Doctoral defence: Mickaël Mathieu Pihain “The evolutionary effect of phylogenetic neighbourhoods of trees on their resistance to herbivores and climatic stress”

On 18 February at 10:15 Mickaël Mathieu Pihain will defend his doctoral thesis “The evolutionary effect of phylogenetic neighbourhoods of trees on their resistance to herbivores and climatic stress” for obtaining the degree of Doctor of Philosophy (in Plant Ecology and Ecophysiology).

Supervisors:

Doctor Pille Gerhold, University of Tartu and Estonian University of Life Sciences
Professor Andreas Prinzing, University of Rennes 1 (France)

Opponent:
Doctor Martin Schädler, Helmholtz-Centre for Environmental Research (Germany)

Summary
Forests are under two ecological threats, herbivory and climatic stress. It has been shown that trees living with similar species suffer increased herbivory and climatic stress. Yet, in nature, many forests are composed of closely related species. In this thesis, I argue that given that tree populations can evolve increased resistance to herbivory and climatic stress. Neighbourhoods composed of closely related species might select for increased resistance to herbivory. This selection for increased resistance against herbivores might have a cost for resistance to climatic stress. In such a case, neighbourhoods composed of closely related species might select against climatic stress resistance. Trees might also increase their investment into mutualists. Mycorrhiza are mutualistic fungi increasing tree resistance to herbivory and climatic stress. Neighbourhoods composed of closely related species might select for increased investment into mycorrhiza, which might lead to increased resistance to herbivory and climatic stress. This thesis shows that living with similar neighbours selects for increased resistance against herbivory without cost for climatic stress resistance. Moreover, living with similar neighbours selects for increased investment into mycorrhiza, which increases the resistance against both herbivory and climatic stress. Finally, tree species living with closely related neighbours have a reduced risk of extinction under environmental change. This thesis adds insights into the mainstream of community ecology by suggesting that tree species can rapidly evolve increased resistance to herbivory and climatic stress, which might explain the existence of forests composed of similar species. In addition, the selection of increased resistance to climatic stress in neighbourhoods composed of closely related species might enable tree-species to cope with future environmental changes.

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