Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L
Pankoke H, Müller C (2013)
Plant Physiology and Biochemistry 71: 325-333.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
Download
Es wurden keine Dateien hochgeladen. Nur Publikationsnachweis!
Autor*in
Abstract / Bemerkung
After defoliation challenges, plants should invest their resources in a way that maximises their fitness, which may lead to trade-offs in investment in physiological versus chemical traits. Thereby, the regrowth capacity of plants may highly depend on the type and the severity of defoliation. In the present study, we investigated the phenotypic plasticity of Plantago lanceolata L. in response to different defoliation events in a comprehensive way, measuring various traits. This herbaceous species grows on ruderal sites and typically suffers from repeated substantial losses of shoot biomass due to mowing and/or herbivory during the growing season. To study treatment-specific effects of defoliation on resource allocation and induction of defence responses, plants were exposed either to (repeated) mechanical clipping or to herbivory by the generalist Grammia incorrupta (Lepidoptera). Next to regrowth and physiological leaf traits such as the water content, the specific leaf area and C/N ratios of these plants, primary and secondary metabolites in leaves were analyzed with a metabolite profiling approach using gas chromatography coupled with mass spectrometry. The different defoliation treatments strongly affected the regrowth capacity of clipped and herbivore-treated plants, leading to additive changes in physiological leaf traits. As a response to the defoliation treatments, clipped and herbivore-treated plants reduced mainly carbon-based primary metabolites such as sorbitol, and glucose, suggesting that the different defoliation challenges similarly limited the ability of carbon fixation. Yet, only in response to herbivory but not to clipping, plants induced defence compounds, which indicates the importance of treatment-specific responses despite severe resource limitations. Overall, the different responses to defoliation by clipping and herbivory may reflect allocation constraints and/or adaptive plasticity.
Erscheinungsjahr
2013
Zeitschriftentitel
Plant Physiology and Biochemistry
Band
71
Seite(n)
325-333
ISSN
0981-9428
Page URI
https://pub.uni-bielefeld.de/record/2614432
Zitieren
Pankoke H, Müller C. Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L. Plant Physiology and Biochemistry. 2013;71:325-333.
Pankoke, H., & Müller, C. (2013). Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L. Plant Physiology and Biochemistry, 71, 325-333. doi:10.1016/j.plaphy.2013.07.016
Pankoke, Helga, and Müller, Caroline. 2013. “Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L”. Plant Physiology and Biochemistry 71: 325-333.
Pankoke, H., and Müller, C. (2013). Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L. Plant Physiology and Biochemistry 71, 325-333.
Pankoke, H., & Müller, C., 2013. Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L. Plant Physiology and Biochemistry, 71, p 325-333.
H. Pankoke and C. Müller, “Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L”, Plant Physiology and Biochemistry, vol. 71, 2013, pp. 325-333.
Pankoke, H., Müller, C.: Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L. Plant Physiology and Biochemistry. 71, 325-333 (2013).
Pankoke, Helga, and Müller, Caroline. “Impact of defoliation on the regrowth capacity and the shoot metabolite profile of Plantago lanceolata L”. Plant Physiology and Biochemistry 71 (2013): 325-333.
Daten bereitgestellt von European Bioinformatics Institute (EBI)
5 Zitationen in Europe PMC
Daten bereitgestellt von Europe PubMed Central.
Overall grazing tolerance index (overall GTI) is not an ideal predictor for describing a single-species tolerance to grazing.
Zhang L, Zhu Z, Li Y, Qian Z, Liu G, Wang X., Ecol Evol 9(7), 2019
PMID: 31015990
Zhang L, Zhu Z, Li Y, Qian Z, Liu G, Wang X., Ecol Evol 9(7), 2019
PMID: 31015990
Impact of drought on plant populations of native and invasive origins.
Kleine S, Weissinger L, Müller C., Oecologia 183(1), 2017
PMID: 27568026
Kleine S, Weissinger L, Müller C., Oecologia 183(1), 2017
PMID: 27568026
Photoperiod-induced geographic variation in plant defense chemistry.
Reudler JH, Elzinga JA., J Chem Ecol 41(2), 2015
PMID: 25637332
Reudler JH, Elzinga JA., J Chem Ecol 41(2), 2015
PMID: 25637332
The effects of mineral nitrogen limitation, competition, arbuscular mycorrhiza, and their respective interactions, on morphological and chemical plant traits of Plantago lanceolata.
Pankoke H, Höpfner I, Matuszak A, Beyschlag W, Müller C., Phytochemistry 118(), 2015
PMID: 26296746
Pankoke H, Höpfner I, Matuszak A, Beyschlag W, Müller C., Phytochemistry 118(), 2015
PMID: 26296746
Impact of the dual defence system of Plantago lanceolata (Plantaginaceae) on performance, nutrient utilisation and feeding choice behaviour of Amata mogadorensis larvae (Lepidoptera, Erebidae).
Pankoke H, Gehring R, Müller C., J Insect Physiol 82(), 2015
PMID: 26306994
Pankoke H, Gehring R, Müller C., J Insect Physiol 82(), 2015
PMID: 26306994
51 References
Daten bereitgestellt von Europe PubMed Central.
Schoonhoven, 2005
The ecology and evolution of plant tolerance to herbivory.
Strauss SY, Agrawal AA., Trends Ecol. Evol. (Amst.) 14(5), 1999
PMID: 10322530
Strauss SY, Agrawal AA., Trends Ecol. Evol. (Amst.) 14(5), 1999
PMID: 10322530
Why does herbivore attack reconfigure primary metabolism?
Schwachtje J, Baldwin IT., Plant Physiol. 146(3), 2008
PMID: 18316639
Schwachtje J, Baldwin IT., Plant Physiol. 146(3), 2008
PMID: 18316639
Environmental metabolomics: a critical review and future perspectives
Bundy, Metabolomics 5(), 2009
Bundy, Metabolomics 5(), 2009
Linking aboveground and belowground interactions via induced plant defenses.
Bezemer TM, van Dam NM., Trends Ecol. Evol. (Amst.) 20(11), 2005
PMID: 16701445
Bezemer TM, van Dam NM., Trends Ecol. Evol. (Amst.) 20(11), 2005
PMID: 16701445
Metabolomics--the link between genotypes and phenotypes.
Fiehn O., Plant Mol. Biol. 48(1-2), 2002
PMID: 11860207
Fiehn O., Plant Mol. Biol. 48(1-2), 2002
PMID: 11860207
Mining for treatment-specific and general changes in target compounds and metabolic fingerprints in response to herbivory and phytohormones in Plantago lanceolata.
Sutter R, Muller C., New Phytol. 191(4), 2011
PMID: 21592133
Sutter R, Muller C., New Phytol. 191(4), 2011
PMID: 21592133
Metabolite profiling as an aid to metabolic engineering in plants.
Trethewey RN., Curr. Opin. Plant Biol. 7(2), 2004
PMID: 15003221
Trethewey RN., Curr. Opin. Plant Biol. 7(2), 2004
PMID: 15003221
Plantain (Plantago lanceolata) – a potential species
Stewart, Proceedings of the New Zealand Grassland Association 58(), 1996
Stewart, Proceedings of the New Zealand Grassland Association 58(), 1996
Coping with toxic plant compounds--the insect's perspective on iridoid glycosides and cardenolides.
Dobler S, Petschenka G, Pankoke H., Phytochemistry 72(13), 2011
PMID: 21620425
Dobler S, Petschenka G, Pankoke H., Phytochemistry 72(13), 2011
PMID: 21620425
The interplay between toxin-releasing β-glucosidase and plant iridoid glycosides impairs larval development in a generalist caterpillar, Grammia incorrupta (Arctiidae).
Pankoke H, Bowers MD, Dobler S., Insect Biochem. Mol. Biol. 42(6), 2012
PMID: 22446106
Pankoke H, Bowers MD, Dobler S., Insect Biochem. Mol. Biol. 42(6), 2012
PMID: 22446106
Role of plant β-glucosidases in the dual defense system of iridoid glycosides and their hydrolyzing enzymes in Plantago lanceolata and Plantago major
Pankoke, Phytochemistry (), 2013
Pankoke, Phytochemistry (), 2013
Chemical variation within and between individuals ofPlantago lanceolata (Plantaginaceae).
Bowers MD, Stamp NE., J. Chem. Ecol. 18(7), 1992
PMID: 24254142
Bowers MD, Stamp NE., J. Chem. Ecol. 18(7), 1992
PMID: 24254142
Genetic variation in defensive chemistry in Plantago lanceolata (Plantaginaceae) and its effect on the specialist herbivore Junonia coenia (Nymphalidae)
Adler, Oecologia 101(), 1995
Adler, Oecologia 101(), 1995
Changes in plant chemical defenses and nutritional quality as a function of ontogeny in Plantago lanceolata (Plantaginaceae).
Quintero C, Bowers MD., Oecologia 168(2), 2011
PMID: 21913028
Quintero C, Bowers MD., Oecologia 168(2), 2011
PMID: 21913028
Phenological and population variation in iridoid glycosides of Plantago lanceolata (Plantaginaceae)
Darrow, Biochemical Systematics and Ecology 25(), 1997
Darrow, Biochemical Systematics and Ecology 25(), 1997
Effects of genotype, habitat, and seasonal variation on iridoid glycoside content of Plantago lanceolata (Plantaginaceae) and the implications for insect herbivores
Bowers, Oecologia 91(), 1992
Bowers, Oecologia 91(), 1992
Effects of herbivore damage and nutrient level on induction of iridoid glycosides in Plantago lanceolata
Darrow, Journal of Chemical Ecology 25(), 1999
Darrow, Journal of Chemical Ecology 25(), 1999
Effects of plant phenology, nutrients and herbivory on growth and defensive chemistry of plantain, Plantago lanceolata
Jarzomski, Oikos 88(), 2000
Jarzomski, Oikos 88(), 2000
Effects of plant age, genotype and herbivory on Plantago performance and chemistry
Bowers, Ecology 74(), 1993
Bowers, Ecology 74(), 1993
Patterns of iridoid glycoside production and induction in Plantago lanceolata and the importance of plant age.
Fuchs A, Bowers MD., J. Chem. Ecol. 30(9), 2004
PMID: 15586671
Fuchs A, Bowers MD., J. Chem. Ecol. 30(9), 2004
PMID: 15586671
Plant induced defenses depend more on plant age than previous history of damage: implications for plant-herbivore interactions.
Quintero C, Bowers MD., J. Chem. Ecol. 37(9), 2011
PMID: 21858639
Quintero C, Bowers MD., J. Chem. Ecol. 37(9), 2011
PMID: 21858639
Effects of jasmonic acid, branching and girdling on carbon and nitrogen transport in poplar.
Appel HM, Arnold TM, Schultz JC., New Phytol. 195(2), 2012
PMID: 22621389
Appel HM, Arnold TM, Schultz JC., New Phytol. 195(2), 2012
PMID: 22621389
The carbon balance of plants
Mooney, Annual Review of Ecology and Systematics 3(), 1972
Mooney, Annual Review of Ecology and Systematics 3(), 1972
Mechanisms and traits associated with compensation for defoliation in Ruellia nudiflora
Rivera-Solís, Plant Ecology 213(), 2012
Rivera-Solís, Plant Ecology 213(), 2012
Plant-insect dialogs: complex interactions at the plant-insect interface.
Felton GW, Tumlinson JH., Curr. Opin. Plant Biol. 11(4), 2008
PMID: 18657469
Felton GW, Tumlinson JH., Curr. Opin. Plant Biol. 11(4), 2008
PMID: 18657469
Merging molecular and ecological approaches in plant-insect interactions.
Baldwin IT, Halitschke R, Kessler A, Schittko U., Curr. Opin. Plant Biol. 4(4), 2001
PMID: 11418346
Baldwin IT, Halitschke R, Kessler A, Schittko U., Curr. Opin. Plant Biol. 4(4), 2001
PMID: 11418346
Defoliation effects on Plantago lanceolata resource allocation and soil decomposers in relation to AM symbiosis and fertilization
Pietikäinen, Soil Biology and Biochemistry 41(), 2009
Pietikäinen, Soil Biology and Biochemistry 41(), 2009
Tolerance to herbivory in woody vs. herbaceous plants
Haukioja, Evolutionary Ecology 14(), 2000
Haukioja, Evolutionary Ecology 14(), 2000
Herbivore-induced resource sequestration in plants: why bother?
Orians CM, Thorn A, Gomez S., Oecologia 167(1), 2011
PMID: 21431939
Orians CM, Thorn A, Gomez S., Oecologia 167(1), 2011
PMID: 21431939
Are gas exchange responses to resource limitation and defoliation linked to source:sink relationships?
Pinkard EA, Eyles A, O'Grady AP., Plant Cell Environ. 34(10), 2011
PMID: 21707651
Pinkard EA, Eyles A, O'Grady AP., Plant Cell Environ. 34(10), 2011
PMID: 21707651
Plant response to herbivory and belowground nitrogen cycling
Holland, Ecology 71(), 1990
Holland, Ecology 71(), 1990
Direct and indirect relationships between specific leaf area, leaf nitrogen and leaf gas exchange. Effects of irradiance and nutrient supply
Meziane, Annals of Botany 88(), 2001
Meziane, Annals of Botany 88(), 2001
Tansley review no. 27 the control of carbon partitioning in plants
Wardlaw, New Phytologist 116(), 1990
Wardlaw, New Phytologist 116(), 1990
The dilemma of plants: to grow or to defend
Herms, The Quarterly Review of Biology 67(), 1992
Herms, The Quarterly Review of Biology 67(), 1992
Grassland responses to grazing: effects of grazing intensity and management system in an Inner Mongolian steppe ecosystem
Schönbach, Plant and Soil 340(), 2011
Schönbach, Plant and Soil 340(), 2011
Subcellular concentrations of sugar alcohols and sugars in relation to phloem translocation in Plantago major, Plantago maritima, Prunus persica, and Apium graveolens.
Nadwodnik J, Lohaus G., Planta 227(5), 2008
PMID: 18188589
Nadwodnik J, Lohaus G., Planta 227(5), 2008
PMID: 18188589
Differential regulation of sorbitol and sucrose loading into the phloem of Plantago major in response to salt stress.
Pommerrenig B, Papini-Terzi FS, Sauer N., Plant Physiol. 144(2), 2007
PMID: 17434995
Pommerrenig B, Papini-Terzi FS, Sauer N., Plant Physiol. 144(2), 2007
PMID: 17434995
Effect of pH on the Activity of Some Respiratory Inhibitors.
Chin CK, Lee M., Plant Physiol. 66(6), 1980
PMID: 16661576
Chin CK, Lee M., Plant Physiol. 66(6), 1980
PMID: 16661576
MALONIC ACID AS AN INHIBITOR OF MAIZE ROOT RESPIRATION.
Beevers H., Plant Physiol. 27(4), 1952
PMID: 16654497
Beevers H., Plant Physiol. 27(4), 1952
PMID: 16654497
Origin of foliar nitrogen and changes in free amino-acid composition and content of leaves, stubble, and roots of perennial ryegrass during re-growth after defoliation
Lefevre, Journal of Experimental Botany 42(), 1991
Lefevre, Journal of Experimental Botany 42(), 1991
Neighbor species differentially alter resistance phenotypes in Plantago.
Barton KE, Bowers MD., Oecologia 150(3), 2006
PMID: 16944243
Barton KE, Bowers MD., Oecologia 150(3), 2006
PMID: 16944243
Decision tree supported substructure prediction of metabolites from GC-MS profiles.
Hummel J, Strehmel N, Selbig J, Walther D, Kopka J., Metabolomics 6(2), 2010
PMID: 20526350
Hummel J, Strehmel N, Selbig J, Walther D, Kopka J., Metabolomics 6(2), 2010
PMID: 20526350
GMD@CSB.DB: the Golm Metabolome Database.
Kopka J, Schauer N, Krueger S, Birkemeyer C, Usadel B, Bergmuller E, Dormann P, Weckwerth W, Gibon Y, Stitt M, Willmitzer L, Fernie AR, Steinhauser D., Bioinformatics 21(8), 2004
PMID: 15613389
Kopka J, Schauer N, Krueger S, Birkemeyer C, Usadel B, Bergmuller E, Dormann P, Weckwerth W, Gibon Y, Stitt M, Willmitzer L, Fernie AR, Steinhauser D., Bioinformatics 21(8), 2004
PMID: 15613389
ProteoWizard: open source software for rapid proteomics tools development.
Kessner D, Chambers M, Burke R, Agus D, Mallick P., Bioinformatics 24(21), 2008
PMID: 18606607
Kessner D, Chambers M, Burke R, Agus D, Mallick P., Bioinformatics 24(21), 2008
PMID: 18606607
XCMS: processing mass spectrometry data for metabolite profiling using nonlinear peak alignment, matching, and identification.
Smith CA, Want EJ, O'Maille G, Abagyan R, Siuzdak G., Anal. Chem. 78(3), 2006
PMID: 16448051
Smith CA, Want EJ, O'Maille G, Abagyan R, Siuzdak G., Anal. Chem. 78(3), 2006
PMID: 16448051
Controlling the false discovery rate: a practical and powerful approach to multiple testing
Benjamini, Journal of the Royal Statistical Society: Series B (Methodological) 57(), 1995
Benjamini, Journal of the Royal Statistical Society: Series B (Methodological) 57(), 1995
Giraudoux, 2011
Centering, scaling, and transformations: improving the biological information content of metabolomics data.
van den Berg RA, Hoefsloot HC, Westerhuis JA, Smilde AK, van der Werf MJ., BMC Genomics 7(), 2006
PMID: 16762068
van den Berg RA, Hoefsloot HC, Westerhuis JA, Smilde AK, van der Werf MJ., BMC Genomics 7(), 2006
PMID: 16762068
R, 2012
Fox, 2011
Export
Markieren/ Markierung löschen
Markierte Publikationen
Web of Science
Dieser Datensatz im Web of Science®Quellen
PMID: 24036062
PubMed | Europe PMC
Suchen in