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Aquatic Insects
International Journal of Freshwater Entomology
Volume 31, 2009 - Issue sup1: Proceedings of the 12th International Conference on Ephemeroptera and the 16th International Symposium on Plecoptera, Stuttgart, 2008
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Morphology, ultrastructure and physiology

Surface ultrastructure and evolution of tarsal attachment structures in Plecoptera (Arthropoda: Hexapoda)

Charles H. Nelson Department of Biological and Environmental Sciences, The University of Tennessee at Chattanooga, Chattanooga, TN, USACorrespondence[email protected]
Pages 523-545 | Received 23 Oct 2008, Accepted 30 Oct 2008, Published online: 24 Nov 2009

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Bent Lauge Madsen & Poul Aagaard. (2016) Behaviour and dispersal in adult Taeniopteryx nebulosa (Linnaeus, 1758) and Perlodes microcephalus (Pictet, 1833) (Plecoptera) in Denmark. Aquatic Insects 37:1, pages 37-57.
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Peter Zwick. (2009) The Plecoptera – who are they? The problematic placement of stoneflies in the phylogenetic system of insects. Aquatic Insects 31:sup1, pages 181-194.
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Pavel Sroka & Jakub Prokop. (2023) New fossil stoneflies (Plecoptera: Arctoperlaria) from Australia testify ancient dispersal across Pangea. Arthropod Systematics & Phylogeny 81, pages 881-888.
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Zhi-Teng Chen. (2023) Cavoperlidae, a new stonefly family (Insecta: Plecoptera) from mid-Cretaceous Kachin amber of northern Myanmar. Cretaceous Research 151, pages 105661.
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Thies H. Büscher & Stanislav N. Gorb. 2023. Convergent Evolution. Convergent Evolution 257 287 .
Thies H. Büscher, Dennis S. Petersen, Nienke N. Bijma, Fabian Bäumler, Christian W. W. Pirk, Sebastian Büsse, Lars Heepe & Stanislav N. Gorb. (2021) The exceptional attachment ability of the ectoparasitic bee louse Braula coeca (Diptera, Braulidae) on the honeybee . Physiological Entomology 47:2, pages 83-95.
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Corentin Jouault, Frédéric Legendre, Fabien L. Condamine, Jean-Marc Pouillon & André Nel. (2022) A new mid-Cretaceous fossil genus of stonefly (Plecoptera: Perlidae) from the Burmese amber. Cretaceous Research 133, pages 105138.
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Yoko Matsumura, Sheila P. Lima, José A. Rafael, Josenir T. Câmara, Rolf G. Beutel & Stanislav N. Gorb. (2022) Distal leg structures of Zoraptera – did the loss of adhesive devices curb the chance of diversification?. Arthropod Structure & Development 68, pages 101164.
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Zhi-Teng Chen. (2022) Bizarre egg structure uncovers a new family of Plecoptera (Insecta) from mid-Cretaceous Burmese amber. Fossil Record 25:1, pages 75-82.
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Thies H Büscher & Stanislav N Gorb. (2021) Physical constraints lead to parallel evolution of micro- and nanostructures of animal adhesive pads: a review. Beilstein Journal of Nanotechnology 12, pages 725-743.
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Sha Chen, Shi‐Wo Deng, Chungkun Shih, Wei‐Wei Zhang, Peng Zhang, Dong Ren, Yi‐Ning Zhu & Tai‐Ping Gao. (2018) The earliest Timematids in Burmese amber reveal diverse tarsal pads of stick insects in the mid‐Cretaceous. Insect Science 26:5, pages 945-957.
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Sebastian Büsse, Thies H. Büscher, Lars Heepe & Stanislav N. Gorb. (2019) Adaptations of dragonfly larvae and their exuviae (Insecta: Odonata), attachment devices and their crucial role during emergence. Journal of Insect Physiology 117, pages 103914.
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Zhongying Ji, Changyou Yan, Shuanhong Ma, Stanislav Gorb, Xin Jia, Bo Yu, Xiaolong Wang & Feng Zhou. (2019) 3D printing of bioinspired topographically oriented surfaces with frictional anisotropy for directional driving. Tribology International 132, pages 99-107.
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Pavel Sroka, Arnold H. Staniczek & Boris C. Kondratieff. (2018) ‘Rolling’ stoneflies (Insecta: Plecoptera) from mid-Cretaceous Burmese amber. PeerJ 6, pages e5354.
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Thies H. Büscher, Mikhail Kryuchkov, Vladimir L. Katanaev & Stanislav N. Gorb. (2018) Versatility of Turing patterns potentiates rapid evolution in tarsal attachment microstructures of stick and leaf insects (Phasmatodea). Journal of The Royal Society Interface 15:143, pages 20180281.
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Pedro Gnaspini, Caio Antunes-Carvalho & Richard A. B. Leschen. (2017) Pretarsal structures in Leiodidae and Agyrtidae (Coleoptera, Staphylinoidea). Journal of Morphology 278:10, pages 1354-1379.
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Thies H. Büscher & Stanislav N. Gorb. (2017) Subdivision of the neotropical Prisopodinae Brunner von Wattenwyl, 1893 based on features of tarsal attachment pads (Insecta, Phasmatodea). ZooKeys 645, pages 1-11.
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CAIO ANTUNES-CARVALHO & PEDRO GNASPINI. (2016) Pretarsus and distal margin of the terminal tarsomere as an unexplored character system for higher-level classification in Cholevinae (Coleoptera, Leiodidae). Systematic Entomology 41:2, pages 392-415.
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Constanze Grohmann, Miriam Judith Henze, Thomas Nørgaard & Stanislav N. Gorb. (2015) Two functional types of attachment pads on a single foot in the Namibia bush cricket Acanthoproctus diadematus (Orthoptera: Tettigoniidae) . Proceedings of the Royal Society B: Biological Sciences 282:1809, pages 20142976.
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Marco Gottardo, Davide Vallotto & Rolf G. Beutel. (2015) Giant stick insects reveal unique ontogenetic changes in biological attachment devices. Arthropod Structure & Development 44:2, pages 195-199.
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David Labonte, John A. Williams & Walter Federle. (2014) Surface contact and design of fibrillar ‘friction pads’ in stick insects ( Carausius morosus ): mechanisms for large friction coefficients and negligible adhesion . Journal of The Royal Society Interface 11:94, pages 20140034.
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David Labonte & Walter Federle. (2013) Functionally Different Pads on the Same Foot Allow Control of Attachment: Stick Insects Have Load-Sensitive “Heel” Pads for Friction and Shear-Sensitive “Toe” Pads for Adhesion. PLoS ONE 8:12, pages e81943.
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