Abstract
Disturbance can fragment plant clones into different sizes and unstabilize soils to different degrees, so that clonal fragments of different sizes can be buried in soils at different depths. As a short-term storage organ, solon internode may help fragmented clones of stoloniferous plants to withstand deeper burial in soils. We address (1) whether burial in soils decreases survival and growth of small clonal fragments, and (2) whether increasing internode length increases survival and growth of small fragments under burial. We conducted an experiment with the stoloniferous, invasive herb Alternanthera philoxeroides, in which single-node fragments with stolon internode of 0, 2, 4 and 8 cm were buried in soils at 0, 2, 4 and 8 cm depth, respectively. Increasing burial depth significantly reduced survival of the A. philoxeroides plants and increased root to shoot ratio and total stolon length, but did not change growth measures. Increasing internode length significantly increased survival and growth measures, but there was no interaction effect with burial depth on any traits measured. These results indicate that reserves stored in stolon internodes can contribute to the fitness of the A. philoxeroides plants subject to disturbance. Although burial reduced the regeneration capacity of the A. philoxeroides plants, the species may maintain the fitness by changing biomass allocation and stolon length once it survived the burial. Such responses may play an important role for A. philoxeroides in establishment and invasiveness in frequently disturbed habitats.
Highlights
Disturbance is an important component of ecosystems, and occurs at different temporal and spacial scales [1,2]
The survival and growth of clonal fragments buried in deeper soils may mostly rely on utilization of reserves stored in plant organs when carbohydrates cannot be provided through photosynthesis [7,8]
Compared with the control (0-cm-deep burial), emergence time of the sprouts of the fragments in the deepest burial treatment (8-cm-deep burial) increased by 80% (15.3 days vs. 8.5 days) and survival rate of the fragments decreased by 44% (16.9% vs. 60.9%)
Summary
Disturbance is an important component of ecosystems, and occurs at different temporal and spacial scales [1,2] Disturbance such as grazing, trampling, fire, flood and landslips can disrupt plant structures and modify environmental conditions. It can fragment plant clones that are formerly composed of interconnected clonal individuals (i.e., ramets) [3,4,5,6]. It can unstabilize soil substrates, causing clonal fragments of various sizes to be buried in soils at different depths [7,8]. If reserves stored in plant organs are depleted before the new shoots come out (and be able to photosynthesize), the fragments will face the risk to die [4,15,16]
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