Constraints on chemically mediated coevolution: multiple functions for seaweed secondary metabolites

Diterpene alcohols produced by the brown seaweed Dictyota menstrualis deter feeding by numerous species of abundant herbivores. Here we show that these same compounds also may prevent fouling organisms from colonizing the surface of this alga. In the field, Dictyota menstrualis plants were less freq...

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Veröffentlicht in:	Ecology (Durham) 1995-01, Vol.76 (1), p.107-123
Hauptverfasser:	Schmitt, Tim M., Hay, Mark E., Lindquist, Niels
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Allelopathy Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Chemical ecology Coevolution Dictyota menstrualis DITERPENOIDE DITERPENOS ECOLOGIA VEGETAL Ecology EVOLUCION EVOLUTION Fouling Fundamental and applied biological sciences. Psychology HERBIVORE Herbivores HERBIVOROS Larvae Larval development Marine Marine algae Marine ecology METABOLITE METABOLITOS PHAEOPHYCEAE PHYTOECOLOGIE Plant metabolites Sea water ecosystems Seaweeds Surface areas Synecology
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creator	Schmitt, Tim M. Hay, Mark E. Lindquist, Niels
description	Diterpene alcohols produced by the brown seaweed Dictyota menstrualis deter feeding by numerous species of abundant herbivores. Here we show that these same compounds also may prevent fouling organisms from colonizing the surface of this alga. In the field, Dictyota menstrualis plants were less frequently and less heavily fouled than any of the other common seaweed species investigated. In laboratory assays, larvae of the common fouling bryozoan Bugula neritina failed to settle on Dictyota even though they contacted its surface as often as they contacted the surface of a preferred host alga. Rejection occurred only after direct contact with the alga's surface. Rejection of Dictyota was not mediated by water-borne chemical cues or by surface wettability (a physical property of the surface that can affect fouling). The lipid-soluble extract from surface rubbings of Dictyota inhibited larval settlement when placed on other surfaces and contained the diterpene alcohols pachydictyol A and dictyol E. Larvae exposed to these compounds experienced mortality, abnormal development, or reduced rates of development. Although the potential for chemically mediated coevolution between plants and herbivores has been the focus of scores of previous investigations, such coevolution will depend on selection altering the chemical defenses of the plant following the evolution of resistance by herbivores. Such a reciprocal response will be constrained if compounds play multiple roles that are ecologically important. Dictyota produces secondary metabolites that are broadly defensive against a wide variety of consumers and fouling organisms. Although certain consumers may evolve resistance to these metabolites, it is unclear that feeding by these consumers will result in reciprocal responses from the plant. We suggest that coevolved interactions may be uncommon, and that many interactions that appear to be coevolved may result from fortuitous and opportunistic preadaptations
doi_str_mv	10.2307/1940635
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Here we show that these same compounds also may prevent fouling organisms from colonizing the surface of this alga. In the field, Dictyota menstrualis plants were less frequently and less heavily fouled than any of the other common seaweed species investigated. In laboratory assays, larvae of the common fouling bryozoan Bugula neritina failed to settle on Dictyota even though they contacted its surface as often as they contacted the surface of a preferred host alga. Rejection occurred only after direct contact with the alga's surface. Rejection of Dictyota was not mediated by water-borne chemical cues or by surface wettability (a physical property of the surface that can affect fouling). The lipid-soluble extract from surface rubbings of Dictyota inhibited larval settlement when placed on other surfaces and contained the diterpene alcohols pachydictyol A and dictyol E. Larvae exposed to these compounds experienced mortality, abnormal development, or reduced rates of development. Although the potential for chemically mediated coevolution between plants and herbivores has been the focus of scores of previous investigations, such coevolution will depend on selection altering the chemical defenses of the plant following the evolution of resistance by herbivores. Such a reciprocal response will be constrained if compounds play multiple roles that are ecologically important. Dictyota produces secondary metabolites that are broadly defensive against a wide variety of consumers and fouling organisms. Although certain consumers may evolve resistance to these metabolites, it is unclear that feeding by these consumers will result in reciprocal responses from the plant. 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E.</au><au>Lindquist, Niels</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Constraints on chemically mediated coevolution: multiple functions for seaweed secondary metabolites</atitle><jtitle>Ecology (Durham)</jtitle><date>1995-01</date><risdate>1995</risdate><volume>76</volume><issue>1</issue><spage>107</spage><epage>123</epage><pages>107-123</pages><issn>0012-9658</issn><eissn>1939-9170</eissn><coden>ECGYAQ</coden><abstract>Diterpene alcohols produced by the brown seaweed Dictyota menstrualis deter feeding by numerous species of abundant herbivores. 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Although the potential for chemically mediated coevolution between plants and herbivores has been the focus of scores of previous investigations, such coevolution will depend on selection altering the chemical defenses of the plant following the evolution of resistance by herbivores. Such a reciprocal response will be constrained if compounds play multiple roles that are ecologically important. Dictyota produces secondary metabolites that are broadly defensive against a wide variety of consumers and fouling organisms. Although certain consumers may evolve resistance to these metabolites, it is unclear that feeding by these consumers will result in reciprocal responses from the plant. We suggest that coevolved interactions may be uncommon, and that many interactions that appear to be coevolved may result from fortuitous and opportunistic preadaptations</abstract><cop>Washington, DC</cop><pub>The Ecological Society of America</pub><doi>10.2307/1940635</doi><tpages>17</tpages><oa>free_for_read</oa></addata></record>
fulltext	fulltext
identifier	ISSN: 0012-9658
ispartof	Ecology (Durham), 1995-01, Vol.76 (1), p.107-123
issn	0012-9658 1939-9170
language	eng
recordid	cdi_proquest_miscellaneous_16705292
source	Jstor Complete Legacy; Periodicals Index Online
subjects	Algae Allelopathy Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Chemical ecology Coevolution Dictyota menstrualis DITERPENOIDE DITERPENOS ECOLOGIA VEGETAL Ecology EVOLUCION EVOLUTION Fouling Fundamental and applied biological sciences. Psychology HERBIVORE Herbivores HERBIVOROS Larvae Larval development Marine Marine algae Marine ecology METABOLITE METABOLITOS PHAEOPHYCEAE PHYTOECOLOGIE Plant metabolites Sea water ecosystems Seaweeds Surface areas Synecology
title	Constraints on chemically mediated coevolution: multiple functions for seaweed secondary metabolites
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