2018 |
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| 2. | Raviteja, D; Ramaswamy, R By-product group benefits of non-kin resource-sharing in vampire bats Journal Article Journal of Physics: Conference Series, 1090 , pp. 012002, 2018, ISSN: 1742-6596. Abstract | Links | BibTeX | Tags: Conference, Optimisation, Population Dynamics, Resource Management @article{Donepudi2018a, title = {By-product group benefits of non-kin resource-sharing in vampire bats}, author = {D Raviteja and R Ramaswamy}, url = {https://ramramaswamy.org/papers/171.pdf}, doi = {10.1088/1742-6596/1090/1/012002}, issn = {1742-6596}, year = {2018}, date = {2018-01-01}, journal = {Journal of Physics: Conference Series}, volume = {1090}, pages = {012002}, abstract = {We develop an agent based model (ABM) to simulate the behaviour of a colony of vampire bats (Order: Chiroptera) and study the by-product group benefits that result from resource-sharing among related as well as unrelated members of the colony. Such cooperative behaviour can lead to unexpected group benefits; there is an increase the inclusive fitness of related members of the colony (namely kin) and can have direct benefit when shared with unrelated members (namely non-kin). Sharing can also provides by-product benefits when individuals have a shared (or group) interest. Our study focuses on the contrast in the group estimates between sharing and non-sharing populations. For constant ecological resources, sharing behaviour can increase the sustainable population size, increase the total resource stored in the population, and reduce the average resource required per individual, compared to a non-sharing population. (The extent of the increase or decrease will depend on the parameters of the model). This increased carrying capacity due to resource sharing can increase the fitness of individuals in the group. The increase in cooperativity has a nonlinear effect on group benefits: Substantial group benefits are shown only after a cooperativity threshold, and it increases exponentially to a maximum thereafter.}, keywords = {Conference, Optimisation, Population Dynamics, Resource Management}, pubstate = {published}, tppubtype = {article} } We develop an agent based model (ABM) to simulate the behaviour of a colony of vampire bats (Order: Chiroptera) and study the by-product group benefits that result from resource-sharing among related as well as unrelated members of the colony. Such cooperative behaviour can lead to unexpected group benefits; there is an increase the inclusive fitness of related members of the colony (namely kin) and can have direct benefit when shared with unrelated members (namely non-kin). Sharing can also provides by-product benefits when individuals have a shared (or group) interest. Our study focuses on the contrast in the group estimates between sharing and non-sharing populations. For constant ecological resources, sharing behaviour can increase the sustainable population size, increase the total resource stored in the population, and reduce the average resource required per individual, compared to a non-sharing population. (The extent of the increase or decrease will depend on the parameters of the model). This increased carrying capacity due to resource sharing can increase the fitness of individuals in the group. The increase in cooperativity has a nonlinear effect on group benefits: Substantial group benefits are shown only after a cooperativity threshold, and it increases exponentially to a maximum thereafter. |
2014 |
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| 1. | Karnatak, Rajat; Ramaswamy, Ram; Feudel, Ulrike Conjugate coupling in ecosystems: Cross-predation stabilizes food webs Journal Article Chaos, Solitons and Fractals, 68 , pp. 48–57, 2014, ISSN: 09600779. Abstract | Links | BibTeX | Tags: Conjugate Coupling, Population Dynamics, Predator-Prey @article{Karnatak2014, title = {Conjugate coupling in ecosystems: Cross-predation stabilizes food webs}, author = {Rajat Karnatak and Ram Ramaswamy and Ulrike Feudel}, url = {http://dx.doi.org/10.1016/j.chaos.2014.07.003}, doi = {10.1016/j.chaos.2014.07.003}, issn = {09600779}, year = {2014}, date = {2014-01-01}, journal = {Chaos, Solitons and Fractals}, volume = {68}, pages = {48–57}, publisher = {Elsevier Ltd}, abstract = {We study the dynamics of two predator-prey systems that are coupled via cross-predation, in which each predator consumes also the other prey. This setup constitutes a model system in which conjugate coupling emerges naturally and denotes the transition from two separate food chains to a food web. We show that cross-predation of a certain strength leads to amplitude death stabilizing the food web in a new equilibrium. }, keywords = {Conjugate Coupling, Population Dynamics, Predator-Prey}, pubstate = {published}, tppubtype = {article} } We study the dynamics of two predator-prey systems that are coupled via cross-predation, in which each predator consumes also the other prey. This setup constitutes a model system in which conjugate coupling emerges naturally and denotes the transition from two separate food chains to a food web. We show that cross-predation of a certain strength leads to amplitude death stabilizing the food web in a new equilibrium. |