2019
DOI: 10.3390/w11051014
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The Response of Regeneration Ability of Myriophyllum spicatum Apical Fragments to Decaying Cladophora oligoclona

Abstract: During the restoration of eutrophic shallow lakes, submerged macrophyte recovery is often accompanied by an excessive proliferation of filamentous green algae (FGA). This can lead to the recession or even disappearance of the submerged macrophytes in these lakes. However, the use of plant fragments in reproduction and dispersion is an important life history strategy for submerged macrophytes. In this work, it studied apical fragment propagation in Myriophyllum spicatum and its physiological and biochemical res… Show more

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Cited by 4 publications
(2 citation statements)
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References 71 publications
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“…Since the wetlands to be restored are, in most cases, eutrophic systems, submerged macrophyte recovery is often accompanied by an excessive proliferation of filamentous green algae [ 126 ]. Filamentous algae compete with submerged macrophytes for space, light, nutrients and other resources; they also mechanically damage hydrophyte stems and leaves by twining around them, negatively influencing their normal growth.…”
Section: Factors Affecting the Success Of Restorationmentioning
confidence: 99%
See 1 more Smart Citation
“…Since the wetlands to be restored are, in most cases, eutrophic systems, submerged macrophyte recovery is often accompanied by an excessive proliferation of filamentous green algae [ 126 ]. Filamentous algae compete with submerged macrophytes for space, light, nutrients and other resources; they also mechanically damage hydrophyte stems and leaves by twining around them, negatively influencing their normal growth.…”
Section: Factors Affecting the Success Of Restorationmentioning
confidence: 99%
“…Filamentous algae compete with submerged macrophytes for space, light, nutrients and other resources; they also mechanically damage hydrophyte stems and leaves by twining around them, negatively influencing their normal growth. Moreover, the response of regeneration ability of apical fragments to decaying green filamentous algae is negatively affected (see, for example, the adverse influence of Cladophora oligoclona on Hydrilla verticillata seed germination and seedling growth [ 127 ] or on Myriophyllum spicatum formation of buds and roots [ 126 ]. Furthermore, high growth rates, as high as 0.7-0.8 d −1 [ 128 ], have been described for several species of Cladophora and also can grow from their internal nutrient storages.…”
Section: Factors Affecting the Success Of Restorationmentioning
confidence: 99%