Patterns of morphological evolution in the raptorial appendages of praying mantises

Alejandro Izquierdo-López , Christine Kiesmüller , Carsten Gröhn , Joachim T. Haug , Carolin Haug , Marie K. Hörnig

Insect Science ›› 2025, Vol. 32 ›› Issue (3) : 1061 -1079.

PDF
Insect Science ›› 2025, Vol. 32 ›› Issue (3) : 1061 -1079. DOI: 10.1111/1744-7917.13423
ORIGINAL ARTICLE

Patterns of morphological evolution in the raptorial appendages of praying mantises

Author information +
History +
PDF

Abstract

Mantodea (praying mantises) is a group of exclusively predatory insects, which, together with nonraptorial blattodeans (cockroaches and termites) and groups exclusively found in the fossil record, form the group Dictyoptera. A central characteristic of Mantodea is the specialization of their first pair of legs as raptorial grasping appendages, but the evolution from walking to raptorial legs is not yet fully understood. Here, we trace the evolution of the raptorial appendages in Dictyoptera through time using a morphometric (morphospaces) approach. We also describe two new mantodean nymphs preserved in amber from the Cretaceous and Eocene, which expand the scarce mantodean fossil record. Blattodean and mantodean appendages appear distinct in morphospace, but several appendages of fossil non-mantodeans can be considered raptorial, providing a potential transitional link between walking and raptorial morphotypes. Therefore, we discuss potential mantodean affinities for other predatory fossil dictyopterans. We examine changes across extant mantodeans, characterized by a straightening of the tibia especially associated with the rise of the diversification of the Mantidea and discuss whether a thickening of the femur could reflect an early adaptation to cursorial hunting.

Keywords

amber / Dictyoptera / Mantodea / morphospaces / morphometry / raptorial appendages

Cite this article

Download citation ▾
Alejandro Izquierdo-López, Christine Kiesmüller, Carsten Gröhn, Joachim T. Haug, Carolin Haug, Marie K. Hörnig. Patterns of morphological evolution in the raptorial appendages of praying mantises. Insect Science, 2025, 32(3): 1061-1079 DOI:10.1111/1744-7917.13423

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Avendaño, J. and Sarmiento, C.E. (2011) Allometry and Ontogeny in Callibia diana Stål (Mantodea: Acanthopidae). Neotropical Entomology, 40, 462-469.
[2]

Bai, M. Beutel, R.G. Klass, K.D. Zhang, W. Yang, X. and Wipfler, B. (2016) Alienoptera—a new insect order in the roach-mantodean twilight zone. Gondwana Research, 39, 317-326.
[3]

Bai, M. Beutel, R.G. Zhang, W. Wang, S. Hörnig, M. Gröhn, C. et al. (2018) A new Cretaceous Insect with a unique cephalo-thoracic scissor device. Current Biology, 28, 438-443.
[4]

Beier, M. (1964) Blattopteroidea. Mantodea. In Bronn's Klassen und Ordnungen des Tierreichs, 5. Band: Arthropoda, 3. Abteilung: Insecta, 6. Buch, 5 (ed. Weber H.), pp. 849-979. Lieferung, Geest & Portig, Leipzig.
[5]

Bell, W.J. Roth, L.M. and Nalepa, C.A. (2007) Cockroaches: Ecology, Behaviour and Natural History. JHU Press.
[6]

Béthoux, O. Klass, K.-D. and Schneider, J.W. (2009) Tackling the ‘Protoblattoidea problem’: revision of Protoblattinopsis stubblefieldi Laurentiaux, 1953 (Dictyoptera; Late Carboniferous). European Journal of Entomology, 106, 145-152.
[7]

Béthoux, O. and Wieland, F. (2009) Evidence for Carboniferous origin of the order Mantodea (Insecta: Dictyoptera) gained from forewing morphology. Zoological Journal of the Linnean Society, 156, 79-113.
[8]

Béthoux, O. Beckemeyer, R.J. Engel, M.S. and Hall, J.D. (2010) New data on Homocladus grandis, a Permian stem-mantodean (Polyneoptera: Dictyoptera). Journal of Paleontology, 84, 746-753.
[9]

Blomberg, S.P. Garland, J.T. and Ives, A.R. (2003) Testing for phylogenetic signal in comparative data: behavioral traits are more labile. Evolution; International Journal of Organic Evolution, 57, 717-745.
[10]

Brannoch, S.K. Wieland, F. Rivera, J. Klass, K.-D. Béthoux, O. and Svenson, G.J. (2017) Manual of praying mantis morphology, nomenclature, and practices (Insecta, Mantodea). ZooKeys, 1-100.
[11]

Callimici, J.M. (2015) Postembryonic development in polyneopterous insects. Bachelor Thesis. Faculty of Biology, Ludwig-Maximilians-Universität München.
[12]

Condamine, F.L. Nel, A. Grandcolas, P. and Legendre, F. (2020) Fossil and phylogenetic analyses reveal recurrent periods of diversification and extinction in dictyopteran insects. Cladistics, 36, 394-412.
[13]

Core Team, R. (2021) R: a language and environment for statistical computing. https://www.R-project.org/
[14]

Corette, B.J. (1990) Prey capture in the praying mantis Tenodera aridifolia sinensis: coordination of the capture sequence and strike movements. Journal of Experimental Biology, 148, 147-180.
[15]

Cui, Y. Evangelista, D.A. and Béthoux, O. (2018) Prayers for fossil mantis unfulfilled: Prochaeradodis enigmaticus Piton, 1940 is a cockroach (Blattodea). Geodiversitas, 40, 355-362.
[16]

Delclòs, X. Peñalver, E. Arillo, A. Engel, M.S. Nel, A. Azar, D. et al. (2016) New mantises (Insecta: Mantodea) in Cretaceous ambers from Lebanon, Spain, and Myanmar. Cretaceous Research, 60, 91-108.
[17]

Demers-Potvin, A.V. Larsson, H.C.E. Cournoyer, M. and Béthoux, O. (2021) Wing morphology of a new Cretaceous praying mantis solves the phylogenetic jigsaw of early-diverging extant lineages. Systematic Entomology, 46, 205-223.
[18]

Dittmann, I.L. Hörnig, M.K. Haug, J.T. and Haug, C. (2015) Roach-like insect with a mantodean-type raptorial foreleg. Palaeodiversity, 8, 103-111.
[19]

Ehrmann, R. (2002) Mantodea: Gottesanbeterinnen der Welt. Natur und Tier, Münster.
[20]

Evangelista, D.A. Djernæs, S.M. and Kohli, M.K. (2017) Fossil calibrations for the cockroach phylogeny comments on the use of wings for their identification, and a redescription of the oldest Blaberidae. Palaeontologia Electronica, 20.3.1FC, 1-23. https://doi.org/10.26879/711.
[21]

Gorochov, A.V. (2013) No evidence for Paleozoic origin of mantises (Dictyoptera: Mantina). Zoosystematica Rossica, 22, 6-14.
[22]

Gratshev, V.G. and Zherikhin, V.V. (1993) New fossil mantids (Insecta, Mantida). Paleontological Journal, 27, 148-165.
[23]

Gray, P.T. and Mill, P.J. (1983) The mechanics of the predatory strike of the praying mantid Hierodula membranacea. Journal of Experimental Biology, 107, 245-275.
[24]

Grimaldi, D. (2003) A revision of Cretaceous mantises and their relationships, including new taxa (Insecta: Dictyoptera: Mantodea). American Museum Novitates, 2003, 3412.
[25]

Grimaldi, D. and Engel, M.S. (2005) Evolution of Insects. Cambridge University Press, Cambridge, UK, pp. 1-16.
[26]

Grimaldi, D. and Ross, A.J. (2004) Raphidiomimula, an enigmatic new cockroach in cretaceous amber from Myanmar (Burma) (Insecta: Blattodea: Raphidiomimidae). Journal of Systematic Palaeontology, 2, 101-104.
[27]

Haug, C. Mayer, G. Kutschera, V. Waloszek, D. Maas, A. and Haug, J.T. (2011) Imaging and documenting gammarideans. International Journal of Zoology, 2011, 380829,
[28]

Hörnig, M.K. Haug, J.T. and Haug, C. (2017) An exceptionally preserved 110 million years old praying mantis provides new insights into the predatory behaviour of early mantodeans. PeerJ, 5, e3605.
[29]

Hörnig, M.K. Haug, J.T. and Haug, C. (2013) New details of Santanmantis axelrodi and the origin of the mantodean morphotype. Palaeodiversity, 6, 157-168.
[30]

Inward, D. Beccaloni, G. and Egglenton, P. (2007) Death of an order: a comprehensive molecular phylogenetic study confirms that termites are eusocial cockroaches. Biology Letters, 3, 331-335.
[31]

Legendre, F. Nel, A. Svenson, G.J. Robillard, T. Pellens, R. and Grandcolas, P. (2015) Phylogeny of Dictyoptera: dating the origin of cockroaches, praying mantises and termites with molecular data and controlled fossil evidence. PLoS ONE, 10, e0130127.
[32]

Li, X.R. and Huang, D. (2019) A mantis-type ootheca from mid-Cretaceous Burmese amber (Insecta: Dictyoptera). Cretaceous Research, 100, 134-137.
[33]

Liang, J. Shih, C. and Ren, D. (2018) New Jurassic predatory cockroaches (Blattaria: Raphidiomimidae) from Daohugou, China and Karatau. Alcheringa: An Australasian Journal of Palaeontology, 42, 101-109.
[34]

Luo, C.H. Beutel, R.G. Thomson, U.R. Zheng, D.R. Li, J.H. Zhao, X.-Y. et al. (2022) Beetle or roach: systematic position of the enigmatic Umenocoleidae based on new material from Zhonggou Formation in Jiuquan, Northwest China, and a morphocladistic analysis. Palaeoworld, 31, 121-130.
[35]

Martil, D.M. Bechly, G. and Loveridge, R.F. (2007) The Crato Fossil Beds of Brazil: Window into an Ancient World. Cambridge University Press. Cambridge.
[36]

Oksanen, J. Guillaume Blanchet, F. Firendly, M. Kindt, R. Legendre, P. Mcglinn, D. et al. (2020) Vegan: community ecology package. R package version 2.6-5. https://github.com/vegandevs/vegan
[37]

Oufiero, C.E. (2020) Evolutionary diversification in the raptorial forelegs of Mantodea: relations to body size and depth perception. Journal of Morphology, 281, 513-522.
[38]

Oufiero, C.E. Nguyen, T. Sragner, A. and Ellis, A. (2016) Patterns of variation in feeding strike kinematics of juvenile ghost praying mantis (Phyllocrania paradoxa): are components of the strike stereotypic? Journal of Experimental Biology, 219, 2733-2742.
[39]

Prete, F.R. Theis, R. Dominguez, S. and Bogue, W. (2013) Visual stimulus characteristics that elicit tracking and striking in the praying mantises Parasphendale affinis, Popa spurca and Sphodromantis lineola. Journal of Experimental Biology, 216, 4443-4453.
[40]

Ramsay, G.W. (1990) Mantodea (Insecta), with a review of aspects of functional morphology and biology. Fauna of New Zealand, 19, 1-96.
[41]

Rivera, J. and Svenson, G.J. (2016) The Neotropical ‘polymorphic earless praying mantises’—Part I: Molecular phylogeny and revised higher-level systematics (Insecta: Mantodea, Acanthopoidea). Systematic Entomology, 41, 607-649.
[42]

Rivera, J. and Callohuari (2020) A new species of praying mantis from Peru reveals impaling as a novel hunting strategy in Mantodea (Thespidae: Thespini). Neotropical Entomology, 49, 234-249.
[43]

Ross, A.J. (2012) Testing decreasing variability of cockroach forewings through time using four recent species: Blattella germanica, Polyphaga aegyptica, Shelfordella lateralis and Blaberus craniifer, with implications for the study of fossil co. Insect Science, 19, 129-142.
[44]

Ross, A.J. (2019) The Blattodea (cockroaches), Mantodea (praying mantises) and Dermaptera (earwigs) of the insect limestone (late Eocene), Isle of Wight, including the first record of Mantodea from the UK. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 110, 301-311.
[45]

Schubnel, T. (2019) The Eocene Protohierodula crabbi Ross, 2019 cannot be reliably assigned to Manteidae (Insecta: Mantodea). Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 110, 313-314.
[46]

Schwarz, C.J. and Roy, R. (2019) The systematics of Mantodea revisited: an updated classification incorporating multiple data sources (Insecta: Dictyoptera). Annales De La Société Entomologique De France (N.S.), 55, 101-196.
[47]

Svenson, G.J. and Whiting, M.F. (2004) Phylogeny of Mantodea based on molecular data: evolution of a charismatic predator. Systematic Entomology, 29, 359-370.
[48]

Svenson, G.J. and Whiting, M.F. (2009) Reconstructing the origins of praying mantises (Dictyoptera, Mantodea): the roles of Gondwanan vicariance and morphological convergence. Cladistics, 25, 468-514.
[49]

Tang, Y. Horikoshi, M. and Li, W. (2016) ggfortify: unified interface to visualize statistical result of popular R packages. The R Journal, 8, 478-489.
[50]

Terra, P.S. (1980) Ontogénese da perna raptória em ‘Louva-adeus’ (Mantodea): um estudo comparativo de alometria. Revista Brasileira de Entomologia, 24, 117-122.
[51]

Van Buuren, S. (2023) Broken Stick Model for Irregular Longitudinal Data. Journal of Statistical Software, 106, 1-51.
[52]

Vršanský, P. (2002) Origin and the early evolution of mantises. Amba Projekty, 6, 1-16.
[53]

Vršanský, P. and Bechly, G. (2015) New predatory cockroaches (Insecta: Blattaria: Manipulatoridae fam.n.) from the Upper Cretaceous Myanmar amber. Geologica Carpathica, 66, 133-138.
[54]

Vršanský, P. Bechly, G. Zhang, Q. Jarzembowski, E.A. Mlýnský, T. Šmídová, L. et al. (2018) Batesian insect-insect mimicry-related explosive radiation of ancient alienopterid cockroaches. Biologia, 73, 987-1006.
[55]

Wagner, P. Haug, J.T. and Haug, C. (2019) A new calmanostracan crustacean species from the Cretaceous Yixian Formation and a simple approach for differentiating fossil tadpole shrimps and their relatives. Zoological Letters, 5, 20.
[56]

Wickham, H. (2016) Ggplot2: Elegant Graphics for Data Analysis. Springer-Verlag, New York.
[57]

Wieland, F. (2013) The phylogenetic system of Mantodea (Insecta: Dictyoptera). Species, Phylogeny and Evolution, 3, 3-222.
[58]

Wieland, F. and Svenson, G.J. (2018) Biodiversity of Mantodea. In Insect Biodiversity: Science and Society, II (eds. R.G. Foottit & P.H. Adler), pp. 389-416. John Wiley & Sons Ltd, Oxford.
[59]

Wygodzinsky, P.W. (1966) A monograph of the Emesinae (Reduviidae, Hemiptera). Bulletin of the AMNH, 133.
[60]

Yager, D.D. and Svenson, G.J. (2008) Patterns of praying mantis auditory system evolution based on morphological, molecular, neurophysiological, and behavioural data. Biological Journal of the Linnean Society, 94, 541-568.
[61]

Zhang, J. Gordon, E.R.L. Forthman, M. Hwang, W.S. Walden, K. Swanson, D.R. et al. (2016) Evolution of the assassin's arms: insights from a phylogeny of combined transcriptomic and ribosomal DNA data (Heteroptera: Reduvioidea). Scientific Reports, 6, 22177.

RIGHTS & PERMISSIONS

2024 The Author(s). Insect Science published by John Wiley & Sons Australia, Ltd on behalf of Institute of Zoology, Chinese Academy of Sciences.

AI Summary AI Mindmap
PDF

35

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/