The invasive plant Alternanthera philoxeroides benefits from clonal integration in response to defoliation

Many notorious alien invasive plants have the capacity for vigorous clonal growth, and clonal integration may contribute to their invasiveness in response to various disturbances. Here, it is hypothesized that clonal integration affects the growth, biomass allocation, physiology, and compensatory response of the alien invasive clonal plant Alternanthera philoxeroides when faced with defoliation. To test these hypotheses, a growth experiment was conducted to investigate the effect of clonal integration on the responses of A. philoxeroides to different levels of defoliation. Daughter ramets that had been grown with stolon connections that were either severed from or connected to the mother plant were subjected to four defoliation levels: 0 (control), 30% (mild), 60% (moderate) and 90% (heavy) removal of leaf tissue. Defoliation greatly decreased growth (total biomass, number of ramets and total stolon length) but increased the maximum quantum yield of photosystem II (F_v/F_m) of daughter ramets. Clonal integration significantly increased growth, F_v/F_m and contents of non-structural carbohydrates (soluble sugars and total non-structural carbohydrates) of A. philoxeroides, and these effects were larger under heavier defoliation. Moreover, clonal integration markedly reduced the shoot/root ratio of A. philoxeroides, and these effects tended to increase with increasing levels of defoliation. These results support our hypothesis that A. philoxeroides benefits from clonal integration in response to defoliation, suggesting that clonal integration may be closely related to the invasiveness of A. philoxeroides in natural habitats with frequent disturbances.