145 results on '"FLORIVORES"'
Search Results
2. Revisiting florivory: an integrative review and global patterns of a neglected interaction.
- Author
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Boaventura, Maria Gabriela, Villamil, Nora, Teixido, Alberto L., Tito, Richard, Vasconcelos, Heraldo L., Silveira, Fernando A. O., and Cornelissen, Tatiana
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INSECT populations , *POLLINATORS , *TROPICAL plants , *PLANTS , *FLOWERS , *ANGIOSPERMS - Abstract
Summary: Florivory is an ancient interaction which has rarely been quantified due to a lack of standardized protocols, thus impairing biogeographical and phylogenetic comparisons. We created a global, continuously updated, open‐access database comprising 180 species and 64 families to compare floral damage between tropical and temperate plants, to examine the effects of plant traits on floral damage, and to explore the eco‐evolutionary dynamics of flower–florivore interactions. Flower damage is widespread across angiosperms, but was two‐fold higher in tropical vs temperate species, suggesting stronger fitness impacts in the tropics. Flowers were mostly damaged by chewers, but neither flower color nor symmetry explained differences in florivory. Herbivory and florivory levels were positively correlated within species, even though the richness of the florivore community does not affect florivory levels. We show that florivory impacts plant fitness via multiple pathways and that ignoring this interaction makes it more difficult to obtain a broad understanding of the ecology and evolution of angiosperms. Finally, we propose a standardized protocol for florivory measurements, and identify key research avenues that will help fill persistent knowledge gaps. Florivory is expected to be a central research topic in an epoch characterized by widespread decreases in insect populations that comprise both pollinators and florivores. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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3. Plant ontogeny determines strength and associated plant fitness consequences of plant‐mediated interactions between herbivores and flower visitors.
- Author
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Rusman, Quint, Lucas‐Barbosa, Dani, Hassan, Kamrul, Poelman, Erik H., and Dam, Nicole
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CHEMICAL plants , *PLANT defenses , *PLANT capacity , *FLOWERING of plants , *MUSTARD , *FLOWERS , *FLOWERING time , *ONTOGENY - Abstract
Plants show ontogenetic variation in growth–defence strategies to maximize reproductive output within a community context. Most work on plant ontogenetic variation in growth–defence trade‐offs has focussed on interactions with antagonistic insect herbivores. Plants respond to herbivore attack with phenotypic changes. Despite the knowledge that plant responses to herbivory affect plant mutualistic interactions with pollinators required for reproduction, indirect interactions between herbivores and pollinators have not been included in the evaluation of how ontogenetic growth–defence trajectories affect plant fitness.In a common garden experiment with the annual Brassica nigra, we investigated whether exposure to various herbivore species on different plant ontogenetic stages (vegetative, bud or flowering stage) affects plant flowering traits, interactions with flower visitors and results in fitness consequences for the plant.Effects of herbivory on flowering plant traits and interactions with flower visitors depended on plant ontogeny. Plant exposure in the vegetative stage to the caterpillar Pieris brassicae and aphid Brevicoryne brassicae led to reduced flowering time and flower production, and resulted in reduced pollinator attraction, pollen beetle colonization, total seed production and seed weight. When plants had buds, infestation by most herbivore species tested reduced flower production and pollen beetle colonization. Pollinator attraction was either increased or reduced. Plants infested in the flowering stage with P. brassicae or Lipaphis erysimi flowered longer, while infestation by any of the herbivore species tested increased the number of flower visits by pollinators.Our results show that the outcome of herbivore–flower visitor interactions in B. nigra is specific for the combination of herbivore species and plant ontogenetic stage. Consequences of herbivory for flowering traits and reproductive output were strongest when plants were attacked early in life. Such differences in selection pressures imposed by herbivores to specific plant ontogenetic stages may drive the evolution of distinct ontogenetic trajectories in growth–defence–reproduction strategies and include indirect interactions between herbivores and flower visitors.Synthesis. Plant ontogeny can define the direct and indirect consequences of herbivory. Our study shows that the ontogenetic stage of plant individuals determined the effects of herbivory on plant flowering traits, interactions with flower visitors and plant fitness. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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4. Deer Florivory Is Associated with Changes in Clonal Structure of the Woodland Plant Bluebead Lily.
- Author
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Palagi, Jason M. and Ashley, Mary V.
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FLORIVORES , *CLONAL variation (Plants) , *ANIMAL-plant relationships , *WHITE-tailed deer , *FOREST plants - Abstract
Premise of research. Many plant species balance resource allocation between sexual and asexual reproduction. Ecological factors that alter this balance can have important effects on plant populations. By eliminating flowers, floral herbivory (florivory) reduces sexual reproduction and consequently shifts reproductive allocation toward asexual reproduction. Over time, the clonal structure of the population may change. To investigate long-term effects of florivory, we characterized clonal structure in patches of the woodland herb Clintonia borealis (Liliaceae), or the bluebead lily. Methodology. A common understory species of North American boreal forests, bluebead lily is a favorite spring food of Odocoileus virginianus , or white-tailed deer. We sampled patches of bluebead lily located on islands in the Great Lakes, which either had or did not have white-tailed deer. Genotyping using newly developed microsatellite markers allowed clones to be identified. Pivotal results. The clonal structure, measured as the genet-to-ramet ratio (G∶N) of a patch, averaged 0.104 genets per ramet on islands with deer, compared with 0.458 genets per ramet on islands without deer. The difference was significant, based on a linear mixed effects model (Δ AICc = 3.94 , Akaike weight = 0.878), and the effect size, as measured by Cohen's d was 1.995. We also observed significantly lower clonal diversity and clonal evenness on islands with deer, which in turn could further limit sexual reproduction due to self-sterility or inbreeding. Conclusions. While the effects of white-tailed deer on plant community structure have been well documented, our results suggest that they may also have significant effects on the reproductive dynamics of individual plant species. [ABSTRACT FROM AUTHOR]
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- 2019
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5. Individual‐ and population‐level personalities in a floriphilic katydid.
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Tan, Ming Kai, Tan, Hugh Tiang Wah, and Herberstein, M.
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KATYDIDS , *FLORIVOROUS insects , *ANIMAL behavior , *FLORIVORES , *HABITATS - Abstract
Behaviour, including personality, informs us about the response of animals towards their changing environment. Despite the widespread occurrence of florivorous insects and the important but often underrated ecological roles that they play, the study of florivore behaviour is neglected relative to that of pollinators and other herbivores. Specifically, we do not know how different personality types can develop among florivores and enable them to persist in habitats with an ephemeral and dynamic availability of food resources. To address this knowledge gap, we investigated the following questions: whether the (a) inter‐individual differences of exploration and boldness are consistent; (b) inter‐population differences of exploration and boldness are consistent; (c) exploration and boldness are correlated. We collected individuals of the polyphagous floriphilic katydid, Phaneroptera brevis from four populations from wasteland sites in Singapore and performed a personality assay conducted in an insectary to investigate the exploratory and boldness levels of the individuals and populations. The major novel finding was that the floriphilic P. brevis katydids exhibit population‐level personality types for boldness, but not for exploration. Some katydid individuals were consistently more exploratory and bolder than other individuals. However, contrary to our predictions, we did not find any evidence of behavioural syndromes in the katydid individuals, as the boldness level for individuals was not significantly correlated with exploration for individuals. This suggests that an individual which is more exploratory may not be equally keen to take risks and consume novel food that it encounters. Our findings also suggest that boldness and exploration are linked to ecologically important behaviours, but more studies are needed to better understand population‐level personality and how and why natural selection may favour the evolution of personality in certain populations. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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6. The floriphilic katydid, Phaneroptera brevis, is a frequent flower visitor of non-native, flowering forbs.
- Author
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MING KAI TAN, HUI LEE, and HUGH TIANG WAH TAN
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KATYDIDS , *FORBS , *PHYTOGEOGRAPHY , *POLLINATION services (Commercial services) , *ARTHROPODA - Abstract
Distribution of consumers in a patch of vegetation can be predicted by resource availability and explained by the resource-concentration and optimal-foraging hypotheses. These hypotheses have not been explored for flower-visiting Orthoptera because they are deemed less economically or ecologically important. Some flower-visiting orthopterans can provide pollination services, which warrants more attention. We studied a Singaporean, floriphilic katydid, Phaneroptera brevis, to investigate the following questions: 1) how frequently does P. brevis visit flowers compared to other flower visitors and 2) what factors predict the abundance of P. brevis? We collected abundance data for P. brevis and other flower-visiting arthropods and quantified seven environmental parameters, including flower abundance and host-plant species richness. We found that P. brevis frequents flowers significantly more often than some common and expected flower visitors such as hoverflies. In line with the prediction of the resource-concentration hypothesis, the abundance of P. brevis was positively correlated with a higher flower abundance. Owing to the limited information on unexpected wild flower visitors and pollinators, especially from the understudied tropics of Southeast Asia, we propose that P. brevis can be a model organism for future studies to answer fundamental questions on flower visitation. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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7. Exploration of intermolecular interaction of calf thymus DNA with sulfosulfuron using multi-spectroscopic and molecular docking techniques.
- Author
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Shi, Jie-Hua, Lou, Yan-Yue, Zhou, Kai-Li, and Pan, Dong-Qi
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SULFOSULFURON , *METSULFURON-methyl , *FLUORINE compounds , *HERBIVORES , *FLORIVORES - Abstract
As a sulfonylurea herbicide, sulfosulfuron is extensively applied in controlling broad-leaves and weeds in agriculture. It may cause a potential risk for human and herbivores health due to its widely application and residue in crops and fruits. The study of the binding characteristics of calf thymus DNA (ct-DNA) with sulfosulfuron was performed through a series of spectroscopic techniques and computer simulation. The experimental results showed sulfosulfuron interacted with ct-DNA through the groove binding. The negative values of thermodynamic parameter (ΔH 0 , ΔS 0 and ΔG 0 ) revealed that the reaction of sulfosulfuron with DNA could proceed spontaneously, and the hydrogen bonding and van der Waals forces were essential to sulfosulfuron–ct-DNA binding, which was further verified by molecular docking study. Meanwhile, the electrostatic and hydrophobic interactions also played a supporting function for the interaction of sulfosulfuron with ct-DNA. The circular dichroism (CD) results exhibited a minor change in the secondary structure of ct-DNA during interaction process. Moreover, the conformation of sulfosulfuron had the obvious change after binding to DNA, which suggested that the flexibility of sulfosulfuron contributed to stabilizing the sulfosulfuron–ct-DNA complex. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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8. Asterid Ray Floret Traits Predict the Likelihood of Florivory by the Polyphagous Katydid, Phaneroptera brevis (Orthoptera: Phaneropterinae).
- Author
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Tan, Ming Kai and Tan, Hugh T W
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KATYDIDS ,POLLINATION by insects ,FLORIVORES - Abstract
Insect–flower visitation is crucial for many angiosperms because insects can facilitate pollination. Floral traits can attract pollinators so studying how they correlate with insect–flower visitation can elucidate how insects and plants interact and coevolve. However, there are few studies on how floral traits correlate with florivory. Not all floral traits that predict attractiveness of flowers to pollinators are applicable for florivory because they may not necessarily reflect the palatability of the flower parts. Leaf functional traits have been studied extensively to predict herbivory, but we are not aware of studies that adopt such leaf traits in florivory. We addressed these limitations by investigating the research questions: 1) How do floral traits differ among different species? 2) How do the floral traits predict the likelihood of florivory? We measured 10 floral traits, including adopting common leaf traits associated with herbivory (e.g. specific leaf area and leaf dry matter content), among three Asteraceae species: Bidens pilosa L. Sphagneticola trilobata (L.) Pruski, and Tridax procumbens L. We then performed the cafeteria assay using a polyphagous floriphilic katydid, Phaneroptera brevis (Serville 1838). We found that ray floret dry matter content correlates negatively with the likelihood of florivory of the asterid ray floret, whereas the total biomass of the ray floret correlates positively with the likelihood of florivory of the entire capitulum. The specific ray floret area also correlates nonlinearly with the likelihood of florivory of the asterid ray florets. We believe that these florivory traits can be applied to the flowers of other species. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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9. Consistent Between-Individual Differences in Foraging Performance in a Floriphilic Katydid in Response to Different Choices.
- Author
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Tan, Ming Kai, Goh, Fang Ni, and Tan, Hugh Tiang Wah
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INSECT-plant relationships ,KATYDIDS ,FLORIVORES ,LEAF morphology ,POLLINATORS - Abstract
The neural constraint hypothesis is one of the central ideas for the understanding of insect–plant interaction but there are still knowledge gaps in the data for foraging behavior and the performance of herbivores, and particularly florivores. We used a floriphilic katydid, Phaneroptera brevis (Serville, 1838) (Orthoptera: Tettigoniidae) and a naturalized weed, Bidens pilosa L. (Asteraceae) in caged experiments in an insectary to answer these questions: 1) How does the foraging performance of the floriphilic katydid vary when exposed to a choice in the number of capitula and types of florets of B. pilosa ? 2) Does the foraging performance of the katydid, when exposed to multiple choices, improve with time, and are between-individual differences in foraging performance consistent? We observed that having more choices in the floret types and number of capitula is generally associated with a reduced foraging performance of the katydids. Floret types and number of capitula, however, did not have an interactive effect on foraging performance. We also found that the differences in foraging performance in response to choice tend to be consistent between katydids but each katydid became more efficient and decisive over time. That learning and experience can improve the foraging performance of the katydid has provided us with some insights as to how a continuum of efficient and inefficient katydids can be maintained in a population. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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10. Water velocity limits the temporal extent of herbivore effects on aquatic plants in a lowland river.
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Wood, Kevin A., Stillman, Richard A., Clarke, Ralph T., Daunt, Francis, and O’Hare, Matthew T.
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HERBIVORES , *FLORIVORES , *AQUATIC plants , *AQUATIC organisms , *AQUATIC biology - Abstract
The role of herbivores in regulating aquatic plant dynamics has received growing recognition from researchers and managers. However, the evidence for herbivore impacts on aquatic plants is largely based on short-term exclosure studies conducted within a single plant growing season. Thus, it is unclear how long herbivore impacts on aquatic plant abundance can persist for. We addressed this knowledge gap by testing whether mute swan (
Cygnus olor ) grazing on lowland river macrophytes could be detected in the following growing season. Furthermore, we investigated the role of seasonal changes in water current speed in limiting the temporal extent of grazing. We found no relationship between swan biomass density in 1 year and aquatic plant cover or biomass in the following spring. No such carry-over effects were detected despite observing high swan biomass densities in the previous year from which we inferred grazing impacts on macrophytes. Seasonal increases in water velocity were associated with reduced grazing pressure as swans abandoned river habitat. Furthermore, our study highlights the role of seasonal changes in water velocity in determining the length of the mute swan grazing season in shallow lowland rivers and thus in limiting the temporal extent of herbivore impacts on aquatic plant abundance. [ABSTRACT FROM AUTHOR]- Published
- 2018
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11. Dealing with mutualists and antagonists: Specificity of plant‐mediated interactions between herbivores and flower visitors, and consequences for plant fitness.
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Rusman, Quint, Lucas‐Barbosa, Dani, and Poelman, Erik H.
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HERBIVORES , *BIOLOGICAL fitness of plants , *INSECT-plant relationships , *PLANT reproduction , *POLLINATORS - Abstract
Abstract: Plants need to deal with antagonists, such as herbivores, while maintaining interactions with mutualists, such as pollinators that help plants to maximize their reproductive output. Although many plant species have inducible defences to save metabolic costs of defence in the absence of herbivores, plant responses induced by herbivore attack can have ecological costs. For example, herbivore‐induced responses can affect flower traits and alter interactions with flower visitors. Such plant‐mediated interactions between herbivores and flower visitors can affect plant reproductive output. Current knowledge on the generality and specificity of plant‐mediated herbivore–flower–visitor interactions and its consequences for plant fitness is limited. In this study, we investigated whether a broad range of herbivores feeding on the annual plant
Brassica nigra affect interactions with flower visitors, whether the direction of interactions is predicted by the feeding modes (chewing and sap‐feeding) and sites (above‐ and belowground) of the herbivores, and whether it results in fitness consequences for the plant. Our results show that attack ofB. nigra by a range of different herbivores influenced plant interactions with mutualist pollinators and an antagonist florivore, the pollen beetleMeligethes aeneus . Pollinator community composition was affected by herbivory, whereas overall pollinator attraction was maintained. Pollinator community composition of uninfested plants differed from that of chewing and root herbivore‐infested plants. Main responders in the pollinator communities to changes induced by herbivory were syrphid flies, bumblebees, and solitary bees. Although the preference of pollen beetle adults was not affected by herbivory, beetle larvae performed best on plants infested with the nematodeHeterodera schachtii . The changes in pollinator community composition and syrphid fly visitation can explain the observed increase in seed set of root herbivore‐infested plants. Interactions of floweringB. nigra plants with mutualist and antagonist insects are well integrated and conflicting interactions do not reduce reproductive output. Our results suggest some degree of specificity in herbivore–flower–visitor interactions with consequences for plant fitness. Specificity of plant responses were determined at the species level as well as the herbivore functional group level, and differed depending on the flower visitor. Because plant reproduction was affected by indirect plant‐mediated interactions, these can potentially result in selection on plant strategies to optimize growth, defence and reproduction. A plain language summary is available for this article. [ABSTRACT FROM AUTHOR]- Published
- 2018
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12. Jasmonate signaling makes flowers attractive to pollinators and repellant to florivores in natureFA.
- Author
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Ran Li, Schuman, Meredith C., Yang Wang, Llorca, Lucas Cortés, Bing, Julia, Bennion, Anne, Halitschke, Rayko, and Baldwin, Ian T.
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JASMONATE , *FLOWERS , *POLLINATORS , *FLORIVORES , *NECTAR - Abstract
Flowers are required for the Darwinian fitness of flowering plants, but flowers' advertisements for pollination services can attract florivores. Previous glasshouse work with Nicotiana attenuata revealed the role of jasmonate (JA) signaling in flower development, advertisement and defense. However, whether JA signaling mediates flowers' filtering of floral visitors in nature remained unknown. This field study revealed that silencing JA signaling resulted in flowers that produce less nectar and benzyl acetone, two pollinatorattractive traits. Meanwhile, flowers of defenseless plants were highly attacked by a suite of native herbivores, and damage to buds in native plants correlated negatively with their JA-Ile levels. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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13. Jasmonate signaling makes flowers attractive to pollinators and repellant to florivores in natureFA.
- Author
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Ran Li, Schuman, Meredith C., Yang Wang, Llorca, Lucas Cortés, Bing, Julia, Bennion, Anne, Halitschke, Rayko, and Baldwin, Ian T.
- Subjects
JASMONATE ,FLOWERS ,POLLINATORS ,FLORIVORES ,NECTAR - Abstract
Flowers are required for the Darwinian fitness of flowering plants, but flowers' advertisements for pollination services can attract florivores. Previous glasshouse work with Nicotiana attenuata revealed the role of jasmonate (JA) signaling in flower development, advertisement and defense. However, whether JA signaling mediates flowers' filtering of floral visitors in nature remained unknown. This field study revealed that silencing JA signaling resulted in flowers that produce less nectar and benzyl acetone, two pollinatorattractive traits. Meanwhile, flowers of defenseless plants were highly attacked by a suite of native herbivores, and damage to buds in native plants correlated negatively with their JA-Ile levels. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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14. Pollinators shift to nectar robbers when florivory occurs, with effects on reproductive success in Iris bulleyana (Iridaceae).
- Author
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Ye, Z.‐M., Jin, X.‐F., Wang, Q.‐F., Yang, C.‐F., Inouye, D. W., and Dafni, A.
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POLLINATORS , *NECTAR , *IRIDACEAE , *PLANT reproduction , *FLORIVORES , *BUMBLEBEES - Abstract
Studies have indicated that florivory and nectar robbing may reduce reproductive success of host plants. However, whether and how these effects might interact when plants are simultaneously attacked by both florivores and nectar robbers still needs further investigation., We used Iris bulleyana to detect the interactions among florivory, nectar robbing and pollination, and moreover, their effects on plant reproductive success. Field investigations and hand-pollination treatments were conducted on two experimental plots from a natural population, in which Experimental plot was protected from florivores and Control plot was not manipulated., The flower calyx was bitten by sawflies to consume the nectary, and three bumblebee species were pollinators. In addition, the short-tongued pollinator, Bombus friseanus, was the only robber when there was a hole made by a sawfly. The bumblebee had significantly shortened flower handling time when robbing, as compared to legitimate visits. Pollinator visitation and seed production decreased significantly in damaged flowers. However, seed production per flower after supplementary hand-pollination did not differ significantly between damaged and undamaged flowers. Compared to the Experimental plot, bumblebees visited fewer flowers per plant in a foraging bout in the Control plot., The flowers damaged by florivory allowed B. friseanus to shift to a nectar robber. Florivory and nectar robbing collectively decreased plant reproductive success by consuming nectar resources, which may reduce attractiveness to pollinators of the damaged flowers. However, the changes in pollinator behaviour might be beneficial to the plant by reducing the risk of geitonogamous mating. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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15. Recurved Taraxacum phyllaries function as a floral defense: experimental evidence and its implication for Taraxacum evolutionary history.
- Author
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Wu, Fu-Yu and Yahara, Tetsukazu
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COMMON dandelion , *BIOLOGICAL evolution , *FLORIVORES , *INTRODUCED species - Abstract
Florivores directly decrease the reproductive success of plants by consuming pollen and seeds; thus, plants often have defense mechanisms against florivory. Here, we show that the recurved phyllaries of an agamospermous hybrid dandelion, Taraxacum japonicum × officinale, function as a physical barrier to slug florivory. We allowed Lehmannia valentiana, a European slug naturalized in Japan, to feed on eight pairs of the hybrid dandelion and T. japonicum, a Japanese species with erect phyllaries. Consequently, the slugs only damaged T. platycarpum flowers. The slugs either moved back from recurved phyllaries or spent more than twice as long on recurved than on erect phyllaries. When we removed the recurved phyllaries, the slugs stayed on hybrid and T. japonicum phyllaries for equal lengths of time. In addition to recurved outer phyllaries, the hybrid dandelion has erect inner phyllaries that are longer than those of T. japonicum, which effectively conceal the florets at night protecting them from slug florivory. Using the taxonomic literature, we have confirmed that recurved phyllaries evolved in many species in several parts of Europe, but are rare in East Asia. These findings suggest that European dandelions acquired recurved phyllaries as a defense mechanism under antagonistic coevolution with florivorous slugs, but this coevolution did not occur in East Asia. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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16. Community-wide impacts of early season herbivory on flower visitors on tall goldenrod.
- Author
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IKEMOTO, MITO, IDA, TAKASHI Y., UTSUMI, SHUNSUKE, and OHGUSHI, TAKAYUKI
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GOLDENRODS , *POLLINATORS , *VEGETATION & climate , *PLANT classification , *FLORIVORES - Abstract
1. The flower visitor community consists not only of pollinators but also of non-pollinators, such as florivores, thieves and predators that attack flower visitors. Although there is increasing evidence that early-season foliar herbivory influences pollinator visitation through changes in floral traits, few studies have explored indirect effects of foliar herbivory on community structure of the flower visitors. We examined how early-season foliar herbivory influences the flower visitor community established in late season. 2. We conducted an inoculation experiment using a lacebug ( Corythucha marmorata), which is a predominantly herbivorous insect attacking leaves of tall goldenrod ( Solidago altissima) in Japan. 3. Flower abundance significantly decreased when damaged by the lacebug. The numbers of pollinators, florivores and thieves were positively correlated with flower abundance, whereas predators were not. In response to flower abundance, florivores decreased on damaged plants. On the other hand, thieves increased on damaged plants, and pollinators and predators did not differ between damaged and undamaged plants. 4. When effects of flower abundance were excluded, foliar herbivory still influenced florivores negatively and thieves positively. This implies that factors besides flower abundance may have affected the numbers of florivores and thieves. 5. Community composition of flower visitors on damaged plants significantly differed from undamaged plants, although overall abundance, taxonomic richness and taxonomic evenness were unaffected by foliar herbivory in the early season. It is important to recognise that only evaluating species diversity and overall abundance may fail to detect the significant consequence of early-season herbivory on the flower visitor community. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
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17. Between florivory and herbivory: inefficacy of decision-making by generalist floriphilic katydids.
- Author
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TAN, MING KAI and TAN, HUGH TIANG WAH
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INSECT communities , *HERBIVORES , *FLORIVORES , *KATYDIDS , *INSECT ecology , *BIOLOGICAL fitness of insects - Abstract
1. Florivory, which is less studied but as equally widespread as herbivory, can have effects on plant and floral trait adaptations, individual fitness, and community interactions. However, there are still knowledge gaps in our understanding of florivory, including the role of neural constraints and diet specialisation of florivores in floral resource utilisation. 2. According to the neural constraint hypothesis, a generalist flower-visiting katydid is expected to have lower decision-making efficacy in feeding when subjected to the presence of both capitula and leaves, compared to the presence of either one of the two resources. 3. In the present study, experiments using the katydid, Phaneroptera brevis, and the plant, whiteweed, Ageratum conyzoides, were carried out to examine the foraging behaviour of the katydid to test our hypothesis. The results confirmed the prediction of the neural constraint hypothesis. 4. The decision-making efficacy was generally lowered when the katydid was presented with the choice for both the resource that is preferred (capitula) and less preferred (leaves). It was also shown that Phaneroptera brevis is floriphilic, as it prefers capitula to leaves. 5. In conclusion, the first evidence of neural constraint in florivory is provided and suggests that more can be explored into the effects of neural constraints and diet specialisation in floral resource utilisation. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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18. The dilemma of being a fragrant flower: the major floral volatile attracts pollinators and florivores in the euglossine-pollinated orchid Dichaea pendula.
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Nunes, Carlos, Peñaflor, Maria, Bento, José, Salvador, Marcos, and Sazima, Marlies
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VOLATILE organic compounds , *ANIMAL-plant relationships , *ANGIOSPERMS , *POLLINATION , *POLLINATORS , *FLORIVORES - Abstract
Volatile organic compounds (VOCs) mediate both mutualistic and antagonistic plant-animal interactions; thus, the attraction of mutualists and antagonists by floral VOCs constitutes an important trade-off in the evolutionary ecology of angiosperms. Here, we evaluate the role of VOCs in mediating communication between the plant and its mutualist and antagonist floral visitors. To assess the evolutionary consequences of VOC-mediated signalling to distinct floral visitors, we studied the reproductive ecology of Dichaea pendula, assessing the effects of florivores on fruit set, the pollination efficiency of pollinators and florivores, the floral scent composition and the attractiveness of the major VOC to pollinators and florivores. The orchid depends entirely on orchid-bees for sexual reproduction, and the major florivores, the weevils, feed on corollas causing self-pollination, triggering abortion of 26.4 % of the flowers. Floral scent was composed of approximately 99 % 2-methoxy-4-vinylphenol, an unusual floral VOC attractive to pollinators and florivores. The low fruit set from natural pollination (5.6 %) compared to hand cross-pollination (45.5 %) and low level of pollinator visitation [0.02 visits (flower hour)] represent the limitations to pollination. Our research found that 2-methoxy-4-vinylphenol mediates both mutualistic and antagonistic interactions, which could result in contrary evolutionary pressures on novo-emission. The scarcity of pollinators, not florivory, was the major constraint to fruit set. Our results suggest that, rather than anti-florivory adaptations, adaptations to enhance pollinator attraction and cross-pollination might be the primary drivers of the evolution of VOC emission in euglossine-pollinated flowers. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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19. Vertebrate florivory on the short-columnar cactus Echinopsis rhodotricha K. Schum. in the Brazilian Chaco.
- Author
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Gomes, Vanessa, Koroiva, Ricardo, and Araujo, Andréa
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CACTUS ,MAZAMA americana ,COLLARED peccary ,FLORIVORES ,FLOWERS ,FRUIT - Abstract
Florivory can negatively affect the reproductive success of plants through its effects on fruit set. We report flower consumption of Echinopsis rhodotricha by Mazama americana and Pecari tajacu in the Brazilian Chaco. In order to evaluate the effects of florivory on the reproductive success of E. rhodotricha, we quantified and compared the fruit set between damaged and undamaged flowers in a natural population of this cactus. We recorded 21 damaged flowers in the year 2015 and 43 in 2016. Florivores consumed the whole flowers and therefore no fruits developed. The result of this study indicates that florivory decreases the fruit set in the studied population, both directly by damaging the reproductive organs and indirectly through the reduction of floral attractiveness and rewards for pollinators. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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20. Plant size affects mutualistic and antagonistic interactions and reproductive success across 21 Brassicaceae species.
- Author
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Schlinkert, Hella, Westphal, Catrin, Clough, Yann, Grass, Ingo, Helmerichs, Juliane, and Tscharntke, Teja
- Subjects
PLANT size ,BRASSICACEAE ,POLLINATORS ,FLORIVORES ,ECOSYSTEM management ,REPRODUCTION ,BEHAVIOR - Abstract
Plant size has been hypothesized to be a major driver of biotic interactions. However, it is little understood how plant size affects plant mutualists vs. antagonists and the plant's resulting reproductive success. We established a common garden experiment covering an interspecific plant size gradient (from 10 to 130 cm height) across 21 annual Brassicaceae species, thereby standardizing features of habitat and surrounding landscape. We assessed flower-visiting pollinators and florivores (pollen beetle adults and larvae) and the resulting effects of all these flower-visiting insects on plant reproductive success. Besides flower characteristics (size, abundance, color), plant size had a generally positive effect on abundance and species richness of pollinators as well as on abundance of pollen beetle adults and larvae. Pollen beetles reduced seed number as well as thousand-seed weight, whereas pollinators increased seed number only. Overall, increasing plant size led to less thousand-seed weight but had no effect on seed number, indicating counterbalancing effects of herbivory and pollination. In conclusion, seed number of large plant species should benefit from locations with many pollinators and few herbivores and small plant species' seed number from locations with few pollinators and many herbivores. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
21. Florivory shapes both leaf and floral interactions
- Author
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Nicole L. Soper Gorden and Lynn S. Adler
- Subjects
anthocyanins ,condensed tannins ,floral chemical defense ,florivores ,flower spiders ,Impatiens capensis ,Ecology ,QH540-549.5 - Abstract
Abstract Florivory, or the consumption of flowers, is a ubiquitous interaction that can reduce plant reproduction directly by damaging reproductive tissues and indirectly by deterring pollinators. However, we know surprisingly little about how florivory alters plant traits or the larger community of species interactions. Although leaf damage is known to affect floral traits and interactions in many systems, the consequences of floral damage for leaf traits and interactions are unknown. We manipulated floral damage in Impatiens capensis and measured effects on floral attractive traits and secondary chemicals, leaf secondary chemicals, floral interactions, leaf herbivory, and plant reproduction. We also examined relationships between early season floral traits and floral interactions, to explore which traits structure floral interactions. Moderate but not high florivory significantly increased relative selfed reproduction, leading to a shift in mating system away from outcrossing. Florivory increased leaf secondary compounds and decreased leaf herbivory, although mechanisms other than leaf chemistry may be responsible for some of the reduced leaf damage. Florivory altered four of seven measured interactions, including increased subsequent florivory and reduced flower spiders, although only leaf damage effects were significant after correcting for multiple tests. Pretreatment concentrations of floral anthocyanins and condensed tannins were associated with reduced levels of many floral antagonisms, including florivory, nectar larceny, and flower spider abundance, suggesting these traits play a role in floral resistance. Overall, our results indicate a broad range of community and potential evolutionary consequences of florivory through structuring subsequent floral interactions, altering leaf secondary chemicals, and shaping leaf herbivory.
- Published
- 2016
- Full Text
- View/download PDF
22. Plant ontogeny determines strength and associated plant fitness consequences of plant‐mediated interactions between herbivores and flower visitors
- Author
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Quint Rusman, Dani Lucas-Barbosa, Kamrul Hassan, and Erik H. Poelman
- Subjects
0106 biological sciences ,plant defence ,media_common.quotation_subject ,florivores ,herbivore‐induced plant responses ,indirect interactions ,ontogenetic trajectories ,ontogenetic variation ,plant reproduction ,pollinators ,Plant Science ,Insect ,Biology ,010603 evolutionary biology ,01 natural sciences ,Plant reproduction ,Pollinator ,herbivore-induced plant responses ,Botany ,Laboratory of Entomology ,Ecology, Evolution, Behavior and Systematics ,media_common ,2. Zero hunger ,Aphid ,Herbivore ,Pieris brassicae ,Ecology ,fungi ,food and beverages ,15. Life on land ,Laboratorium voor Entomologie ,biology.organism_classification ,Brevicoryne brassicae ,Evolutionary Ecology ,Pollen beetle ,EPS ,010606 plant biology & botany ,Research Article - Abstract
Plants show ontogenetic variation in growth–defence strategies to maximize reproductive output within a community context. Most work on plant ontogenetic variation in growth–defence trade‐offs has focussed on interactions with antagonistic insect herbivores. Plants respond to herbivore attack with phenotypic changes. Despite the knowledge that plant responses to herbivory affect plant mutualistic interactions with pollinators required for reproduction, indirect interactions between herbivores and pollinators have not been included in the evaluation of how ontogenetic growth–defence trajectories affect plant fitness.In a common garden experiment with the annual Brassica nigra, we investigated whether exposure to various herbivore species on different plant ontogenetic stages (vegetative, bud or flowering stage) affects plant flowering traits, interactions with flower visitors and results in fitness consequences for the plant.Effects of herbivory on flowering plant traits and interactions with flower visitors depended on plant ontogeny. Plant exposure in the vegetative stage to the caterpillar Pieris brassicae and aphid Brevicoryne brassicae led to reduced flowering time and flower production, and resulted in reduced pollinator attraction, pollen beetle colonization, total seed production and seed weight. When plants had buds, infestation by most herbivore species tested reduced flower production and pollen beetle colonization. Pollinator attraction was either increased or reduced. Plants infested in the flowering stage with P. brassicae or Lipaphis erysimi flowered longer, while infestation by any of the herbivore species tested increased the number of flower visits by pollinators.Our results show that the outcome of herbivore–flower visitor interactions in B. nigra is specific for the combination of herbivore species and plant ontogenetic stage. Consequences of herbivory for flowering traits and reproductive output were strongest when plants were attacked early in life. Such differences in selection pressures imposed by herbivores to specific plant ontogenetic stages may drive the evolution of distinct ontogenetic trajectories in growth–defence–reproduction strategies and include indirect interactions between herbivores and flower visitors. Synthesis. Plant ontogeny can define the direct and indirect consequences of herbivory. Our study shows that the ontogenetic stage of plant individuals determined the effects of herbivory on plant flowering traits, interactions with flower visitors and plant fitness., Plants show ontogenetic variation in growth–defence strategies to maximize reproductive output within a community context. Our study shows that the ontogenetic stage of plant individuals determined the effects of herbivory on plant flowering traits, interactions with flower visitors and plant fitness. Hence, studies on plant evolution need to consider ecologically relevant timing of herbivory.
- Published
- 2020
23. Are cattle surrogate wildlife? Savanna plant community composition explained by total herbivory more than herbivore type.
- Author
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Veblen, Kari E., Porensky, Lauren M., Riginos, Corinna, and Young, Truman P.
- Subjects
HERBIVORES ,FLORIVORES ,LIVESTOCK inspection ,POULTRY inspection ,LIVESTOCK - Abstract
The widespread replacement of wild ungulate herbivores by domestic livestock in African savannas is composed of two interrelated phenomena: (1) loss or reduction in numbers of individual wildlife species or guilds and (2) addition of livestock to the system. Each can have important implications for plant community dynamics. Yet very few studies have experimentally addressed the individual, combined, and potentially interactive effects of wild vs. domestic herbivore species on herbaceous plant communities within a single system. Additionally, there is little information about whether, and in which contexts, livestock might functionally replace native herbivore wildlife or, alternatively, have fundamentally different effects on plant species composition. The Kenya Long-term Exclosure Experiment, which has been running since 1995, is composed of six treatment combinations of mega-herbivores, meso-herbivore ungulate wildlife, and cattle. We sampled herbaceous vegetation 25 times between 1999 and 2013. We used partial redundancy analysis and linear mixed models to assess effects of herbivore treatments on overall plant community composition and key plant species. Plant communities in the six different herbivore treatments shifted directionally over time and diverged from each other substantially by 2013. Plant community composition was strongly related ( R
2 = 0.92) to residual plant biomass, a measure of herbivore utilization. Addition of any single herbivore type (cattle, wildlife, or mega-herbivores) caused a shift in plant community composition that was proportional to its removal of plant biomass. These results suggest that overall herbivory pressure, rather than herbivore type or complex interactions among different herbivore types, was the main driver of changes in plant community composition. Individual plant species, however, did respond most strongly to either wild ungulates or cattle. Although these results suggest considerable functional similarity between a suite of native wild herbivores (which included grazers, browsers, and mixed feeders) and cattle (mostly grazers) with respect to understory plant community composition, responses of individual plant species demonstrate that at the plant-population-level impacts of a single livestock species are not functionally identical to those of a diverse group of native herbivores. [ABSTRACT FROM AUTHOR]- Published
- 2016
- Full Text
- View/download PDF
24. Geographic consistency and variation in conflicting selection generated by pollinators and seed predators.
- Author
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Shi-Guo Sun, Armbruster, W. Scott, and Shuang-Quan Huang
- Subjects
- *
POLLINATION , *FLOWERS , *GRANIVORES , *FLORIVORES , *SEED production (Botany) , *COROLLA (Botany) , *PLANT variation - Abstract
Backgrounds and Aims Floral traits that attract pollinators may also attract seed predators, which, in turn, may generate conflicting natural selection on such traits. Although such selection trade-offs are expected to vary geographically, few studies have investigated selection mediated by pollinators and seed predators across a geographic mosaic of environments and floral variation. Methods Floral traits were investigated in 14 populations of the bumble-bee-pollinated herb, Pedicularis rex, in which tubular flowers are subtended by cupular bracts holding rain water. To study potentially conflicting selection on floral traits generated by pollinators and florivores, stigmatic pollen loads, initial seed set, pre-dispersal seed predation and final viable seed production were measured in 12-14 populations in the field. Key Results Generalized Linear Model (GLM) analyses indicated that the pollen load on stigmas was positively related to the exsertion of the corolla beyond the cupular bracts and size of the lower corolla lip, but so too was the rate of seed predation, creating conflicting selection on both floral traits. A geographic mosaic of selection mediated by seed predators, but not pollinators, was indicated by significant variation in levels of seed predation and the inclusion of two-, three- and four-way interaction terms between population and seed predation in the best model [lowest corrected Akaike Information Criterion (AICc)] explaining final seed production. Conclusions These results indicate opposing selection in operation: pollinators generated selection for greater floral exsertion beyond the bracts, but seed predators generated selection for reduced exsertion above the protective pools of water, although the strength of the latter varied across populations. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
25. Florivory shapes both leaf and floral interactions.
- Author
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Soper Gorden, Nicole L. and Adler, Lynn S.
- Subjects
FLORIVORES ,INSECT-plant relationships ,LEAVES ,PLANT reproduction ,INSECT pollinators - Abstract
Florivory, or the consumption of flowers, is a ubiquitous interaction that can reduce plant reproduction directly by damaging reproductive tissues and indirectly by deterring pollinators. However, we know surprisingly little about how florivory alters plant traits or the larger community of species interactions. Although leaf damage is known to affect floral traits and interactions in many systems, the consequences of floral damage for leaf traits and interactions are unknown. We manipulated floral damage in Impatiens capensis and measured effects on floral attractive traits and secondary chemicals, leaf secondary chemicals, floral interactions, leaf herbivory, and plant reproduction. We also examined relationships between early season floral traits and floral interactions, to explore which traits structure floral interactions. Moderate but not high florivory significantly increased relative selfed reproduction, leading to a shift in mating system away from outcrossing. Florivory increased leaf secondary compounds and decreased leaf herbivory, although mechanisms other than leaf chemistry may be responsible for some of the reduced leaf damage. Florivory altered four of seven measured interactions, including increased subsequent florivory and reduced flower spiders, although only leaf damage effects were significant after correcting for multiple tests. Pretreatment concentrations of floral anthocyanins and condensed tannins were associated with reduced levels of many floral antagonisms, including florivory, nectar larceny, and flower spider abundance, suggesting these traits play a role in floral resistance. Overall, our results indicate a broad range of community and potential evolutionary consequences of florivory through structuring subsequent floral interactions, altering leaf secondary chemicals, and shaping leaf herbivory. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
26. The populations and distribution of Pieris japonica, a poisonous tree protected from herbivore browsing pressure, increase slowly but steadily.
- Author
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Kurokochi, Hiroyuki and Chunlan, Lian
- Subjects
HERBIVORES ,ANIMALS ,FLORIVORES ,ASEXUAL reproduction ,REPRODUCTION - Abstract
Pieris japonica is a poisonous tree species that is rarely eaten by herbivorous animals, a fact that could enable the expansion of its distribution range and influence ecosystems into which it encroaches. In a regional-scale study, 300 P. japonica trees from 13 populations were sampled at the University of Tokyo Chichibu Forest, Japan, and were analyzed using 11 microsatellite markers. Genetic differentiation among the populations was low ( F = 0.022 and G′ = 0.024). A plot (30 × 30 m) was established for a fine-scale study, in which all P. japonica trees and saplings were measured and genetically analyzed using the microsatellite markers. Using this approach, we detected 84 genotypes among the 121 P. japonica trees in the plot. A few genotypes had expanded by more than 5 m, indicating that the ability to reproduce asexually could facilitate P. japonica trees to remain in a given location. Autocorrelation analysis showed that the extent of nonrandom spatial genetic structure was approximately 7.0 m, suggesting that seed dispersal was limited. KINGROUP analyses showed that 44 genotype pairs were full siblings, 23 were half-siblings, and 40 were parent-offspring. Only 32 seedlings were observed, of which 15 had reproduced asexually. The number of P. japonica trees has been increasing gradually for more than half a century in our study areas. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
27. Florivory as an Opportunity Benefit of Aposematism.
- Author
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Higginson, Andrew D., Speed, Michael P., Ruxton, Graeme D., Harder, Lawrence D., and Kalisz, Susan
- Subjects
- *
PREDATION , *HERBIVORES , *PROTECTIVE coloration (Biology) , *FLORIVORES , *APOSEMATISM , *ANIMAL behavior - Abstract
Inconspicuous prey pay a cost of reduced feeding opportunities. Flowers are highly nutritious but are positioned where prey would be apparent to predators and often contain toxins to reduce consumption. However, many herbivores are specialized to subvert these defenses by retaining toxins for their own use. Here, we present a model of the growth and life history of a small herbivore that can feed on leaves or flowers during its development and can change its primary defense against visual predators between crypsis and warning coloration. When herbivores can retain plant toxins, their fitness is greatly increased when they are aposematic and can consume flowers. Thus, toxin sequestration leading to aposematism may enable a significant opportunity benefit for florivory. Florivory by cryptic herbivores is predicted when toxins are very potent but are at high concentration only in flowers and not in leaves. Herbivores should usually switch to eating flowers only when large and in most conditions should switch simultaneously from crypsis to aposematism. Our results suggest that florivory should be widespread in later instars of small aposematic herbivores and should be associated with ontogenic color change. Florivory is likely to play an underappreciated role in herbivorous insect life histories and host plant reproductive success. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
28. A Mutual Relationship Between Synema globosum (Thomisidae) and Erophaca baetica (Iberian Milk-vetch)?
- Author
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Canterbury, Tristan J.
- Subjects
- *
CRAB spiders , *FLORIVORES - Abstract
A personal narrative is presented which explores the author's experience of investigating the effects of crab spiders as predators of florivores.
- Published
- 2019
29. Hotspots of damage by antagonists shape the spatial structure of plant-pollinator interactions.
- Author
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Rodríguez-Rodríguez, María C., Jordano, Pedro, and Valido, Alfredo
- Subjects
- *
ANIMAL-plant relationships , *POLLINATION by animals , *NECTAR , *FLORIVORES , *MUTUALISM (Biology) , *PLANT reproduction , *POLLINATION by birds - Abstract
The balance between mutualistic and antagonistic plant-animal interactions and their spatial variation results in a highly dynamic mosaic of reproductive success within plant populations. Yet, the ecological drivers of this small-scale heterogeneity of interaction patterns and their outcomes remain virtually unexplored. We analyzed spatial structure in the frequency and intensity of interactions that vertebrate pollinators (birds and lizards) and invertebrate antagonists (florivores, nectar larcenists, and seed predators) had when interacting with the insular plant Isoplexis canariensis, and their effect on plant fitness. Spatially autocorrelated variation in plant reproductive success (fruit and viable seed set) emerged from the combined action of mutualists and antagonists, rather than reflecting the spatial pattern of any specific animal group. However, the influence of antagonists on plant fitness was stronger primarily due to the florivores' action on earlier reproductive stages, consuming and damaging floral structures before the arrival of pollinators. Our results indicate that the early action of antagonists creates hotspots of increased plant damage, where the effects of later acting mutualists are not translated into increased reproductive benefits. We foresee the potential for antagonists to shape the intra-population mosaics of plant fitness in situations where antagonists outnumber mutualists, when their interactions occur before those of mutualists, and when mutualists can detect and avoid damaged plants while foraging. Severely damaged plants in antagonistic hotspots might be excluded from the mating network and render a limited production of viable seeds, reducing both the growth rate of the plant population and the effective population size. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
30. RELATION BETWEEN FLOWER HEAD TRAITS AND FLORIVORY IN ASTERACEAE: A PHYLOGENETICALLY CONTROLLED APPROACH.
- Author
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Oguro, Michio and Sakai, Satoki
- Subjects
- *
LEAVES , *FLOWERS , *FLORIVORES , *PHYLOGENY , *PLANT species - Abstract
* Premise of the study: While much research has examined the relation between leaf traits and herbivory, very little is known about the interaction between floral traits, particularly biochemical traits, and florivory. We investigated patterns between floral traits and florivory across multiple species using phylogenetic comparative approaches to enhance our understanding of the evolution of plant-florivore interactions. * Methods: The relation between the intensity of florivory and five biochemical traits (concentrations of carbon, nitrogen, phosphorus, water, and total phenolics) and two morphological traits (diameter and number of flower heads) were investigated in wild individuals of 18 native species of Asteraceae. The phylogenetic signals in the morphological traits and intensity of florivory were also tested. * Key results: We found that species with higher nitrogen, water, and total phenolics and lower phosphorus concentrations in the flower heads and species with a large number and diameter of flower heads tended to be attacked by florivores. In addition, we found significant phylogenetic signals in florivory and morphological traits. * Conclusions: Our results clearly show that biochemical traits also play important roles in plant-florivore interactions, as previously shown in plant-leaf herbivore interactions. The positive relationship between florivory and total phenolics implies that phenolic compounds in flower heads may not act as a defense in the species. In addition, the observed pattern of signals in florivory might not be solely explained by the signals of the measured traits and other plant traits may also play significant roles in plant-florivore interaction in these species. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
31. Global effects of land use intensity on the impoverishment of insect herbivore assemblages.
- Author
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Araújo, Walter, Tscharntke, Teja, and Almeida-Neto, Mário
- Subjects
LAND use ,ENVIRONMENTAL protection ,HERBIVORES ,FRUGIVORES ,FLORIVORES - Abstract
The modification of pristine wildlife habitats by land use is a worldwide cause of species extinction, as most native species cannot persist at high levels of human land use intensity. In this study, we gathered 90 lists of local interactions between herbivorous insects and their host plants to investigate the effects of land use intensity on the species richness and taxonomic diversity of insect herbivore assemblages. The effect of land use intensity on these insect herbivore assemblages was assessed using path analysis that controlled for differences in host plant richness, sampling effort, and the taxonomic range of plants and herbivores. We included the proportion of exotic host plant species in the path models to evaluate the extent to which the effect of land use intensity is mediated by the replacement of native with exotic host plants. Overall, we found negative effects of land use intensity on the species richness and taxonomic diversity of the insect herbivore assemblages, and these effects were mediated by an increase in the proportion of exotic host plant species. Since the effect of host plant richness was controlled for, our findings imply that the impoverishment of insect herbivore assemblages due to human land use is even greater than the loss of their host plant. A likely implication of such reduction in the species richness and taxonomic diversity of the insect herbivore assemblages is the accelerated loss of specialized plant-herbivore interactions, thus favoring interactions among generalist species and the biotic homogenization of species interactions across human-disturbed habitats. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
32. Different host plant utilization ability of two closely related Melitaea species (Lepidoptera: Nymphalidae).
- Author
-
TÓTH, JÁNOS P., BERECZKI, JUDIT, VÉGVARI, ZSOLT, JUHÁSZ, EDIT, and VARGA, ZOLTÁN
- Subjects
- *
LEPIDOPTERA , *NYMPHALIDAE , *CIRSIUM , *HERBIVORES , *FLORIVORES - Abstract
In natural system plant-insect interaction are influenced by several factors. For instance plants could be characterized by the presence of defensive chemicals and herbivores are forced to evolve resistance against them. There are several studies on induced plant defence, which indicate it can mediate competition between herbivorous insects, shaping host plant choice and community structure. Therefore, realized host plant use can be much narrower than the potential one. A laboratory experiment was done to clear up the possible difference in host plant utilization ability of Melitaea phoebe and Melitaea ornata, especially their utilization of Cirsium pannonicum. The caterpillars were reared individually on three different species of host plant (Ci. pannonicum, Ci. arvense and Centaurea scabiosa). The weights of the larvae were measured every second day and the data analysed using ANOVA. M. phoebe caterpillars developed well and all pupated when fed on Cirsium arvense and Centaurea scabiosa, whereas those fed on Cirsium pannonicum developed poorly and 10% died. In contrast, M. ornata developed well on Ci. pannonicum and the other two host plants. Despite this M. ornata was only found on Ci. pannonicum in Hungary. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
33. Are breeding system and florivory associated with the abundance of Tillandsia species ( Bromeliaceae)?
- Author
-
Orozco-Ibarrola, Octavio A., Flores-Hernández, Perla S., Victoriano-Romero, Elizabeth, Corona-López, Angélica María, and Flores-Palacios, Alejandro
- Subjects
- *
PLANT breeding , *FLORIVORES , *BROMELIACEAE , *TILLANDSIA , *PLANT species , *ANGIOSPERMS , *PLANT phenology - Abstract
Plant species abundance is partly determined by reproductive success and the factors that limit this success. We studied the flowering phenology, breeding systems and florivory in a community of seven epiphytic Tillandsia spp. in a tropical dry forest in central Mexico. Flowering periods were distributed throughout the year, and corolla sizes suggested that most species share pollinators. The most common breeding system was self-incompatibility ( Tillandsia achyrostachys, T. caput-medusae and T. hubertiana), T. lydiae was infertile, T. circinnatioides was partially self-compatible and T. recurvata and T. schiedeana were self-compatible with high autonomous self-pollination. Floral morphology suggests that delayed selfing occurs in the autonomous self-pollinated species, and separation between stigma and stamens could result in self-pollination in the remaining species being avoided. Less than 5% of the inflorescences in the most abundant species ( T. recurvata) suffered damage by florivores, but > 40% of inflorescences were damaged in the other species. In damaged inflorescences, fruit set decreased by up to 89%. Our data show that the dominant species ( T. recurvata) is autogamous and its reproductive success is slightly reduced by resource constraints and florivory. In the less abundant species, resource limitation and florivory dramatically reduced reproductive success, but the strength of these limiting factors is season dependent. © 2014 The Linnean Society of London, Botanical Journal of the Linnean Society, 2015, 177, 50-65. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
34. Evolution of tolerance in an invasive weed after reassociation with its specialist herbivore.
- Author
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Jogesh, T., Stanley, M. C., and Berenbaum, M. R.
- Subjects
- *
PARSNIP , *BIOLOGICAL weed control , *PLANT evolution , *FLORIVORES , *PHENOTYPES , *POLLINATION , *INTRODUCED species - Abstract
The interaction between the European wild parsnip Pastinaca sativa and its coevolved florivore the parsnip webworm Depressaria pastinacella, established in North America for over 150 years, has resulted in evolution of local chemical phenotype matching. The recent invasion of New Zealand by webworms, exposing parsnips there to florivore selection for the first time, provided an opportunity to assess rates of adaptive response in a real-time experiment. We planted reciprocal common gardens in the USA and NZ with seeds from (1) US populations with a long history of webworm association; (2) NZ populations that had never been infested and (3) NZ populations infested for 3 years (since 2007) or 6 years (since 2004). We measured impacts of florivory on realized fitness, reproductive effort and pollination success and measured phenotypic changes in infested NZ populations relative to uninfested NZ populations to determine whether rapid adaptive evolution in response to florivory occurred. Irrespective of country of origin or location, webworms significantly reduced plant fitness. Webworms reduced pollination success in small plants but not in larger plants. Although defence chemistry remained unchanged, plants in infested populations were larger after 3-6 years of webworm florivory. As plant size is a strong predictor of realized fitness, evolution of large size as a component of florivore tolerance may occur more rapidly than evolution of enhanced chemical defence. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
35. Preference induction and the benefits of floral resources for a facultative florivore.
- Author
-
MERWIN, ANDREW C. and PARRELLA, MICHAEL P.
- Subjects
- *
FLORIVORES , *PLANT habitats , *GERBERA diseases & pests , *INSECT-plant relationships , *OVIPARITY - Abstract
The causes and consequences of flower feeding for facultative florivores are poorly understood. Several factors can influence host selection and may, by extension, influence host part selection. Two such factors cited for the facultative florivore, Liriomyza trifolii (Burgess), are the optimisation of adult performance and natal habitat preference induction (NHPI) - a change in preference for a habitat in response to cues associated with the natal habitat., In this study we compared the nutritive and physical qualities of leaves and petals of Gerbera jamesonii, measured the survival and fitness of adults flies reared on leaves, flowers or a mixed diet, and investigated the influence of NHPI on adult host part choice., Liriomyza trifolii exhibited more than 50% higher lifetime fecundity on a mixed diet than on strict diets of leaves or flowers. Newly emerged adult flies exposed to leaves for 24 h showed a significant preference towards leaves, while flower-exposed flies showed no significant preference; flower-exposed flies were thus more than twice as likely as leaf-exposed flies to feed and oviposit on flowers., These results suggest that the optimisation of adult performance may be driving facultative florivory for L. trifolii in general, but the degree of florivory expressed is influenced by early adult experience, as NHPI explained 33% and 39% of feeding and oviposition host part choice, respectively. The potential for NHPI to influence the spatiotemporal occurrence of florivory is discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
36. No trade-off between trichome production and tolerance to leaf and inflorescence damage in a natural population of Arabidopsis lyrata.
- Author
-
Puentes, Adriana and Ågren, Jon
- Subjects
TRICHOMES ,INFLORESCENCES ,ARABIDOPSIS lyrata ,PLANT defenses ,PLANT resistance to viruses ,DEFOLIATION ,FLORIVORES - Abstract
Aims Early models of plant defense conceived resistance and tolerance to herbivore damage as mutually exclusive strategies. Support for this idea has been equivocal and studies on these two strategies are still needed to understand the evolution of defenses in natural populations. In Arabidopsis lyrata, the production of trichomes, a documented resistance trait, has been associated with a fitness cost in the absence of herbivores. We examined whether trichome production is also associated with reduced tolerance to simulated herbivore damage. Methods We conducted a field experiment in a natural Swedish population of A. lyrata where we inflicted leaf (0 vs. 50% of the area of each leaf removed) and inflorescence damage (0 vs. 50% of inflorescences removed) to trichome-producing and glabrous plants in a factorial design. We examined the response (survival, growth and reproduction) of the plants to the imposed damage over 2 years. Important Findings Trichome-producing plants were not less tolerant than glabrous plants to simulated herbivore damage (no significant morph × leaf damage or morph × inflorescence damage interactions). Inflorescence and leaf damage had independent negative effects on the performance of damaged plants. Leaf damage reduced rosette size the year of damage, but effects on reproductive output in the year of damage, and on survival and reproductive performance the following year were weak and not statistically significant. Inflorescence damage significantly reduced the number of flowers, fruits and seeds the year of damage, but not in the following year. Irrespective of morph, the study population was more tolerant to leaf than to inflorescence damage. The results indicated no trade-off between trichome production and tolerance, suggesting that these two defense mechanisms have the potential to evolve independently in this A. lyrata population. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
37. Aphid and host-plant genotype × genotype interactions under elevated CO2.
- Author
-
RYAN, GERALDINE D., EMILJANOWICZ, LISA, HÄRRI, SIMONE A., and NEWMAN, JONATHAN A.
- Subjects
- *
APHIDS , *RHOPALOSIPHUM padi , *HERBIVORES , *FLORIVORES , *GENOTYPE-environment interaction - Abstract
1. Elevated CO2 can alter plant physiology and morphology, and these changes are expected to impact diet quality for insect herbivores. While the plastic responses of insect herbivores have been well studied, less is known about the propensity of insects to adapt to such changes. Genetic variation in insect responses to elevated CO2 and genetic interactions between insects and their host plants may exist and provide the necessary raw material for adaptation. 2. We used clonal lines of Rhopalosiphum padi (L.) aphids to examine genotype-specific responses to elevated CO2. We used the host plant Schedonorus arundinaceus (tall fescue; Schreb), which is capable of asexual reproduction, to investigate host plant genotype-specific effects and possible host plant-by-insect genotype interactions. The abundance and density of three R. padi genotypes on three tall fescue genotypes under three concentrations of CO2 (ambient, 700, and 1000 ppm) in a controlled greenhouse environment were examined. 3. Aphid abundance decreased in the 700 ppm CO2 concentration, but increased in the 1000 ppm concentration relative to ambient. The effect of CO2 on aphid density was dependent on host plant genotype; the density of aphids in high CO2 decreased for two plant genotypes but was unchanged in one. No interaction between aphid genotype and elevated CO2 was found, nor did we find significant genotype-by-genotype interactions. 4. This study suggests that the density of R. padi aphids feeding on tall fescue may decrease under elevated CO2 for some plant genotypes. The likely impact of genotype-specific responses on future changes in the genetic structure of plant and insect populations is discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
38. Aphid and host-plant genotype × genotype interactions under elevated CO2.
- Author
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RYAN, GERALDINE D., EMILJANOWICZ, LISA, HÄRRI, SIMONE A., and NEWMAN, JONATHAN A.
- Subjects
APHIDS ,RHOPALOSIPHUM padi ,HERBIVORES ,FLORIVORES ,GENOTYPE-environment interaction - Abstract
1. Elevated CO
2 can alter plant physiology and morphology, and these changes are expected to impact diet quality for insect herbivores. While the plastic responses of insect herbivores have been well studied, less is known about the propensity of insects to adapt to such changes. Genetic variation in insect responses to elevated CO2 and genetic interactions between insects and their host plants may exist and provide the necessary raw material for adaptation. 2. We used clonal lines of Rhopalosiphum padi (L.) aphids to examine genotype-specific responses to elevated CO2 . We used the host plant Schedonorus arundinaceus (tall fescue; Schreb), which is capable of asexual reproduction, to investigate host plant genotype-specific effects and possible host plant-by-insect genotype interactions. The abundance and density of three R. padi genotypes on three tall fescue genotypes under three concentrations of CO2 (ambient, 700, and 1000 ppm) in a controlled greenhouse environment were examined. 3. Aphid abundance decreased in the 700 ppm CO2 concentration, but increased in the 1000 ppm concentration relative to ambient. The effect of CO2 on aphid density was dependent on host plant genotype; the density of aphids in high CO2 decreased for two plant genotypes but was unchanged in one. No interaction between aphid genotype and elevated CO2 was found, nor did we find significant genotype-by-genotype interactions. 4. This study suggests that the density of R. padi aphids feeding on tall fescue may decrease under elevated CO2 for some plant genotypes. The likely impact of genotype-specific responses on future changes in the genetic structure of plant and insect populations is discussed. [ABSTRACT FROM AUTHOR]- Published
- 2014
- Full Text
- View/download PDF
39. Effects of plant neighborhoods on plant-herbivore interactions: resource dilution and associational effects.
- Author
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Hambäck, Peter A., Inouye, Brian D., Andersson, Petter, and Underwood, Nora
- Subjects
- *
PLANT ecology , *HERBIVORES , *FLORIVORES , *ANIMAL-plant relationships , *INSECT-plant relationships , *EXPERIMENTAL design - Abstract
The article presents a study that investigates the implications of plants in the neigborhood on the interactions of herbivore and plants in Florida. Researchers found that the neighboring plants brought vital herbivore damage on the plants. Moreover, the research methods used by researchers are also mentioned.
- Published
- 2014
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- View/download PDF
40. Shifts in food quality for herbivorous consumer growth: multiple golden means in the life history.
- Author
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Bullejos, Francisco José, Carrillo, Presentación, Gorokhova, Elena, Medina-Sánchez, Juan Manuel, Balseiro, Esteban Gabriel, and Villar-Argaiz, Manuel
- Subjects
- *
FOOD quality , *HERBIVORES , *FLORIVORES , *NUCLEIC acids , *RNA - Abstract
Consumer growth can be affected by imbalances between the nutrient content of the consumer and its food resource. Although ontogenetic-driven changes in animal composition are well documented, their potential consequences for the organism's sensitivity to food quahty constraints have remained elusive. Here we show that the potential growth response of the copepod Mixodiaptomus laciniatus (as %RNA and RNA;DNA ratio) to the natural gradient of seston carbon (C) ; nutrient ratio is unimodal and stage specific. Solution of the equation given by the first derivative function provided the optimum C ; nutrient ratio for maximum stage-specific growth, which increased during ontogeny. The peakedness of the function indicated that animal vulnerabihty to suboptimal food quality decreased as juveniles reached adulthood. Consistent with these results, a field experiment demonstrated that potential consumer growth responded to variations in seston C ; phosphorus ratio, and that early life stages were particularly vulnerable to suboptimal food quality. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
41. Determination of temperate bird-flower interactions as entangled mutualistic and antagonistic sub-networks: characterization at the network and species levels.
- Author
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Yoshikawa, Tetsuro, Isagi, Yuji, and Ings, Thomas
- Subjects
- *
FLORIVORES , *BIRD behavior , *BIRD care , *BIRD diversity , *MIGRATION flyways - Abstract
Most network studies on biological interactions consider only a single interaction type. However, individual species are simultaneously positioned in various types of interactions. The ways in which different network types are merged and entangled, and the variations in network structures between different sympatric networks, require full elucidation. Incorporating interaction types and disentangling complex networks is crucial, because the integration of various network architectures has the potential to alter the stability and co-evolutionary dynamics of the whole network., To reveal how different types of interaction networks are entangled, we focused on the interaction between birds and flowers of temperate plants in Japan, where flower-feeding birds are mainly generalist passerines, acting as pollinators and predators of flowers., Using long-term monitoring data, we investigated the flower-feeding episodes of birds. We constructed the whole network ( WN) between birds and plants, separating the network into mutualistic and antagonistic sub-networks ( MS and AS, respectively). We investigated structural properties of the three quantified networks and species-level characteristics of the main bird species. For bird species, we evaluated dietary similarity, dietary specialization and shifts of feeding behaviour relative to plant traits., Our results indicate that WN comprises entangled MS and AS, sharing considerable proportions of bird and plant assemblages. We observed distinctive differences in the network structural properties between the two sub-networks. In comparison with AS, MS had lower numbers of bird and plant species, showed lower specialization and modularity and exhibited higher nestedness. At the species level, the Japanese white-eye acted as pollinator, while the brown-eared bulbul acted as both pollinator and predator for large numbers of flowers, based on its behavioural plasticity. Overall, the pattern of avian feeding behaviour was influenced by flower size and plant origin. Birds showed nectarivory for plants with medium-sized flowers and exotic origins., Our results highlight the complex patterns of interactions between birds and the flowers of plants in temperate regions. They also indicate that understanding the interaction type for each species pair and consideration of the behavioural plasticity of animal species are important for elucidating integrated network structures. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
42. Floral polymorphism and the fitness implications of attracting pollinating and florivorous insects.
- Author
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de Jager, Marinus L. and Ellis, Allan G.
- Subjects
- *
POLLINATORS , *BOMBYLIIDAE , *POLYMORPHISM (Zoology) , *ANIMAL variation , *FLORIVORES , *BEETLES , *INSECTS - Abstract
Background and Aims Floral polymorphism is frequently attributed to pollinator-mediated selection. Multiple studies, however, have revealed the importance of non-pollinating visitors in floral evolution. Using the polymorphic annual daisy Ursinia calenduliflora, this study investigated the importance of different insect visitors, and their effects on fitness, in the maintenance of floral polymorphism. Methods The spatial structure of a discrete floral polymorphism was characterized based on the presence/absence of anthocyanin floret spots in U. calenduliflora. A 3-year observational study was then conducted in polymorphic populations to investigate differences in visitation rates of dominant visitors to floral morphs. Experiments were performed to explore the floral preference of male and female Megapalpus capensis (the dominant insect visitor) and their effectiveness as pollinators. Next, floral damage by antagonistic florivores and the reproductive success of the two floral morphs were surveyed in multiple populations and years. Key Results Floral polymorphism in U. calenduliflora was structured spatially, as were insect visitation patterns. Megapalpus capensis males were the dominant visitors and exhibited strong preference for the spotted morph in natural and experimental observations. While this may indicate potential fitness benefits for the spotted morph, female fitness did not differ between floral morphs. However, as M. capensis males are very efficient at exporting U. calenduliflora pollen, their preference may likely increase the reproductive fitness of the spotted morph through male fitness components. The spotted morph, however, also suffered significantly greater costs due to ovule predation by florivores than the spotless morph. Conclusions The results suggest that pollinators and florivores may potentially exert antagonistic selection that could contribute to the maintenance of floral polymorphism across the range of U. calenduliflora. The relative strength of selection imposed by each agent is potentially determined by insect community composition and abundance at each site, highlighting the importance of community context in the evolution of floral phenotypes. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
43. Difference in defense strategy in flower heads and leaves of Asteraceae: multiple-species approach.
- Author
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Oguro, Michio and Sakai, Satoki
- Subjects
- *
MULTIPURPOSE trees , *LEAF physiology , *FLOWERS , *ASTERACEAE , *FLORIVORES , *PHENOLS - Abstract
Although a vast number of studies have investigated defenses against herbivores in leaves, relatively little is known about defenses in flowers. Using wild individuals of 34 species of Asteraceae, we investigated differences in five traits that are thought to affect the intensity of herbivory (C, N, P, water, and total phenolic contents). Combinations of these traits between flower heads and leaves were studied as well. We also evaluated phylogenetic patterns of flower head and leaf traits. Flower heads had higher P and lower total phenolics than leaves. Water and C contents were negatively correlated both in the flower heads and leaves. N, P, and water contents were positively correlated in the flower heads, whereas this pattern was not found in the leaves. Thus, the traits we measured were more tightly inter-correlated in flower heads than in leaves. Because the flower heads had a lower total phenolic content, the relative allocation of defensive compounds could not be explained solely by fitness values of the organs. Perhaps plants employ an escape strategy rather than a defense strategy to cope with floral herbivores and higher allocation in P may enhance their escape from herbivores by improving the growth rate of flower heads, though our result might be affected in part by the plasticity of plants growing at different sites. Moreover, we found weak phylogenetic signals in the defensive traits. Because we found significant differences in the flower head traits, these weak signals may imply that the traits we measured evolved frequently. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
44. Plant ontogeny determines strength and associated plant fitness consequences of plant-mediated interactions between herbivores and flower visitors
- Subjects
indirect interactions ,plant–herbivore interactions ,ontogenetic variation ,herbivore-induced plant responses ,fungi ,florivores ,food and beverages ,ontogenetic trajectories ,pollinators ,EPS ,Laboratory of Entomology ,Laboratorium voor Entomologie ,plant reproduction - Abstract
Plants show ontogenetic variation in growth-defence strategies to maximize reproductive output within a community context. Most work on plant ontogenetic variation in growth-defence trade-offs has focussed on interactions with antagonistic insect herbivores. Plants respond to herbivore attack with phenotypic changes. Despite the knowledge that plant responses to herbivory affect plant mutualistic interactions with pollinators required for reproduction, indirect interactions between herbivores and pollinators have not been included in the evaluation of how ontogenetic growth-defence trajectories affect plant fitness. In a common garden experiment with the annual Brassica nigra, we investigated whether exposure to various herbivore species on different plant ontogenetic stages (vegetative, bud, or flowering stage) affects plant flowering traits, interactions with flower visitors, and results in fitness consequences for the plant. Effects of herbivory on flowering plants traits and interactions with flower visitors depended on plant ontogeny. Plant exposure in the vegetative stage to the caterpillar Pieris brassicae and aphid Brevicoryne brassicae led to reduced flowering time and flower production, and resulted in reduced pollinator attraction, pollen beetle colonization, total seed production and seed weight. When plants had buds, infestation by most herbivore species tested reduced flower production and pollen beetle colonization. Pollinator attraction was either increased or reduced. Plants infested in the flowering stage with P. brassicae or Lipaphis erysimi flowered longer, while infestation by any of the herbivore species tested increased the number of flower visits by pollinators. Our results show that the outcome of herbivore - flower-visitor interactions in B. nigra is specific for the combination of herbivore species and plant ontogenetic stage. Consequences of herbivory for flowering traits and reproductive output were strongest when plants were attacked early in life. Such differences in selection pressures imposed by herbivores to specific plant ontogenetic stages may drive the evolution of distinct ontogenetic trajectories in growth-defence-reproduction strategies and include indirect interactions between herbivores and flower visitors. Synthesis. Plant ontogeny can define the direct and indirect consequences of herbivory. Our study shows that the ontogenetic stage of plant individuals determined effects of herbivory on plant flowering traits, interactions with flower visitors, and plant fitness.
- Published
- 2020
45. Edaphic factors and plant–insect interactions: direct and indirect effects of serpentine soil on florivores and pollinators.
- Author
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Meindl, George A., Bain, Daniel J., and Ashman, Tia-Lynn
- Subjects
- *
INSECT-plant relationships , *POLLINATORS , *FLORIVORES , *PLANT morphology , *SOIL chemistry , *MUTUALISM (Biology) , *ANTAGONISM (Ecology) - Abstract
Edaphic factors can lead to differences in plant morphology and tissue chemistry. However, whether these differences result in altered plant–insect interactions for soil-generalist plants is less understood. We present evidence that soil chemistry can alter plant–insect interactions both directly, through chemical composition of plant tissue, and indirectly, through plant morphology, for serpentine-tolerant Mimulus guttatus (Phrymaceae). First, we scored floral display (corolla width, number of open flowers per inflorescence, and inflorescence height), flower chemistry, pollinator visitation and florivory of M. guttatus growing on natural serpentine and non-serpentine soil over 2 years. Second, we conducted a common garden reciprocal soil transplant experiment to isolate the effect of serpentine soil on floral display traits and flower chemistry. And last, we observed arrays of field-collected inflorescences and potted plants to determine the effect of soil environment in the field on pollinator visitation and florivore damage, respectively. For both natural and experimental plants, serpentine soil caused reductions in floral display and directly altered flower tissue chemistry. Plants in natural serpentine populations received fewer pollinator visits and less damage by florivores relative to non-serpentine plants. In experimental arrays, soil environment did not influence pollinator visitation (though larger flowers were visited more frequently), but did alter florivore damage, with serpentine-grown plants receiving less damage. Our results demonstrate that the soil environment can directly and indirectly affect plant–mutualist and plant–antagonist interactions of serpentine-tolerant plants by altering flower chemistry and floral display. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
46. Florivore impacts on plant reproductive success and pollinator mortality in an obligate pollination mutualism.
- Author
-
Althoff, David M., Xiao, Wei, Sumoski, Sarah, and Segraves, Kari A.
- Subjects
- *
FLORIVORES , *POLLINATORS , *MUTUALISM (Biology) , *POLLINATION by insects , *ABSCISSION (Botany) , *PHYSIOLOGY - Abstract
Florivores are present in many pollination systems and can have direct and indirect effects on both plants and pollinators. Although the impact of florivores are commonly examined in facultative pollination mutualisms, their effects on obligate mutualism remain relatively unstudied. Here, we used experimental manipulations and surveys of naturally occurring plants to assess the effect of florivory on the obligate pollination mutualism between yuccas and yucca moths. Yucca filamentosa (Agavaceae) is pollinated by the moth Tegeticula cassandra (Lepidoptera: Prodoxidae), and the mutualism also attracts two florivores: a generalist, the leaf-footed bug Leptoglossus phyllopus (Hemiptera: Coreidae), and a specialist, the beetle Hymenorus densus (Coleoptera: Tenebrionidae). Experimental manipulations of leaf-footed bug densities on side branches of Y. filamentosa inflorescences demonstrated that feeding causes floral abscission but does not reduce pollen or seed production in the remaining flowers. Similar to the leaf-footed bugs, experimental manipulations of beetle densities within individual flowers demonstrated that beetle feeding also causes floral abscission, but, in addition, the beetles also cause a significant reduction in pollen availability. Path analyses of phenotypic selection based on surveys of naturally occurring plants revealed temporal variation in the plant traits important to plant fitness and the effects of the florivores on fitness. Leaf-footed bugs negatively impacted fitness when fewer plants were flowering and leaf-footed bug density was high, whereas beetles had a positive effect on fitness when there were many plants flowering and their densities were low. This positive effect was likely due to adult beetles consuming yucca moth eggs while having a negligible effect on floral abscission. Together, the actions of both florivores either augmented the relationship of plant traits and fitness or slightly weakened the relationship. Overall, the results suggest that, although florivores are always present during flowering, the impact of florivores on phenotypic selection in yuccas is strongly mitigated by changes in their densities on plants from year to year. In contrast, both florivores consistently influenced pollinator larval mortality through floral abscission, and H. densus beetles additionally via the consumption of pollinator eggs. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
47. Dealing with mutualists and antagonists: Specificity of plant‐mediated interactions between herbivores and flower visitors, and consequences for plant fitness
- Author
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Erik H. Poelman, Dani Lucas-Barbosa, and Quint Rusman
- Subjects
0106 biological sciences ,Feeding guild ,010603 evolutionary biology ,01 natural sciences ,Plant reproduction ,Pollinator ,Feeding site ,Laboratory of Entomology ,Ecology, Evolution, Behavior and Systematics ,Herbivore ,biology ,Ecology ,Brassica nigra ,fungi ,Florivores ,food and beverages ,Laboratorium voor Entomologie ,biology.organism_classification ,Herbivore-induced plant responses ,Attraction ,Flower visitors ,Folivores ,Pollen beetle ,EPS ,Annual plant ,Heterodera schachtii ,010606 plant biology & botany ,Meligethes aeneus - Abstract
Plants need to deal with antagonists, such as herbivores, while maintaining interactions with mutualists, such as pollinators that help plants to maximize their reproductive output. Although many plant species have inducible defences to save metabolic costs of defence in the absence of herbivores, plant responses induced by herbivore attack can have ecological costs. For example, herbivore-induced responses can affect flower traits and alter interactions with flower visitors. Such plant-mediated interactions between herbivores and flower visitors can affect plant reproductive output. Current knowledge on the generality and specificity of plant-mediated herbivore-flower-visitor interactions and its consequences for plant fitness is limited. In this study, we investigated whether a broad range of herbivores feeding on the annual plant Brassica nigra affect interactions with flower visitors, whether the direction of interactions is predicted by the feeding modes (chewing and sap-feeding) and sites (above- and belowground) of the herbivores, and whether it results in fitness consequences for the plant. Our results show that attack of B. nigra by a range of different herbivores influenced plant interactions with mutualist pollinators and an antagonist florivore, the pollen beetle Meligethes aeneus. Pollinator community composition was affected by herbivory, whereas overall pollinator attraction was maintained. Pollinator community composition of uninfested plants differed from that of chewing and root herbivore-infested plants. Main responders in the pollinator communities to changes induced by herbivory were syrphid flies, bumblebees, and solitary bees. Although the preference of pollen beetle adults was not affected by herbivory, beetle larvae performed best on plants infested with the nematode Heterodera schachtii. The changes in pollinator community composition and syrphid fly visitation can explain the observed increase in seed set of root herbivore-infested plants. Interactions of flowering B. nigra plants with mutualist and antagonist insects are well integrated and conflicting interactions do not reduce reproductive output. Our results suggest some degree of specificity in herbivore-flower-visitor interactions with consequences for plant fitness. Specificity of plant responses were determined at the species level as well as the herbivore functional group level, and differed depending on the flower visitor. Because plant reproduction was affected by indirect plant-mediated interactions, these can potentially result in selection on plant strategies to optimize growth, defence and reproduction. A plain language summary is available for this article.
- Published
- 2018
48. Florivores on the dioecious shrub Eurya japonica and the preferences and performances of two polyphagous geometrid moths on male and female plants.
- Author
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Tsuji, Kaoru and Sota, Teiji
- Subjects
- *
FLORIVORES , *DIOECIOUS plants , *GEOMETRIDAE , *THEACEAE , *PLANT fertility , *SEXUAL dimorphism , *OVIPARITY , *PLANTS - Abstract
Flowers of dioecious plants have sexually dimorphic traits that may affect florivore performances, and florivores may have preferences to plant sex that are correlated with their performance on different plant sexes. We investigated the florivory on a polygamodioecious evergreen shrub Eurya japonica in Japan to reveal florivores and their feeding patterns involved in sexually biased florivory on E. japonica flowers. Flowers of E. japonica were infested by lepidopteran and dipteran larvae and hemipteran insects. Lepidopteran larvae were chewers, dipteran larvae were gall makers and hemipteran insects were suckers. Chewed flowers were most frequent among infested flowers. Of florivores, lepidopteran larvae, mostly of Geometridae, were the important florivore that damaged flowers by chewing. Florivores infested male flower buds more often than female flower buds, but only a geometrid larvae Chloroclystis excise, which exclusively uses flower buds, showed the biased infection on male flowers. Rearing experiments for two other geometrid moths which use both leaves and flowers showed that the preference and performance of Ourapteryx nivea that fed mainly leaves did not differ between the plant sexes, whereas the development of Alcis angulifera larvae which fed both leaves and flowers was slower when they fed female than male leaves and flower buds. In addition, A. angulifera larvae fed fewer flower buds on female than on male plants. These results show that the male-biased florivory on E. japonica trees is attributed mainly to the specialist florivore and also feeding preference for male flowers in an opportunistic florivore that feed both leaves and flowers. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
49. Florivores prefer white versus pink petal color morphs in wild radish, Raphanus sativus.
- Author
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McCall, Andrew, Murphy, Stephen, Venner, Colin, and Brown, Monique
- Subjects
- *
FLORIVORES , *RADISHES , *POLLINATORS , *COLOR of plants , *FLOWERS , *FLOWER petals - Abstract
Many hypotheses suggest that pollinators act to maintain or change floral color morph frequencies in nature, although pollinator preferences do not always match color morph frequencies in the field. Therefore, non-pollinating agents may also be responsible for color morph frequencies. To test this hypothesis, we examined whether Raphanus sativus plants with white flowers received different amounts of florivory than plants with pink flowers, and whether florivores preferred one floral color over the other. We found that white-flowered plants received significantly more floral damage than pink-flowered plants in eight populations over 4 years in northern California. Both generalists and specialists on Brassicaceae preferred white petals in choice and short-term no choice tests. In performance tests, generalists gained more weight on white versus pink petals whereas specialists gained similar amounts of weight on pink and white morphs. Because our results suggest that florivores prefer and perform better on white versus pink flowers, these insects may have the opportunity to affect the frequency of color morphs in the field. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
50. Petunia flowers solve the defence/apparency dilemma of pollinator attraction by deploying complex floral blends.
- Author
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Kessler, Danny, Diezel, Celia, Clark, David G., Colquhoun, Thomas A., Baldwin, Ian T., and Irwin, Rebecca
- Subjects
- *
PETUNIAS , *POLLINATORS , *FLOWERS , *ODORS , *HERBIVORES , *FLORIVORES , *TRANSGENIC plants - Abstract
Flowers recruit floral visitors for pollination services by emitting fragrances. These scent signals can be intercepted by antagonists such as florivores to locate host plants. Hence, as a consequence of interactions with both mutualists and antagonists, floral bouquets likely consist of both attractive and defensive components. While the attractive functions of floral bouquets have been studied, their defensive function has not, and field-based evidence for the deterrence of floral-scent constituents is lacking. In field and glasshouse experiments with five lines of transgenic Petunia x hybrida plants specifically silenced in their ability to release particular components of their floral volatile bouquet, we demonstrate that the emission of single floral-scent compounds can dramatically decrease damage from generalist florivores. While some compounds are used in host location, others prevent florivory. We conclude that the complex blends that comprise floral scents are likely sculpted by the selective pressures of both pollinators and herbivores. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
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