Macrophyte habitat architecture and benthic-pelagic coupling: Photic habitat demand to build up large P storage capacity and bio-surface by underwater vegetation

Teubner, Katrin; Teubner, Irene; Pall, Karin; Tolotti, Monica; Kabas, Willi; Drexler, Silke-Silvia; Waidbacher, Herwig; Dokulil, Martin T.

doi:10.3389/fenvs.2022.901924

Cited by 5 publications

(1 citation statement)

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“…The allelochemicals of T. dealbata should also be present in polycultures (despite of lower 4), but also seemed to contribute disproportionately to the biomass increase in polycultures (Figure 2). This echoes studies that found plants with extensive growth of roots and leaves speeded up nutrition absorption more than medium or small-sized plants (Liu et al, 2020;Teubner et al, 2022), which points out that it is essential to have species of large sizes considered and selected in CWs and sewage treatment (Levi et al, 2015). During our experiment, only the individuals of C. indica and T. dealbata entered the flowering stage, and reproduction might have elevated the uptake of various nutrients as well.…”

Section: Discussionsupporting

confidence: 77%

Both species richness and growth forms affect nutrient removal in constructed wetlands: A mesocosm experiment

Luo

Chen²,

Liu³

et al. 2023

Front. Ecol. Evol.

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IntroductionPlant richness is thought to improve the function of constructed wetlands (CWs), but most CWs are planted with monocultures, with only a few employed polycultures, which have drawn contradictory conclusions. We suppose functional diversity is the key to better performance of plant communities and hypothesize that CWs planted with diverse growth forms are superior in plant growth and nutrient removal.MethodsIn this study, six emergent plant species categorized into slender type (Schoenoplectus tabernaemontani, Typha orientalis), fan type (Iris sibirica, Acorus calamus) and large type (Canna indica and Thalia dealbata) were planted in monocultures, combinations (two species of the same growth form) and mixed polycultures (six species of three growth forms). We then compared how plant growth and nutrient uptake differed among treatments.ResultsIt showed that the polyculture considerably increased the removal of total nitrogen (TN) and total phosphorus (TP), but the combination did not outperform monoculture. High consistency in the patterns between underground biomass and total biomass indicated that plant roots were essential for nutrient consumption. Compared with slender and fan plants, the large plants had a greater biomass increase in polycultures, which greatly accelerated the absorption and assimilation of TN and TP.ConclusionOur study indicated that plant community with various growth forms reduced the intensity of interspecific competition, increased the functional diversity, and greatly enhanced the ability of pollutant removal. Our results also provide some suggestions for plant selection and combination designs in CWs.

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Section: Discussionsupporting

confidence: 77%