![]() ![]() Griswold CE (1983) A revision of the genus Habronattus F. Girard MB, Kasumovic MM, Elias DO (2011) Multi-modal courtship in the peacock spider, Maratus volans (OP-Cambridge, 1874). ![]() Įlias DO, Maddison WP, Peckmezian C et al (2012) Orchestrating the score: complex multimodal courtship in the Habronattus coecatus group of Habronattus jumping spiders (Araneae: Salticidae). Įlias DO, Hebets EA, Hoy RR (2006) Female preference for complex/novel signals in a spider. Springer, Boston, pp 127–145ĭraft RW, McGill MR, Kapoor V, Murthy VN (2018) Carpenter ants use diverse antennae sampling strategies to track odor trails. In: Gursky SL, Nekaris KAI (eds) Primate anti-predator strategies. Ĭrompton RH, Sellers WI (2007) A consideration of leaping locomotion as a means of predator avoidance in prosimian primates. Ĭhen Y-K, Liao C-P, Tsai F-Y, Chi K-J (2013) More than a safety line: jump-stabilizing silk of salticids. John Wiley & SonsĬhen LB, DeVries AL, Cheng CHC (1997) Convergent evolution of antifreeze glycoproteins in Antarctic notothenioid fish and Arctic cod. Ĭhapman RF, Joern A (1990) Biology of grasshoppers. ![]() ![]() Ĭarducci JP, Jakob EM (2000) Rearing environment affects behaviour of jumping spiders. Ĭard GM (2012) Escape behaviors in insects. īurrows M, Shaw SR, Sutton GP (2008) Resilin and chitinous cuticle form a composite structure for energy storage in jumping by froghopper insects. īurrows M, Sutton GP (2008) The effect of leg length on jumping performance of short- and long-legged leafhopper insects. īurrows M, Dorosenko M (2015) Jumping mechanisms and strategies in moths (Lepidoptera). īrandt EE, Roberts KT, Williams CM, Elias DO (2020) Low temperatures impact species distributions of jumping spiders across a desert elevational cline. J Zool 229:217–236īrandt EE, Kelley JP, Elias DO (2018) Temperature alters multimodal signaling and mating success in an ectotherm. īrackenbury J, Hunt H (1993) Jumping in springtails-mechanism and dynamics. īooster NA, Su FY, Adolph SC, Ahn AN (2015) Effect of temperature on leg kinematics in sprinting tarantulas ( Aphonopelma hentzi): high speed may limit hydraulic joint actuation. Oxford University Pressīlackburn GS, Maddison WP (2015) Insights to the mating strategies of Habronattus americanus jumping spiders from natural behaviour and staged interactions in the wild. Proc California Acad Sci 1(3):205–309īiewener A, Patek S (2018) Animal locomotion. īanks N (1898) Arachnida from Baja California and other parts of Mexico. J Exp Biol 115:231–238Īnderson JF, Prestwich KN (1975) The fluid pressure pumps of spiders (Chelicerata, Araneae). We discuss the mechanical benefits and drawbacks of a semi-hydraulic system of locomotion and consider how small spiders may extract dexterous jumps from this locomotor system.Īlexander RM (1985) The maximum forces exerted by animals. Habronattus conjunctus takeoff time was similar to other jumping arthropods of the same body mass. conjunctus jumps achieve lower takeoff speeds and accelerations than most other jumping arthropods, including other jumping spiders. conjunctus primarily uses the third legs to power jumps. By analyzing leg liftoff and extension patterns, we found evidence that H. We analyzed jumping videos with DeepLabCut to track 21 points on the cephalothorax, abdomen, and legs. Jumps were staged between two raised platforms. We also explored how legs are used during the takeoff phase of jumps. Here we used Habronattus conjunctus, a small jumping spider (body length ~ 4.5 mm) to examine its jumping performance and compare it to that of other jumping spiders and insects. However, less is known about jumping in small salticid species. Among arachnids, jumping spiders (Family Salticidae) are agile and dexterous jumpers. Jumping in arachnids is further complicated by their semi-hydraulic locomotion system. Z.Jumping in animals presents an interesting locomotory strategy as it requires the generation of large forces and accurate timing. Stromme S.A.: Ample Divisors on Fine Moduli Spaces on the Projective Plane. 3) Boston-Basel-New York: Birkhäuser 1980 Okonek, C.-Schneider, M.-Spindler, H.: Vector bundles on projective spaces. Mülich, G.: Familien holomorpher Vektorraumbündel über der projectiven Geraden und unzerlegbare holomorphe 2-Bündel über der projective Ebene. Idà, M.-Manaresi, M.: Rank two vector bundles on P n uniform with respect to some rational curves. Hulek, H.: Stable Rank-2 Vector Bundles on ℙ 2 with c 1 Odd. Hirschowitz, A.: Sur la restriction des faisceaux semi-stables. 52) Berlin-Heidelberg-New York: Springer 1977 Forster, O.-Knorr, K.: Über die Deformationen von Vektorbündeln auf kompakten komplexen Räumen. Daoudi, M.: Fibrés biuniformes sur ℙ 2(ℂ). Brieskorn, E.: Über holomorphe ℙ n-Bündel über ℙ 1. Barth, W.: Some properties of stable rank 2 vector bundles on ℙ n. ![]()
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