Relevant bibliographies by topics / Plant/herbivory interaction

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Plant/herbivory interaction'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Plant/herbivory interaction"

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Beaumont, Kieren P., Duncan A. Mackay, and Molly A. Whalen. "Ant defence of a dioecious shrub, Adriana quadripartita (Euphorbiaceae), with extrafloral nectaries." Australian Journal of Botany 64, no. 6 (2016): 539. http://dx.doi.org/10.1071/bt16034.

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Extrafloral nectaries (EFNs) can function to indirectly reduce herbivory by attracting ants that interfere with or predate on herbivorous insects. So as to examine the efficacy of ants as defenders of plants with extrafloral nectaries (EFNs) against herbivores, an ant-exclusion experiment was conducted on plants of the dioecious species Adriana quadripartita (Euphorbiaceae). The experiment was conducted on Torrens Island, South Australia, and adds to previous work that examined the associations among adrianas, ants and invertebrate herbivores at several locations across Australia. The aim of t
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Ramos, Sergio E., and Florian P. Schiestl. "Rapid plant evolution driven by the interaction of pollination and herbivory." Science 364, no. 6436 (2019): 193–96. http://dx.doi.org/10.1126/science.aav6962.

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Pollination and herbivory are both key drivers of plant diversity but are traditionally studied in isolation from each other. We investigated real-time evolutionary changes in plant traits over six generations by using fast-cycling Brassica rapa plants and manipulating the presence and absence of bumble bee pollinators and leaf herbivores. We found that plants under selection by bee pollinators evolved increased floral attractiveness, but this process was compromised by the presence of herbivores. Plants under selection from both bee pollinators and herbivores evolved higher degrees of self-co
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Barbosa, BC, R. Fagundes, LF Silva, et al. "Evidences that human disturbance simplify the ant fauna associated a Stachytarpheta glabra Cham. (Verbenaceae) compromising the benefits of ant-plant mutualism." Brazilian Journal of Biology 75, no. 1 (2015): 58–68. http://dx.doi.org/10.1590/1519-6984.07213.

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Interaction among species, like ants and plants through extrafloral nectaries (EFNs), are important components of ecological communities’ evolution. However, the effect of human disturbance on such specific interactions and its ecological consequences is poorly understood. This study evaluated the outcomes of mutualism between ants and the EFN-bearing plant Stachytarpheta glabra under anthropogenic disturbance. We compared the arthropod fauna composition between two groups of twenty plant individuals, one in an area disturbed by human activities and one in a preserved area. We also check the p
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McKenzie, Scott W., Adam J. Vanbergen, Rosemary S. Hails, T. Hefin Jones, and Scott N. Johnson. "Reciprocal feeding facilitation between above- and below-ground herbivores." Biology Letters 9, no. 5 (2013): 20130341. http://dx.doi.org/10.1098/rsbl.2013.0341.

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Interspecific interactions between insect herbivores predominantly involve asymmetric competition. By contrast, facilitation, whereby herbivory by one insect benefits another via induced plant susceptibility, is uncommon. Positive reciprocal interactions between insect herbivores are even rarer. Here, we reveal a novel case of reciprocal feeding facilitation between above-ground aphids ( Amphorophora idaei ) and root-feeding vine weevil larvae ( Otiorhynchus sulcatus ), attacking red raspberry ( Rubus idaeus ). Using two raspberry cultivars with varying resistance to these herbivores, we furth
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Meineke, Emily K., and T. Jonathan Davies. "Museum specimens provide novel insights into changing plant–herbivore interactions." Philosophical Transactions of the Royal Society B: Biological Sciences 374, no. 1763 (2018): 20170393. http://dx.doi.org/10.1098/rstb.2017.0393.

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Mounting evidence shows that species interactions may mediate how individual species respond to climate change. However, long-term anthropogenic effects on species interactions are poorly characterized owing to a lack of data. Insect herbivory is a major ecological process that represents the interaction between insect herbivores and their host plants, but historical data on insect damage to plants is particularly sparse. Here, we suggest that museum collections of insects and plants can fill key gaps in our knowledge on changing trophic interactions, including proximate mechanisms and the net
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García-Robledo, Carlos, and Charles L. Staines. "Herbivory in gingers from latest Cretaceous to present: is the ichnogenus Cephaloleichnites (Hispinae, Coleoptera) a rolled-leaf beetle?" Journal of Paleontology 82, no. 5 (2008): 1035–37. http://dx.doi.org/10.1666/07-089.1.

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It is suggested that rolled-leaf hispine beetles (Hispinae, Coleoptera) and plants from the order Zingiberales maintained a highly specialized plant-herbivore interaction for >60 My. The evidence supporting this old and conservative interaction are herbivory marks found on leaves of the genus Zingiberopsis (Zingiberaceae) from the latest Cretaceous and early Eocene. This fossil herbivory was described as the ichnotaxon Cephaloleichnites strongii (Hispinae, Coleoptera), based on the assumption that this type of herbivory can be solely attributed to extant rolled-leaf beetles. This ichnotaxon
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De Assis Dansa, Claudia Valeria, Carlos Frederico, and Duarte Rocha. "An ant-membracid-plant interaction in a cerrado area of Brazil." Journal of Tropical Ecology 8, no. 3 (1992): 339–48. http://dx.doi.org/10.1017/s0266467400006635.

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ABSTRACTIn the Cerrado of Itirapina, Brazil, 34% of the shrubs of Didymopanax vinosum (Araliaceae) were colonized by the honeydew-producing homopteran Aconophora teligera (Membracidae) which was found exclusively on this species of plant. Correlations were made between membracid density and ant frequency, as well as between these parameters and plant damage. We found that: (1) ant frequency was higher on branches with membracids and both were more frequently found near apical meristems; (2) herbivore damage was lower on apical meristems where the membracids concentrate than on ones where they
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Geuss, Daniel, Tobias Lortzing, Jens Schwachtje, Joachim Kopka, and Anke Steppuhn. "Oviposition by Spodoptera exigua on Solanum dulcamara Alters the Plant’s Response to Herbivory and Impairs Larval Performance." International Journal of Molecular Sciences 19, no. 12 (2018): 4008. http://dx.doi.org/10.3390/ijms19124008.

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Plant resistance traits against insect herbivores are extremely plastic. Plants respond not only to the herbivory itself, but also to oviposition by herbivorous insects. How prior oviposition affects plant responses to larval herbivory is largely unknown. Combining bioassays and defense protein activity assays with microarray analyses and metabolite profiling, we investigated the impact of preceding oviposition on the interaction of Solanum dulcamara with the generalist lepidopteran herbivore Spodoptera exigua at the levels of the plant’s resistance, transcriptome and metabolome. We found that
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Cook-Patton, Susan C., Marina LaForgia, and John D. Parker. "Positive interactions between herbivores and plant diversity shape forest regeneration." Proceedings of the Royal Society B: Biological Sciences 281, no. 1783 (2014): 20140261. http://dx.doi.org/10.1098/rspb.2014.0261.

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The effects of herbivores and diversity on plant communities have been studied separately but rarely in combination. We conducted two concurrent experiments over 3 years to examine how tree seedling diversity, density and herbivory affected forest regeneration. One experiment factorially manipulated plant diversity (one versus 15 species) and the presence/absence of deer ( Odocoileus virginianus ). We found that mixtures outperformed monocultures only in the presence of deer. Selective browsing on competitive dominants and associational protection from less palatable species appear responsible
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Rioja, Cristina, Vladimir Zhurov, Kristie Bruinsma, Miodrag Grbic, and Vojislava Grbic. "Plant-Herbivore Interactions: A Case of an Extreme Generalist, the Two-Spotted Spider Mite Tetranychus urticae." Molecular Plant-Microbe Interactions® 30, no. 12 (2017): 935–45. http://dx.doi.org/10.1094/mpmi-07-17-0168-cr.

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Plant-herbivore interactions evolved over long periods of time, resulting in an elaborate arms race between interacting species. While specialist herbivores evolved specific strategies to cope with the defenses of a limited number of hosts, our understanding of how generalist herbivores deal with the defenses of a plethora of diverse host plants is largely unknown. Understanding the interaction between a plant host and a generalist herbivore requires an understanding of the plant’s mechanisms aimed at defending itself and the herbivore’s mechanisms intended to counteract diverse defenses. In t
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Dissertations / Theses on the topic "Plant/herbivory interaction"

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Osborn, Heather. "THE INTERACTION OF HERBIVORY AND POLLINATION." OpenSIUC, 2019. https://opensiuc.lib.siu.edu/dissertations/1705.

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The interaction of herbivory and pollination is not well understood. Both topics on their own have been studied thoroughly, yet their interaction has not. Until the 1990s, few studies attempted to explore how herbivory might affect pollination, and vice versa.
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Ohlsson, Åse. "Is bishop's goutweed (Aegopodium podagraria L.) sensitive to mechanical disturbances?" Thesis, Södertörn University College, School of Life Sciences, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:sh:diva-2199.

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<p>In this study I investigate the sensitiveness of Bishop's goutweed (Aegopodium podagraria L.)to mechanical damages in an experiment with artificial clipping. Based on personalobservations of A. podagraria during several years I hypothesise that i) A. podagraria indifference with other species, for example different species of grass have difficult to recoverfrom mechanical damages ii) in a site with several other species present A. podagraria willhave harder to recover from mechanical damages than in a pure stand iii) as purer a stand withA. podagraria is, the harder other species will have
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Avanesyan, Alina. "Native versus Exotic Grasses: The Interaction between Generalist Insect Herbivores and Their Host Plants." University of Cincinnati / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1406808876.

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Lopes, Bruno de Sousa. "História natural e performance larval de Oospila pallidaria (Schaus, 1897) (Lepidoptera, Geometridae, Geometrinae): uma mariposa esmeralda do Cerrado." Universidade de São Paulo, 2016. http://www.teses.usp.br/teses/disponiveis/59/59131/tde-20072016-181713/.

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São estimadas 90 mil espécies de insetos para o Cerrado, o segundo maior bioma brasileiro, com enorme heterogeneidade de habitats e rica fauna. Dentre esses insetos, os Lepidoptera representam cerca de 10% do total de espécies. Entretanto, estudos sobre seus imaturos (ovo, larva e pupa) ainda são incipientes para o bioma, principalmente sobre as mariposas, cujas histórias naturais de muitas espécies ainda são desconhecidas. A falta desses estudos faz com que sejam ignoradas as interações multitróficas em que esses organismos estão envolvidos e, portanto, inviabiliza futuros estudos relacionado
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Rasher, Douglas B. "Chemically mediated competition, herbivory, and the structure of coral reefs." Diss., Georgia Institute of Technology, 2012. http://hdl.handle.net/1853/49019.

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Corals, the foundation species of tropical reefs, are in rapid global decline as a result of anthropogenic disturbance. On many reefs, losses of coral have coincided with the over-harvesting of reef herbivores, resulting in ecosystem phase-shifts from coral to macroalgal dominance. It is hypothesized that abundant macroalgae inhibit coral recovery and recruitment, thereby generating ecological feedback processes that reinforce phase-shifts to macroalgae and further diminish reef function. Notwithstanding, the extent to which macroalgae directly outcompete coral, the mechanisms involved, and th
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Ikemoto, Mito. "Within- and across-year legacy effects of herbivores on plant-associated arthropods and reproductive success in a perennial herb." Kyoto University, 2020. http://hdl.handle.net/2433/253475.

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Simão, Rivane Newmann. "Herbivoria e fogo : seus efeitos em Chamaecrista neesiana (Mart. ex. Benth.) I. & B. (Caesalpinoidea) na vegetação do cerrado." Universidade Federal de Uberlândia, 2005. https://repositorio.ufu.br/handle/123456789/13338.

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Herbivory, fact of animals feeding all, exudations, tissues or parts of plants, is pointed like one of the most important points in the vegetation structuralization and diversity. That can be influenced by some factors, the most importants are seasonality, spatial variation, environment and plant-herbivory-predator interactions. Native species from Cerrado are also influenced by fire. In response to herbivory attack, the plants have different defenses strategies, it can be chemical, physical and/or biotic. The aim of this study was analyze the impact of herbivory action in Chamaecrista neesian
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Cruz, Nayara Gomes da. "Formigas associadas a Turnera subulata (Turneraceae) : custos e/ou benefícios para planta hospedeira?" Universidade Federal de Sergipe, 2016. https://ri.ufs.br/handle/riufs/4476.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES<br>Ecological interactions between organisms are complex and can present dynamic results, which are dependent on environmental context. Plants with extrafloral nectaries attract a wide variety of ants species, in associations commonly considered mutualistic. In tropical environments the combination of plants and ants play an important role in communities. Turnera subulata is a ruderal shrub widely distributed in disturbed areas, which has a pair of extrafloral nectaries in the base of each leaf. In this study, we evaluate
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Choh, Yasuyuki. "Plant-plant interactions mediated by herbivore-induced plant volatiles." 京都大学 (Kyoto University), 2005. http://hdl.handle.net/2433/145130.

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Arvanitis, Leena. "Plant polyploidy and interactions with insect herbivores /." Stockholm : Department of Botany, Stockholm University, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-7154.

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Books on the topic "Plant/herbivory interaction"

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Núñez-Farfán, Juan, and Pedro Luis Valverde, eds. Evolutionary Ecology of Plant-Herbivore Interaction. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-46012-9.

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Cibils, Andrés F. Plant-herbivore interactions in Atriplex: Current state of knowledge. U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Research Station, 1998.

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Cibils, Andrés F. Plant-herbivore interactions in Atriplex: Current state of knowledge. U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Research Station, 1998.

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Cibils, Andrés F. Plant-herbivore interactions in Atriplex: Current state of knowledge. U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Research Station, 1998.

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Symposium, on Plant-Herbivore Interactions (1985 Snowbird Utah). Proceedings: Symposium on Plant-Herbivore Interactions : Snowbird, Utah, August 7-9, 1985. Intermountain Research Station, Forest Service, U.S. Dept. of Agriculture, 1987.

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Symposium on Plant-Herbivore Interactions (1985 Snowbird, Utah). Proceedings-Symposium on Plant-Herbivore Interactions: Snowbird, Utah, August 7-9, 1985. Intermountain Research Station, Forest Service, U.S. Dept. of Agriculture, 1987.

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Esler, Karen J., Anna L. Jacobsen, and R. Brandon Pratt. Organisms and their Interactions. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198739135.003.0003.

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Both animal and plant species exhibit adaptive traits related to features of mediterranean-type ecosystems (MTEs). For plants, the seasonality of the MTC has been an important factor in the evolution of plant phenological traits. Root adaptive traits that improve nutrient extraction from impoverished soils are present within MTC regions, including cluster roots, root nodules, and mycorrhizal symbioses. Fire has been an important driver of plant traits, such as smoke, charate, or heat-induced seed germination or seed release (i.e. serotiny), and post-fire flowering. Adaptive traits in animals i
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1944-, Barbosa Pedro, Krischik Vera A, and Jones Clive G, eds. Microbial mediation of plant-herbivore interactions. Wiley, 1991.

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Feng, Zhilan, and Donald L. DeAngelis. Mathematical Models of Plant-Herbivore Interactions. Chapman and Hall/CRC, 2017. http://dx.doi.org/10.1201/9781315154138.

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A, Rosenthal Gerald, and Berenbaum M, eds. Herbivores, their interactions with secondary plant metabolites. 2nd ed. Academic Press, 1991.

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Book chapters on the topic "Plant/herbivory interaction"

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Callejas-Chavero, Alicia, Diana Martínez-Hernández, Arturo Flores-Martínez, Alejandra Moncada-Orellana, Yahveh Diaz-Quiñones, and Carlos Fabián Vargas-Mendoza. "Herbivory in Cacti: Fitness Effects of Two Herbivores, One Tending Ant on Myrtillocactus geometrizans (Cactaceae)." In Evolutionary Ecology of Plant-Herbivore Interaction. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-46012-9_6.

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Carmona, Diego, Xoaquín Moreira, and Luis Abdala-Roberts. "Latitudinal and Elevational Gradients in Plant Defences and Herbivory in Temperate Trees: Recent Findings, Underlying Drivers, and the Use of Genomic Tools for Uncovering Clinal Evolution." In Evolutionary Ecology of Plant-Herbivore Interaction. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-46012-9_18.

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Traveset, Anna, and David M. Richardson. "Plant invasions: the role of biotic interactions - an overview." In Plant invasions: the role of biotic interactions. CABI, 2020. http://dx.doi.org/10.1079/9781789242171.0001.

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Abstract Diverse biotic interactions between non-native plant species and other species from all taxonomic groups are crucial mediators of the dynamics of plant invasions. This chapter reviews the key hypotheses in invasion ecology that invoke biotic interactions to explain aspects of plant invasion dynamics. We examine the historical context of these hypotheses and assess the evidence for accepting or rejecting their predictions. Most hypotheses invoke antagonistic interactions, mainly competition, predation, herbivory interactions and the role of pathogens. Only in the last two decades have positive (facilitative/mutualistic) interactions been explicitly included in invasion biology theory (as in ecological theory in general). Much information has accumulated in testing hypotheses relating to biotic resistance and Enemy Release Theory, although many of the emerging generalizations are still contentious. There is growing consensus that other drivers of plant invasion success, such as propagule pressure and disturbance, mediate the outcome of biotic interactions, thereby complicating our ability to make predictions, but these have rarely been assessed in both native and adventive ranges of non-native invasive species. It is also widely acknowledged that biogeographic comparisons, more than common garden experiments, are needed to shed light on many of the contradictory results. Contrasting findings have also emerged in exploring the roles of positive interactions. Despite strong evidence that such interactions are crucial in many communities, more work is needed to elucidate the factors that influence the relative importance of positive and negative interactions in different ecosystems. Different types of evidence in support of invasional meltdown have emerged for diverse habitats and across spatial scales. In light of increasing evidence that biotic indirect effects are crucial determinants of the structure, dynamics and evolution of ecological communities, both direct and indirect interactions involving native and non-native species must be considered to determine how they shape plant invasion patterns and the ecological impacts of non-native species on recipient communities. Research that examines both biotic interactions and the factors that mediate their strength and alter interaction outcomes is needed to improve our ability to predict the effects of novel interactions between native and non-native species, and to envisage how existing invaded communities will respond to changing environmental conditions. Many opportunities exist for manipulating biotic interactions as part of integrated control strategies to reduce the extent, density and impacts of non-native plant invasions. These include the introduction of species from the native range of the non-native plant for biological control, diverse manipulations of plant - herbivore interactions and many types of interaction to enhance biotic resistance and steer vegetation recovery following non-native plant control.
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Smith-Ramesh, Lauren M. "Allelopathic disruptions of biotic interactions due to non-native plants." In Plant invasions: the role of biotic interactions. CABI, 2020. http://dx.doi.org/10.1079/9781789242171.0270.

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Abstract Allelopathy, or the process by which plants influence the growth and performance of their neighbours through the release of chemicals, may play a key role in mediating the impacts of non-native invasive species on their neighbours. The Novel Weapons Hypothesis purports that non-native invasive species are in part successful because they produce harmful allelochemicals to which resident species are particularly susceptible because residents lack a shared evolutionary history with the invader. While allelopathic non-native invaders may reduce the growth and performance of neighbours through direct phytotoxicity, they may more often exert negative impacts through disruption of biotic interactions among resident species. Allelopathy by non-native plants may disrupt mutualisms between resident plants and microbes, plant-herbivore interactions or existing competitive and facilitative interactions among resident plants. For example, several non-native plants are known to disrupt the mutualism between resident plants and mycorrhizal fungi, reducing resident plant fitness to the benefit of the invader. Allelopathic non-natives may also disrupt interactions among resident plants and their herbivores when allelochemicals also influence herbivore behaviour or fitness. Alternatively, biotic interactions can also be protective for resident species, which may be less susceptible to the impacts of non-native species when their mutualisms are intact. As we advance our understanding of allelopathy and its role in mediating the impacts of invasive plant species, we may gain new insights by viewing invasions within a network context rather than focusing on pairwise interactions.
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Parker, John D., John L. Devaney, and Nathan P. Lemoine. "Biotic resistance to plant invasions." In Plant invasions: the role of biotic interactions. CABI, 2020. http://dx.doi.org/10.1079/9781789242171.0177.

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Abstract Biotic resistance to plant invasions takes many forms: consumption by native herbivores, competition with native plants and infection by native pathogens. But how often does biotic resistance prevent the damaging monocultures that typify the most problematic plant invaders, and how often is biotic resistance overwhelmed by the direct and indirect impacts of human activities? This chapter attempts to answer these questions, drawing on the long history of research into biotic resistance. We first briefly describe the major forms of biotic resistance to exotic plant invasions as an antecedent to other, more detailed chapters on competition, herbivory and pathogens. We then describe a new neutral model where variance in disturbance promotes invasions over the short term, but over longer timescales only propagule pressure drives invasions. These findings are a cautionary tale; pending increases in global trade and travel, particularly to the tropics, may provide the prerequisite disturbance and propagule pressure needed to ultimately stoke further invasions. Finally, we highlight case studies where invasions have been mitigated by restoration of biotic resistance from native herbivores and competitors. These studies provide strong empirical support that conservation of native biodiversity can be a nature-based solution to some invasions, although it remains to be seen if climate change will alter these effects over longer timescales.
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Skarpe, Christina, Roger Bergström, Shimane Makhabu, Tuulikki Rooke, Håkan Hytteborn, and Kjell Danell. "Plant-Herbivore Interactions." In Elephants and Savanna Woodland Ecosystems. John Wiley & Sons, Ltd, 2014. http://dx.doi.org/10.1002/9781118858615.ch12.

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Kotanen, Peter M. "Direct and indirect effects of herbivores influencing plant invasions." In Plant invasions: the role of biotic interactions. CABI, 2020. http://dx.doi.org/10.1079/9781789242171.0226.

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Abstract Non-native plants rarely escape damage by herbivores. Instead, upon arrival in a new region, they begin to acquire new enemies, replacing those they have lost during their migration. These herbivores can include both natives to the new region and species that have themselves been accidentally or deliberately introduced from elsewhere, potentially including examples originating from the invader's original range. Shifts of new enemies from other hosts can occur over a range of timescales, depending in part on whether evolutionary change is required, but are likely to be faster for plants that are widespread and phylogenetically related to a herbivore's original host, and faster for generalist herbivores than for specialists. The occurrence of herbivores is not necessarily uniform across an invader's range; instead, they may be less diverse or abundant in host populations that are geographically or ecologically marginal, though existing evidence is mixed. Collectively, these new suites of herbivores can affect the growth and fitness of invaders, both directly by damaging them and indirectly by attacking their competitors. Studies comparing the demographic consequences of herbivory for successful vs unsuccessful invaders may help to clarify how often such impacts limit invasiveness. The view that an invader enters 'enemy-free' space is inaccurate; instead, persistence and spread of non-native plants often may be affected by the novel and changing assemblage of herbivores that they acquire within their new distribution.
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Moura, Renan F., Eva Colberg, Estevão Alves-Silva, et al. "Biotic Defenses Against Herbivory." In Plant-Animal Interactions. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-66877-8_5.

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Allen, Warwick J. "Indirect biotic interactions of plant invasions with native plants and animals." In Plant invasions: the role of biotic interactions. CABI, 2020. http://dx.doi.org/10.1079/9781789242171.0308.

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Abstract Invasive plants often occur at high densities and tend to be highly generalist in their interactions with herbivores, pathogens, mycorrhiza, endophytes and pollinators. These characteristics mean that invasive plants should frequently participate in diverse indirect biotic interactions with the surrounding community, mediated by their direct interaction partners (e.g. antagonists and mutualists). Indirect interactions play an important role in many ecological processes, yet we still lack a systematic understanding of the circumstances under which they influence the success and impacts of invasive species. In this chapter, I first describe several of the indirect interaction pathways that are commonly encountered in invasion biology and review their contribution to the impacts of plant invasions on co-occurring species. The literature review revealed that there are now many case studies describing various indirect impacts of invasive plants. However, identical interaction motifs (e.g. plant-enemy-plant, plant-mutualist-plant) can bring about several possible outcomes, depending upon each species' provenance, relative abundances and interaction strengths, abiotic resource availability, spatial and temporal scale and the influence of other species. Moreover, knowledge gaps identified include a lack of studies of indirect facilitation outside of plant-pollinator systems, limited consideration of indirect invader impacts on other non-native species, and the scarcity of generalizable results to date. Second, I integrate the literature with some trending research areas in invasion biology (interaction networks, biogeography, invasion dynamics) and identify some potential future research directions. Finally, I discuss how knowledge about indirect biotic interactions could be incorporated into the management of invasive plants.
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Ortego, Félix. "Physiological Adaptations of the Insect Gut to Herbivory." In Arthropod-Plant Interactions. Springer Netherlands, 2012. http://dx.doi.org/10.1007/978-94-007-3873-7_3.

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Conference papers on the topic "Plant/herbivory interaction"

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Armbrecht, Inge. "Ant-plant-herbivore interactions in northern neotropical agroecosystems." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.91860.

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Blevins, Cam. "A Meta-Analytical View on the Effects of Climate Change in Plant-Herbivore Interactions." In ASPB PLANT BIOLOGY 2020. ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1049082.

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Vannette, Rachel L. "Mutualistic soil fungi and plant nutrition jointly influence plant-herbivore interactions." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.94331.

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Ingerslew, Kathryn S. "Plant species diversity facilitates behavioral interactions that lead to enhanced herbivore suppression." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.115063.

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Howe, Gregg A. "Genetic uncoupling of growth-defense tradeoffs in plant interactions with insect herbivores." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.93760.

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Swain, Anshuman, S. Augusta Maccracken, William F. Fagan, and Conrad C. Labandeira. "THE ECOLOGY OF HOST PLANT-INSECT HERBIVORE INTERACTIONS IN THE FOSSIL RECORD FROM BIPARTITE NETWORKS." In GSA 2020 Connects Online. Geological Society of America, 2020. http://dx.doi.org/10.1130/abs/2020am-354353.

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Reports on the topic "Plant/herbivory interaction"

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Adams, B. M., H. T. Banks, J. E. Banks, and J. D. Stark. Population Dynamics Models in Plant-Insect Herbivore-Pesticide Interactions. Defense Technical Information Center, 2003. http://dx.doi.org/10.21236/ada444007.

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Cibils, Andres F., David M. Swift, and E. Durant McArthur. Plant-herbivore interactions in Atriplex: current state of knowledge. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 1998. http://dx.doi.org/10.2737/rmrs-gtr-14.

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