Long- and short-term induction of defences in seedlings of Shorea leprosula (Dipterocarpaceae): support for the carbon:nutrient balance hypothesis

Fergus P. Massey; Malcolm C. Press; Sue E. Hartley

doi:10.1017/S0266467404002111

Abstract

The induction of carbon-based secondary metabolites in leaves following damage has been proposed to be a result of a shift in the carbon:nutrient balance, when growth is limited by nutrients in relation to carbon. Here we test this hypothesis using seedlings of a tropical tree, Shorea leprosula (Dipterocarpaceae). In the short term, we analysed the phenolic content of leaves 7 d after damage on seedlings grown under differing light and nutrient treatments. In the long term, we examined the effect of nutrients, over 12 mo, on leaf phenolic concentration and seedling growth. In both the long and short term, levels of phenolics increased in damaged leaves under low nutrient treatments. No changes in leaf phenolics were detected under high nutrient regimes, or in the short term under low light. In addition, it was found that defoliation of seedlings in high-nutrient environments led to greater rates of leaf production than in undamaged seedlings, suggesting compensation.

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MASSEY, FERGUS P. MASSEY, KATE PRESS, MALCOLM C. and HARTLEY, SUE E. 2006. Neighbourhood composition determines growth, architecture and herbivory in tropical rain forest tree seedlings. Journal of Ecology, Vol. 94, Issue. 3, p. 646.

Massey, Fergus P and Hartley, Sue E 2006. Experimental demonstration of the antiherbivore effects of silica in grasses: impacts on foliage digestibility and vole growth rates. Proceedings of the Royal Society B: Biological Sciences, Vol. 273, Issue. 1599, p. 2299.

MASSEY, FERGUS P. ENNOS, A. ROLAND and HARTLEY, SUE E. 2007. Grasses and the resource availability hypothesis: the importance of silica‐based defences. Journal of Ecology, Vol. 95, Issue. 3, p. 414.

Eichhorn, Markus P. Fagan, K. C. Compton, Stephen G. Dent, Daisy H. and Hartley, Sue E. 2007. Explaining Leaf Herbivory Rates on Tree Seedlings in a Malaysian Rain Forest. Biotropica, Vol. 39, Issue. 3, p. 416.

Ballina-Gómez, Horacio Salomón Iriarte-Vivar, Silvia Orellana, Roger and Santiago, Louis S. 2010. Compensatory growth responses to defoliation and light availability in two native Mexican woody plant species. Journal of Tropical Ecology, Vol. 26, Issue. 2, p. 163.

Massad, Tara Joy Dyer, Lee A. Vega C., Gerardo and Heil, Martin 2012. Costs of Defense and a Test of the Carbon-Nutrient Balance and Growth-Differentiation Balance Hypotheses for Two Co-Occurring Classes of Plant Defense. PLoS ONE, Vol. 7, Issue. 10, p. e47554.

Bixenmann, Ryan J. Coley, Phyllis D. Weinhold, Alexander and Kursar, Thomas A. 2016. High herbivore pressure favors constitutive over induced defense. Ecology and Evolution, Vol. 6, Issue. 17, p. 6037.

Ang, Cheng Choon O’Brien, Michael J. Ng, Kevin Kit Siong Lee, Ping Chin Hector, Andy Schmid, Bernhard and Shimizu, Kentaro K. 2016. Genetic diversity of two tropical tree species of the Dipterocarpaceae following logging and restoration in Borneo: high genetic diversity in plots with high species diversity. Plant Ecology & Diversity, Vol. 9, Issue. 5-6, p. 459.

Zhu, Yu Veen, G. F. (Ciska) Wang, Deli Wang, Ling Zhong, Zhiwei Ma, Quanhui Li, Heng Li, Xincheng Pan, Duofeng and Bakker, Elisabeth S. 2020. Herbivore phenology can predict response to changes in plant quality by livestock grazing. Oikos, Vol. 129, Issue. 6, p. 811.

Sun, Jennifer W. C. Sharifi, M. Rasoul and Rundel, Philip W. 2022. Plasticity in Compensatory Growth to Artificial Defoliation and Light Availability in Four Neotropical Understory and Forest Edge Herb Species. Biology, Vol. 11, Issue. 10, p. 1532.

Ojha, Megha Naidu, Dilip G. T. and Bagchi, Sumanta 2022. Meta‐analysis of induced anti‐herbivore defence traits in plants from 647 manipulative experiments with natural and simulated herbivory. Journal of Ecology, Vol. 110, Issue. 4, p. 799.

Mayoral, Carolina Ioni, Susanna Luna, Estrella Crowley, Liam M. Hayward, Scott A. L. Sadler, Jon P. and MacKenzie, A. Robert 2023. Elevated CO2 does not improve seedling performance in a naturally regenerated oak woodland exposed to biotic stressors. Frontiers in Forests and Global Change, Vol. 6, Issue. ,

Bongiovanni, Silvina Beatriz Nordenstahl, Marisa and Borghi, Carlos Eduardo 2024. Effect of an herbivorous subterranean rodent on vegetation in relation to primary productivity. Austral Ecology, Vol. 49, Issue. 5,

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Long- and short-term induction of defences in seedlings of Shorea leprosula (Dipterocarpaceae): support for the carbon:nutrient balance hypothesis

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Long- and short-term induction of defences in seedlings of Shorea leprosula (Dipterocarpaceae): support for the carbon:nutrient balance hypothesis

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