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Phenotypic plasticity of ecotypes across habitats

Year 2018, , 245 - 250, 26.12.2018
https://doi.org/10.29278/azd.476663

Abstract

Phenotypic plasticity is
the ability of a genotype to produce multiple phenotypes depending on the
environmental conditions and it can allow persistence of populations in
heterogeneous habitats or under climate change. Therefore, phenotypic
plasticity can play a major role in the divergence

of populations across habitats. Trade-offs in plant performance in various
habitats can give rise to the evolution of specialized ecotypes which are
locally adapted (specialized) populations of the same species in distinct
environments. According to the specialization hypothesis, specialization of
ecotypes to either relatively favorable or unfavorable habitats results in
increased or decreased phenotypic plasticity, respectively. The presence of
phenotypic plasticity differences among ecotypes can be easily detected by
examining their performances at home (native) versus foreign (alien)
environments in reciprocal field experiments. In this meta-analysis, I compared
phenotypic plasticity of ecotypes specialized in favorable and unfavorable
habitats to test the specialization hypothesis by extracting data from 47
empirical studies. Log response ratio (LRR) and plasticity index (
PIv) were used as effect sizes to
detect and quantify significant differences in phenotypic plasticity of
ecotypes across habitats.
The overall
result indicated that it was failed to find an effect of habitat origin on
phenotypic plasticity expression of ecotypes. Specialization to either
favorable or unfavorable
habitats may not
alter phenotypic plasticity expression in ecotypes. The interplay between
phenotypic plasticity and specialization is quite complex and results of this
study may shed light into these two important evolutionary mechanisms in plant
ecology which have implications for biodiversity conservation, environmental
management, agricultural industry, and ecosystem services. 

References

  • Avramov, S., Tucic, B., 2006. Plasticity to an irradiance gradient in foliage attributes of a perennial monocot Iris pumila (L.): Comparison of populations from habitats of contrasting light conditions. Polish Journal of Ecology, 54(3): 403-416.
  • Balaguer, L., Martínez‐Ferri, E., Valladares, F., Pérez‐Corona, M. E., Baquedano, F. J., Castillo, F. J., Manrique, E., 2001. Population divergence in the plasticity of the response of Quercus coccifera to the light environment. Functional Ecology, 15:124-135.
  • Bennington, C. C., McGraw, J. B., 1995. Natural selection and ecotypic differentiation in Impatiens pallida. Ecological Monographs, 65(3): 303-323.
  • Bennington, C. C., Fetcher, N., Vavrek, M. C., Shaver, G. R., Cummings, K. J., McGraw, J. B., 2012. Home site advantage in two long-lived arctic plant species: Results from two 30-year reciprocal transplant studies. Journal of Ecology, 100(4): 841-851.
  • Berg, H., Becker, U., Matthies, D., 2005. Phenotypic plasticity in Carlina vulgaris: effects of geographical origin, population size, and population isolation. Oecologia, 143: 220-231.
  • Chevin, L. M., Hoffmann, A. A., 2017. Evolution of phenotypic plasticity in extreme environments. Philosophical Transactions of the Royal Society B: Biological Sciences, 372(1723): 20160138.
  • Conover, D. O., Schultz, E. T., 1995. Phenotypic similarity and the evolutionary significance of countergradient variation. Trends in Ecology & Evolution, 10: 248-252.
  • de Jong, G., 2005. Evolution of phenotypic plasticity: patterns of plasticity and the emergence of ecotypes. New Phytologist, 166: 101-117.
  • Dewitt, T. J., Sih, A., Wilson, D. S., 1998. Costs and limits of phenotypic plasticity. Trends in Ecology & Evolution, 13(2): 77-81. Fazlioglu, F., Bonser, S. P., 2016. Phenotypic plasticity and specialization in clonal versus non-clonal plants: A data synthesis. Acta Oecologica, 77: 193-200.
  • Fazlioglu, F., Wan, J. S. H., Bonser, S. P., 2017. Testing specialization hypothesis on a stress gradient. Austral Ecology, 42(1): 40-47.
  • Forsman, A., 2015. Rethinking phenotypic plasticity and its consequences for individuals, populations and species. Heredity, 115: 276-284.
  • Frei, E. R., Ghazoul, J., Pluess, A. R., 2014. Plastic responses to elevated temperature in low and high elevation populations of three grassland species. PLoS ONE, 9: e98677.
  • Futuyma, D. J., Moreno, G., 1998. The evolution of ecological specialization. Annual Review of Ecology, Evolution, and Systematics, 19: 207-233.
  • Gauthier, P., Lumaret, R., Bedecarrats, A., 1998. Ecotype differentiation and coexistence of two parapatric tetraploid subspecies of cocksfoot (Dactylis glomerata) in the Alps. New Phytologist, 139: 741-750.
  • Ghalambor, C. K., Mckay, J. K., Carroll, S. P., Reznick, D. N., 2007. Adaptive versus non-adaptive phenotypic plasticity and the potential for contemporary adaptation in new environments. Functional Ecology, 21: 394-407.
  • Godoy, O., Valladares, F., Castro-Díez, P., 2011. Multispecies comparison reveals that invasive and native plants differ in their traits but not in their plasticity. Functional Ecology, 25:1248-1259.
  • Gratani, L., Catoni, R., Pirone, G., Frattaroli, A. R., Varone, L., 2012. Physiological and morphological leaf trait variations in two Apennine plant species in response to different altitudes. Photosynthetica, 50(1): 15-23.
  • Griffith, T., Sultan, S. E., 2005. Shade tolerance plasticity in response to neutral vs green shade cues in Polygonum species of contrasting ecological breadth. New Phytologist, 166(1): 141-147.
  • Griffith, T., Sultan, S. E. 2012. Field-based insights to the evolution of specialization: plasticity and fitness across habitats in a specialist/generalist species pair. Ecology and Evolution, 2(4): 778-791.
  • Hollander, J., Snell-Rood, E., Foster, S. 2015. New frontiers in phenotypic plasticity and evolution. Heredity, 115(4): 273-275.
  • Kawecki, T. J., Ebert, D., 2004. Conceptual issues in local adaptation. Ecology Letters, 7: 1225-1241.
  • Lambers, H., Poorter, H., 1992. Inherent variation in growth rate between higher plants: A search for physiological causes and ecological consequences. Advances in Ecological Research, 23: 188-261.
  • Langlet, O., 1971. The hundred years of genecology. Taxon, 20: 656-722. Lazaro‑Nogal, A., Matesanz, S., Hallik, L., Krasnova, A., Traveset, A., Valladares, F., 2016. Population differentiation in a Mediterranean relict shrub: the potential role of local adaptation for coping with climate change. Oecologia, 180: 1075-1090.
  • Lenormand, T., 2002. Gene flow and the limits to natural selection. Trends in Ecology and Evolution, 17(4): 183-189.
  • Lortie, C., Aarssen, L. W., 1996. The specialization hypothesis for phenotypic plasticity in plants. International Journal of Plant Sciences, 157(4): 484-487.
  • Magi, M., Semchenko, M., Kalamees, R., Zobel, K., 2011. Limited phenotypic plasticity in range-edge populations: a comparison of co-occurring populations of two Agrimonia species with different geographical distribution. Plant Biology, 13: 177-184.
  • McGraw, J. B., Antonovics, J., 1983. Experimental ecology of Dryas octopetala ecotypes. I. Ecotypic differentiation and life-cycle stages of selection. Journal of Ecology, 71: 879-897.
  • Nicotra, A. B., Atkin, O. K., Bonser, S. P., Davidson, A. M., Finnegan, E. J., Mathesius, U., Poot, P., Purugganan, M. D., Richards, C. L., Valladares, F., van Kleunen, M., 2010. Plant phenotypic plasticity in a changing climate. Trends in Plant Science, 15(12): 684-692.
  • Pfennig, D. W., Wund, M. A., Snell-Rood, E. C., Cruickshank, T., Schlichting, C. D., Moczek, A. P., 2010. Phenotypic plasticity’s impacts on diversification and speciation. Trends in Ecology & Evolution, 25(8): 459-467.
  • Pigliucci, M., 2001. Phenotypic plasticity: beyond nature and nurture, The John Hopkins University Press. Baltimore, USA. 328 pp.
  • Richards, C. L., Bossdorf, O., Muth, N. Z., Gurevitch, J., Pigliucci, M., 2006. Jack of all trades, master of some? On the role of phenotypic plasticity in plant invasions. Ecology Letters, 9(8): 981-993.
  • Sultan, S. E., 1995. Phenotypic plasticity and plant adaptation. Acta Botanica Neerlandica, 44(4): 363-383.
  • Sultan, S. E., 2000. Phenotypic plasticity for plant development, function and life history. Trends in Plant Science, 5(12): 537-542.
  • Valladares, F., Wright, S. J., Lasso, E., Kitajima, K., Pearcy, R. W., 2000. Plastic phenotypic response to light of 16 congeneric shrubs from a Panamanian rainforest. Ecology, 81(7): 1925-1936.
  • Valladares, F., Sanchez-Gomez, D., Zavala, M. A., 2006. Quantitative estimation of phenotypic plasticity: Bridging the gap between the evolutionary concept and its ecological applications. Journal of Ecology, 94: 1103-1116.
  • Valladares, F., Gianoli, E., Gomez, J. M., 2007. Ecological limits to plant phenotypic plasticity. The New Phytologist, 176(4): 749-763.
  • van Kleunen, M., Fischer, M., 2005. Constraints on the evolution of adaptive phenotypic plasticity in plants. The New Phytologist, 166(1): 49-60.
  • van Tienderen, P. H., 1991. Evolution of generalists and specialist in spatially heterogeneous environments. Evolution, 45(6): 1317-1331.
  • Via, S., 1993. Adaptive phenotypic plasticity: target or by-product of selection in a variable environment? The American Naturalist, 142: 352-365.
  • Weinig, C., Johnston, J., German, Z. M., Demink, L. M., 2006. Local and global costs of adaptive plasticity to density in Arabidopsis thaliana. The American Naturalist, 167: 826-836.
Year 2018, , 245 - 250, 26.12.2018
https://doi.org/10.29278/azd.476663

Abstract

References

  • Avramov, S., Tucic, B., 2006. Plasticity to an irradiance gradient in foliage attributes of a perennial monocot Iris pumila (L.): Comparison of populations from habitats of contrasting light conditions. Polish Journal of Ecology, 54(3): 403-416.
  • Balaguer, L., Martínez‐Ferri, E., Valladares, F., Pérez‐Corona, M. E., Baquedano, F. J., Castillo, F. J., Manrique, E., 2001. Population divergence in the plasticity of the response of Quercus coccifera to the light environment. Functional Ecology, 15:124-135.
  • Bennington, C. C., McGraw, J. B., 1995. Natural selection and ecotypic differentiation in Impatiens pallida. Ecological Monographs, 65(3): 303-323.
  • Bennington, C. C., Fetcher, N., Vavrek, M. C., Shaver, G. R., Cummings, K. J., McGraw, J. B., 2012. Home site advantage in two long-lived arctic plant species: Results from two 30-year reciprocal transplant studies. Journal of Ecology, 100(4): 841-851.
  • Berg, H., Becker, U., Matthies, D., 2005. Phenotypic plasticity in Carlina vulgaris: effects of geographical origin, population size, and population isolation. Oecologia, 143: 220-231.
  • Chevin, L. M., Hoffmann, A. A., 2017. Evolution of phenotypic plasticity in extreme environments. Philosophical Transactions of the Royal Society B: Biological Sciences, 372(1723): 20160138.
  • Conover, D. O., Schultz, E. T., 1995. Phenotypic similarity and the evolutionary significance of countergradient variation. Trends in Ecology & Evolution, 10: 248-252.
  • de Jong, G., 2005. Evolution of phenotypic plasticity: patterns of plasticity and the emergence of ecotypes. New Phytologist, 166: 101-117.
  • Dewitt, T. J., Sih, A., Wilson, D. S., 1998. Costs and limits of phenotypic plasticity. Trends in Ecology & Evolution, 13(2): 77-81. Fazlioglu, F., Bonser, S. P., 2016. Phenotypic plasticity and specialization in clonal versus non-clonal plants: A data synthesis. Acta Oecologica, 77: 193-200.
  • Fazlioglu, F., Wan, J. S. H., Bonser, S. P., 2017. Testing specialization hypothesis on a stress gradient. Austral Ecology, 42(1): 40-47.
  • Forsman, A., 2015. Rethinking phenotypic plasticity and its consequences for individuals, populations and species. Heredity, 115: 276-284.
  • Frei, E. R., Ghazoul, J., Pluess, A. R., 2014. Plastic responses to elevated temperature in low and high elevation populations of three grassland species. PLoS ONE, 9: e98677.
  • Futuyma, D. J., Moreno, G., 1998. The evolution of ecological specialization. Annual Review of Ecology, Evolution, and Systematics, 19: 207-233.
  • Gauthier, P., Lumaret, R., Bedecarrats, A., 1998. Ecotype differentiation and coexistence of two parapatric tetraploid subspecies of cocksfoot (Dactylis glomerata) in the Alps. New Phytologist, 139: 741-750.
  • Ghalambor, C. K., Mckay, J. K., Carroll, S. P., Reznick, D. N., 2007. Adaptive versus non-adaptive phenotypic plasticity and the potential for contemporary adaptation in new environments. Functional Ecology, 21: 394-407.
  • Godoy, O., Valladares, F., Castro-Díez, P., 2011. Multispecies comparison reveals that invasive and native plants differ in their traits but not in their plasticity. Functional Ecology, 25:1248-1259.
  • Gratani, L., Catoni, R., Pirone, G., Frattaroli, A. R., Varone, L., 2012. Physiological and morphological leaf trait variations in two Apennine plant species in response to different altitudes. Photosynthetica, 50(1): 15-23.
  • Griffith, T., Sultan, S. E., 2005. Shade tolerance plasticity in response to neutral vs green shade cues in Polygonum species of contrasting ecological breadth. New Phytologist, 166(1): 141-147.
  • Griffith, T., Sultan, S. E. 2012. Field-based insights to the evolution of specialization: plasticity and fitness across habitats in a specialist/generalist species pair. Ecology and Evolution, 2(4): 778-791.
  • Hollander, J., Snell-Rood, E., Foster, S. 2015. New frontiers in phenotypic plasticity and evolution. Heredity, 115(4): 273-275.
  • Kawecki, T. J., Ebert, D., 2004. Conceptual issues in local adaptation. Ecology Letters, 7: 1225-1241.
  • Lambers, H., Poorter, H., 1992. Inherent variation in growth rate between higher plants: A search for physiological causes and ecological consequences. Advances in Ecological Research, 23: 188-261.
  • Langlet, O., 1971. The hundred years of genecology. Taxon, 20: 656-722. Lazaro‑Nogal, A., Matesanz, S., Hallik, L., Krasnova, A., Traveset, A., Valladares, F., 2016. Population differentiation in a Mediterranean relict shrub: the potential role of local adaptation for coping with climate change. Oecologia, 180: 1075-1090.
  • Lenormand, T., 2002. Gene flow and the limits to natural selection. Trends in Ecology and Evolution, 17(4): 183-189.
  • Lortie, C., Aarssen, L. W., 1996. The specialization hypothesis for phenotypic plasticity in plants. International Journal of Plant Sciences, 157(4): 484-487.
  • Magi, M., Semchenko, M., Kalamees, R., Zobel, K., 2011. Limited phenotypic plasticity in range-edge populations: a comparison of co-occurring populations of two Agrimonia species with different geographical distribution. Plant Biology, 13: 177-184.
  • McGraw, J. B., Antonovics, J., 1983. Experimental ecology of Dryas octopetala ecotypes. I. Ecotypic differentiation and life-cycle stages of selection. Journal of Ecology, 71: 879-897.
  • Nicotra, A. B., Atkin, O. K., Bonser, S. P., Davidson, A. M., Finnegan, E. J., Mathesius, U., Poot, P., Purugganan, M. D., Richards, C. L., Valladares, F., van Kleunen, M., 2010. Plant phenotypic plasticity in a changing climate. Trends in Plant Science, 15(12): 684-692.
  • Pfennig, D. W., Wund, M. A., Snell-Rood, E. C., Cruickshank, T., Schlichting, C. D., Moczek, A. P., 2010. Phenotypic plasticity’s impacts on diversification and speciation. Trends in Ecology & Evolution, 25(8): 459-467.
  • Pigliucci, M., 2001. Phenotypic plasticity: beyond nature and nurture, The John Hopkins University Press. Baltimore, USA. 328 pp.
  • Richards, C. L., Bossdorf, O., Muth, N. Z., Gurevitch, J., Pigliucci, M., 2006. Jack of all trades, master of some? On the role of phenotypic plasticity in plant invasions. Ecology Letters, 9(8): 981-993.
  • Sultan, S. E., 1995. Phenotypic plasticity and plant adaptation. Acta Botanica Neerlandica, 44(4): 363-383.
  • Sultan, S. E., 2000. Phenotypic plasticity for plant development, function and life history. Trends in Plant Science, 5(12): 537-542.
  • Valladares, F., Wright, S. J., Lasso, E., Kitajima, K., Pearcy, R. W., 2000. Plastic phenotypic response to light of 16 congeneric shrubs from a Panamanian rainforest. Ecology, 81(7): 1925-1936.
  • Valladares, F., Sanchez-Gomez, D., Zavala, M. A., 2006. Quantitative estimation of phenotypic plasticity: Bridging the gap between the evolutionary concept and its ecological applications. Journal of Ecology, 94: 1103-1116.
  • Valladares, F., Gianoli, E., Gomez, J. M., 2007. Ecological limits to plant phenotypic plasticity. The New Phytologist, 176(4): 749-763.
  • van Kleunen, M., Fischer, M., 2005. Constraints on the evolution of adaptive phenotypic plasticity in plants. The New Phytologist, 166(1): 49-60.
  • van Tienderen, P. H., 1991. Evolution of generalists and specialist in spatially heterogeneous environments. Evolution, 45(6): 1317-1331.
  • Via, S., 1993. Adaptive phenotypic plasticity: target or by-product of selection in a variable environment? The American Naturalist, 142: 352-365.
  • Weinig, C., Johnston, J., German, Z. M., Demink, L. M., 2006. Local and global costs of adaptive plasticity to density in Arabidopsis thaliana. The American Naturalist, 167: 826-836.
There are 40 citations in total.

Details

Primary Language English
Journal Section Makaleler
Authors

Fatih Fazlıoğlu

Publication Date December 26, 2018
Published in Issue Year 2018

Cite

APA Fazlıoğlu, F. (2018). Phenotypic plasticity of ecotypes across habitats. Akademik Ziraat Dergisi, 7(2), 245-250. https://doi.org/10.29278/azd.476663