Abstract
The effects of physiological integration on clonal plants growing in aquatic and terrestrial habitats have been extensively studied, but little is known about the role in the extension of amphibious clonal plants in the heterogeneous aquatic-terrestrial ecotones, especially when the water environments are polluted by heavy metals. Ramets of the amphibious clonal herb Alternanthera philoxeroides were rooted in unpolluted soil and polluted water at three concentrations of Cu. The extension of populations from unpolluted terrestrial to polluted aqueous environments mainly relied on stem elongation rather than production of new ramets. The absorbed Cu in the ramets growing in polluted water could be spread horizontally to other ramets in unpolluted soil via physiological integration and redistributed in different organs. The performances of ramets in both terrestrial and aquatic habitats were negatively correlated with Cu intensities in different organs of plants. It is concluded that physiological integration might lessen the fitness of connected ramets in heterogeneously polluted environments. The mechanical strength of the stems decreased with increasing Cu levels, especially in polluted water. We suggest that, except for direct toxicity to growth and expansion, heavy metal pollution might also increase the mechanical risk in breaking failure of plants.
Highlights
The effects of physiological integration on clonal plants growing in aquatic and terrestrial habitats have been extensively studied, but little is known about the role in the extension of amphibious clonal plants in the heterogeneous aquatic-terrestrial ecotones, especially when the water environments are polluted by heavy metals
It has been repeatedly reported that physiological integration can facilitate the performances of the ramets in either terrestrial or aquatic habitats, especially at the early growth and establishment stages of the juvenile ramets[9,10,11]
Heavy metal pollution in aquatic environments is hypothesized to hinder the expansion of amphibious clonal plants from terrestrial to aquatic habits and subsequent invasion into natural waters
Summary
The effects of physiological integration on clonal plants growing in aquatic and terrestrial habitats have been extensively studied, but little is known about the role in the extension of amphibious clonal plants in the heterogeneous aquatic-terrestrial ecotones, especially when the water environments are polluted by heavy metals. With the fluctuation of environmental factors (e.g., water conditions, resource availabilities, pollutants) in heterogeneous habitats, physiological integration may strengthen the net benefits or vice versa[17]. Heterogeneous pollution caused by heavy metals in different types or concentrations presents a challenge to the amphibious clonal plants in aquatic-terrestrial habitats as a result of the translocation of pollutants and the extra costs to donor ramets. Heavy metal pollution in aquatic environments is hypothesized to hinder the expansion of amphibious clonal plants from terrestrial to aquatic habits and subsequent invasion into natural waters
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