scholarly journals Consequences of variation in predator attack for the evolution of the selfish herd

2014 ◽  
Vol 29 (1) ◽  
pp. 107-121 ◽  
Author(s):  
Lesley J. Morrell ◽  
Lottie Greenwood ◽  
Graeme D. Ruxton
Keyword(s):  
Selfish Herd ◽  
Predator Attack

scholarly journals The temporal selfish herd: predation risk while aggregations form

2010 ◽  
Vol 278 (1705) ◽  
pp. 605-612 ◽  
Author(s):  
Lesley J. Morrell ◽  
Graeme D. Ruxton ◽  
Richard James
Keyword(s):  
Selection Pressure ◽  
Alternative Strategies ◽  
Diverse Range ◽  
Predator Prey ◽  
Selfish Herd ◽  
Predator Attack ◽  
Movement Strategies ◽  
Movement Sequence ◽  
Animal Aggregation ◽  
Behavioural Diversity

The hypothesis of the selfish herd has been highly influential to our understanding of animal aggregation. Various movement strategies have been proposed by which individuals might aggregate to form a selfish herd as a defence against predation, but although the spatial benefits of these strategies have been extensively studied, little attention has been paid to the importance of predator attacks that occur while the aggregation is forming . We investigate the success of mutant aggregation strategies invading populations of individuals using alternative strategies and find that the invasion dynamics depend critically on the time scale of movement. If predation occurs early in the movement sequence, simpler strategies are likely to prevail. If predators attack later, more complex strategies invade. If there is variation in the timing of predator attacks (through variation within or between individual predators), we hypothesize that groups will consist of a mixture of strategies, dependent upon the distribution of predator attack times. Thus, behavioural diversity can evolve and be maintained in populations of animals experiencing a diverse range of predators differing solely in their attack behaviour. This has implications for our understanding of predator–prey dynamics, as the timing of predator attacks will exert selection pressure on prey behavioural responses, to which predators must respond.

scholarly journals Insect herbivory on urban trees: Complementary effects of tree neighbours and predation

2020 ◽  
Author(s):  
Alex Stemmelen ◽  
Alain Paquette ◽  
Marie-Lise Benot ◽  
Yasmine Kadiri ◽  
Hervé Jactel ◽  
...  
Keyword(s):  
Insect Herbivory ◽  
Urban Ecosystems ◽  
Urban Environments ◽  
Tree Diversity ◽  
Urban Trees ◽  
List Type ◽  
Growth And Survival ◽  
Predator Attack ◽  
Peer Community ◽  
Survival Tree

AbstractInsect herbivory is an important component of forest ecosystems functioning and can affect tree growth and survival. Tree diversity is known to influence insect herbivory in natural forest, with most studies reporting a decrease in herbivory with increasing tree diversity. Urban ecosystems, on the other hand, differ in many ways from the forest ecosystem and the drivers of insect herbivory in cities are still debated.We monitored 48 urban trees from five species – three native and two exotic – in three parks of Montreal (Canada) for leaf insect herbivory and predator activity on artificial larvae, and linked herbivory with both predation and tree diversity in the vicinity of focal trees.Leaf insect herbivory decreased with increasing tree diversity and with increasing predator attack rate.Our findings indicate that tree diversity is a key determinant of multitrophic interactions between trees, herbivores and predators in urban environments and that managing tree diversity could contribute to pest control in cities.This article has been peer-reviewed and recommended by Peer Community in Ecologyhttps://doi.org/10.24072/pci.ecology.100061

Selfish herd optimization algorithm based on chaotic strategy for adaptive IIR system identification problem

2019 ◽  
Vol 24 (10) ◽  
pp. 7637-7684
Author(s):  
Ruxin Zhao ◽  
Yongli Wang ◽  
Chang Liu ◽  
Peng Hu ◽  
Hamed Jelodar ◽  
...  
Keyword(s):  
System Identification ◽  
Optimization Algorithm ◽  
Identification Problem ◽  
Selfish Herd

Changes in the predator-avoidance behaviour of juvenile guppies (Poecilia reticulata) exposed to pentachlorophenol

1985 ◽  
Vol 63 (9) ◽  
pp. 2001-2005 ◽  
Author(s):  
Joseph A. Brown ◽  
Peter H. Johansen ◽  
Patrick W. Colgan ◽  
R. Alastair Mathers
Keyword(s):  
Largemouth Bass ◽  
Predator Avoidance ◽  
Poecilia Reticulata ◽  
Micropterus Salmoides ◽  
Avoidance Behaviour ◽  
General Behaviour ◽  
Treatment Groups ◽  
Predator Attack ◽  
High Treatment ◽  
Predator Efficiency

The effects of pentachlorophenol on the predator-avoidance behaviour of the guppy (Poecilia reticulate) in response to largemouth bass (Micropterus salmoides) predation was investigated. There were no consistent effects of pentachlorophenol on habitat use or general behaviour of the guppies. In the presence of predators, all guppies occurred significantly more often alone, motionless, and in the top third of the water column in the nonopen areas. Nine variables associated with predator efficiency were monitored to determine which treatment groups of guppies were easiest to capture. The bass had significantly lower capture success, performed more strikes and chases, and spent more time chasing guppies from the untreated and 100 μg/L groups than those from the 500 and 700 μg/L groups. This suggests that the guppies from the two high treatment groups had a slower response to predator attack and could not maintain a prolonged escape burst of speed.

scholarly journals Predator-induced flow disturbances alert prey, from the onset of an attack

2014 ◽  
Vol 281 (1790) ◽  
pp. 20141083 ◽  
Author(s):  
Jérôme Casas ◽  
Thomas Steinmann
Keyword(s):  
Prey Capture ◽  
Ground Effect ◽  
Just In Time ◽  
Soil Arthropods ◽  
Predator Prey ◽  
Flow Sensing ◽  
Predator Attack ◽  
Flow Disturbances ◽  
A Minor ◽  
High Degree

Many prey species, from soil arthropods to fish, perceive the approach of predators, allowing them to escape just in time. Thus, prey capture is as important to predators as prey finding. We extend an existing framework for understanding the conjoint trajectories of predator and prey after encounters, by estimating the ratio of predator attack and prey danger perception distances, and apply it to wolf spiders attacking wood crickets. Disturbances to air flow upstream from running spiders, which are sensed by crickets, were assessed by computational fluid dynamics with the finite-elements method for a much simplified spider model: body size, speed and ground effect were all required to obtain a faithful representation of the aerodynamic signature of the spider, with the legs making only a minor contribution. The relationship between attack speed and the maximal distance at which the cricket can perceive the danger is parabolic; it splits the space defined by these two variables into regions differing in their values for this ratio. For this biological interaction, the ratio is no greater than one, implying immediate perception of the danger, from the onset of attack. Particular attention should be paid to the ecomechanical aspects of interactions with such small ratio, because of the high degree of bidirectional coupling of the behaviour of the two protagonists. This conclusion applies to several other predator–prey systems with sensory ecologies based on flow sensing, in air and water.

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