Influence of fungal isolates infecting tall fescue on multitrophic interactions

The epichloae are ascomycetous fungi in the genera Epichloë and Neotyphodium that live within grasses. Some of these fungi produce alkaloids that can help protect the host from herbivores. The alkaloids may also travel up the food web and affect members of the third trophic level. In this way they c...

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Veröffentlicht in:	Fungal ecology 2012-06, Vol.5 (3), p.372-378
Hauptverfasser:	Bultman, Thomas L., Aguilera, Adilene, Sullivan, Terrence J.
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Sprache:	eng
Schlagworte:	Alkaloids Aphididae Aphidoidea container-grown plants cultivars Endophyte Endophytes Festuca arundinacea Food webs foods Fungi Grasses Herbivores Infection Multitrophic Natural enemies Neotyphodium Parasitoids Tall fescue Travel Trophic levels vegetative growth
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container_title	Fungal ecology
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creator	Bultman, Thomas L. Aguilera, Adilene Sullivan, Terrence J.
description	The epichloae are ascomycetous fungi in the genera Epichloë and Neotyphodium that live within grasses. Some of these fungi produce alkaloids that can help protect the host from herbivores. The alkaloids may also travel up the food web and affect members of the third trophic level. In this way they can produce trophic cascades which are rippling effects when a trophic level impacts those above or below it. We briefly summarize the general patterns of multitrophic effects of endophytes and highlight the most recent studies on this topic. Further, we report on our study in which we tested if different fungal strains in tall fescue (cultivar Jesup) affect multitrophic interactions involving aphids and their parasitoid natural enemies. Using both the common strain of N. coenophialum and a novel isolate (AR577), we allowed potted plants to be colonized by aphids and parasitoids in a semi-natural setting. We found that endophyte infection of tall fescue resulted in greater vegetative growth of the plant. We also found that N. coenophialum modified bottom-up cascades by depressing both aphid and parasitoid densities. Finally, we found that multitrophic effects were modified by fungal isolate: the common strain had stronger negative impacts on aphid and parasitoid densities than did the novel isolate. ► A brief review showed that grass endophytes can influence multitrophic interactions. ► Yet, general patterns of these effects are not apparent. ► Endophyte infection of tall fescue resulted in greater vegetative growth. ► Neotyphodium coenophialum depressed both aphid and parasitoid densities. ► Multitrophic effects varied with fungal isolate.
doi_str_mv	10.1016/j.funeco.2011.06.004
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subjects	Alkaloids Aphididae Aphidoidea container-grown plants cultivars Endophyte Endophytes Festuca arundinacea Food webs foods Fungi Grasses Herbivores Infection Multitrophic Natural enemies Neotyphodium Parasitoids Tall fescue Travel Trophic levels vegetative growth
title	Influence of fungal isolates infecting tall fescue on multitrophic interactions
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