Abstract
Costs of plant defense are a key assumption in evolutionary ecology, yet their detection has remained challenging. Here we introduce a novel method for quantifying plant growth using the common milkweed Asclepias syriaca and repeated non‐destructive size measurements to experimentally test for costs of defensive traits. We estimated mechanistic components of plant growth (relative growth rate, net assimilation rate, specific leaf area and leaf‐mass ratio) at two levels of fertilization (high and low), and related them to production of toxic cardenolides and exudation of sticky latex. We found negative genetic correlations between cardenolides and growth (most strongly with net assimilation rate) at both nutrient levels. Additionally, plants varied in their cardenolide response to low nutrients, and genetic families maintaining higher cardenolide production at low nutrient availability suffered proportionally larger reductions in growth. In contrast, the amount of latex was positively correlated with plant growth. Because latex is instantly deployed from a plant‐wide system of pressurized laticifers, larger plants may simply exude proportionally more latex when damaged and thus plant size is likely to mask potential costs of latex synthesis. Unbiased quantification of mechanistic growth processes, coupled with the manipulation of nutrient or stress levels, is thus an effective approach to demonstrate allocation to defense and tradeoffs with growth, especially in long‐lived plant species.
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