Abstract
BackgroundPlastic root-foraging responses have been widely recognized as an important strategy for plants to explore heterogeneously distributed resources. However, the benefits and costs of root foraging have received little attention.Methodology/Principal FindingsIn a greenhouse experiment, we grew pairs of connected ramets of 22 genotypes of the stoloniferous plant Potentilla reptans in paired pots, between which the contrast in nutrient availability was set as null, medium and high, but with the total nutrient amount kept the same. We calculated root-foraging intensity of each individual ramet pair as the difference in root mass between paired ramets divided by the total root mass. For each genotype, we then calculated root-foraging ability as the slope of the regression of root-foraging intensity against patch contrast. For all genotypes, root-foraging intensity increased with patch contrast and the total biomass and number of offspring ramets were lowest at high patch contrast. Among genotypes, root-foraging intensity was positively related to production of offspring ramets and biomass in the high patch-contrast treatment, which indicates an evolutionary benefit of root foraging in heterogeneous environments. However, we found no significant evidence that the ability of plastic foraging imposes costs under homogeneous conditions (i.e. when foraging is not needed).Conclusions/SignificanceOur results show that plants of P. reptans adjust their root-foraging intensity according to patch contrast. Moreover, the results show that the root foraging has an evolutionary advantage in heterogeneous environments, while costs of having the ability of plastic root foraging were absent or very small.
Highlights
In most natural and semi-natural plant communities, root competition is ubiquitous and a major component of inter-plant interactions [1]
Conclusions/Significance: Our results show that plants of P. reptans adjust their root-foraging intensity according to patch contrast
Effects of Patch Contrast on Root Foraging and Fitness Root-foraging intensity of ramet pairs was affected by patch contrast in nutrient availability (P,0.001) and direction of ramet pairs (P,0.001; Table 1)
Summary
In most natural and semi-natural plant communities, root competition is ubiquitous and a major component of inter-plant interactions [1]. Besides physiological adjustments, that could confer competitive ability to plants is root foraging by means of plastic adjustments of root allocation and architecture [2,3,4]. Such plastic root-foraging responses have been widely recognized as an important strategy for plants to explore resources that are heterogeneously distributed both in space [5,6] and in time [7], and may contribute to plant performance. Plastic root-foraging responses have been widely recognized as an important strategy for plants to explore heterogeneously distributed resources. The benefits and costs of root foraging have received little attention
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