`a`
Mathematical Biosciences and Engineering (MBE)
 

Altruistic aging: The evolutionary dynamics balancing longevity and evolvability
Pages: 455 - 465, Issue 2, April 2017

doi:10.3934/mbe.2017028      Abstract        References        Full text (1298.0K)           Related Articles

Minette Herrera - School of Mathematical and Natural Sciences, Arizona State University, Glendale, AZ 85306-4908, United States (email)
Aaron Miller - School of Mathematical and Natural Sciences, Arizona State University, Glendale, AZ 85306-4908, United States (email)
Joel Nishimura - School of Mathematical and Natural Sciences, Arizona State University, Glendale, AZ 85306-4908, United States (email)

1 P. A. Abrams, Does increased mortality favor the evolution of more rapid senescence?, Evolution, 47 (1993), 877-887.
2 P. Bak and K. Sneppen, Punctuated equilibrium and criticality in a simple model of evolution, Physical Review Letters, 71 (1993), 4083.
3 S. Balshine-Earn, F. C. Neat, H. Reid and M. Taborsky, Paying to stay or paying to breed? field evidence for direct benefits of helping behavior in a cooperatively breeding fish, Behavioral Ecology, 9 (1998), 432-438.
4 G. Bavestrello, C. Sommer and M. Sarà, Bi-directional conversion in turritopsis nutricula (hydrozoa), Scientia Marina, 56 (1992), 137-140.
5 J. Bendor and P. Swistak, Types of evolutionary stability and the problem of cooperation, Proceedings of the National Academy of Sciences, 92 (1995), 3596-3600.
6 J. D. Congdon, R. D. Nagle, O. M. Kinney, R. C. van Loben Sels, T. Quinter and D. W. Tinkle, Testing hypotheses of aging in long-lived painted turtles (chrysemys picta), Experimental Gerontology, 38 (2003), 765-772.
7 F. Fu and M. A. Nowak, Global migration can lead to stronger spatial selection than local migration, Journal of Statistical Physics, 151 (2013), 637-653.       
8 L. Hadany, T. Beker, I. Eshel and M. W. Feldman, Why is stress so deadly? an evolutionary perspective, Proceedings of the Royal Society of London B: Biological Sciences, 273 (2006), 881-885.
9 W. Hamilton, The genetical evolution of social behaviour. I, Journal of Theoretical Biology, 7 (1964), 1-16.
10 G. Ichinose, M. Saito, H. Sayama and D. S. Wilson, Adaptive long-range migration promotes cooperation under tempting conditions, Scientific Reports, 3 (2013), p2509.
11 K. Jin, Modern biological theories of aging, Aging and Disease, 1 (2010), p72.
12 M. Kimura and G. H. Weiss, The stepping stone model of population structure and the decrease of genetic correlation with distance, Genetics, 49 (1964), p561.
13 T. B. Kirkwood, Evolution of ageing, Mechanisms of Ageing and Development, 123 (2002), 737-745.
14 P. Ljubuncic and A. Z. Reznick, The evolutionary theories of aging revisited-a mini-review, Gerontology, 55 (2009), 205-216.
15 P. B. Medawar, An Unsolved Problem of Biology, College, 1952.
16 M. A. Nowak, Five rules for the evolution of cooperation, Science, 314 (2006), 1560-1563.
17 H. Ohtsuki, P. Bordalo and M. A. Nowak, The one-third law of evolutionary dynamics, Journal of Theoretical Biology, 249 (2007), 289-295.       
18 L. Partridge and N. H. Barton, Optimality, mutation and the evolution of ageing, Nature: International Weekly Journal of Science, 362 (1993), 305-311.
19 G. B. Pollock and A. Cabrales, Suicidal altruism under random assortment, Evolutionary Ecology Research, 10 (2008), 1077-1086.
20 A. Traulsen and M. A. Nowak, Evolution of cooperation by multilevel selection, Proceedings of the National Academy of Sciences, 103 (2006), 10952-10955.
21 J. Van Cleve, Social evolution and genetic interactions in the short and long term, Theoretical Population Biology, 103 (2015), 2-26.
22 J. W. Vaupel, A. Baudisch, M. Dölling, D. A. Roach and J. Gampe, The case for negative senescence, Theoretical Population Biology, 65 (2004), 339-351, http://www.sciencedirect.com/science/article/pii/S004058090400022X, Demography in the 21st Century.
23 A. Weismann, E. B. Poulton, S. Schönland and A. E. Shipley, Essays Upon Heredity and Kindred Biological Problems, vol. 1, Clarendon press, 1891.
24 G. C. Williams, Pleiotropy, natural selection, and the evolution of senescence, Evolution, 11 (1957), 398-411.

Go to top