Visual stimulus characteristics that elicit tracking and striking in the Praying Mantises, Parasphendale affinis (Giglio-Tos), Popa spurca (Stål), and Sphodromantis lineola (Burmeister)

Prete, Frederick R.; Theis, Robert; Dominguez, Salina; Bogue, Wil

doi:10.1242/jeb.089474

Cited by 24 publications

(26 citation statements)

References 47 publications

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“…2). As is the case for all species of mantis tested (Prete et al, 2013a), H. patellifera both tracked and struck at significantly higher overall rates in response to black (relatively darker) versus the white (relatively brighter) disks moving against the gray background (z≥3.08, P≤0.002). In fact, none of the response rates to the white stimuli exceeded 0.23 or 0.36 for tracking and striking, respectively, and there were no differences between the night and day response rates elicited by the white disks.…”

Section: Compound Eye Color Changementioning

confidence: 58%

“…The experiments included (1) chronic electroretinograms (ERGs) to assess changes in compound eye sensitivity; (2) photographic, colorimetric analyses of compound eye color changes which result from screening pigment migration; (3) behavioral tests to assess changes in tracking and striking responses to computer generated visual stimuli (e.g. Prete et al, 2013a;Prete et al, 2013b); and (4) analyses of gross locomotor activity on a modified treadmill.…”

Section: Introductionmentioning

confidence: 99%

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Circadian rhythms affect the electroretinogram, compound eye color, striking behavior, and locomotion of the praying mantis,Hierodula patellifera(Serville)

Schirmer

Prete

Mantes

et al. 2014

Journal of Experimental Biology

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Many behaviors and physiological processes oscillate with circadian rhythms that are synchronized to environmental cues (e.g. light onset), but persist with periods of ~24 h in the absence of such cues. We used a multilevel experimental approach to assess whether circadian rhythms modulate several aspects of the visual physiology and behavior of the praying mantis Hierodula patellifera. We used electroretinograms (ERGs) to assess compound eye sensitivity, colorimetric photographic analyses to assess compound eye color changes (screening pigment migration), behavioral assays of responsiveness to computer-generated prey-like visual stimuli and analyses of locomotor activity patterns on a modified treadmill apparatus. Our results indicate that circadian clocks control and/or modulate each of the target behaviors. Strong rhythms, persisting under constant conditions, with periods of ~24 h were evident in photoreceptor sensitivity to light, appetitive responsiveness to preylike stimuli and gross locomotor activity. In the first two cases, responsiveness was highest during the subjective night and lowest during the subjective day. Locomotor activity was strongly clustered around the transition time from day to night. In addition, pigment migration and locomotor behavior responded strongly to light:dark cycles and anticipated the light-dark transition, suggesting that the circadian clocks modulating both were entrained to environmental light cues. Together, these data indicate that circadian rhythms operate at the cellular, cellular systems and organismal level in H. patellifera. Our results represent an intriguing first step in uncovering the complexities of circadian rhythms in the Mantodea.

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Section: Compound Eye Color Changementioning

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Circadian rhythms affect the electroretinogram, compound eye color, striking behavior, and locomotion of the praying mantis,Hierodula patellifera(Serville)

Schirmer

Prete

Mantes

et al. 2014

Journal of Experimental Biology

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“…Nevertheless, few studies have examined the relationship of prey size on strike kinematics, although behavioral studies suggest the modification of behavior (i.e. proportion of strikes) is based more on prey distance than size (Nityananda et al, 2016a,b;Prete et al, 2013). Loxton and Nichols (1979) even modeled the optimal prey size that should elicit striking behavior, but not the associated kinematics.…”

Section: Kinematics and Predator-prey Positionmentioning

confidence: 99%

“…Many studies have examined the relationship of varying visual targets with strike response (e.g. Prete et al, 2013), but few have investigated patterns of kinematic variation associated with varying visual stimuli. The integration of these two functional systems (vision and feeding) may provide insight into the coordination of the systems, feedback control in the systems, modulation of the feeding strikes and evolutionary relationships between the eyes of praying mantises and their raptorial feeding appendage.…”

Section: Strike Kinematics and Visionmentioning

confidence: 99%

Patterns of variation in feeding strike kinematics of juvenile ghost praying mantis (Phyllocrania paradoxa): are components of the strike stereotypic?

Oufiero

Nguyen

Sragner

et al. 2016

Journal of Experimental Biology

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Functional systems, such as feeding mechanics, often involve the evolution of several components of the musculoskeletal system that are moved in coordination to capture prey. Because these systems often involve the quick movement of several structures, some feeding systems have been hypothesized to be stereotypic. While the motor activity patterns are often stereotyped, the subsequent kinematics can be variable, many times in response to variation in prey stimulus (e.g. prey position). Patterns of feeding kinematics have been well studied among vertebrates, with less attention on invertebrate systems. The goal of this study was to examine the amount of stereotypy in the feeding strike kinematics of praying mantises. We filmed eight juvenile ghost praying mantises (Phyllocrania paradoxa) at 1000 Hz across several days within instar 7. We digitized several points that represent the movement of the coxa, trochanter-femur and tibia of the raptorial foreleg to obtain a set of kinematics including angles and angular velocities of the joint, as well as body lunge. Using the coefficient of variation, we found less stereotypy in the approach stage of the strike compared with the sweep. Using Bonferroni-corrected Pearson's correlations of kinematics with prey position, we found few traits related to prey position with the exception of some kinematics of the coxa joint and the amount of lunge used during the strike. Our results suggest that several components of the praying mantis strike are stereotypic, while others exhibit flexibility to ensure successful capture of the prey.

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“…Salticid spiders and birds are active hunters that are probably able to use fine details to identify and attack butterflies, while sit-and-wait predators, such as mantises, appear to recognize prey by assessing a number of general features in objects found in the environment (Kral, 2012; Prete et al, 2013). According to behavioural and electrophysiological studies (reviewed in Prete et al, 2013), the main features used by mantises include the size of the object, contrast with the background, leading edge length, speed and movement pattern.…”

Section: Introductionmentioning

confidence: 99%

Two-headed butterfly vs. mantis: do false antennae matter?

López‐Palafox

Cordero

2017

PeerJ

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The colour patterns and morphological peculiarities of the hindwings of several butterfly species result in the appearance of a head at the rear end of the insect’s body. Although some experimental evidence supports the hypothesis that the “false head” deflects predator attacks towards the rear end of the butterfly, more research is needed to determine the role of the different components of the “false head”. We explored the role of hindwing tails (presumably mimicking antennae) in predator deception in the “false head” butterfly Callophrys xami. We exposed butterflies with intact wings and with hindwing tails experimentally ablated to female mantises (Stagmomantis limbata). We found no differences in the number of butterflies being attacked and the number of butterflies escaping predation between both groups. However, our behavioural observations indicate that other aspects of the “false head” help C. xami survive some mantis attacks, supporting the notion that they are adaptations against predators.

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Visual stimulus characteristics that elicit tracking and striking in the Praying Mantises, Parasphendale affinis (Giglio-Tos), Popa spurca (Stål), and Sphodromantis lineola (Burmeister)

Cited by 24 publications

References 47 publications

Circadian rhythms affect the electroretinogram, compound eye color, striking behavior, and locomotion of the praying mantis,Hierodula patellifera(Serville)

Circadian rhythms affect the electroretinogram, compound eye color, striking behavior, and locomotion of the praying mantis,Hierodula patellifera(Serville)

Patterns of variation in feeding strike kinematics of juvenile ghost praying mantis (Phyllocrania paradoxa): are components of the strike stereotypic?

Two-headed butterfly vs. mantis: do false antennae matter?

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