scholarly journals Mathematical modeling shows that ball-rolling dung beetles can use dances to avoid competition

2021 ◽  
Author(s):  
Zhanyuan Yin ◽  
Leif Zinn-Björkman
Keyword(s):  
Mathematical Modeling ◽  
Dung Beetles ◽  
Ball Rolling

scholarly journals Mathematical modeling shows that ball-rolling dung beetles can use dances to avoid competition

2021 ◽  
Author(s):  
Zhanyuan Yin ◽  
Leif Zinn-Brooks
Keyword(s):  
Mathematical Modeling ◽  
Optimal Strategy ◽  
Rolling Direction ◽  
Dung Beetles ◽  
Time Interval ◽  
Angular Deviation ◽  
Ball Rolling ◽  
Wide Range

Abstract Ball-rolling dung beetles shape a portion of dung into a ball and roll it away from the dung pile for later burial and consumption. These beetles perform dances (rotations and pauses) atop their dung balls in order to choose an initial rolling direction and to correct their rolling direction (reorient). Previous mathematical modeling showed that dung beetles can use reorientation to move away from the dung pile more efficiently. In this work, we study if reorientation can help beetles avoid competition (i.e., avoid having their dung balls captured), and if so, under what circumstances? This is investigated by implementing a model with two different type of beetles, a roller with a dung ball and a searcher which seeks to capture that dung ball. We show that reorientation can help rollers avoid searchers in a wide range of conditions, but that there are some circumstances in which rolling without reorienting can be a beetle's optimal strategy. We also show that rollers can minimize the probability that their dung ball is captured without making precise measurements of the time interval between dances or the angular deviation for dances.

scholarly journals The role of the sun in the celestial compass of dung beetles

2014 ◽  
Vol 369 (1636) ◽  
pp. 20130036 ◽  
Author(s):  
M. Dacke ◽  
Basil el Jundi ◽  
Jochen Smolka ◽  
Marcus Byrne ◽  
Emily Baird
Keyword(s):  
Dung Beetle ◽  
Dung Beetles ◽  
Relative Influence ◽  
The Sun ◽  
Azimuthal Position ◽  
Ball Rolling ◽  
Straight Line ◽  
Celestial Compass ◽  
Compass System

Recent research has focused on the different types of compass cues available to ball-rolling beetles for orientation, but little is known about the relative precision of each of these cues and how they interact. In this study, we find that the absolute orientation error of the celestial compass of the day-active dung beetle Scarabaeus lamarcki doubles from 16° at solar elevations below 60° to an error of 29° at solar elevations above 75°. As ball-rolling dung beetles rely solely on celestial compass cues for their orientation, these insects experience a large decrease in orientation precision towards the middle of the day. We also find that in the compass system of dung beetles, the solar cues and the skylight cues are used together and share the control of orientation behaviour. Finally, we demonstrate that the relative influence of the azimuthal position of the sun for straight-line orientation decreases as the sun draws closer to the horizon. In conclusion, ball-rolling dung beetles possess a dynamic celestial compass system in which the orientation precision and the relative influence of the solar compass cues change over the course of the day.

scholarly journals Endothermy in African Dung Beetles During Flight, Ball Making, and Ball Rolling

1978 ◽  
Vol 73 (1) ◽  
pp. 65-83 ◽  
Author(s):  
GEORGE A. BARTHOLOMEW ◽  
BERND HEINRICH
Keyword(s):  
Cooling Rate ◽  
Body Mass ◽  
Partial Correlation ◽  
Dung Beetles ◽  
Necessary Condition ◽  
Body Temperatures ◽  
Wing Loading ◽  
Ambient Temperatures ◽  
Ball Rolling ◽  
Competition For Food

1. Body temperatures of diurnal and nocturnal ball-rolling and non ballrolling dung beetles (in particular the genera Scarabaeus, Kheper, Gymnopleurus and Heliocopris) were studied in the field in Kenya. 2. The beetles were conspicuously endothermic during flight, ball making, and ball rolling. When at rest, their body temperatures did not differ significantly from that of their surroundings. They did not always generate high body temperatures while walking. However, they sometimes warmed up prior to walking and subsequently maintained a large difference between body and ambient temperatures. 3. The nocturnal species, S. laevistriatus, was conspicuously endothermic during ball making and ball rolling, often maintaining thoracic temperatures of 40 °C or more in an ambient temperature of 25–26 °C. In this species, the velocity of ball rolling increased linearly with body temperature from 5 cm/sec at 28 °C to 18 cm/sec at 40 °C. 4. The take-off temperatures of dung beetles increased with body mass up to 2.5g. In beetles larger than 2.5g metathoracic temperatures at take-off ranged from 40 to 44 °CC and were independent of mass. 5. Flight temperatures showed essentially the same pattern as take-off temperatures, increasing with mass up to about 42 °C at 2.5 g and being independent of mass thereafter. 6. Both flight and take-off temperatures increased with wing-loading up to about 35 N/m2, but were independent of wing loading from 35 to 65 N/m2. 7. In each of the species for which we had an adequate sample, wing loading increased linearly with body mass. Partial correlation analysis suggests that metathoracic temperature is more dependent on body mass than on wing-loading. 8. During periods of endothermy, metathoracic temperature exceeded prothoracic temperature, and abdominal temperature was lower than that of either the prothorax or metathorax. 9. Cooling rate was inversely related to body mass. The removal of elytra and wings caused the cooling rate to increase by about one-quarter. 10. Elevated body temperatures in dung beetles during terrestrial activity is probably selectively advantageous in competition for food. A high metathoracic temperature is a necessary condition for take-off and flight in the larger species. 11. Mechanisms of heat production and the evidence for thermoregulation are discussed.

Dung beetles attracted to mammalian herbivore (Alouatta palliata) and omnivore (Nasua narica) dung in the tropical rain forest of Los Tuxtlas, Mexico

1993 ◽  
Vol 9 (1) ◽  
pp. 45-54 ◽  
Author(s):  
Alejandro Estrada ◽  
Gonzalo Halffter ◽  
Rosamond Coates-Estrada ◽  
Dennis A. Meritt
Keyword(s):  
Rain Forest ◽  
Tropical Rain Forest ◽  
Dung Beetle ◽  
Dung Beetles ◽  
Alouatta Palliata ◽  
Howler Monkey ◽  
Los Tuxtlas ◽  
Nasua Narica ◽  
Ball Rolling ◽  
Species Overlap

ABSTRACTDung beetles attracted to howler monkey (Alouatta palliata) and coati (Nasua narica) dung were studied for an annual cycle in the tropical rain forest of Los Tuxtlas, Mexico. Pitfall traps set for 24 h month−1 captured 1567 dung beetles of 21 species. The species Canlhidium martinto, Deltochilum pseudoparile and Canthon femoralis accounted for 62% of all individuals captured. While species overlap was high (> 80%) between diurnal and nocturnal samples and between howler monkey and coati dung baits, coati dung attracted species such as C. martinezi, D. pseudoparile and Onthophagus rhinolophus while species such as C. femoralis and Copris laeviceps were numerically dominant at howler monkey dung. Thirteen non-ball rolling dung beetle species and eight ball-rolling species accounted for 43% and for 57% of all beetles captured respectively. Dung beetles were present and active in all months of the year, but occurred in higher numbers between the months of March and October, when temperatures were higher. Relative abundance of howler monkey and coati dung in the rain forest of Los Tuxtlas was estimated at 11.2 g (fresh weight) ha−1 day−1 and at 13.0 g ha−1 day−1 respectively, a seemingly low amount for the large number of scarabs attracted to the dung.

scholarly journals Compass Cue Integration and Its Relation to the Visual Ecology of Three Tribes of Ball-Rolling Dung Beetles

Insects ◽  
2021 ◽  
Vol 12 (6) ◽  
pp. 526
Author(s):  
Lana Khaldy ◽  
Claudia Tocco ◽  
Marcus Byrne ◽  
Marie Dacke
Keyword(s):  
Visual Cues ◽  
Relative Weight ◽  
Dung Beetles ◽  
Visual Ecology ◽  
Line Orientation ◽  
The Sun ◽  
Tall Grass ◽  
Directional Information ◽  
Ball Rolling ◽  
Straight Line

To guide their characteristic straight-line orientation away from the dung pile, ball-rolling dung beetles steer according to directional information provided by celestial cues, which, among the most relevant are the sun and polarised skylight. Most studies regarding the use of celestial cues and their influence on the orientation system of the diurnal ball-rolling beetle have been performed on beetles of the tribe Scarabaeini living in open habitats. These beetles steer primarily according to the directional information provided by the sun. In contrast, Sisyphus fasciculatus, a species from a different dung-beetle tribe (the Sisyphini) that lives in habitats with closely spaced trees and tall grass, relies predominantly on directional information from the celestial pattern of polarised light. To investigate the influence of visual ecology on the relative weight of these cues, we studied the orientation strategy of three different tribes of dung beetles (Scarabaeini, Sisyphini and Gymnopleurini) living within the same biome, but in different habitat types. We found that species within a tribe share the same orientation strategy, but that this strategy differs across the tribes; Scarabaeini, living in open habitats, attribute the greatest relative weight to the directional information from the sun; Sisyphini, living in closed habitats, mainly relies on directional information from polarised skylight; and Gymnopleurini, also living in open habitats, appear to weight both cues equally. We conclude that, despite exhibiting different body size, eye size and morphology, dung beetles nevertheless manage to solve the challenge of straight-line orientation by weighting visual cues that are particular to the habitat in which they are found. This system is however dynamic, allowing them to operate equally well even in the absence of the cue given the greatest relative weight by the particular species.

scholarly journals Rules for the Leg Coordination of Dung Beetle Ball Rolling Behaviour

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Binggwong Leung ◽  
Nienke Bijma ◽  
Emily Baird ◽  
Marie Dacke ◽  
Stanislav Gorb ◽  
...  
Keyword(s):  
Dung Beetle ◽  
Dung Beetles ◽  
Control Mechanisms ◽  
Loosely Coupled ◽  
Uneven Terrain ◽  
Video Recordings ◽  
Ball Rolling ◽  
Leg Coordination ◽  
Behavioural Experiments ◽  
Insight Into

Abstract Dung beetles can perform a number of versatile behaviours, including walking and dung ball rolling. While different walking and running gaits of dung beetles have been described in previous literature, little is known about their ball rolling gaits. From behavioural experiments and video recordings of the beetle Scarabaeus (Kheper) lamarcki, we analysed and identified four underlying rules for leg coordination during ball rolling. The rules describe the alternation of the front legs and protraction waves of the middle and hind legs. We found that while rolling a ball backwards, the front legs are decoupled or loosely coupled from the other legs, resulting in a non-standard gait, in contrast to previously described tripod and gallop walking gaits in dung beetles. This provides insight into the principles of leg coordination in dung beetle ball rolling behaviour and its underlying rules. The proposed rules can be used as a basis for further investigation into ball rolling behaviours on more complex terrain (e.g., uneven terrain and slopes). Additionally, the rules can also be used to guide the development of control mechanisms for bio-inspired ball rolling robots.

Howler monkeys (Alouatta palliata), dung beetles (Scarabaeidae) and seed dispersal: ecological interactions in the tropical rain forest of Los Tuxtlas, Mexico

1991 ◽  
Vol 7 (4) ◽  
pp. 459-474 ◽  
Author(s):  
Alejandro Estrada ◽  
Rosamond Coates-Estrada
Keyword(s):  
Rain Forest ◽  
Forest Regeneration ◽  
Dung Beetles ◽  
Alouatta Palliata ◽  
Ecological Interactions ◽  
Los Tuxtlas ◽  
Howler Monkeys ◽  
Ball Rolling ◽  
Large Numbers ◽  
Number Of Seeds

ABSTRACTThe dispersal of seeds by howler monkeys (Alouatta palliata) and the activity of dung beetles in modulating the fate of the dispersed seed were studied at Los Tuxtlas, Mexico. Howlers consumed the fruits of 35 species of plants. The seeds of 28 of these were dispersed by the monkeys. The majority (≥90%) of the seeds dispersed by monkeys were destroyed by rodents. Rapid relocation and burial of dung by dung beetles resulted in accidental relocation and burial of large numbers of seeds shortly after deposition. Faecal clumps (20 mg) remained on the ground for an average of only 2.5 h (range 1–3 h). Ball rolling beetles transported balls up to 5.0 m from the site of deposition (range 1–5 m). Burrowing and ball-rolling dung beetles buried seeds at depths ranging from 2.5 to > 12.0cm. The deeper a seed is buried, the less likely it is to be found and eaten by rodents. Eighty percent of the species used by Alouatta as sources of fruit at Los Tuxtlas benefited by the dispersal and post dispersal service provided by howlers and dung beetles respectively. Seasonality in dung beetles abundance in the forest may influence the number of seeds per species escaping post-dispersal predation during the year. Dung beetles play not only an important ecological role in the recycling of matter and energy in the ecosystem, but also in the process of rain forest regeneration.

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