Host sanction theory
The host sanction (HS) theory aims to understand how cooperation evolves and is maintained in a mutualistic relationship between organisms. The host sanction model theorizes that the host organism of a mutualism is able to decrease the fitness of the other organism to prevent cheating.[1]
The basis of the host sanction (HS) theory was first introduced by J.J. Bull and W.R. Rice in 1991 as the partner-choice model.[2] The partner-choice model was proposed as a mechanism in which one organism is capable of rewarding or punishing the other organism based on its cooperation. Bull and Rice hypothesized the partner-choice model is evident in both fig tree-fig wasp and yucca-yucca moth (Parategeticula or Tegeticula) mutualisms.[3] Further studies conclude these mutualisms align with the host sanction (HS) model given they both involve a host organism implementing sanctions on their symbiotic partners. The fig tree-fig wasp mutualism was observed by Axelrod and Hamilton in 1981.[4] In this mutualism, the fig tree receives pollination from the fig wasps, and the fig wasps oviposit eggs into figs. This relationship represents a host sanction mechanism due to the fig tree's ability to prevent the fig wasp from ovipositing too many eggs by selectively aborting figs with too many wasp eggs. The yucca -yucca moth mutualism is similar; the oviposition of yucca moth eggs allows yucca pollination. The yucca plant is capable of enforcing sanctions on the moths by withholding nectar to prevent cheating.[5] In both these situations, the yucca plant and fig tree are hosts to the insects and they administer sanctions to the insects. Host sanctions are commonly accepted as a mechanism that allows mutualisms to exist through evolving cooperation between organisms.
References
[edit]- ^ Charlotte Jandér K., Herre, E. A., & Simms, E. L. (2012). Precision of host sanctions in the fig tree-fig wasp mutualism: consequences for uncooperative symbionts. Ecology Letters, 15(12), 1362–1369. https://doi.org/10.1111/j.1461-0248.2012.01857.x
- ^ Bull, J.J., Rice, W.R. (1991). Distinguishing Mechanisms for the Evolution of Co-operation. Journal of Theoretical Biology, 149(1), 63-74. https://doi.org/10.1016/S0022-5193(05)80072-4.
- ^ Bull, J.J., Rice, W.R. (1991). Distinguishing Mechanisms for the Evolution of Co-operation. Journal of Theoretical Biology, 149(1), 63-74. https://doi.org/10.1016/S0022-5193(05)80072-4.
- ^ Axelrod, R. (1984). The Evolution of Cooperation. https://ee.stanford.edu/~hellman/Breakthrough/book/pdfs/axelrod.pdf
- ^ Pellmyr, O., Thompson, J. N., Brown, J. M., & Harrison, R. G. (1996). Evolution of Pollination and Mutualism in the Yucca Moth Lineage. The American Naturalist, 148(5), 827–847. http://www.jstor.org/stable/2463408