D
Didier L. Baho
Researcher at Swedish University of Agricultural Sciences
Publications - 15
Citations - 1304
Didier L. Baho is an academic researcher from Swedish University of Agricultural Sciences. The author has contributed to research in topics: Ecosystem & Mesocosm. The author has an hindex of 6, co-authored 15 publications receiving 957 citations. Previous affiliations of Didier L. Baho include Norwegian Institute for Water Research.
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Journal ArticleDOI
Fundamentals of microbial community resistance and resilience
Ashley Shade,Hannes Peter,Steven D. Allison,Didier L. Baho,Mercè Berga,Helmut Bürgmann,David H. Huber,Silke Langenheder,Jay T. Lennon,Jennifer B. H. Martiny,Kristin L. Matulich,Thomas M. Schmidt,Jo Handelsman +12 more
TL;DR: An overview of the concepts of stability that are relevant for microbial communities is provided, and thoughts about the unique insights that systems perspectives – informed by meta-omics data – may provide about microbial community stability are concluded.
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Microplastics in terrestrial ecosystems: moving beyond the state of the art to minimize the risk of ecological surprise
TL;DR: A systematic assessment of previous microplastic research revealed that most studies have been conducted on single species under laboratory conditions with short-term exposures; few studies were conducted under more realistic long-term field conditions and/or with multi-species assemblages as discussed by the authors.
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Assessing temporal scales and patterns in time series: Comparing methods based on redundancy analysis
TL;DR: It is suggested that AEM might be more suitable for assessing dynamics in time series analysis compared to MEM when temporal trends are relevant and the symmetric MEM approach, which ignores the asymmetric nature of time, might be suitable for addressing specific questions about the importance of correlations in fluctuations.
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Similar Resilience Attributes in Lakes with Different Management Practices
TL;DR: This study assesses community metrics, multivariate community structure and the relative resilience of phytoplankton in limed, acidified and circum-neutral lakes from 1997 to 2009, and demonstrates the potential of time series modeling to assess the efficiency of restoration and management outcomes through quantification of the attributes contributing to resilience in ecosystems.
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Impact of nutrients and water level changes on submerged macrophytes along a temperature gradient: A pan-European mesocosm experiment.
Zeynep Ersoy,Zeynep Ersoy,Ulrike Scharfenberger,Ulrike Scharfenberger,Didier L. Baho,Tuba Bucak,Tõnu Feldmann,Josef Hejzlar,Eti E. Levi,Eti E. Levi,Aldoushy Mahdy,Tiina Nõges,Eva Papastergiadou,Konstantinos Stefanidis,Michal Šorf,Michal Šorf,Martin Søndergaard,Martin Søndergaard,Cristina Trigal,Erik Jeppesen,Meryem Beklioglu +20 more
TL;DR: It is concluded that high temperatures combined with a temperature-mediated water level decrease can counterbalance the negative effects of eutrophic conditions on macrophytes by enhancing the light availability.