, Erb M.
    Plant Cell Environ; 2019 Mar 01; 42(3):959-971. PubMed ID: 30195252
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  • 9. Changes in oak (Quercus robur) photosynthesis after winter moth (Operophtera brumata) herbivory are not explained by changes in chemical or structural leaf traits.
    Visakorpi K, Riutta T, Malhi Y, Salminen JP, Salinas N, Gripenberg S.
    PLoS One; 2020 Mar 01; 15(1):e0228157. PubMed ID: 31978155
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  • 10. Herbivore-induced and constitutive volatiles are controlled by different oxylipin-dependent mechanisms in rice.
    Mujiono K, Tohi T, Sobhy IS, Hojo Y, Shinya T, Galis I.
    Plant Cell Environ; 2021 Aug 01; 44(8):2687-2699. PubMed ID: 34114241
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  • 11. Function of defensive volatiles in pedunculate oak (Quercus robur) is tricked by the moth Tortrix viridana.
    Ghirardo A, Heller W, Fladung M, Schnitzler JP, Schroeder H.
    Plant Cell Environ; 2012 Dec 01; 35(12):2192-207. PubMed ID: 22632165
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  • 12. Volatile emissions from an odorous plant in response to herbivory and methyl jasmonate exposure.
    Degenhardt DC, Lincoln DE.
    J Chem Ecol; 2006 Apr 01; 32(4):725-43. PubMed ID: 16718568
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  • 13. Insect attraction to herbivore-induced beech volatiles under different forest management regimes.
    Gossner MM, Weisser WW, Gershenzon J, Unsicker SB.
    Oecologia; 2014 Oct 01; 176(2):569-80. PubMed ID: 25080178
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  • 14. An ecogenomic analysis of herbivore-induced plant volatiles in Brassica juncea.
    Mathur V, Tytgat TO, Hordijk CA, Harhangi HR, Jansen JJ, Reddy AS, Harvey JA, Vet LE, van Dam NM.
    Mol Ecol; 2013 Dec 01; 22(24):6179-96. PubMed ID: 24219759
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  • 15. Integrated transcriptomics and metabolomics decipher differences in the resistance of pedunculate oak to the herbivore Tortrix viridana L.
    Kersten B, Ghirardo A, Schnitzler JP, Kanawati B, Schmitt-Kopplin P, Fladung M, Schroeder H.
    BMC Genomics; 2013 Oct 28; 14():737. PubMed ID: 24160444
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  • 16. Localization of sesquiterpene formation and emission in maize leaves after herbivore damage.
    Köllner TG, Lenk C, Schnee C, Köpke S, Lindemann P, Gershenzon J, Degenhardt J.
    BMC Plant Biol; 2013 Jan 30; 13():15. PubMed ID: 23363415
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  • 17. Inducibility of chemical defences in young oak trees is stronger in species with high elevational ranges.
    Galmán A, Petry WK, Abdala-Roberts L, Butrón A, de la Fuente M, Francisco M, Kergunteuil A, Rasmann S, Moreira X.
    Tree Physiol; 2019 Apr 01; 39(4):606-614. PubMed ID: 30597091
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  • 18. Volatile DMNT systemically induces jasmonate-independent direct anti-herbivore defense in leaves of sweet potato (Ipomoea batatas) plants.
    Meents AK, Chen SP, Reichelt M, Lu HH, Bartram S, Yeh KW, Mithöfer A.
    Sci Rep; 2019 Nov 22; 9(1):17431. PubMed ID: 31758060
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  • 19. Herbivory elicits changes in green leaf volatile production via jasmonate signaling and the circadian clock.
    Joo Y, Schuman MC, Goldberg JK, Wissgott A, Kim SG, Baldwin IT.
    Plant Cell Environ; 2019 Mar 22; 42(3):972-982. PubMed ID: 30378135
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