When do herbivores affect plant invasion? Evidence for the natural enemies and biotic resistance hypotheses

Two venerable hypotheses, widely cited as explanations for either the success or failure of introduced species in recipient communities, are the natural enemies hypothesis and the biotic resistance hypothesis. The natural enemies hypothesis posits that introduced organisms spread rapidly because the...

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Bibliographic Details
Published inOikos Vol. 95; no. 3; pp. 361 - 373
Main Authors Maron, John L., Vilà, Montserrat
Format Journal Article
LanguageEnglish
Published Copenhagen Munksgaard International Publishers 01.12.2001
Munksgaard International Publishers, Ltd
Blackwell
Subjects
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Demecology
Ecological invasion
Fundamental and applied biological sciences. Psychology
Herbivores
Insect ecology
Introduced plants
Introduced species
Mini-Review
Natural enemies
Phytophagous insects
Plants
Plants and fungi
Population growth
Seed predation
Resistance
Life history
Introduced species
Plant
Herbivorous
Animal plant relation
Interspecific competition
Review
Vegetation dynamics
Colonization
Native species
Ecological abundance
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Abstract Two venerable hypotheses, widely cited as explanations for either the success or failure of introduced species in recipient communities, are the natural enemies hypothesis and the biotic resistance hypothesis. The natural enemies hypothesis posits that introduced organisms spread rapidly because they are liberated from their co-evolved predators, pathogens and herbivores. The biotic resistance hypothesis asserts that introduced species often fail to invade communities because strong biotic interactions with native species hinder their establishment and spread. We reviewed the evidence for both of these hypotheses as they relate to the importance of non-domesticated herbivores in affecting the success or failure of plant invasion. To evaluate the natural enemies hypothesis, one must determine how commonly native herbivores have population-level impacts on native plants. If native herbivores seldom limit native plant abundance, then there is little reason to think that introduced plants benefit from escape from these enemies. Studies of native herbivore-native plant interactions reveal that plant life-history greatly mediates the strength with which specialist herbivores suppress plant abundance. Relatively short-lived plants that rely on current seed production for regeneration are most vulnerable to herbivory that reduces seed production. As such, these plants may gain the greatest advantage from escaping their specialist enemies in recipient communities. In contrast, native plants that are long lived or that possess long-lived seedbanks may not be kept "in check" by native herbivores. For these species, escape from native enemies may have little to do with their success as exotics; they are abundant both where they are native and introduced. Evidence for native herbivores providing biotic resistance to invasion by exotics is conflicting. Our review reveals that: 1) introduced plants can attract a diverse assemblage of native herbivores and that 2) native herbivores can reduce introduced plant growth, seed set and survival. However, the generality of these impacts is unclear, and evidence that herbivory actually limits or reduces introduced plant spread is scarce. The degree to which native herbivores provide biotic resistance to either exotic plant establishment or spread may be greatly determined by their functional and numerical responses to exotic plants, which we know little about. Generalist herbivores, through their direct effects on seed dispersal and their indirect effects in altering the outcome of native-non-native plant competitive interactions, may have more of a facilitative than negative effect on exotic plant abundance.
AbstractList Two venerable hypotheses, widely cited as explanations for either the success or failure of introduced species in recipient communities, are the natural enemies hypothesis and the biotic resistance hypothesis. The natural enemies hypothesis posits that introduced organisms spread rapidly because they are liberated from their co‐evolved predators, pathogens and herbivores. The biotic resistance hypothesis asserts that introduced species often fail to invade communities because strong biotic interactions with native species hinder their establishment and spread. We reviewed the evidence for both of these hypotheses as they relate to the importance of non‐domesticated herbivores in affecting the success or failure of plant invasion. 
To evaluate the natural enemies hypothesis, one must determine how commonly native herbivores have population‐level impacts on native plants. If native herbivores seldom limit native plant abundance, then there is little reason to think that introduced plants benefit from escape from these enemies. Studies of native herbivore‐native plant interactions reveal that plant life‐history greatly mediates the strength with which specialist herbivores suppress plant abundance. Relatively short‐lived plants that rely on current seed production for regeneration are most vulnerable to herbivory that reduces seed production. As such, these plants may gain the greatest advantage from escaping their specialist enemies in recipient communities. In contrast, native plants that are long lived or that possess long‐lived seedbanks may not be kept “in check” by native herbivores. For these species, escape from native enemies may have little to do with their success as exotics; they are abundant both where they are native and introduced. 
Evidence for native herbivores providing biotic resistance to invasion by exotics is conflicting. Our review reveals that: 1) introduced plants can attract a diverse assemblage of native herbivores and that 2) native herbivores can reduce introduced plant growth, seed set and survival. However, the generality of these impacts is unclear, and evidence that herbivory actually limits or reduces introduced plant spread is scarce. The degree to which native herbivores provide biotic resistance to either exotic plant establishment or spread may be greatly determined by their functional and numerical responses to exotic plants, which we know little about. Generalist herbivores, through their direct effects on seed dispersal and their indirect effects in altering the outcome of native–non‐native plant competitive interactions, may have more of a facilitative than negative effect on exotic plant abundance.
Two venerable hypotheses, widely cited as explanations for either the success or failure of introduced species in recipient communities, are the natural enemies hypothesis and the biotic resistance hypothesis. The natural enemies hypothesis posits that introduced organisms spread rapidly because they are liberated from their co-evolved predators, pathogens and herbivores. The biotic resistance hypothesis asserts that introduced species often fail to invade communities because strong biotic interactions with native species hinder their establishment and spread. We reviewed the evidence for both of these hypotheses as they relate to the importance of non-domesticated herbivores in affecting the success or failure of plant invasion. To evaluate the natural enemies hypothesis, one must determine how commonly native herbivores have population-level impacts on native plants. If native herbivores seldom limit native plant abundance, then there is little reason to think that introduced plants benefit from escape from these enemies. Studies of native herbivore-native plant interactions reveal that plant life-history greatly mediates the strength with which specialist herbivores suppress plant abundance. Relatively shortlived plants that rely on current seed production for regeneration are most vulnerable to herbivory that reduces seed production. As such, these plants may gain the greatest advantage from escaping their specialist enemies in recipient communities. In contrast, native plants that are long lived or that possess long-lived seedbanks may not be kept "in check" by native herbivores. For these species, escape from native enemies may have little to do with their success as exotics; they are abundant both where they are native and introduced. Evidence for native herbivores providing biotic resistance to invasion by exotics is conflicting. Our review reveals that: 1) introduced plants can attract a diverse assemblage of native herbivores and that 2) native herbivores can reduce introduced plant growth, seed set and survival. However, the generality of these impacts is unclear, and evidence that herbivory actually limits or reduces introduced plant spread is scarce. The degree to which native herbivores provide biotic resistance to either exotic plant establishment or spread may be greatly determined by their functional and numerical responses to exotic plants, which we know little about. Generalist herbivores, through their direct effects on seed dispersal and their indirect effects in altering the outcome of native-non-native plant competitive interactions, may have more of a facilitative than negative effect on exotic plant abundance.
Author Maron, John L.
Vilà, Montserrat
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  givenname: John L.
  surname: Maron
  fullname: Maron, John L.
– sequence: 2
  givenname: Montserrat
  surname: Vilà
  fullname: Vilà, Montserrat
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Issue 3
Keywords Resistance
Life history
Introduced species
Plant
Herbivorous
Animal plant relation
Interspecific competition
Review
Vegetation dynamics
Colonization
Native species
Ecological abundance
Language English
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2000; 88
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1997; 7
1996; 78
1996; 77
1992; 6
1997; 51
1989; 34
1987; 41
2000; 124
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1957; 197
1992; 46
2000; 122
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1960; 94
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1997; 27
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1987; 69
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1992; 23
1998; 8
1990; 4
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1990; 19
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2000; 2
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1985; 48
1990; 83
1999; 9
1980; 19
1993; 95
1977; 58
1986; 67
1997; 79
1997; 78
1979; 42
2001; 79
1994; 3
1991; 126
1957; 27
1989; 14
1990; 71
1996; 44
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Snippet Two venerable hypotheses, widely cited as explanations for either the success or failure of introduced species in recipient communities, are the natural...
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SubjectTerms Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Demecology
Ecological invasion
Fundamental and applied biological sciences. Psychology
Herbivores
Insect ecology
Introduced plants
Introduced species
Mini-Review
Natural enemies
Phytophagous insects
Plants
Plants and fungi
Population growth
Seed predation
Title When do herbivores affect plant invasion? Evidence for the natural enemies and biotic resistance hypotheses
URI https://api.istex.fr/ark:/67375/WNG-G7XK5S13-L/fulltext.pdf
https://www.jstor.org/stable/3547492
https://onlinelibrary.wiley.com/doi/abs/10.1034%2Fj.1600-0706.2001.950301.x
https://www.proquest.com/docview/18296886
Volume 95
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