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7 results on '"Summers, Adam P."'

1. Spider dragline silk: correlated and mosaic evolution in high-performance biological materials.

Author

Swanson BO, Blackledge TA, Summers AP, and Hayashi CY

Subjects
Animals, Biomechanical Phenomena, Ecosystem, Materials Testing, Phylogeny, Biological Evolution, Silk chemistry, Spiders
Abstract

The evolution of biological materials is a critical, yet poorly understood, component in the generation of biodiversity. For example, the diversification of spiders is correlated with evolutionary changes in the way they use silk, and the material properties of these fibers, such as strength, toughness, extensibility, and stiffness, have profound effects on ecological function. Here, we examine the evolution of the material properties of dragline silk across a phylogenetically diverse sample of species in the Araneomorphae (true spiders). The silks we studied are generally stronger than other biological materials and tougher than most biological or man-made fibers, but their material properties are highly variable; for example, strength and toughness vary more than fourfold among the 21 species we investigated. Furthermore, associations between different properties are complex. Some traits, such as strength and extensibility, seem to evolve independently and show no evidence of correlation or trade-off across species, even though trade-offs between these properties are observed within species. Material properties retain different levels of phylogenetic signal, suggesting that traits such as extensibility and toughness may be subject to different types or intensities of selection in several spider lineages. The picture that emerges is complex, with a mosaic pattern of trait evolution producing a diverse set of materials across spider species. These results show that the properties of biological materials are the target of selection, and that these changes can produce evolutionarily and ecologically important diversity.

Published
2006

2. Biomaterials: silk-like secretion from tarantula feet.

Author

Gorb SN, Niederegger S, Hayashi CY, Summers AP, Vötsch W, and Walther P

Subjects
Adhesiveness, Animals, Costa Rica, Extremities physiology, Silk chemistry, Spiders chemistry, Spiders physiology
Abstract

An unsuspected attachment mechanism may help these huge spiders to avoid catastrophic falls. Spiders spin silk from specialized structures known as abdominal spinnerets--a defining feature of the creatures--and this is deployed to capture prey, protect themselves, reproduce and disperse. Here we show that zebra tarantulas (Aphonopelma seemanni) from Costa Rica also secrete silk from their feet to provide adhesion during locomotion, enabling these spiders to cling to smooth vertical surfaces. Our discovery that silk is produced by the feet provides a new perspective on the origin and diversification of spider silk.

Published
2006
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3. Gumfooted lines in black widow cobwebs and the mechanical properties of spider capture silk.

Author

Blackledge TA, Summers AP, and Hayashi CY

Subjects
Amino Acid Motifs physiology, Animals, Biomechanical Phenomena, Image Processing, Computer-Assisted, Microscopy, Polarization veterinary, Silk chemistry, Black Widow Spider physiology, Fibroins chemistry, Silk physiology
Abstract

Orb-weaving spiders produce webs using two types of silk that have radically different mechanical properties. The dragline silk used to construct the supporting frame and radii of the web is stiff and as strong as steel, while the capture spiral is much weaker but more than ten times as extensible. This remarkable divergence in mechanical properties has been attributed to the aqueous glue that coats the capture spiral, which is thought to decrease capture spiral stiffness and increase its extensibility. However, discerning the effect of the aqueous glue on fiber performance is complicated because dragline silk and the capture spiral are assembled from different proteins, which may also affect mechanical performance. Here, we use the sticky gumfooted lines of black widow cobwebs to test the effect of the addition of aqueous glue on the mechanical properties of dragline silk. We also surveyed orb-webs spun by a broad range of species for bundles of looped silk. Such bundles, termed windlasses, have been thought to increase capture spiral extensibility by "paying out" additional lengths of silk. Our results suggest that neither plasticization of silk by aqueous glue nor excess silk in windlasses can by themselves account for the remarkable extensibility of orb-weaver capture silk compared to other spider silks. This argues that the unique amino acid motifs of the flagelliform fibroins that constitute the core of the capture spiral play an essential role in capture silk's extreme extensibility.

Published
2005
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4. Gorb et al. reply.

Author

Gorb, Stanislav N., Niederegger, Senta, Hayashi, Cheryl Y., Summers, Adam P., Vötsch, Walter, and Walther, Paul

Subjects
TARANTULAS, SPINNERET (Anatomy), SILK thread, HINDLIMB, SPIDER physiology, SILK
Abstract

Replying to: F. Pérez-Miles, A. Panzera, D. Ortiz-Villatoro & C. Perdomo 461, 10.1038/nature08404 (2009)The data presented by Pérez-Miles et al. call into question the production of tarantula tarsal silk, but there remains substantive evidence that would seem to contradict their assertion that tarsal silk is solely due to abdominal silk entangled on to hind legs. [ABSTRACT FROM AUTHOR]

Published
2009
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