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The importance of ants in cave ecology, with new records and behavioral observations of ants in Arizona cavesPape, Robert 09 1900 (has links)
The importance of ants as elements in cave ecology has been mostly unrecognized. A global list of ant species recorded from caves, compiled from a review of existing literature, is presented. This paper also reviews what is currently known about ants occurring in Arizona ( USA) caves. The diversity and distribution represented in these records suggests ants are relatively common cave visitors (trogloxenes). A general utilization of caves by ants within both temperate and tropical latitudes may be inferred from this combined evidence. Observations of ant behavior in Arizona caves demonstrate a low level and sporadic, but persistent, use of these habitats and their contained resources by individual ant colonies. Documentation of Neivamyrmex sp. preying on cave-inhabiting arthropods is reported here for the first time. Observations of hypogeic army ants in caves suggests they may not penetrate to great vertical depth in search of prey, but can be persistent occupants in relatively shallow, horizontal sections of caves where they may prey on endemic cave animals. First cave records for ten ant species are reported from Arizona caves. These include two species of Neivamyrmex (N. nigrescens Cresson and Neivamyrmex sp.; Formicidae: Dorylinae), four myrmicines (Pheidole portalensis Wilson, Pheidole cf. porcula Wheeler, Solenopsis aurea Wheeler and Stenamma sp. Westwood), one dolichoderine (Forelius keiferi Wheeler) and three formicines (Lasius arizonicus Wheeler, L. sitiens Wilson, and Camponotus sp. Mayr).
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Chemicals on the cuticle of ants : their role in hygiene, navigation and kairomone signalling to termitesGallagher, Alan January 2018 (has links)
This thesis describes investigations of how chemicals present on the cuticle of ants impact three important features of social living in insects: hygiene and disease resistance; navigation; and interspecies chemical signalling. Eusociality brings many benefits, but also has the potential to make insect colonies vulnerable to disease. In Chapter 2 of this thesis I investigate the role of the antimicrobial agent micromolide, in the Yellow meadow ant, Lasius flavus. Micromolide is found to be present on the cuticle of L. flavus workers, and is also found to be deposited onto a substrate by walking ants, revealing a possible mechanism for maintenance of sanitary nest conditions. Chapter 3 of this thesis focuses on navigation in L. flavus, specifically route-memory formation and the possibility of home-range markings providing a chemical cue via which ants can navigate from a food source to the nest. It was found that allowing ants to follow a pheromone trail to food increased the number of navigational errors made by returning ants, and that home-range markings did not provide effective guidance to ants returning to the nest. In Chapter 4, I report on a project undertaken during field work in Brazil into how cuticular hydrocarbons (CHCs) of the ant Camponotus arborious can act as kairomones when detected by Nasutitermes corniger, a common termite species. Experiments showed that N. corniger is less likely to repair experimentally opened tunnels in the presence of C. arborious CHCs, with 4 of 7 colonies tested blocking up tunnels, rather than rebuilding over CHC marked areas. Finally, Chapter 5 of this thesis discusses potential future projects, following on from the work presented in Chapters 2, 3 and 4.
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Caste and task allocation in antsNorman, Victoria Catherine January 2016 (has links)
Group living is a widely adopted strategy by many organisms and given the advantages offered by a social lifestyle, such as increased protection from predators or increased ability for resource exploitation, a wide variety of animals have adopted a social lifestyle. Arguably none have done this more successfully than the social insects. Indeed their efficient division of labour is often cited as a key attribute for the remarkable ecological and evolutionary success of these societies. Within the social insects the most obvious division of labour is reproductive, in which one or a few individuals monopolise reproduction while the majority of essentially sterile workers carry out the remaining tasks essential for colony survival. In almost all social insects, in particular ants, the age of a worker will predispose it to certain tasks, and in some social insects the workers vary in size such that task is associated with worker morphology. In this thesis I explore the proximate and ultimate causes of worker and reproductive division of labour in ant societies, which span a range of social complexities. I predominantly focus on both the highly derived leaf-cutting ants – a so-called ‘pinnacle' of evolution within the social insects, with a complex division of labour and a strong worker caste system – and in the more basal primitive societies of the queenless ponerine dinosaur ants, which can offer an insight in to the evolution of division of labour at the earliest stages of social lifestyles. This work demonstrates the environmental and genetic determinants of division of labour in group-living societies outside of the classical honey bee model system. This is important as it helps us to better understand the broader processes shaping behaviour and phenotype in the animal kingdom.
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Organisation of foraging in antsCzaczkes, Tomer Joseph January 2012 (has links)
In social insects, foraging is often cooperative, and so requires considerable organisation. In most ants, organisation is a bottom-up process where decisions taken by individuals result in emergent colony level patterns. Individuals base their decisions on their internal state, their past experience, and their environment. By depositing trail pheromones, for example, ants can alter the environment, and thus affect the behaviour of their nestmates. The development of emergent patterns depends on both how individuals affect the environment, and how they react to changes in the environment. Chapters 4 – 9 investigate the role of trail pheromones and route memory in the ant Lasius niger. Route memories can form rapidly and be followed accurately, and when route memories and trail pheromones contradict each other, ants overwhelmingly follow route memories (chapter 4). Route memories and trail pheromones can also interact synergistically, allowing ants to forage faster without sacrificing accuracy (chapter 5). Home range markings also interact with other information sources to affect ant behaviour (chapter 6). Trail pheromones assist experienced ants when facing complex, difficult-to-learn routes (chapter 7). When facing complicated routes, ants deposit more pheromone to assist in navigation and learning (chapter 7). Deposition of trail pheromones is suppressed by ants leaving a marked path (chapter 5), strong pheromone trails (chapter 7) and trail crowding (chapter 8). Colony level ‘decisions' can be driven by factors other than trail pheromones, such as overcrowding at a food source (chapter 9). Chapter 10 reviews the many roles of trail pheromones in ants. Chapters 11 – 14 focus on the organisation of cooperative food retrieval. Pheidole oxyops workers arrange themselves non-randomly around items to increase transport speeds (chapter 11). Groups of ants will rotate food items to reduce drag (chapter 12). Chapters 13 and 14 encompass the ecology of cooperative transport, and how it has shaped trail pheromone recruitment in P. oxyops and Paratrechina longicornis. Lastly, chapter 15 provide a comprehensive review of cooperative transport in ants and elsewhere.
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Defending the fortress : comparative studies of disease resistance in ant societiesTranter, Christopher January 2015 (has links)
Parasites represent a considerable and ubiquitous threat to organisms, and studies of host-parasite interactions can demonstrate important insights into key biological processes. Identification and quantification of host defences and their role in parasite resistance is an important part of understanding these effects. Additionally, life-history traits can have significant effects on host-parasite interactions. For example, living in groups has many benefits, but also may have associated costs in terms of increased parasite transmission. Thus group-living animals may be predicted to invest heavily in disease resistance strategies, though which may depend on each species' parasite pressure. Social insects, and ants in particular, are an ideal model with which to test these evolutionary and ecological hypotheses, as they possess an array of mechanisms to defend themselves against disease and have highly diverse life-histories. However, previous studies into disease resistance tend to have been performed on single species, often looking at just single measures of investment of defence. In this thesis I explore the comparative importance of disease resistance in different ant species. I show that ants possess a variety of defence mechanisms to protect themselves against the threat of parasites and demonstrate how investment into these important defences can vary between individuals and species, and may depend on context, type of parasite, and life-history of the host. Work such as this, demonstrating the costs of individual components of disease resistance in multiple species, is important in developing our understanding of how changes in parasite pressures can influence host biology and how organisms can survive in a world abundant with parasites.
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Streptomyces associados a formigas da tribo Attini e seus efeitos sobre os fungos Escovopsis weberi e outros microrganismos /Favarin, Etienne Cristina. January 2005 (has links)
Resumo: A simbiose entre as formigas cortadeiras e seu fungo originou-se a aproximadamente 50 milhões de anos. A diversidade biótica dos formigueiros, no entanto, não se restringe apenas à formiga e ao fungo simbionte. Recentemente foi descoberto um terceiro mutualista, uma bactéria filamentosa do grupo dos actinomicetos, cuja principal função seria a inibição do crescimento de parasitas do jardim de fungos, especialmente o fungo conhecido como Escovopsis sp, através da produção de antibióticos. O presente trabalho teve como objetivos verificar o potencial das linhagens de Streptomyces, que foram isoladas de Attini, como produtoras de substâncias antimicrobianas frente aos fungos Escovopsis weberi e outros microrganismos e também a caracterização dessas linhagens através de técnicas de biologia molecular. Foram selecionadas nove linhagens de Streptomyces, que foram cultivadas em meio SCN líquido, para a obtenção dos filtrados. Para os ensaios de antibiose envolvendo os fungos Escovopsis weberi, foram testadas diferentes concentrações de filtrados adicionadas ao meio A sólido e foi verificada a porcentagem de germinação dos conídios em cada concentração. Para a determinar a atividade dos filtrados frente as bactérias e leveduras, os testes foram realizados pelo método de difusão em agar. Os resultados mostraram que, mesmo variando os filtrados obtidos das linhagens de Streptomyces, a inibição da germinação dos conídios foram muito semelhantes, e todas as linhagens do fungo Escovopsis weberi apresentaram uma inibição homogênea frente a mesma concentração de filtrado. Com relação as bactérias e leveduras, os resultados mostraram que houve diferenças na intensidade da resposta. Algumas linhagens inibiram o crescimento de todas as bactérias e leveduras testadas, outras não inibiram apenas algumas culturas e teve linhagens que não inibiram nenhuma das...(Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The symbiotic relationship between leaf-cutting ants (Tribe Attini) and their mutualistic fungus probably arose fifty million years ago. However, these two organisms are at least, part of the biological diversity found in nests of these insects. Recently, it was discovered a third mutualist, an antibioticproducing actinomycete, which is used by the ants to control the development of garden parasites, specially within the microfungus genus Escovopsis sp. In order to determine which isolates of this actinomycete could affect the growth of Escovopsis weberi and other microorganisms; nine strains of Streptomyces sp. were grown in liquid SCN and the resultant media (extract) were filtered and used in the experiments. Also, all actinomycete strains were characterized by molecular sequencing of the 16 rDNA region. In the assays involving E. weberi, different extract amounts were added into solid medium (Meio A) and the conidial germination rate were determined after incubation. Disk-difusion method were used to verify the antimicrobial activity of these extracts over a large range of bacteria and yeasts. In spite of the concentration used in E. weberi assays, inhibiton of spore germination was achieved and this response was similiar among E. weberi isolates. On the other hand, bacteria and yeasts demostrated a high degree variability in this response. Some Streptomyces sp. strains inhibited all bacteria and yeasts tested, but other just inhibited a few of them. The molecular sequencing of the 16S rDNA region have shown that all actinomycete strains used in this work were grouped with other Streptomyces species found in GenBank. In spite of phylogenetic analyses have grouped Attini isolates in different clades, the activity of the antimicrobial compounds produced by these bacteria had a high degree of homogenicity over E. weberi... (Complete abstract, click electronic address below) / Orientador: Maurício Bacci Junior / Coorientador: Fernando Carlos Pagnocca / Banca: Lara Durães Sette / Banca: Dejanira de Franceschi de Angelis / Mestre
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Sympatric associations among selected ant species and some effects of ants on sugarcane mealybugs in HawaiiFluker, Sam S (Sam Spruill) January 1969 (has links)
Typescript. / Thesis (Ph. D.)--University of Hawaii, 1969. / Bibliography: leaves 82-86. / x, 86 l illus. (part col.), tables
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Response of ant communities to vegetation clearing and habitat fragmentation in Central Queensland /Schneider, Kathryn Erica. Unknown Date (has links)
Thesis (PhDEnvironmentalManagement)--University of South Australia, 2004.
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Preventing anaphylaxis to venom of the jack jumper ant (Myrmecia pilosula)Brown, Simon Geoffrey Archer, January 2003 (has links)
Thesis (Ph.D.) -- Flinders University, School of Medicine, Dept. of Immunology, Allergy and Arthritis. / Typescript (photocopy). Includes bibliographical references. Also available online.
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Ameisen als Schlüsseltiere in einem Grasland : Studien zu ihrer Bedeutung für die Tiergemeinschaft, das Nahrungsnetz und das Ökosystem /Platner, Christian. January 2006 (has links)
Universiẗat, Diss.--Göttingen, 2004.
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