| Literature DB >> 27717024 |
Alexandra J Wright1,2, Hans de Kroon3, Eric J W Visser3, Tina Buchmann4, Anne Ebeling5, Nico Eisenhauer1,6, Christine Fischer7,8, Anke Hildebrandt5,7,9, Janneke Ravenek3, Christiane Roscher5,10, Alexandra Weigelt1,6, Wolfgang Weisser11, Laurentius A C J Voesenek12, Liesje Mommer13.
Abstract
Flooding is expected to increase in frequency and severity in the future. The ecological consequences of flooding are the combined result of species-specific plant traits and ecological context. However, the majority of past flooding research has focused on individual model species under highly controlled conditions. An early summer flooding event in a grassland biodiversity experiment in Jena, Germany, provided the opportunity to assess flooding responses of 60 grassland species in monocultures and 16-species mixtures. We examined plant biomass, species-specific traits (plant height, specific leaf area (SLA), root aerenchyma, starch content) and soil porosity. We found that, on average, plant species were less negatively affected by the flood when grown in higher-diversity plots in July 2013. By September 2013, grasses were unaffected by the flood regardless of plant diversity, and legumes were severely negatively affected regardless of plant diversity. Plants with greater SLA and more root aerenchyma performed better in September. Soil porosity was higher in higher-diversity plots and had a positive effect on plant performance. As floods become more frequent and severe in the future, growing flood-sensitive plants in higher-diversity communities and in soil with greater soil aeration may attenuate the most negative effects of flooding.Entities:
Keywords: aerenchyma; diversity; flooding traits; grasses; legumes; plant functional groups; soil air porosity; specific leaf area (SLA)
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Year: 2016 PMID: 27717024 DOI: 10.1111/nph.14185
Source DB: PubMed Journal: New Phytol ISSN: 0028-646X Impact factor: 10.151