Evolution of Archaeid and Mecysmaucheniid Spiders (Arachnida, Araneae) PDF Download
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Author: Hannah Marie Wood
Publisher:
ISBN:
Category :
Languages : en
Pages : 91
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Book Description
The limits of the superfamily Palpimanoidea, as well as the phylogenetic placement of archaeid and mecysmaucheniid spiders within the Araneomorphae, are unresolved. Furthermore, the relationships between the extant and extinct archaeid taxa is also debated and unresolved. This study focuses on these issues by creating a phylogeny from molecular and morphological data and addresses three features of archaeid and mecysmaucheniid evolution: (1) inclusion of several lineages of fossil archaeids clarifies relationships between extant and extinct archaeids and helps explain the disjunct distribution whereby fossils are known only from the northern hemisphere while extant taxa are restricted to the southern hemisphere; (2) the placement of archaeids and mecysmaucheniids within the Araneomorphae; (3) the limits of the superfamily Palpimanoidea and its placement within the Araneomorphae. In addition, the timing of deep diversification within the Araneomorphae is estimated by enforcing a molecular clock that includes the archaeid fossil taxa as noncontemporaneous tips. These temporal estimations are used to examine biogeographic patterns of congruence with continental break-up. Total evidence analysis supports the monophyly of a redefined Palpimanoidea, which includes the archaeids and mecysmaucheniids. This study finds Palpimanoidea to be sister to the Entelegynae and to be an ancient group, with diversification occurring in the Permian. Furthermore, the split between the northern and southern archaeid fauna and the diversification of the southern archaeid clades was likely due to the vicariant events caused by the break-up of Pangaea and Gondwana. Further study of archaeid spiders offers the possibility to better understand speciation patterns in a group of taxa that have low dispersal abilities and that likely have been on Madagascar since Pangean times. To examine speciation patterns in a lineage that likely did not disperse to Madagascar, the current study sets out to (1) create a phylogeny of archaeid spiders that thoroughly samples Madagascan lineages; (2) calibrate this phylogeny using fossil and geological data and determine the timing of splitting events between the different Gondwana fragments; (3) examine lineage through time plots to determine diversification patterns. In addition, the "neck" trait is treated as a continuous character and its evolution is examined. This study shows that archaeid biogeography patterns are likely explained by vicariance due to Gondwanan break up. The lineage through time plots reveal that the Madagascan archaeids have not experienced increases or decreases in the rate of diversification, meaning a constant rate of lineage accumulation cannot be rejected. Furthermore, the evolution of the "neck" best fits the Brownian motion model, implying that evolution of "neck" length is a product of genetic drift. For archaeid lineages that have been on Madagascar since pre-isolation times gradual accumulation appears to be the rule. Next, the current study focuses on the trap-jaw in mecysmaucheniid spiders in order to address how it has become modified over the evolutionary history of the lineage. Evolution, function, and morphology of the trap-jaw are examined among different lineages of mecysmaucheniids to assess the extent of conservatism versus plasticity in the trait. This study involves molecular phylogenetic analyses, detailed morphological analysis of jaw structure, and high-speed video recording to assess the variability and evolution of the trap-jaw. Results indicate that there is a large degree of variation in jaw function spanning two orders of magnitude. Within mecysmaucheniids, rapid-inertia-based mechanisms have evolved in parallel 3-4 times. Examination of trap-jaw morphology reveals that each rapid-inertia-based mechanism is unique with different morphologies. The trap-jaw movements in some mecysmaucheniid lineages may be among the fastest animal movements known, with the fastest species attaining jaw-closing speeds of greater than 25 meters/second in less than one tenth of a millisecond.
Author: Hannah Marie Wood
Publisher:
ISBN:
Category :
Languages : en
Pages : 91
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Book Description
The limits of the superfamily Palpimanoidea, as well as the phylogenetic placement of archaeid and mecysmaucheniid spiders within the Araneomorphae, are unresolved. Furthermore, the relationships between the extant and extinct archaeid taxa is also debated and unresolved. This study focuses on these issues by creating a phylogeny from molecular and morphological data and addresses three features of archaeid and mecysmaucheniid evolution: (1) inclusion of several lineages of fossil archaeids clarifies relationships between extant and extinct archaeids and helps explain the disjunct distribution whereby fossils are known only from the northern hemisphere while extant taxa are restricted to the southern hemisphere; (2) the placement of archaeids and mecysmaucheniids within the Araneomorphae; (3) the limits of the superfamily Palpimanoidea and its placement within the Araneomorphae. In addition, the timing of deep diversification within the Araneomorphae is estimated by enforcing a molecular clock that includes the archaeid fossil taxa as noncontemporaneous tips. These temporal estimations are used to examine biogeographic patterns of congruence with continental break-up. Total evidence analysis supports the monophyly of a redefined Palpimanoidea, which includes the archaeids and mecysmaucheniids. This study finds Palpimanoidea to be sister to the Entelegynae and to be an ancient group, with diversification occurring in the Permian. Furthermore, the split between the northern and southern archaeid fauna and the diversification of the southern archaeid clades was likely due to the vicariant events caused by the break-up of Pangaea and Gondwana. Further study of archaeid spiders offers the possibility to better understand speciation patterns in a group of taxa that have low dispersal abilities and that likely have been on Madagascar since Pangean times. To examine speciation patterns in a lineage that likely did not disperse to Madagascar, the current study sets out to (1) create a phylogeny of archaeid spiders that thoroughly samples Madagascan lineages; (2) calibrate this phylogeny using fossil and geological data and determine the timing of splitting events between the different Gondwana fragments; (3) examine lineage through time plots to determine diversification patterns. In addition, the "neck" trait is treated as a continuous character and its evolution is examined. This study shows that archaeid biogeography patterns are likely explained by vicariance due to Gondwanan break up. The lineage through time plots reveal that the Madagascan archaeids have not experienced increases or decreases in the rate of diversification, meaning a constant rate of lineage accumulation cannot be rejected. Furthermore, the evolution of the "neck" best fits the Brownian motion model, implying that evolution of "neck" length is a product of genetic drift. For archaeid lineages that have been on Madagascar since pre-isolation times gradual accumulation appears to be the rule. Next, the current study focuses on the trap-jaw in mecysmaucheniid spiders in order to address how it has become modified over the evolutionary history of the lineage. Evolution, function, and morphology of the trap-jaw are examined among different lineages of mecysmaucheniids to assess the extent of conservatism versus plasticity in the trait. This study involves molecular phylogenetic analyses, detailed morphological analysis of jaw structure, and high-speed video recording to assess the variability and evolution of the trap-jaw. Results indicate that there is a large degree of variation in jaw function spanning two orders of magnitude. Within mecysmaucheniids, rapid-inertia-based mechanisms have evolved in parallel 3-4 times. Examination of trap-jaw morphology reveals that each rapid-inertia-based mechanism is unique with different morphologies. The trap-jaw movements in some mecysmaucheniid lineages may be among the fastest animal movements known, with the fastest species attaining jaw-closing speeds of greater than 25 meters/second in less than one tenth of a millisecond.
Author: David Penney
Publisher: Siri Scientific Press
ISBN: 0955863651
Category : Amber fossils
Languages : en
Pages : 130
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Book Description
Compared to insects, fossil spiders have received only scant attention in the literature. Previously, the only works available were numerous scientific papers, many published in foreign languages. Most of these are basic descriptive taxonomic works, with very few considering broader biological concepts. Despite a significant increase in the discovery and description of fossil spiders within the last quarter Century this void remained unfilled. Thus, this short monograph aims to achieve several objectives. Firstly, to provide general and up to date background information on the overall importance and diversity of fossils spiders, including an indication of those groups for which the taxonomy is spurious and in need of reassessment. Secondly, to discuss the techniques available for working with fossil spiders and some of the problems encountered by palaeoarachnologists, including bias and limitations of the spider fossil record. Thirdly, the overall evolutionary history of spiders is summarized in the form of an evolutionary tree, which is subsequently used to address key issues of broad interest, such as origins, diversifications and extinctions, including the effects of mass extinctions and predator-prey co-radiations. Finally, the contribution that fossil data can make to understanding the past and present biogeography of the order is considered. This book should be of interest to both amateur and professional arachnologists and palaeontologists and will also serve as a general palaeontological reference work for neonologists studying extant spiders.
Author: Raymond R. Forster
Publisher:
ISBN:
Category : Arachnida
Languages : en
Pages : 114
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Book Description
"A comparative morphological survey of the archaeid spiders and their relatives is presented; cladistic analysis of the results supports the following taxonomic changes. The family Archaeidae Koch and Berendt is relimited to include only four genera: Archaea Koch and Berendt (containing six Baltic amber species and six Recent species from Madagascar), and the new genera Austrarchaea (type species Archaea nodosa Forster from Queensland; also including Archaea hickmani Butler from Victoria and a new species from Queensland), Afrarchaea (type species Archaea godfreyi Hewitt from South Africa and Madagascar), and Eoarchaea (type species Archaea hyperoptica Menge from Baltic amber). Other taxa previously placed in the Archaeidae are assigned to the family Mecysmaucheniidae Simon and the new families Pararchaeidae (for Pararchaea Forster, including seven species from New Zealand, Australia, and Tasmania) and Holarchacidae (for Holarchaea Forster, including H. novaeseelandiae Forster from New Zealand and Zearchaea globosa Hickman from Tasmania). The Mecysmaucheniidae is divided into two subfamilies. The Mecysmaucheniinae contains Mecysmauchenius Simon (type species M. segmentatus Simon from southern Chile, adjacent Argentina, and the Falkland Islands; also including M. gertschi Zapfe from central Chile and 14 new species from Chile and the Juan Fernandez Islands) and the new genera Mecysmauchenioides (type species Mecysmauchenius nordenskjoldi Tullgren from Chile), Semysmauchenius (type species S. antillanca, new species, from Chile), Mesarchaea (type species M. bellavista, new species, from Chile), and Aotearoa (type species Zearchaea magna Forster from New Zealand). The new subfamily Zearchaeinae contains Zearchaea Wilton (type species Z. clypeata Wilton from New Zealand; also including Z. fiordensis Forster from New Zealand) and the new genus Chilarchaea (type species C. quellon, new species, from Chile). Recent hypotheses by Lehtinen and Levi assigning these taxa to two different superfamilies are rejected. The four families are judged instead to constitute a monophyletic group with its closest relatives among the superfamily Palpimanoidea, which is expanded to include them as well as (in suggested sister-group sequence) the Textricellidae and Micropholcommatidae, the traditional palpimanoids (Huttoniidae, Stenochilidae, and Palpimanidae), and the Mimetidae"--Page 3
Author: Leslie Brunetta
Publisher: Yale University Press
ISBN: 0300163150
Category : Science
Languages : en
Pages : 268
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Book Description
Spiders, objects of eternal human fascination, are found in many places: on the ground, in the air, and even under water. Leslie Brunetta and Catherine Craig have teamed up to produce a substantive yet entertaining book for anyone who has ever wondered, as a spider rappelled out of reach on a line of silk, “How do they do that?” The orb web, that iconic wheel-shaped web most of us associate with spiders, contains at least four different silk proteins, each performing a different function and all meshing together to create a fly-catching machine that has amazed and inspired humans through the ages. Brunetta and Craig tell the intriguing story of how spiders evolved over 400 million years to add new silks and new uses for silk to their survival “toolkit” and, in the telling, take readers far beyond the orb. The authors describe the trials and triumphs of spiders as they use silk to negotiate an ever-changing environment, and they show how natural selection acts at the genetic level and as individuals struggle for survival.
Author: Subir Ranjan Kundu
Publisher: Academic Press
ISBN: 0323886124
Category : Science
Languages : en
Pages : 260
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Book Description
Spider Evolution: Genetics, Behavior, and Ecological Influences provides a thorough exploration of the evolutionary trail of arachnids, particularly spider species, from prehistoric origins to current sustainability issues. This book analyzes extinct organisms in the Arachnida class, specifically looking at their phylogenomics and molecular footprints to understand evolutionary changes in diversification in today's species. Sections cover spider origins and their influences on behavioral traits, physiology of sensory organs, and biomechanics, also touching on spiders as prey and predators and how their roles have changed in the 400 million years of Arachnida existence. The book then focuses upon current environmental issues facing spider species and how these have, and can, affect the evolution of these organisms. Topics include biodiversity minimization, climate change and natural disasters. This book is a much-needed resource for entomologists and arachnid- or arthropod-driven researchers. Advanced undergraduate and graduate students will also benefit from the historic review, current assessment and future predictions of spider evolution provided in this book. - Provides a complete view of spider species from their first fossil evidence nearly 400 million years ago - Focuses on climate change and biodiversity threats as environmental factors currently affecting these organisms - Contains the most up-to-date knowledge on evolutionary genetics, physiology changes and behavioral outcomes
Author: Eleazar Albin
Publisher: London : Printed by John Tilly for R. Montagu ... [and 6 others], 1736 (4to)
ISBN:
Category : Arachnida
Languages : en
Pages : 202
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Book Description
Author: Theodore Horace Savory
Publisher:
ISBN:
Category : Arachnida
Languages : en
Pages : 434
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Book Description
Author: John Henry Comstock
Publisher:
ISBN:
Category : Arachnida
Languages : en
Pages : 754
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Book Description
Author: Carl Alexander Clerck
Publisher:
ISBN:
Category : Arachnida
Languages : en
Pages : 208
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Book Description
Author: J. H. Emerton
Publisher: Good Press
ISBN:
Category : Fiction
Languages : en
Pages : 107
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Book Description
"The Structure and Habits of Spiders" authored by J. H. Emerton offers readers a captivating journey into the realm of arachnids. In this scientific exploration, Emerton delves into the intricate behaviors, anatomical features, and ecological significance of spiders. Drawing from meticulous observations and scientific insights, Emerton provides readers with a comprehensive understanding of these remarkable creatures. By describing various species, their habitats, and their roles in the ecosystem, the author unveils the mysteries of spiders and their contributions to the natural world. Through engaging prose and a wealth of information, "The Structure and Habits of Spiders" encourages readers to appreciate the complexity and diversity of the animal kingdom.
