Chemical Ecology of Anti-Herbivore Defenses in Poplar

Dr. Sybille Unsicker

We are investigating the direct and indirect defenses of black poplar against insect herbivore attack using both old growth-trees growing under natural conditions and transplants of these trees, raised in a greenhouse. Our approach is interdisciplinary, combining classical ecological methods with analytical chemistry and molecular biology.

Priming of herbivore-induced chemical defenses in Populus nigra

Plants that suffer herbivory may not induce anti-herbivore defenses immediately, but instead be primed to increase their induction of defenses after a second bout of feeding. Such priming of defense induction has been described for a number of herbaceous species (e.g. maize, tobacco, lima bean and poplar), but most of these experiments were performed under laboratory conditions. The goal of our project is to determine if priming of anti-herbivore defense induction occurs in nature using a natural population of old growth Populus nigra L. (black poplar). This species is a close relative of Populus trichocarpa, allowing the genomic resources of this model woody plant taxon to be applied. We want to look for priming of defense induction in natural populations of P. nigra, discover what anti-herbivore defenses are induced and examine some of the internal and external signals mediating this phenomenon.

Volatile-mediated communication in black poplar trees

Sandra Lackner

Upon insect herbivore attack, plants release a specific blend of volatile organic compounds which are known to play an important role in direct and indirect plant defense. Recent studies with mainly herbaceous plant species have shown that herbivore-induced plant volatiles can prime non-infested tissues to show a faster and stronger defense response upon subsequent herbivore attack. Evidence for defense priming in long-lived woody plant species, however, and the consequences for insect herbivore behavior and performance are still scarce. The aim of my studies is to investigate the effects of the volatile mediated priming phenomenon on the defense chemistry of the tree species, Populus nigra (black poplar) and consequences for its natural herbivores, such as gypsy moth caterpillars (Lymantria dispar). To achieve this I will combine classic ecological techniques like food choice and larval performance assays, with biochemical methods like monitoring of volatile organic compounds (VOCs) with GC-MS/FID and other plant defenses (phenolics, defense proteins) and defense hormones via LC-MS and enzyme assays.

Pathogen-mediated changes in black poplar defense against insect herbivores

Franziska Eberl

In their natural environment plants are constantly exposed to antagonists such as herbivorous insects or bacterial and fungal pathogens. When a plant is attacked by either of these organisms, a complex signaling network is triggered, including ion fluxes, phytohormone and gene expression changes. This regulatory network finally results in metabolic changes to defend the plant against the attacker. Most of the studies investigating these plant defense reactions have been conducted with only one pest organism and its host. However, these single-species interactions are very simplified and often unrealistic since under natural conditions plants face a plethora of simultaneously occurring antagonists. Furthermore, almost all of these investigations have been carried out with herbaceous species such as tobacco, lima bean or maize. But how do woody plants react to an infection by a fungus or the feeding of an insect? Is the signaling, e.g. phytohormone levels, analogous to those in herbs? What happens if a plant is attacked by two pests simultaneously? Has such a multiple attack an effect on the attacking species themselves or their natural enemies? To answer these and related questions is the aim of my study. In order to do this, I use black poplar trees (Populus nigra) and different herbivorous insect species. Additionally to those leaf-feeding antagonists, I infect the trees with the biotrophic fungus Melampsora larici-populina, a wide-spread pest in natural poplar populations and plantations. By applying both pests subsequently as well as simultaneously I try to unveil possible effects of the pathogen on the development and host-interaction of the insects, and vice versa. By measuring phytohormones, photosynthesis rate, gene expression and volatile emission of the plants I further want to examine the signaling and defense reactions in the poplar tree. Additionally, I want to investigate the ecological consequences by monitoring the fitness and behavior of the feeding insects and their natural enemies as well as the development of the fungal pathogen.

 

Herbivore species-specific black poplar defense response

Thomas Fabisch

Poplar trees constitutively defend themselves against insect herbivores and pathogens with phenolic compounds such as salicinoids, flavonoids and condensed tannins. There is evidence from the literature that some of these compounds can be induced herbivore species-specifically, however, these results are inconsistent. The recognition of the attacking species occurs via herbivore-associated elicitors but damage patterns, herbivore load and damage frequency might also be of importance. When plants realize the presence of herbivores, they induce stress-related phytohormones that initiate a signaling cascade resulting in the production of anti-herbivore defense compounds. Throughout the season black poplar trees host numerous species of herbivorous insects whose occurrence, frequency and distribution is variable in time and space. Thus distinct spatio-temporal herbivore feeding patterns and spatio-temporal differences in black poplar defense chemistry can be observed under natural conditions in the field. To what extent changes in the tree defense chemistry, brought about by one herbivore species, affect the behavior and performance of other, simultaneously or later occurring herbivore species is still unknown. The aim of this project is to search for herbivore-specific patterns of black poplar defense response with a focus on phenolics and volatile organic compounds. The consequences of herbivore-specific defense induction patterns in black poplar on natural herbivore community composition and the performance and preference of selected characteristic black poplar herbivore species will be studied.