Abstract
Spatial heterogeneity in light supply is common in nature. Many studies have examined the effects of heterogeneous light supply on growth, morphology, physiology and biomass allocation of clonal plants, but few have tested those effects on intraspecific competition. In a greenhouse experiment, we grew one (no competition) or nine ramets (with intraspecific competition) of a stoloniferous clonal plant, Duchesnea indica, in three homogeneous light conditions (high, medium and low light intensity) and two heterogeneous ones differing in patch size (large and small patch treatments). The total light in the two heterogeneous treatments was the same as that in the homogeneous medium light treatment. Both decreasing light intensity and intraspecific competition significantly decreased the growth (biomass, number of ramets and total stolon length) of D. indica. As compared with the homogeneous medium light treatment, the large patch treatment significantly increased the growth of D. indica without intraspecific competition. However, the growth of D. indica with competition did not differ among the homogeneous medium light, the large and the small patch treatments. Consequently, light heterogeneity significantly increased intraspecific competition intensity, as measured by the decreased log response ratio. These results suggest that spatial heterogeneity in light supply can alter intraspecific interactions of clonal plants.
Highlights
Spatial heterogeneity in light supply is common in natural habitats [1,2,3], and connected individuals of clonal plants often grow across patches differing in light supply [4,5,6]
Many studies have shown that spatial heterogeneity in light supply can affect the growth, morphology, physiology and/or biomass allocation of clonal plants [7,8,9,10,11,12,13,14,15,16,17], little is known about the effects of heterogeneous light supply on the interactions between clonal plants
The likely reason is that under high resource conditions plants will grow vigorously so that they strongly compete for light, nutrients and/or water, but under very low resource conditions, plants grow so weakly that they do not need to compete for such resources [37]
Summary
Spatial heterogeneity in light supply is common in natural habitats [1,2,3], and connected individuals (ramets) of clonal plants often grow across patches differing in light supply [4,5,6]. Many studies have shown that spatial heterogeneity in light supply can affect the growth, morphology, physiology and/or biomass allocation of clonal plants [7,8,9,10,11,12,13,14,15,16,17], little is known about the effects of heterogeneous light supply on the interactions between clonal plants. A few studies addressed the effects of spatial heterogeneity in soil nutrients on interactions between plants, and the results differed [18,19,20,21,22]. No study has tested the effects of spatial heterogeneity in light supply on intraspecific competition of clonal plants
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