Complex effects of fertilization on plant and herbivore performance in the presence of a plant competitor and activated carbon

Plant-herbivore interactions are influenced by host plant quality which in turn is affected by plant growth conditions. Competition is the major biotic and nutrient availability a major abiotic component of a plant's growth environment. Yet, surprisingly few studies have investigated impacts of...

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Veröffentlicht in:	PloS one 2014-07, Vol.9 (7), p.e103731-e103731
Hauptverfasser:	Mahdavi-Arab, Nafiseh, Meyer, Sebastian T, Mehrparvar, Mohsen, Weisser, Wolfgang W
Format:	Artikel
Sprache:	eng
Schlagworte:	Activated carbon Allelopathy Analysis Animal behavior Animals Aphidoidea Aphids Aphids - growth & development Availability Biology and Life Sciences Biomass Carbon Charcoal Competition Ecology and Environmental Sciences Ecosystem components Fertilization Fertilizers Flowers & plants Growth conditions Herbivores Herbivory Host plants Infestation Macrosiphoniella Metopolophium dirhodum Nutrient availability Nutrients Organic fertilizers Plant biomass Plant growth Plants (botany) Solidago - growth & development Solidago canadensis Tanacetum Tanacetum - growth & development Tanacetum vulgare
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description	Plant-herbivore interactions are influenced by host plant quality which in turn is affected by plant growth conditions. Competition is the major biotic and nutrient availability a major abiotic component of a plant's growth environment. Yet, surprisingly few studies have investigated impacts of competition and nutrient availability on herbivore performance and reciprocal herbivore effects on plants. We studied growth of the specialist aphid, Macrosiphoniella tanacetaria, and its host plant tansy, Tanacetum vulgare, under experimental addition of inorganic and organic fertilizer crossed with competition by goldenrod, Solidago canadensis. Because of evidence that competition by goldenrod is mediated by allelopathic compounds, we also added a treatment with activated carbon. Results showed that fertilization increased, and competition with goldenrod decreased, plant biomass, but this was likely mediated by resource competition. There was no evidence from the activated carbon treatment that allelopathy played a role which instead had a fertilizing effect. Aphid performance increased with higher plant biomass and depended on plant growth conditions, with fertilization and AC increasing, and plant competition decreasing aphid numbers. Feedbacks of aphids on plant performance interacted with plant growth conditions in complex ways depending on the relative magnitude of the effects on plant biomass and aphid numbers. In the basic fertilization treatment, tansy plants profited from increased nutrient availability by accumulating more biomass than they lost due to an increased number of aphids under fertilization. When adding additional fertilizer, aphid numbers increased so high that tansy plants suffered and showed reduced biomass compared with controls without aphids. Thus, the ecological cost of an infestation with aphids depends on the balance of effects of growth conditions on plant and herbivore performance. These results emphasize the importance to investigate both perspectives in plant herbivore interactions and characterize the effects of growth conditions on plant and herbivore performance and their respective feedbacks.
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Aphid performance increased with higher plant biomass and depended on plant growth conditions, with fertilization and AC increasing, and plant competition decreasing aphid numbers. Feedbacks of aphids on plant performance interacted with plant growth conditions in complex ways depending on the relative magnitude of the effects on plant biomass and aphid numbers. In the basic fertilization treatment, tansy plants profited from increased nutrient availability by accumulating more biomass than they lost due to an increased number of aphids under fertilization. When adding additional fertilizer, aphid numbers increased so high that tansy plants suffered and showed reduced biomass compared with controls without aphids. Thus, the ecological cost of an infestation with aphids depends on the balance of effects of growth conditions on plant and herbivore performance. These results emphasize the importance to investigate both perspectives in plant herbivore interactions and characterize the effects of growth conditions on plant and herbivore performance and their respective feedbacks.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>25078980</pmid><doi>10.1371/journal.pone.0103731</doi><oa>free_for_read</oa></addata></record>
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subjects	Activated carbon Allelopathy Analysis Animal behavior Animals Aphidoidea Aphids Aphids - growth & development Availability Biology and Life Sciences Biomass Carbon Charcoal Competition Ecology and Environmental Sciences Ecosystem components Fertilization Fertilizers Flowers & plants Growth conditions Herbivores Herbivory Host plants Infestation Macrosiphoniella Metopolophium dirhodum Nutrient availability Nutrients Organic fertilizers Plant biomass Plant growth Plants (botany) Solidago - growth & development Solidago canadensis Tanacetum Tanacetum - growth & development Tanacetum vulgare
title	Complex effects of fertilization on plant and herbivore performance in the presence of a plant competitor and activated carbon
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