in

Vertebrate growth plasticity in response to variation in a mutualistic interaction

  • Pfennig, D. The adaptive significance of an environmentally-cued developmental switch in an anuran tadpole. Oecologia 85, 101–107 (1990).

    ADS 
    PubMed 
    Article 

    Google Scholar 

  • Brönmark, C. & Miner, J. G. Predator-induced phenotypical change in body morphology in Crucian carp. Science 258, 1348–1350 (1992).

    ADS 
    PubMed 
    Article 

    Google Scholar 

  • Wikelski, M. & Thom, C. Marine iguanas shrink to survive El Niño. Nature 403, 37–38 (2000).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Agrawal, A. A. Phenotypic plasticity in the interactions and evolution of species. Science 294, 321–326 (2001).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Huchard, E., English, S., Bell, M. B. V., Thavarajah, N. & Clutton-Brock, T. Competitive growth in a cooperative mammal. Nature 533, 532–534 (2016).

    ADS 
    CAS 
    PubMed 
    PubMed Central 
    Article 

    Google Scholar 

  • Travis, J. Evaluating the adaptive role of morphological plasticity. In: Ecological morphology (pp. 99–122) (The University of Chicago Press, Chicago, 1994).

  • Lázaro, J., Dechmann, D. K. N., LaPoint, S., Wikelski, M. & Hertel, M. Profound reversible seasonal changes of individual skull size in a mammal. Curr. Biol. 27, R1106–R1107 (2017).

    PubMed 
    Article 
    CAS 

    Google Scholar 

  • Lázaro, J. & Dechmann, D. K. Dehnel’s phenomenon. Ecol. Evol. 31, R463–R465 (2021).

    Google Scholar 

  • Bronstein, J. L. The evolution of facilitation and mutualism. J. Ecol. 97, 1160–1170 (2009).

    Article 

    Google Scholar 

  • Leigh, J. The evolution of mutualism. J. Environ. Biol. 23, 2507–2528 (2010).

    Google Scholar 

  • Liu, C., Yang, D. R. & Peng, Y. Q. Body size in a pollinating fig wasp and implications for stability in a fig-pollinator mutualism. Entomol. Exper. Appl. 138, 249–255 (2011).

    Article 

    Google Scholar 

  • Pires, M. M., Guimarães, P. R., Galetti, M. & Jordano, P. Pleistocene megafaunal extinctions and the functional loss of long-distance seed-dispersal services. Ecography 41, 153–163 (2018).

    Article 

    Google Scholar 

  • Boucher, D., James, S. & Keeler, K. The ecology of mutualism. Annu. Rev. Ecol. Syst. 13, 315–347 (1982).

    Article 

    Google Scholar 

  • Irwin, R. E. & Brody, A. K. Nectar robbing in Ipomopsis aggregata: effects on pollinator behavior and plant fitness. Oecologia 116, 519–527 (1998).

    ADS 
    PubMed 
    Article 

    Google Scholar 

  • Allen, G. The Anemonefishes: their classification and biology (T.F.H. Publications, 1972).

    Google Scholar 

  • Fautin, D.G. & Allen, G.R. Field guide to anemonefishes and their host sea anemones. (Western Australian Museum, Perth, 1992).

  • Ollerton, J., McCollin, D., Fautin, D. G. & Allen, G. R. Finding NEMO: nestedness engendered by mutualistic organization in anemonefish and their hosts. Proc. R. Soc. B Biol. Sci. 274, 591–598 (2006).

    Article 

    Google Scholar 

  • Fricke, H. & Fricke, S. Monogamy and sex change by aggressive dominance in coral reef fish. Nature 266, 830–832 (1977).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Buston, P. M. Size and growth modification in clownfish. Nature 424, 145–146 (2003).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Mariscal, R. N. The nature of the symbiosis between Indo-Pacific anemone fishes and sea anemones. Mar. Biol. 6, 58–65 (1970).

    Article 

    Google Scholar 

  • Elliott, J. K., Elliott, J. M. & Mariscal, R. N. Host selection, location, and association behaviors of anemonefishes in field settlement experiments. Mar. Biol. 122, 377–389 (1995).

    Article 

    Google Scholar 

  • Verde, A. E., Cleveland, A. & Lee, R. W. Nutritional exchange in a tropical tripartite symbiosis II: direct evidence for the transfer of nutrients from host anemone and zooxanthellae to anemonefish. Mar. Biol. 162, 2409–2429 (2015).

    Article 
    CAS 

    Google Scholar 

  • Cleveland, A., Verde, E. A. & Lee, R. W. Nutritional exchange in a tropical tripartite symbiosis: direct evidence for the transfer of nutrients from anemonefish to host anemone and zooxanthellae. Mar. Biol. 158, 589–602 (2011).

    Article 

    Google Scholar 

  • Sale, P. F. Effect of cover on agonistic behavior of a reef fish: a possible spacing mechanism. Ecology 53, 753–758 (1972).

    Article 

    Google Scholar 

  • Fricke, H. W. & Holzberg, S. Social units and hermaphroditism in a pomacentrid fish. Naturwissenschaften 61, 367–368 (1974).

    ADS 
    Article 

    Google Scholar 

  • Fricke, H. W. Control of different mating systems in a coral reef fish by one environmental factor. Anim. Behav. 28, 561–569 (1980).

    Article 

    Google Scholar 

  • Mitchell, J. S. & Dill, L. M. Why is group size correlated with the size of the host sea anemone in the false clown anemonefish?. Canad. J. Zool. 83, 372–376 (2005).

    Article 

    Google Scholar 

  • Chausson, J., Srinivasan, M. & Jones, G. P. Host anemone size as a determinant of social group size and structure in the orange clownfish (Amphiprion percula). PeerJ 6, e5841 (2018).

    PubMed 
    PubMed Central 
    Article 

    Google Scholar 

  • Reed, C., Branconi, R., Majoris, J., Johnson, C. & Buston, P. Competitive growth in a social fish. Biol. Lett. 15, 20180737 (2019).

    PubMed 
    PubMed Central 
    Article 

    Google Scholar 

  • Buston, P. M. Mortality is associated with social rank in the clown anemonefish (Amphiprion percula). Mar. Biol. 143, 811–815 (2003).

    Article 

    Google Scholar 

  • Branconi, R. et al. Ecological and social constraints combine to promote evolution of non-breeding strategies in clownfish. Comm. Biol. 3, 1–7 (2020).

    Article 
    CAS 

    Google Scholar 

  • Schmiege, P. F., D’Aloia, C. C. & Buston, P. M. Anemonefish personalities influence the strength of mutualistic interactions with host sea anemones. Mar. Biol. 164, 24 (2017).

    Article 

    Google Scholar 

  • Barbasch, T. A. & Buston, P. M. Plasticity and personality of parental care in the clown anemonefish. Anim. Behav. 136, 65–73 (2018).

    Article 

    Google Scholar 

  • Abramoff, M. D., Magalhaes, P. J. & Ram, S. J. Image PROcessing with ImageJ. Biophoto. Int. 11, 36–42 (2004).

    Google Scholar 

  • R Core Team. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/ (2020).

  • Goodrich, B., Gabry, J., Ali I. & Brilleman, S. Rstanarm: Bayesian applied regression modeling via Stan. R package version 2.21.1 https://mc-stan.org/rstanarm (2020).

  • Weatherley, A. H. Approaches to understanding fish growth. Trans. Am. Fish. Soc. 119, 662–672 (1990).

    Article 

    Google Scholar 

  • Gabry, J. Shinystan: interactive visual and numerical diagnostics and posterior analysis for Bayesian models. R package version 2.5.0. https://CRAN.R-project.org/package=shinystan (2018).

  • Gelman, A., Goodrich, B., Gabry, J. & Vehtari, A. R-squared for Bayesian regression models. Am. Stat. 3, 307–309 (2018).

    MathSciNet 

    Google Scholar 

  • Lüdecke, D., Ben-Shachar, M. S., Patil, I., Waggoner, P. & Makowski, D. Performance: an R package for assessment, comparison and testing of statistical models. J. Open Sour. Softw. 6, 60 (2021).

    Google Scholar 

  • Gabry, J., Simpson, D., Vehtari, A., Betancourt, M. & Gelman, A. Visualization in Bayesian workflow. J. R. Stat. Soc. Ser. A Stat. Soc. 182, 389–402 (2019).

    MathSciNet 
    Article 

    Google Scholar 

  • Gabry, J. & Mahr, T. Bayesplot: plotting for bayesian models. R package version 1.8.0. https://mc-stan.org/bayesplot/ (2021).

  • Elliott, J. K. & Mariscal, R. N. Coexistence of nine anemonefish species: differential host and habitat utilization, size and recruitment. Mar. Biol. 138, 23–36 (2001).

    Article 

    Google Scholar 

  • Buston, P. M. Forcible eviction and prevention of recruitment in the clown anemonefish. Behav. Ecol. 14, 576–582 (2003).

    Article 

    Google Scholar 

  • Fautin, D. G. & Allen, G. R. Anemone fishes and their host sea anemones: a guide for aquarists and divers. Sea Challengers (1997).

  • Beldade, R., Blandin, A., O’Donnell, R. & Mills, S. C. Cascading effects of thermally-induced anemone bleaching on associated anemonefish hormonal stress response and reproduction. Nat. Commun. 8, 1–9 (2017).

    ADS 
    CAS 
    Article 

    Google Scholar 

  • Cortese, D. et al. Physiological and behavioural effects of anemone bleaching on symbiont anemonefish in the wild. Funct. Ecol. 35, 663–674 (2021).

    Article 

    Google Scholar 

  • Scherbatskoy, E. C. et al. Characterization of a novel picornavirus isolated from moribund aquacultured clownfish. J. Gen. Virol. 101, 735–745 (2020).

    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Saenz-Agudelo, P., Jones, G. P., Thorrold, S. R. & Planes, S. Mothers matter: contribution to local replenishment is linked to female size, mate replacement and fecundity in a fish metapopulation. Mar. Biol. 162, 3–14 (2014).

    Article 

    Google Scholar 

  • Barbasch, T. A. et al. Substantial plasticity of reproduction and parental care in response to local resource availability in a wild clownfish population. Oikos 129, 1844–1855 (2020).

    Article 

    Google Scholar 

  • Sebens, K. P. The ecology of indeterminate growth in animals. A. Rev. Ecol. Syst. 18, 371–407 (1987).

    Article 

    Google Scholar 

  • Buston, P. M. & García, M. B. An extraordinary life span estimate for the clown anemonefish Amphiprion percula. J. Fish Biol. 70, 1710–1719 (2007).

    Article 

    Google Scholar 

  • Chamberlain, S. A., Kilpatrick, J. R. & Holland, J. N. Do extrafloral nectar resources, species abundances, and body sizes contribute to the structure of ant–plant mutualistic networks?. Oecologia 164, 741–750 (2010).

    ADS 
    PubMed 
    Article 

    Google Scholar 

  • Marting, P. R., Kallman, N. M., Wcislo, W. T. & Pratt, S. C. Ant-plant sociometry in the Azteca-Cecropia mutualism. Sci. Rep. 8, 1–15 (2018).

    Article 
    CAS 

    Google Scholar 

  • Fordyce, J. A. The evolutionary consequences of ecological interactions mediated through phenotypic plasticity. J. Exp. Biol. 209, 2377–2383 (2006).

    PubMed 
    Article 

    Google Scholar 

  • West-Eberhard, M. J. Developmental plasticity and evolution (Oxford University Press, 2003).

    Book 

    Google Scholar 

  • West-Eberhard, M. J. Phenotypic accommodation: adaptive innovation due to developmental plasticity. J. Exp. Zool. B Mol. Develop. Evol. 304, 610–618 (2005).

    Article 

    Google Scholar 

  • Moczek, A. P. et al. The role of developmental plasticity in evolutionary innovation. Proc. R. Soc. B Biol. Sci. 278, 2705–2713 (2011).

    Article 

    Google Scholar 


  • Source: Ecology - nature.com

    Organic and in-organic fertilizers effects on the performance of tomato (Solanum lycopersicum) and cucumber (Cucumis sativus) grown on soilless medium

    Four researchers with MIT ties earn Schmidt Science Fellowships