Birgit Mau scite author profile

Birgit Mau

4Publications

69Citation Statements Received

60Citation Statements Given

How they've been cited

158

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Affiliations

University of Konstanz, Cleveland Clinic

Publications

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Allelopathic activity of Stratiotes aloides on phytoplankton—towards identification of allelopathic substances

et al. 2007

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The allelopathic activity of the aquatic macrophyte, Stratiotes aloides, was determined with laboratory experiments. Active compounds exuded in the medium or present in plant tissue were extracted using standard procedures and solid phase extraction (SPE). The activity towards various cyanobacteria and chlorophytes was tested in two different bioassay systems using agar plates and liquid cultures of phytoplankton. Extracts and exudates of S. aloides affected phytoplankton growth. SPE-enriched exudates and enriched water from a natural Stratiotes stand caused inhibition of target species, however, also some controls were active. Phytoplankton species exhibited differential sensitivity to extracts of S. aloides. We observed inhibitory and stimulatory effects on phytoplankton. In general, more cyanobacteria than other phytoplankton species were inhibited, and the inhibition of cyanobacteria was stronger. In most cases, nutrient (P or K) limitation of Synechococcus elongatus and Scenedesmus obliquus decreased the sensitivity of these species towards allelochemicals from Stratiotes aloides, except for P-limited cultures of Scenedesmus. The allelopathically active compound(s) from Stratiotes are moderately lipophilic and most likely no phenolic compounds. Our results indicate that allelopathy (besides nutrient interference and shading) might also account for the low phytoplankton and filamentous algae densities in the vicinity of Stratiotes plants, at least during certain phases of the life-cycle of Stratiotes.

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Allelopathic activity of Stratiotes aloides on phytoplankton—towards identification of allelopathic substances

Mulderij¹,

Mau²,

Donk³

et al. 2007

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Interaction between the macrophyte Stratiotes aloides and filamentous algae: does it indicate allelopathy?

et al. 2008

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The aquatic macrophyte Stratiotes aloides Linnaeus, which has recently received attention in studies on allelopathy, has been shown to suppress phytoplankton growth. In the Netherlands, S. aloides often co-occurs with floating filamentous algae. However, filamentous algae are generally absent in close proximity to S. aloides, resulting in gaps in filamentous algae mats. We analyzed whether those gaps may be caused by allelopathic substances excreted by S. aloides or by nutrient depletion. We studied in a field survey the colonization of natural S. aloides by filamentous algae and determined in situ nutrient concentrations in natural S. aloides stands. To analyze the relative importance of allelopathy and nutrient competition in the interaction between S. aloides and filamentous algae, we carried out field experiments. Introduction of artificial (non-allelopathic) plants in natural S. aloides stands enabled us to compare the colonization by filamentous algae of both Stratiotes sp. and artificial plants. The filamentous algae were absent in close vicinity to S. aloides. Significantly lower concentrations of ortho-phosphate and potassium were observed close to S. aloides as compared with the filamentous algae. In the field experiments the artificial plants were rapidly colonized by filamentous algae, mainly Cladophera Kützing and Spirogyra Link, while all natural plants remained free of such algae. Additionally, most nutrient concentrations did not significantly differ in the proximity of artificial or natural stands of S. aloides. The concentrations of the major growth-limiting nutrients, phosphate and nitrate, were significantly higher and nonlimiting in natural Stratiotes stands. Our main conclusion is that, although allelopathic interactions between S. aloides and filamentous algae do occur under natural conditions, nutrient competition between the two can also be an important factor.

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Assessment of the safety and efficacy of the DUETT vascular hemostasis device: Final results of the safe and effective vascular hemostasis (SEAL) trial

Ellis

Mooney

Talley

et al. 2002

American Heart Journal

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Birgit Mau

Allelopathic activity of Stratiotes aloides on phytoplankton—towards identification of allelopathic substances

Allelopathic activity of Stratiotes aloides on phytoplankton—towards identification of allelopathic substances

Interaction between the macrophyte Stratiotes aloides and filamentous algae: does it indicate allelopathy?

Assessment of the safety and efficacy of the DUETT vascular hemostasis device: Final results of the safe and effective vascular hemostasis (SEAL) trial

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