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398 results on '"extended phenotype"'

351. Plant green-island phenotype induced by leaf-miners is mediated by bacterial symbionts

Author

David Giron, Elisabeth Huguet, Jérôme Casas, Céline Commin, Wilfried Kaiser, Institut de recherche sur la biologie de l'insecte UMR7261 (IRBI), Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS), ANR-05-JCJC-0203,EcOrEn,Ecophysiologie des Organismes Endophytes : Stratégies comportementales, Interactions physiologiques et Adaptations microenvironnementales(2005), Université de Tours-Centre National de la Recherche Scientifique (CNRS), and ANR-05-JCJC-0203-01,ANR-05-JCJC-0203-01

Subjects
0106 biological sciences, Male, Cytokinins, Insect, 01 natural sciences, Polymerase Chain Reaction, RNA, Ribosomal, 16S, General Environmental Science, media_common, 0303 health sciences, green-island, biology, extended phenotype, Plant physiology, food and beverages, General Medicine, Anti-Bacterial Agents, Lepidoptera, Malus, Wolbachia, Female, General Agricultural and Biological Sciences, DNA, Bacterial, media_common.quotation_subject, Molecular Sequence Data, Leaf miner, 010603 evolutionary biology, plant–insect interaction, General Biochemistry, Genetics and Molecular Biology, Statistics, Nonparametric, Bacterial genetics, Lepidoptera genitalia, 03 medical and health sciences, Symbiosis, Research articles, Botany, Animals, leaf-miner, 030304 developmental biology, Plant Diseases, General Immunology and Microbiology, Base Sequence, fungi, Sequence Analysis, DNA, biology.organism_classification, Plant Leaves, Phyllonorycter blancardella, endosymbiont, Sequence Alignment, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis
Abstract

The life cycles of many organisms are constrained by the seasonality of resources. This is particularly true for leaf-mining herbivorous insects that use deciduous leaves to fuel growth and reproduction even beyond leaf fall. Our results suggest that an intimate association with bacterial endosymbionts might be their way of coping with nutritional constraints to ensure successful development in an otherwise senescent environment. We show that the phytophagous leaf-mining moth Phyllonorycter blancardella (Lepidoptera) relies on bacterial endosymbionts, most likely Wolbachia , to manipulate the physiology of its host plant resulting in the ‘green-island’ phenotype—photosynthetically active green patches in otherwise senescent leaves—and to increase its fitness. Curing leaf-miners of their symbiotic partner resulted in the absence of green-island formation on leaves, increased compensatory larval feeding and higher insect mortality. Our results suggest that bacteria impact green-island induction through manipulation of cytokinin levels. This is the first time, to our knowledge, that insect bacterial endosymbionts have been associated with plant physiology.

Published
2010

352. Exposition to mechanical damage and resistance in spider webs of Thaida peculiaris in a temperate forest, NW Patagonia

Author

Soto, Florencia, Graham, Lucía, and Farji-Brener, Alejandro G.

Subjects
spiders, behavioral flexibility, fenotipo extendido, extended phenotype, Patagonia, flexibilidad comportamental, arañas
Abstract

Las variaciones ambientales pueden generar respuestas plásticas en el comportamiento de los individuos. En este trabajo investigamos si el nivel de exposición al daño mecánico por la caída de material vegetal desde el dosel del bosque afectaba la resistencia de telarañas de Thaida peculiaris, y evaluamos algunos de los posibles mecanismos asociados. Las telarañas ubicadas en sitios expuestos fueron más resistentes, sus hilos soportaron más peso y presentaron un entramado menos denso que las ubicadas en sitios protegidos. Estos resultados sugieren que el riesgo de rotura por daño mecánico es una presión selectiva que determina respuestas plásticas en las construcciones de las telarañas. Discutimos la adecuación de reforzar hilos vs. construir un entramado más denso como mecanismos para mejorar la resistencia de la tela, así como los procesos directos e indirectos mediante los cuales la araña evalúa el nivel de protección de un sitio a daños mecánicos. Este trabajo ilustra cómo los organismos pueden responder plásticamente ante variaciones en el ambiente modificando ciertas características de sus construcciones. Changes in environmental characteristics may generate plastic behavioral responses. We evaluated whether the risk of mechanical damage by the fall of plant material affected the resistance of webs of the spider Thaida peculiaris, and explored some of the associated mechanisms. Compared to protected sites, webs in exposed sites were more resistant, their silk lines supported more weight, and their mesh widths were higher. These results suggest that the risk of mechanical damage is a selective pressure that generates plastic behavioral responses in the building of webs. We discussed the adaptive value of investing in more resistant silk or changing mesh width, and the direct and indirect processes used by spiders to evaluate the protection level of a site. This work illustrates how the organisms may plastically respond to variable environments by modifying certain characteristics of their constructions.

Published
2010

353. Genética de comunidades

Author

Verdú del Campo, Miguel

Subjects
Diversidad de especies, Assembly rules, Fenotipo extendido, Reglas de ensamblaje, Community evolution, Evolución de comunidades, Extended phenotype, Estructura de comunidades, Ecología, Diversidad genética, Genetic diversity, Species diversity, Community structure
Abstract

Los estudios sobre los procesos responsables del ensamblaje de las especies en comunidades ecológicas tradicionalmente han considerado a las especies como unidades de estudio. Sin embargo, dentro de las especies existe gran cantidad de variación genotípica y fenotípica que puede finalmente ser decisiva en el resultado de las interacciones con el resto de especies en la comunidad (competencia, mutualismo, etc.) Recientemente se ha propuesto una nueva regla de ensamblaje de las comunidades que sugiere que la composición genética de una población afecta a la estructura y composición de la comunidad (es decir al fenotipo de la comunidad). Apoyando esta regla, varios estudios han demostrado que los cambios en la diversidad genética de poblaciones de plantas conllevan cambios predecibles en sus comunidades asociadas de herbívoros y predadores. Más allá de la visión poblacional, la nueva genética de comunidades pretende demostrar 1) que el genotipo particular de ciertos individuos es responsable del fenotipo de la comunidad, 2) que el fenotipo de la comunidad es heredable, y por lo tanto 3) que las comunidades evolucionan. Tras explicar estos tres conceptos, se discute el valor que esta aproximación puede tener desde el punto de vista de la biología de la conservación. Studies on the processes driving the assembly of species in ecological communities have traditionally considered the species as units of study. However, there is a large amount of genotypic and phenotypic variation within species that can ultimately be decisive in the outcome of interactions with other species in the community (competition, mutualism, etc..). It has recently been proposed a new community assembly rule suggesting that the genetic composition of a population affects the structure and composition of the community (i.e. the phenotype of the community). Supporting this assembly rule, several studies have shown that changes in the genetic diversity of plant populations produce predictable changes in their associated communities of herbivores and predators. Beyond the population view, the new discipline of community genetics is aimed to demonstrate 1) that the particular genotypes of some individuals are responsible for the phenotype of the community, 2) that the phenotype of the community is heritable and therefore 3) that communities evolve. After explaining these three concepts, I discuss the value that this approach may have from the conservation biology perspective.

Published
2009

354. Community genetics

Author

M. Verdú

Subjects
lcsh:GE1-350, Assembly rules, Fenotipo extendido, Reglas de ensamblaje, Evolución de comunidades, Estructura de comunidades, Ecología, Diversidad genética, Genetic diversity, Community structure, Diversidad de especies, Community evolution, Extended phenotype, lcsh:Environmental sciences, Species diversity
Abstract

Los estudios sobre los procesos responsables del ensamblaje de las especies en comunidades ecológicas tradicionalmente han considerado a las especies como unidades de estudio. Sin embargo, dentro de las especies existe gran cantidad de variación genotípica y fenotípica que puede finalmente ser decisiva en el resultado de las interacciones con el resto de especies en la comunidad (competencia, mutualismo, etc.) Recientemente se ha propuesto una nueva regla de ensamblaje de las comunidades que sugiere que la composición genética de una población afecta a la estructura y composición de la comunidad (es decir al fenotipo de la comunidad). Apoyando esta regla, varios estudios han demostrado que los cambios en la diversidad genética de poblaciones de plantas conllevan cambios predecibles en sus comunidades asociadas de herbívoros y predadores. Más allá de la visión poblacional, la nueva genética de comunidades pretende demostrar 1) que el genotipo particular de ciertos individuos es responsable del fenotipo de la comunidad, 2) que el fenotipo de la comunidad es heredable, y por lo tanto 3) que las comunidades evolucionan. Tras explicar estos tres conceptos, se discute el valor que esta aproximación puede tener desde el punto de vista de la biología de la conservación. Studies on the processes driving the assembly of species in ecological communities have traditionally considered the species as units of study. However, there is a large amount of genotypic and phenotypic variation within species that can ultimately be decisive in the outcome of interactions with other species in the community (competition, mutualism, etc..). It has recently been proposed a new community assembly rule suggesting that the genetic composition of a population affects the structure and composition of the community (i.e. the phenotype of the community). Supporting this assembly rule, several studies have shown that changes in the genetic diversity of plant populations produce predictable changes in their associated communities of herbivores and predators. Beyond the population view, the new discipline of community genetics is aimed to demonstrate 1) that the particular genotypes of some individuals are responsible for the phenotype of the community, 2) that the phenotype of the community is heritable and therefore 3) that communities evolve. After explaining these three concepts, I discuss the value that this approach may have from the conservation biology perspective.

Published
2009

355. Can differential nutrient extraction explain property variations in a predatory trap?

Author

Yi-Hsuan Tseng, Angela Chuang, Søren Toft, Dakota Piorkowski, Sean J. Blamires, and I-Min Tso

Subjects
Spider web, Spider, Multidisciplinary, biology, Ecology, extended phenotype, orb webs, Foraging, Extraction (chemistry), trap-building predator, Biology (Whole Organism), animal architecture, mechanical properties, Trap (plumbing), biology.organism_classification, Predation, Nutrient, Nephila pilipes, nutrient-specific foraging, lcsh:Q, lcsh:Science
Abstract

Predators exhibit flexible foraging to facilitate taking prey that offer important nutrients. Because trap-building predators have limited control over the prey they encounter, differential nutrient extraction and trap architectural flexibility may be used as a means of prey selection. Here, we tested whether differential nutrient extraction induces flexibility in architecture and stickiness of a spider's web by feeding Nephila pilipes live crickets (CC), live flies (FF), dead crickets with the web stimulated by flies (CD) or dead flies with the web stimulated by crickets (FD). Spiders in the CD group consumed less protein per mass of lipid or carbohydrate, and spiders in the FF group consumed less carbohydrates per mass of protein. Spiders from the CD group built stickier webs that used less silk, whereas spiders in the FF group built webs with more radii, greater catching areas and more silk, compared with other treatments. Our results suggest that differential nutrient extraction is a likely explanation for prey-induced spider web architecture and stickiness variations.

Published
2015

356. 'Suicide' of crickets harbouring hairworms: a proteomics investigation

Author

Frédéric Thomas, Joël Poncet, Sam P. Brown, David Biron, Nathalie Galéotti, Laurent Marché, L. Renault, Fleur Ponton, E. Demey-Thomas, Patrick Jouin, Institut de Recherche pour le Développement (IRD), Biologie des organismes et des populations appliquées à la protection des plantes (BIO3P), Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST, Centre National de la Recherche Scientifique (CNRS), Section of Integrative Biology, University of Texas at Austin [Austin], AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Rennes 1 (UR1), and Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Recherche Agronomique (INRA)

Subjects
Male, Proteomics, 0106 biological sciences, Proteome, Orthoptera, [SDV]Life Sciences [q-bio], Molecular Sequence Data, 010603 evolutionary biology, 01 natural sciences, Host-Parasite Interactions, Gryllidae, 03 medical and health sciences, proteomics, Helminths, Genetics, Animals, Parasite hosting, Electrophoresis, Gel, Two-Dimensional, Amino Acid Sequence, Molecular Biology, 030304 developmental biology, RELATION HOTE-PARASITE, 0303 health sciences, biology, Ecology, extended phenotype, Wnt signaling pathway, Helminth Proteins, biology.organism_classification, Phenotype, Paragordius tricuspidatus, Evolutionary biology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Insect Science, parasite manipulation, Insect Proteins, parasite host systems, Function (biology)
Abstract

International audience; Despite increasing evidence of host phenotypic manipulation by parasites, the underlying mechanisms causing infected hosts to act in ways that benefit the parasite remain enigmatic in most cases. Here, we used proteomics tools to identify the biochemical alterations that occur in the head of the cricket Nemobius sylvestris when it is driven to water by the hairworm Paragordius tricuspidatus. We characterized host and parasite proteomes during the expression of the water-seeking behaviour. We found that the parasite produces molecules from the Wnt family that may act directly on the development of the central nervous system (CNS). In the head of manipulated cricket, we found differential expression of proteins specifically linked to neurogenesis, circadian rhythm and neurotransmitter activities. We also detected proteins for which the function(s) are still unknown. This proteomics study on the biochemical pathways altered by hairworms has also allowed us to tackle questions of physiological and molecular convergence in the mechanism(s) causing the alteration of orthoptera behaviour. The two hairworm species produce effective molecules acting directly on the CNS of their orthoptera hosts

Published
2006

357. Phenotypic integration in an extended phenotype: among-individual variation in nest-building traits of the alfalfa leafcutting bee (Megachile rotundata).

Author

Royauté R, Wilson ES, Helm BR, Mallinger RE, Prasifka J, Greenlee KJ, and Bowsher JH

Subjects
Animals, Bees genetics, Female, Models, Biological, Pollen, Bees physiology, Nesting Behavior physiology
Abstract

Structures such as nests and burrows are an essential component of many organisms' life-cycle and require a complex sequence of behaviours. Because behaviours can vary consistently among individuals and be correlated with one another, we hypothesized that these structures would (1) show evidence of among-individual variation, (2) be organized into distinct functional modules and (3) show evidence of trade-offs among functional modules due to limits on energy budgets. We tested these hypotheses using the alfalfa leafcutting bee, Megachile rotundata, a solitary bee and important crop pollinator. Megachile rotundata constructs complex nests by gathering leaf materials to form a linear series of cells in pre-existing cavities. In this study, we examined variation in the following nest construction traits: reproduction (number of cells per nest and nest length), nest protection (cap length and number of leaves per cap), cell construction (cell size and number of leaves per cell) and cell provisioning (cell mass) from 60 nests. We found a general decline in investment in cell construction and provisioning with each new cell built. In addition, we found evidence for both repeatability and plasticity in cell provisioning with little evidence for trade-offs among traits. Instead, most traits were positively, albeit weakly, correlated (r ~ 0.15), and traits were loosely organized into covarying modules. Our results show that individual differences in nest construction are detectable at a level similar to that of other behavioural traits and that these traits are only weakly integrated. This suggests that nest components are capable of independent evolutionary trajectories., (© 2018 European Society For Evolutionary Biology. Journal of Evolutionary Biology © 2018 European Society For Evolutionary Biology.)

Published
2018
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358. Survival of the feces: Does a nematode lungworm adaptively manipulate the behavior of its cane toad host?

Author

Finnerty PB, Shine R, and Brown GP

Abstract

Parasites can enhance their fitness by modifying the behavior of their hosts in ways that increase rates of production and transmission of parasite larvae. We used an antihelminthic drug to experimentally alter infections of lungworms ( Rhabdias pseudosphaerocephala ) in cane toads ( Rhinella marina ). We then compared subsequent behaviors of dewormed toads versus toads that retained infections. Both in the laboratory and in the field, the presence of parasites induced hosts to select higher body temperatures (thereby increasing rates of lungworm egg production), to defecate in moister sites, and to produce feces with higher moisture content (thereby enhancing survival of larvae shed in feces). Because those behavioral modifications enhance rather than decrease parasite fitness, they are likely to have arisen as adaptive manipulations of host behavior rather than as host adaptations to combat infection or as nonadaptive consequences of infection on host physiology. However, the mechanisms by which lungworms alter cane toad thermal preference and defecation are not known. Although many examples of host manipulation by parasites involve intermediate hosts facilitating their own demise, our findings indicate that manipulation of definitive hosts can be as subtle as when and where to defecate.

Published
2018
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359. Plasticity in extended phenotype increases offspring defence despite individual variation in web structure and behaviour.

Author

DiRienzo N and Aonuma H

Abstract

Many animals actively defend their offspring using a range of behaviours from calling and mobbing in birds, to physical grappling in crustaceans, and the expression of these behaviours positively scale with offspring value. While this role of behaviour in defence is well studied, very little is known about how other traits, specifically the structure of architectural constructions such as webs and nests, contribute to offspring defence. Additionally, although some tax a show consistent individual differences in offspring defence behaviour, it is completely unknown whether individuals also differ in defensive structures. We addressed these questions in the redback spider, Latrodectus hasselti , by measuring how a female laying an eggcase influences female behaviour and web structure, and whether those traits scale with relative reproductive investment. Our results show that females modified web structure in response to an eggcase, but only the protective elements of web structure positively scaled with the relative value of that eggcase. Finally, despite the significant correlations, fixed effects (e.g. eggcase possession/value) in the models explained only 5-23% of the variation in behaviour and web structure, while the random effect of individual identity explained 46-65% of the variation. This variation drove moderate to high repeatability estimates across all traits, suggesting that some individuals consistently invest relatively more in defence, while some invest less. These results highlight that extended phenotypic traits may be a critical component of offspring defence in some taxa. Furthermore, individual variation in these traits suggest that different reproductive strategies may exist, whereby some individuals invest more in reproduction at a cost to safety/foraging and vice versa.

Published
2018
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360. Phenotype expansion and development in Kosaki overgrowth syndrome.

Author

Gawliński P, Pelc M, Ciara E, Jhangiani S, Jurkiewicz E, Gambin T, Różdżyńska-Świątkowska A, Dawidziuk M, Coban-Akdemir ZH, Guilbride DL, Muzny D, Lupski JR, and Krajewska-Walasek M

Subjects
Adolescent, Child, Child, Preschool, Exome genetics, Female, Genetic Association Studies, High-Throughput Nucleotide Sequencing, Humans, Male, Megalencephaly physiopathology, Musculoskeletal Abnormalities physiopathology, Mutation, Phenotype, Genetic Predisposition to Disease, Megalencephaly genetics, Musculoskeletal Abnormalities genetics, Receptor, Platelet-Derived Growth Factor beta genetics
Abstract

We expand the Kosaki overgrowth syndrome (KOGS) phenotype by over 70% to include 24 unreported KOGS symptoms, in a first male patient, the third overall associated with the PDGFRB c.1751C>G p.(Pro584Arg) mutation. Eighteen of these symptoms are unique to our patient, the remaining six are shared with other patients. Of the 24 unreported features overall, 6 show marked phenotype evolution and varying time of onset. The triangular face detected at 14 months and long palpebral fissures with lateral ectropion at 4 years are present in other members of the cohort. The remaining 4 are unique to Patient 5: pronounced macrocephaly from birth, increasingly triangular anterior skull from 14 months, camptodactyly, emerging at 4 years and worsening joint contractures from 6 years. Compilation of all new symptoms reported here with published clinical data further identifies at least 18 clinical parameters common to all cases to date, encompassing both known KOGS-associated PDGFRB mutations. We therefore propose a set of 18 core KOGS symptoms, with 16 present in early childhood. These results should also impact diagnostic/prognostic scope, intervention and outcome potential for KOGS patients, particularly for developmentally progressive conditions such as scoliosis and myofibroma., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2018
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361. Parasite-mediated microhabitat segregation between congeneric hosts.

Author

Friesen OC, Poulin R, and Lagrue C

Subjects
Animal Distribution, Animals, Host Specificity, Phenotype, Ecosystem, Isopoda parasitology, Isopoda physiology, Trematoda physiology
Abstract

Parasite-mediated competition can shape community structure and host distribution. If two species compete for resources, parasites may indirectly change the outcome of competition. We tested the role of a trematode parasite in mediating microhabitat use by congeneric isopods Austridotea annectens and Austridotea lacustris Although both isopods share resources, they rarely co-occur in the same discrete microhabitats. We set up mesocosms with and without competition and/or parasites to examine the role of parasites in host distribution and habitat segregation. Austridotea annectens showed a clear preference for one microhabitat type regardless of competition or parasitic infection. By contrast, A. lacustris showed little habitat selection in the absence of competition, but favoured sandy habitats in the presence of uninfected A. annectens and rocky habitats when competing with infected A. annectens Our results suggest that parasites in one species affect the distribution of another species, and mediate competition between these species. We demonstrated the impacts of a parasite on the microhabitat use of its host's competitor. This also represents an example of a super-extended phenotype, where a parasite affects the phenotype of a non-host., (© 2018 The Author(s).)

Published
2018
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362. Neuroparasitology of Parasite-Insect Associations.

Author

Hughes DP and Libersat F

Subjects
Animals, Behavior, Animal, Host-Parasite Interactions, Insecta parasitology, Nervous System parasitology
Abstract

Insect behavior can be manipulated by parasites, and in many cases, such manipulation involves the central and peripheral nervous system. Neuroparasitology is an emerging branch of biology that deals with parasites that can control the nervous system of their host. The diversity of parasites that can manipulate insect behavior ranges from viruses to macroscopic worms and also includes other insects that have evolved to become parasites (notably, parasitic wasps). It is remarkable that the precise manipulation observed does not require direct entry into the insect brain and can even occur when the parasite is outside the body. We suggest that a spatial view of manipulation provides a holistic approach to examining such interactions. Integration across approaches from natural history to advanced imaging techniques, omics, and experiments will provide new vistas in neuroparasitology. We also suggest that for researchers interested in the proximate mechanisms of insect behaviors, studies of parasites that have evolved to control such behavior is of significant value.

Published
2018
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363. The oxidative environment: a mediator of interspecies communication that drives symbiosis evolution

Author

Natacha Kremer, David Monnin, Yves Moné, Biologie et écologie tropicale et méditerranéenne [2007-2010] (BETM), Université de Perpignan Via Domitia (UPVD)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Génétique et évolution des interactions hôtes-parasites, Département génétique, interactions et évolution des génomes [LBBE] (GINSENG), Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS), Agence Nationale de la Recherche [ANR-2010-BLAN-170101/ImmunSymbArt], Marie Curie Actions [FP7-PEOPLE-2010-IOF/272684/SymbiOx], and Université de Perpignan Via Domitia (UPVD)-École pratique des hautes études (EPHE)

Subjects
specificity, Context (language use), Oxidative phosphorylation, Environment, Biology, Models, Biological, General Biochemistry, Genetics and Molecular Biology, Mediator, Symbiosis, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Review Articles, Coevolution, General Environmental Science, resistance/tolerance, symbiotic interactions, oxidative environment, General Immunology and Microbiology, Atmospheric oxygen, Ecology, extended phenotype, [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, General Medicine, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, Biological Evolution, Reactive Nitrogen Species, Evolutionary biology, coevolution, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Reactive Oxygen Species, General Agricultural and Biological Sciences, Oxidation-Reduction, Signalling pathways, Interspecies communication, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis, Signal Transduction
Abstract

International audience; Symbiotic interactions are ubiquitous in nature and play a major role in driving the evolution of life. Interactions between partners are often mediated by shared signalling pathways, which strongly influence both partners' biology and the evolution of the association in various environments. As an example of 'common language', the regulation of the oxidative environment plays an important role in driving the evolution of symbiotic associations. Such processes have been occurring for billions of years, including the increase in Earth's atmospheric oxygen and the subsequent evolution of mitochondria. The effect of reactive oxygen species and reactive nitrogen species (RONS) has been characterized functionally, but the molecular dialogue between partners has not been integrated within a broader evolutionary context yet. Given the pleiotropic role of RONS in cell-cell communication, development and immunity, but also their associated physiological costs, we discuss here how their regulation can influence the establishment, the maintenance and the breakdown of various symbiotic associations. By synthesizing recent developments in redox biology, we aim to provide an interdisciplinary understanding of the influence of such mediators of interspecies communication on the evolution and stability of symbioses, which in turn can shape ecosystems and play a role in health and disease.

Published
2014

364. Gall volatiles defend aphids against a browsing mammal

Author

Daniel Maag, Moshe Inbar, Michael Rostás, and Makihiko Ikegami

Subjects
Intraguild predation, Entomology, Plant defence, media_common.quotation_subject, Insect, Generalist and specialist species, Predation, Botany, Animals, Gall, Capra hircus, Extended phenotype, Herbivory, ddc:576, Ecology, Evolution, Behavior and Systematics, media_common, Volatile Organic Compounds, Herbivore, Aphid, biology, Terpenes, Goats, fungi, food and beverages, biology.organism_classification, Plant Leaves, Aphids, Pistacia, Enemy hypothesis, Tannins, Research Article
Abstract

Background: Plants have evolved an astonishing array of survival strategies. To defend against insects, for example, damaged plants emit volatile organic compounds that attract the herbivore’s natural enemies. So far, plant volatile responses have been studied extensively in conjunction with leaf chewing and sap sucking insects, yet little is known about the relationship between plant volatiles and gall-inducers, the most sophisticated herbivores. Here we describe a new role for volatiles as gall-insects were found to benefit from this plant defence. Results: Chemical analyses of galls triggered by the gregarious aphid Slavum wertheimae on wild pistachio trees showed that these structures contained and emitted considerably higher quantities of plant terpenes than neighbouring leaves and fruits. Behavioural assays using goats as a generalist herbivore confirmed that the accumulated terpenes acted as olfactory signals and feeding deterrents, thus enabling the gall-inducers to escape from inadvertent predation by mammals. Conclusions: Increased emission of plant volatiles in response to insect activity is commonly looked upon as a “cry for help” by the plant to attract the insect’s natural enemies. In contrast, we show that such volatiles can serve as a first line of insect defences that extends the ‘extended phenotype’ represented by galls, beyond physical boundaries. Our data support the Enemy hypothesis insofar that high levels of gall secondary metabolites confer protection against natural enemies.

Published
2013

365. Three-dimensional visualization and a deep-learning model reveal complex fungal parasite networks in behaviorally manipulated ants.

Author

Fredericksen MA, Zhang Y, Hazen ML, Loreto RG, Mangold CA, Chen DZ, and Hughes DP

Subjects
Animals, Ants anatomy & histology, Ants cytology, Behavior, Animal, Hypocreales pathogenicity, Hypocreales physiology, Image Processing, Computer-Assisted statistics & numerical data, Imaging, Three-Dimensional, Mandible microbiology, Muscles ultrastructure, Ants microbiology, Host-Pathogen Interactions, Hypocreales ultrastructure, Machine Learning, Muscles microbiology
Abstract

Some microbes possess the ability to adaptively manipulate host behavior. To better understand how such microbial parasites control animal behavior, we examine the cell-level interactions between the species-specific fungal parasite Ophiocordyceps unilateralis sensu lato and its carpenter ant host ( Camponotus castaneus ) at a crucial moment in the parasite's lifecycle: when the manipulated host fixes itself permanently to a substrate by its mandibles. The fungus is known to secrete tissue-specific metabolites and cause changes in host gene expression as well as atrophy in the mandible muscles of its ant host, but it is unknown how the fungus coordinates these effects to manipulate its host's behavior. In this study, we combine techniques in serial block-face scanning-electron microscopy and deep-learning-based image segmentation algorithms to visualize the distribution, abundance, and interactions of this fungus inside the body of its manipulated host. Fungal cells were found throughout the host body but not in the brain, implying that behavioral control of the animal body by this microbe occurs peripherally. Additionally, fungal cells invaded host muscle fibers and joined together to form networks that encircled the muscles. These networks may represent a collective foraging behavior of this parasite, which may in turn facilitate host manipulation., Competing Interests: The authors declare no conflict of interest., (Copyright © 2017 the Author(s). Published by PNAS.)

Published
2017
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366. Should studies on Glanzmann thrombasthenia not be telling us more about cardiovascular disease and other major illnesses?

Author

Nurden AT

Subjects
Animals, Blood Coagulation, Blood Platelets metabolism, Cardiovascular Diseases blood, Cardiovascular Diseases diagnosis, Cardiovascular Diseases metabolism, Fibrinolysis, Genetic Association Studies, Genotype, Humans, Integrin alphaVbeta3 genetics, Integrin alphaVbeta3 metabolism, Mutation, Phenotype, Platelet Glycoprotein GPIIb-IIIa Complex genetics, Platelet Glycoprotein GPIIb-IIIa Complex metabolism, Polymorphism, Genetic, Thrombasthenia blood, Cardiovascular Diseases etiology, Disease Susceptibility, Thrombasthenia complications, Thrombasthenia genetics
Abstract

Glanzmann thrombasthenia (GT) is a rare inherited bleeding disorder caused by loss of αIIbβ3 integrin function in platelets. Most genetic variants of β3 also affect the widely expressed αvβ3 integrin. With brief mention of mouse models, I now look at the consequences of disease-causing ITGA2B and ITGB3 mutations on the non-hemostatic functions of platelets and other cells. Reports of arterial thrombosis in GT patients are rare, but other aspects of cardiovascular disease do occur including deep vein thrombosis and congenital heart defects. Thrombophilic and other risk factors for thrombosis and lessons from heterozygotes and variant forms of GT are discussed. Assessed for GT patients are reports of leukemia and cancer, loss of fertility, bone pathology, inflammation and wound repair, infections, kidney disease, autism and respiratory disease. This survey shows an urgent need for a concerted international effort to better determine how loss of αIIbβ3 and αvβ3 influences health and disease., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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367. Diet-induced co-variation between architectural and physicochemical plasticity in an extended phenotype.

Author

Blamires SJ, Hasemore M, Martens PJ, and Kasumovic MM

Subjects
Adhesiveness, Animal Feed analysis, Animal Nutritional Physiological Phenomena, Animals, Diet, Energy Metabolism, Feeding Behavior, Female, Silk metabolism, Spiders chemistry, Predatory Behavior, Silk chemistry, Spiders physiology
Abstract

The adaptive benefits of extended phenotypic plasticity are imprecisely defined due to a paucity of experiments examining traits that are manipulable and measurable across environments. Spider webs are often used as models to explore the adaptive benefits of variations in extended phenotypes across environments. Nonetheless, our understanding of the adaptive nature of the plastic responses of spider webs is impeded when web architectures and silk physicochemical properties appear to co-vary. An opportunity to examine this co-variation is presented by modifying prey items while measuring web architectures and silk physiochemical properties. Here, we performed two experiments to assess the nature of the association between web architectures and gluey silk properties when the orb web spider Argiope keyserlingi was fed a diet that varied in either mass and energy or prey size and feeding frequency. We found web architectures and gluey silk physicochemical properties to co-vary across treatments in both experiments. Specifically, web capture area co-varied with gluey droplet morphometrics, thread stickiness and salt concentrations when prey mass and energy were manipulated, and spiral spacing co-varied with gluey silk salt concentrations when prey size and feeding frequency were manipulated. We explained our results as A. keyserlingi plastically shifting its foraging strategy as multiple prey parameters simultaneously varied. We confirmed and extended previous work by showing that spiders use a variety of prey cues to concurrently adjust web and silk traits across different feeding regimes., (© 2017. Published by The Company of Biologists Ltd.)

Published
2017
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368. Parallel evolution of mound-building and grass-feeding in Australian nasute termites.

Author

Arab DA, Namyatova A, Evans TA, Cameron SL, Yeates DK, Ho SY, and Lo N

Subjects
Animals, Australia, Feeding Behavior, Isoptera genetics, Mitochondria genetics, Nesting Behavior, Phylogeny, Poaceae, Trees, Wood, Biological Evolution, Isoptera physiology
Abstract

Termite mounds built by representatives of the family Termitidae are among the most spectacular constructions in the animal kingdom, reaching 6-8 m in height and housing millions of individuals. Although functional aspects of these structures are well studied, their evolutionary origins remain poorly understood. Australian representatives of the termitid subfamily Nasutitermitinae display a wide variety of nesting habits, making them an ideal group for investigating the evolution of mound building. Because they feed on a variety of substrates, they also provide an opportunity to illuminate the evolution of termite diets. Here, we investigate the evolution of termitid mound building and diet, through a comprehensive molecular phylogenetic analysis of Australian Nasutitermitinae. Molecular dating analysis indicates that the subfamily has colonized Australia on three occasions over the past approximately 20 Myr. Ancestral-state reconstruction showed that mound building arose on multiple occasions and from diverse ancestral nesting habits, including arboreal and wood or soil nesting. Grass feeding appears to have evolved from wood feeding via ancestors that fed on both wood and leaf litter. Our results underscore the adaptability of termites to ancient environmental change, and provide novel examples of parallel evolution of extended phenotypes., (© 2017 The Author(s).)

Published
2017
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369. Termites promote resistance of decomposition to spatiotemporal variability in rainfall.

Author

Veldhuis MP, Laso FJ, Olff H, and Berg MP

Subjects
Animals, Climate Change, Environment, Soil, Ecosystem, Isoptera physiology, Rain chemistry
Abstract

The ecological impact of rapid environmental change will depend on the resistance of key ecosystems processes, which may be promoted by species that exert strong control over local environmental conditions. Recent theoretical work suggests that macrodetritivores increase the resistance of African savanna ecosystems to changing climatic conditions, but experimental evidence is lacking. We examined the effect of large fungus-growing termites and other non-fungus-growing macrodetritivores on decomposition rates empirically with strong spatiotemporal variability in rainfall and temperature. Non-fungus-growing larger macrodetritivores (earthworms, woodlice, millipedes) promoted decomposition rates relative to microbes and small soil fauna (+34%) but both groups reduced their activities with decreasing rainfall. However, fungus-growing termites increased decomposition rates strongest (+123%) under the most water-limited conditions, making overall decomposition rates mostly independent from rainfall. We conclude that fungus-growing termites are of special importance in decoupling decomposition rates from spatiotemporal variability in rainfall due to the buffered environment they create within their extended phenotype (mounds), that allows decomposition to continue when abiotic conditions outside are less favorable. This points at a wider class of possibly important ecological processes, where soil-plant-animal interactions decouple ecosystem processes from large-scale climatic gradients. This may strongly alter predictions from current climate change models., (© 2016 by the Ecological Society of America.)

Published
2017
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370. Biodiversity in agricultural landscapes: The effect of apple cultivar on epiphyte diversity.

Author

Stevenson CR, Davies C, and Rowntree JK

Abstract

In natural systems, extended phenotypes of trees can be important in determining the species composition and diversity of associated communities. Orchards are productive systems where trees dominate, and can be highly biodiverse, but few studies have considered the importance of tree genetic background in promoting associated biodiversity. We tested the effect of apple cultivar (plant genetic background) on the diversity and composition of the associated epiphytic bryophyte community across a total of seven cultivars in five productive East Anglian orchards where each orchard contained two cultivars. Data were collected from 617 individual trees, over 5 years. Species richness and community composition were significantly influenced by both orchard and cultivar. Differences among orchards explained 16% of the variation in bryophyte community data, while cultivar explained 4%. For 13 of the 41 bryophyte species recorded, apple cultivar was an important factor in explaining their distribution. While the effects of cultivar were small, we were able to detect them at multiple levels of analysis. We provide evidence that extended phenotypes act in productive as well as natural systems. With issues of food security ranking high on the international agenda, it is important to understand the impact of production regimes on associated biodiversity. Our results can inform mitigation of this potential conflict.

Published
2017
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371. Peromyscus burrowing: A model system for behavioral evolution.

Author

Hu CK and Hoekstra HE

Subjects
Animals, Nervous System metabolism, Peromyscus genetics, Behavior, Animal physiology, Biological Evolution, Models, Animal, Peromyscus physiology
Abstract

A major challenge to understanding the genetic basis of complex behavioral evolution is the quantification of complex behaviors themselves. Deer mice of the genus Peromyscus vary in their burrowing behavior, which leaves behind a physical trace that is easily preserved and measured. Moreover, natural burrowing behaviors are recapitulated in the lab, and there is a strong heritable component. Here we discuss potential mechanisms driving variation in burrows with an emphasis on two sister species: P. maniculatus, which digs a simple, short burrow, and P. polionotus, which digs a long burrow with a complex architecture. A forward-genetic cross between these two species identified several genomic regions associated with burrow traits, suggesting this complex behavior has evolved in a modular fashion. Because burrow differences are most likely due to differences in behavioral circuits, Peromyscus burrowing offers an exciting opportunity to link genetic variation between natural populations to evolutionary changes in neural circuits., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2017
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372. Behavioral mechanisms and morphological symptoms of zombie ants dying from fungal infection

Author

Winanda Himaman, Jacobus J. Boomsma, Sandra B. Andersen, David P. Hughes, Nigel L. Hywel-Jones, and Johan Billen

Subjects
Ophiocordyceps, Soil surface, parasites, Host-Parasite Interactions, Environmental Science(all), Convergent evolution, Parasite hosting, Animals, convergent evolution, behavioral manipulation, QH540-549.5, Ecology, Evolution, Behavior and Systematics, General Environmental Science, Ecology, biology, Behavior, Animal, Host (biology), Ants, extended phenotype, fungi, food and beverages, Understory, biology.organism_classification, Thailand, ANT, Mycoses, Hypocreales, Ophiocordyceps unilateralis, Research Article
Abstract

Background Parasites that manipulate host behavior can provide prominent examples of extended phenotypes: parasite genomes controlling host behavior. Here we focus on one of the most dramatic examples of behavioral manipulation, the death grip of ants infected by Ophiocordyceps fungi. We studied the interaction between O. unilateralis s.l. and its host ant Camponotus leonardi in a Thai rainforest, where infected ants descend from their canopy nests down to understory vegetation to bite into abaxial leaf veins before dying. Host mortality is concentrated in patches (graveyards) where ants die on sapling leaves ca. 25 cm above the soil surface where conditions for parasite development are optimal. Here we address whether the sequence of ant behaviors leading to the final death grip can also be interpreted as parasite adaptations and describe some of the morphological changes inside the heads of infected workers that mediate the expression of the death grip phenotype. Results We found that infected ants behave as zombies and display predictable stereotypical behaviors of random rather than directional walking, and of repeated convulsions that make them fall down and thus precludes returning to the canopy. Transitions from erratic wandering to death grips on a leaf vein were abrupt and synchronized around solar noon. We show that the mandibles of ants penetrate deeply into vein tissue and that this is accompanied by extensive atrophy of the mandibular muscles. This lock-jaw means the ant will remain attached to the leaf after death. We further present histological data to show that a high density of single celled stages of the parasite within the head capsule of dying ants are likely to be responsible for this muscular atrophy. Conclusions Extended phenotypes in ants induced by fungal infections are a complex example of behavioral manipulation requiring coordinated changes of host behavior and morphology. Future work should address the genetic basis of such extended phenotypes.

Published
2011

373. Does the whistling thorn acacia (Acacia drepanolobium) use auditory aposematism to deter mammalian herbivores?

Author

Lev-Yadun S

Subjects
Animals, Ants pathogenicity, Feeding Behavior physiology, Mammals, Acacia physiology, Biological Mimicry physiology, Herbivory physiology
Abstract

Auditory signaling including aposematism characterizes many terrestrial animals. Auditory aposematism by which certain animals use auditory aposematic signals to fend off enemies is well known for instance in rattlesnakes. Auditory signaling by plants toward animals and other plants is an emerging area of plant biology that still suffers from limited amount of solid data. Here I propose that auditory aposematism operates in the African whistling thorn acacia (Acacia drepanolobium = Vachellia drepanolobium). In this tree, the large and hollow thorn bases whistle when wind blows. This type of aposematism compliments the well-known conspicuous thorn and mutualistic ant based aposematism during day and may operate during night when the conspicuous thorns are invisible.

Published
2016
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374. From So Simple a Beginning: The Evolution of Behavioral Manipulation by Fungi.

Author

Hughes DP, Araújo JP, Loreto RG, Quevillon L, de Bekker C, and Evans HC

Subjects
Adaptation, Biological, Animals, Ants microbiology, Ants physiology, Behavior Control, Biodiversity, Hypocreales pathogenicity, Hypocreales physiology, Insecta microbiology, Phylogeny, Behavior, Animal, Fungi pathogenicity, Host-Pathogen Interactions physiology, Insecta physiology
Abstract

Parasites can manipulate the behavior of their hosts in ways that increase either their direct fitness or transmission to new hosts. The Kingdom Fungi have evolved a diverse array of strategies to manipulate arthropod behavior resulting in some of the most complex and impressive examples of behavioral manipulation by parasites. Here we provide an overview of these different interactions and discuss them from an evolutionary perspective. We discuss parasite manipulation within the context of Niko Tinbergen's four questions (function, phylogeny, causation, and ontogeny) before detailing the proximate mechanisms by which fungi control arthropod behavior and the evolutionary pathways to such adaptations. We focus on some systems for which we have recently acquired new knowledge (such as the zombie ant fungus, Ophiocordyceps unilateralis s.l.), but a major goal is also to highlight how many interesting examples remain to be discovered and investigated. With this in mind, we also discuss likely examples of manipulated spiders that are largely unexplored ("zombie spiders"). Armed with advanced tools in evolutionary biology (from serial block face SEM to RNAseq) we can discover how the fungi, a group of microbes capable of coordinated activity, have evolved the ability to direct animal behavior. In short, we have the ability to understand how the organism without the brain controls the one with the brain. We hope such a goal, coupled with the knowledge that many diverse examples of control exist, will inspire other organismal biologists to study the complex adaptations that have arisen from "so simple a beginning.", (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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375. Evolution of acquiescence to manipulation

Author

González-Forero, Mauricio

Subjects
Manipulation, altruism, extended phenotype, indirect genetic effects, eusociality, mathematical model, Behavior and Ethology, Evolution, Zoology
Abstract

A productive framework to study phenotypic evolution is based on the notion of ``inclusive fitness'', which considers how an individual's phenotype affects the fitness of other individuals. A promising extension of the notion of inclusive fitness is that of the ``extended phenotype'', which considers how an individual's phenotype affects its environment, including the phenotype of other individuals. Affecting another individual's phenotype is sometimes referred to as manipulation (which introduces indirect genetic effects). However, manipulated individuals may evolve resistance to manipulation, possibly reducing or eliminating the manipulated behavior (and the indirect genetic effects). In this dissertation I use mathematical modeling to identify different ways in which acquiescence (i.e., no resistance) to manipulation evolves. In Chapter 1, I show how costs of resistance may cause the evolution of acquiescence. In Chapter 2, I find that manipulation may cause the evolution of social efficiency, which can eliminate selection for resistance. In Chapter 3, I obtain that manipulation causes the evolution of maternal exploitation, which can also eliminate selection for resistance. In Appendices I-III, I present population genetics models of maternal manipulation that prompted the general models of chapters 1-3. Together, the results presented in this dissertation suggest that manipulation may be a particularly powerful promoter of stable social behavior.

Published
2013

376. The parasite's long arm: a tapeworm parasite induces behavioural changes in uninfected group members of its social host.

Author

Beros S, Jongepier E, Hagemeier F, and Foitzik S

Subjects
Aggression physiology, Animals, Germany, Ants parasitology, Ants physiology, Host-Parasite Interactions, Platyhelminths physiology
Abstract

Parasites can induce alterations in host phenotypes in order to enhance their own survival and transmission. Parasites of social insects might not only benefit from altering their individual hosts, but also from inducing changes in uninfected group members. Temnothorax nylanderi ant workers infected with the tapeworm Anomotaenia brevis are known to be chemically distinct from nest-mates and do not contribute to colony fitness, but are tolerated in their colonies and well cared for. Here, we investigated how tapeworm- infected workers affect colony aggression by manipulating their presence in ant colonies and analysing whether their absence or presence resulted in behavioural alterations in their nest-mates. We report a parasite-induced shift in colony aggression, shown by lower aggression of uninfected nest-mates from parasitized colonies towards conspecifics, potentially explaining the tolerance towards infected ants. We also demonstrate that tapeworm-infected workers showed a reduced flight response and higher survival, while their presence caused a decrease in survival of uninfected nest-mates. This anomalous behaviour of infected ants, coupled with their increased survival, could facilitate the parasites' transmission to its definitive hosts, woodpeckers. We conclude that parasites exploiting individuals that are part of a society not only induce phenotypic changes within their individual hosts, but in uninfected group members as well., (© 2015 The Author(s).)

Published
2015
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377. The transcriptomic and evolutionary signature of social interactions regulating honey bee caste development.

Author

Vojvodic S, Johnson BR, Harpur BA, Kent CF, Zayed A, Anderson KE, and Linksvayer TA

Abstract

The caste fate of developing female honey bee larvae is strictly socially regulated by adult nurse workers. As a result of this social regulation, nurse-expressed genes as well as larval-expressed genes may affect caste expression and evolution. We used a novel transcriptomic approach to identify genes with putative direct and indirect effects on honey bee caste development, and we subsequently studied the relative rates of molecular evolution at these caste-associated genes. We experimentally induced the production of new queens by removing the current colony queen, and we used RNA sequencing to study the gene expression profiles of both developing larvae and their caregiving nurses before and after queen removal. By comparing the gene expression profiles of queen-destined versus worker-destined larvae as well as nurses observed feeding these two types of larvae, we identified larval and nurse genes associated with caste development. Of 950 differentially expressed genes associated with caste, 82% were expressed in larvae with putative direct effects on larval caste, and 18% were expressed in nurses with putative indirect effects on caste. Estimated selection coefficients suggest that both nurse and larval genes putatively associated with caste are rapidly evolving, especially those genes associated with worker development. Altogether, our results suggest that indirect effect genes play important roles in both the expression and evolution of socially influenced traits such as caste.

Published
2015
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378. Can differential nutrient extraction explain property variations in a predatory trap?

Author

Blamires SJ, Piorkowski D, Chuang A, Tseng YH, Toft S, and Tso IM

Abstract

Predators exhibit flexible foraging to facilitate taking prey that offer important nutrients. Because trap-building predators have limited control over the prey they encounter, differential nutrient extraction and trap architectural flexibility may be used as a means of prey selection. Here, we tested whether differential nutrient extraction induces flexibility in architecture and stickiness of a spider's web by feeding Nephila pilipes live crickets (CC), live flies (FF), dead crickets with the web stimulated by flies (CD) or dead flies with the web stimulated by crickets (FD). Spiders in the CD group consumed less protein per mass of lipid or carbohydrate, and spiders in the FF group consumed less carbohydrates per mass of protein. Spiders from the CD group built stickier webs that used less silk, whereas spiders in the FF group built webs with more radii, greater catching areas and more silk, compared with other treatments. Our results suggest that differential nutrient extraction is a likely explanation for prey-induced spider web architecture and stickiness variations.

Published
2015
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379. Plant genotype and environment interact to influence soil carbon and nitrogen dynamics

Author

Pregitzer, Clara Christina

Subjects
environmental variation, extended phenotype, genetic by environment interactions, genetic variation, intraspecific variation, Populus, Terrestrial and Aquatic Ecology
Abstract

Abiotic and biotic variation has been shown to be important in regulating nutrient cycling and belowground communities in natural systems. However, genetic variation in dominant plants as a driver of rates of nutrient cycling is still poorly understood and few studies have looked at genotype interactions across multiple environments. Using Populus angustifolia and a common garden approach, we hypothesized that all three factors: tree genetic variation, environmental conditions and genetic by environment (G x E) interactions would affect soil carbon (C) storage and nitrogen (N) cycling. Replicated copies of five different reciprocally planted Populus genotypes were studied in three separate 18-21 year old common gardens at different elevations (1300m, 1384m and 1587m) in northern Utah, to measure the genotype and environmental effects on pools of soil C and N as well as rates of soil net N nitrification and net mineralization. Our results indicate that genotypes influence pools of soil C, total N and C:N, but genotype did not influence net rates of nitrogen mineralization. Environmental variation significantly influenced pools of soil C, total N, soil C:N and rates of net nitrification and net N mineralization. As predicted, G x E interactions significantly influenced both pools and processes of soil C and N cycling. Overall, we found that genetic variation in plant traits (tree diameter and leaf/root chemistry) as well as soil texture across gardens were significant predictors of soil C and N pools and fluxes across seasons. These data help us understand the relative role of genotypic variation on above- and belowground interactions in different environments and the consequences of these interactions on ecosystem processes. The results from this study show that across an environmental gradient Populus angustifolia genotypes can influence nitrogen mineralization through feedbacks between environmental variation, tree phenotype and soils.

Published
2010

380. Altering an extended phenotype reduces intraspecific male aggression and can maintain diversity in cichlid fish.

Author

Magalhaes IS, Croft GE, and Joyce DA

Abstract

Reduced male aggression towards different phenotypes generating negative frequency-dependent intrasexual selection has been suggested as a mechanism to facilitate the invasion and maintenance of novel phenotypes in a population. To date, the best empirical evidence for the phenomenon has been provided by laboratory studies on cichlid fish with different colour polymorphisms. Here we experimentally tested the hypothesis in a natural population of Lake Malawi cichlid fish, in which males build sand-castles (bowers) to attract females during seasonal leks. We predicted that if bower shape plays an important role in male aggressive interactions, aggression among conspecific males should decrease when their bower shape is altered. Accordingly, we allocated randomly chosen bowers in a Nyassachromis cf. microcephalus lek into three treatments: control, manipulated to a different shape, and simulated manipulation. We then measured male behaviours and bower shape before and after these treatments. We found that once bower shape was altered, males were involved in significantly fewer aggressive interactions with conspecific males than before manipulation. Mating success was not affected. Our results support the idea that an extended phenotype, such as bower shape, can be important in maintaining polymorphic populations. Specifically, reduced male conspecific aggression towards males with different extended phenotypes (here, bower shapes) may cause negative frequency-dependent selection, allowing the invasion and establishment of a new phenotype (bower builder). This could help our understanding of mechanisms of diversification within populations, and in particular, the overall diversification of bower shapes within Lake Malawi cichlids.

Published
2013
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381. The microbe-free plant: fact or artifact?

Author

Partida-Martínez LP and Heil M

Abstract

Plant-microbe interactions are ubiquitous. Plants are threatened by pathogens, but they are even more commonly engaged in neutral or mutualistic interactions with microbes: belowground microbial plant associates are mycorrhizal fungi, Rhizobia, and plant-growth promoting rhizosphere bacteria, aboveground plant parts are colonized by internally living bacteria and fungi (endophytes) and by microbes in the phyllosphere (epiphytes). We emphasize here that a completely microbe-free plant is an exotic exception rather than the biologically relevant rule. The complex interplay of such microbial communities with the host-plant affects multiple vital parameters such as plant nutrition, growth rate, resistance to biotic and abiotic stressors, and plant survival and distribution. The mechanisms involved reach from direct ones such as nutrient acquisition, the production of plant hormones, or direct antibiosis, to indirect ones that are mediated by effects on host resistance genes or via interactions at higher trophic levels. Plant-associated microbes are heterotrophic and cause costs to their host plant, whereas the benefits depend on the current environment. Thus, the outcome of the interaction for the plant host is highly context dependent. We argue that considering the microbe-free plant as the "normal" or control stage significantly impairs research into important phenomena such as (1) phenotypic and epigenetic plasticity, (2) the "normal" ecological outcome of a given interaction, and (3) the evolution of plants. For the future, we suggest cultivation-independent screening methods using direct PCR from plant tissue of more than one fungal and bacterial gene to collect data on the true microbial diversity in wild plants. The patterns found could be correlated to host species and environmental conditions, in order to formulate testable hypotheses on the biological roles of plant endophytes in nature. Experimental approaches should compare different host-endophyte combinations under various relevant environmental conditions and study at the genetic, epigenetic, transcriptional, and physiological level the parameters that cause the interaction to shift along the mutualism-parasitism continuum.

Published
2011
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382. Convergent evolution of levee building behavior among distantly related ant species in a floodplain ant assemblage

Author

Mark W. Moffett, Edward G. LeBrun, and David A. Holway

Subjects
geography, geography.geographical_feature_category, Floodplain, Nest flooding, Ecology, Foraging, Flooding (psychology), Ant colony, Biology, Levees, Nest, Convergent evolution, Insect Science, Ecosystem, Extended phenotype, Levee, Formicidae, Ecology, Evolution, Behavior and Systematics, Research Article
Abstract

Flooding impacts ground nesting ant colonies by destroying the infrastructure housing and organizing societal function. Here, we report the convergent evolution in distantly related ant species of a behavioral trait that minimizes costs of flooding: the construction of earthen levees around nest entrances. In a South American floodplain ecosystem, we observed five ant species constructing prominent earthen berms encircling nest entrances shortly after large rainfall events. In four of these species, experimental flooding of nests demonstrated that earthen berms sufficed to prevent floodwaters from entering the below ground portions of the nest. Additional manipulations revealed that levee breaching caused, pronounced, and extended reductions in food collection for two distantly related species. Foraging was preempted by the allocation of workers to repair the internal structure of the nest. These findings represent convergent evolution of a functionally important nest construction behavior in response to comparable selective forces.

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384. Quantitative trait loci for key defensive compounds affecting herbivory of eucalypts in Australia

Author

Freeman, JS, O’Reilly-Wapstra, J, Vaillancourt, RE, Wiggins, NL, Potts, BM, Freeman, JS, O’Reilly-Wapstra, J, Vaillancourt, RE, Wiggins, NL, and Potts, BM

Abstract

• Formylated phloroglucinols (FPCs) are key defensive compounds that influence herbivory by mammals and arthropods in eucalypts. However, the genetic architecture underlying variation in their levels remains poorly understood. • Quantitative trait loci (QTL) analysis for the concentrations of two major FPCs, sideroxylonal A and macrocarpal G, was conducted using juvenile leaves from 112 clonally duplicated progenies from an outcross F2 of Eucalyptus globulus. • Two unlinked QTL were located for macrocarpal, while another unlinked QTL was located for sideroxylonal. The sideroxylonal QTL collocated with one for total sideroxylonal previously reported using adult Eucalyptus nitens foliage, providing independent validation in a different evolutionary lineage and a different ontogenetic stage. • Given the potential widespread occurrence of these QTL, their ontogenetic stability, and their impact on a range of dependent herbivores, it is possible that they have extended phenotypic effects in the Australian forest landscape.

385. Quantitative trait loci for key defensive compounds affecting herbivory of eucalypts in Australia

Author

Freeman, JS, O’Reilly-Wapstra, J, Vaillancourt, RE, Wiggins, NL, Potts, BM, Freeman, JS, O’Reilly-Wapstra, J, Vaillancourt, RE, Wiggins, NL, and Potts, BM

Abstract

• Formylated phloroglucinols (FPCs) are key defensive compounds that influence herbivory by mammals and arthropods in eucalypts. However, the genetic architecture underlying variation in their levels remains poorly understood. • Quantitative trait loci (QTL) analysis for the concentrations of two major FPCs, sideroxylonal A and macrocarpal G, was conducted using juvenile leaves from 112 clonally duplicated progenies from an outcross F2 of Eucalyptus globulus. • Two unlinked QTL were located for macrocarpal, while another unlinked QTL was located for sideroxylonal. The sideroxylonal QTL collocated with one for total sideroxylonal previously reported using adult Eucalyptus nitens foliage, providing independent validation in a different evolutionary lineage and a different ontogenetic stage. • Given the potential widespread occurrence of these QTL, their ontogenetic stability, and their impact on a range of dependent herbivores, it is possible that they have extended phenotypic effects in the Australian forest landscape.

386. Quantitative trait loci for key defensive compounds affecting herbivory of eucalypts in Australia

Author

Freeman, JS, O’Reilly-Wapstra, J, Vaillancourt, RE, Wiggins, NL, Potts, BM, Freeman, JS, O’Reilly-Wapstra, J, Vaillancourt, RE, Wiggins, NL, and Potts, BM

Abstract

• Formylated phloroglucinols (FPCs) are key defensive compounds that influence herbivory by mammals and arthropods in eucalypts. However, the genetic architecture underlying variation in their levels remains poorly understood. • Quantitative trait loci (QTL) analysis for the concentrations of two major FPCs, sideroxylonal A and macrocarpal G, was conducted using juvenile leaves from 112 clonally duplicated progenies from an outcross F2 of Eucalyptus globulus. • Two unlinked QTL were located for macrocarpal, while another unlinked QTL was located for sideroxylonal. The sideroxylonal QTL collocated with one for total sideroxylonal previously reported using adult Eucalyptus nitens foliage, providing independent validation in a different evolutionary lineage and a different ontogenetic stage. • Given the potential widespread occurrence of these QTL, their ontogenetic stability, and their impact on a range of dependent herbivores, it is possible that they have extended phenotypic effects in the Australian forest landscape.

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