Article thumbnail

Plant Community Diversity Influences Allocation to Direct Chemical Defence in Plantago lanceolata

By Anne Mraja, Sybille B. Unsicker, Michael Reichelt, Jonathan Gershenzon and Christiane Roscher
Topics: Research Article
Publisher: Public Library of Science
OAI identifier: oai:pubmedcentral.nih.gov:3235097
Provided by: PubMed Central

Suggested articles

Citations

  1. (1974). Adaptive patterns in alkaloid physiology.
  2. (2004). Allocation, plasticity and allometry in plants.
  3. (2005). Biere A
  4. (1964). Biological flora of the British Isles. Plantago
  5. (2010). Can optimal defence theory be used to predict the distribution of plant chemical defences?
  6. (1983). Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory.
  7. (2000). Cause and correlation in biology. Cambridge:
  8. (1992). Chemical variation within and between individuals of Plantago lanceolata (Plantaginaceae).
  9. (2007). Detecting the role of individual species for overyielding in experimental grassland communities composed of potentially dominant species.
  10. (2000). Direct and correlated responses to selection on iridoid glycosides in Plantago lanceolata.
  11. (2002). Direct and ecological costs of resistance to herbivory.
  12. (2007). Early ontogenetic patterns in chemical defense in Plantago (Plantaginaceae): genetic variation and trade-offs.
  13. (2005). Effects of biodiversity on ecosystem functioning: A consensus of current knowledge.
  14. (2006). Effects of biodiversity on the functioning of trophic groups and ecosystems.
  15. (1992). Effects of genotype, habitat, and seasonal variation on iridoid glycoside content of Plantago lanceolata (Plantaginaceae) and the implications for insect herbivores.
  16. (1999). Effects of herbivore damage and nutrient level on induction of iridoid glycosides in Plantago lanceolata.
  17. (1993). Effects of plant age, genotype, and herbivory on Plantago performance and chemistry.
  18. (2006). Effects of plant diversity on invertebrate herbivory in experimental grassland.
  19. (2000). Effects of plant phenology, nutrients and herbivory on growth and defensive chemistry of plantain, Plantago lanceolata.
  20. (2003). Fitness costs of chemical defense in Plantago lanceolata L.: effects of nutrient and competition stress.
  21. (2011). Foliar and soil d 15N values reveal increased nitrogen partitioning among species in diverse grassland communities.
  22. (1991). Genetic differentiation between populations of Plantago lanceolata. I. Local adaptation in three contrasting habitats.
  23. (2002). Impact of folivory on photosynthesis is greater than the sum of its holes.
  24. (2006). Invertebrate herbivory along a gradient of plant species diversity in extensively managed grasslands.
  25. (2000). Ko ¨rner C
  26. (2004). Mechanisms responsible for the positive diversity-productivity relationship in Minnesota grasslands.
  27. (1994). Metabolic costs of terpenoid accumulation in higher plants.
  28. (2002). Model selection and multimodel interference. A practical information-theoretic approach.
  29. (2000). Mu ¨ller-Westermeier G
  30. (2006). Neighbor species differentially alter resistance phenotypes in Plantago.
  31. (2007). Niche pre-emption increases with species richness in experimental plant communities.
  32. (2011). Nitrogen and light competition limit Lolium perenne in experimental grasslands of increasing plant diversity.
  33. (2003). Out of the quagmire of plant defense hypotheses.
  34. (2005). Overyielding in experimental grassland communities - irrespective of species pool or spatial scale.
  35. (2002). Overyielding in grassland communities: testing the sampling effect hypothesis with replicated biodiversity experiments.
  36. (2001). Photosynthetic acclimation of plants to growth irradiance: the relative importance of specific leaf area and nitrogen partitioning in maximizing carbon gain.
  37. (2004). Plant chemical defense against herbivores and pathogens: generalized defense or trade-offs?
  38. (2001). Plant density and nutrient availability constrain constitutive and wound-induced expression of trypsin inhibitors in Brassica napus.
  39. (1999). Plant diversity and productivity experiments in European grasslands.
  40. (2007). Positive interactions between nitrogen-fixing legumes and four different neighbouring species in a biodiversity experiment.
  41. (1985). Resource availability and plant antiherbivore defense.
  42. (1985). Resource limitation in plants – an economic analogy.
  43. (2011). Selection for monoculture and mixture genotypes in a biodiversity experiment.
  44. (2008). Shade tolerance, a key plant feature of complex nature and consequences.
  45. (2007). Soil and plant nitrogen pools as related to plant diversity in an experimental grassland.
  46. (2008). Species richness and identity affect the use of aboveground space in experimental grasslands.
  47. (2002). Systemic, genotype-specific induction of two herbivore-deterrent iridoid glycosides in Plantago lanceolata L. in response to fungal infection by Diaporthe adunca (Rob.) Niessel.
  48. (1983). The biosynthesis of iridoid glycosides from 8-epi-deoxyloganic acid.
  49. (1992). The dilemma of plants: to grow or defend.
  50. (1992). The effect of nutrients and enriched CO2 environments on production of carbon-based allelochemicals in Plantago:a test of the carbon/nutrient balance hypothesis.
  51. (2006). The effects of plant diversity and insect herbivory on performance of individual plant species in experimental grassland.
  52. (1986). The evolution of phenotypic plasticity in plants.
  53. (1997). The influence of functional diversity and composition on ecosystem processes.
  54. (2004). The role of biodiversity for element cycling and trophic interactions: an experimental approach in a grassland community.
  55. (1988). Vegetation Ecology of Central Europe. Cambridge:
  56. (1991). Vegetational diversity and arthropod population response.

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.