Prospects for Integrating Disturbances, Biodiversity and Ecosystem Functioning Using Microbial Systems

Banitz, Thomas; Chatzinotas, Antonis; Worrich, Anja

doi:10.3389/fevo.2020.00021

Cited by 3 publications

(5 citation statements)

References 106 publications

(120 reference statements)

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“…QAC stood for specific disturbances, causing non-random removal according to the microbe’s response traits(Banitz et al, 2020; Calderón et al, 2018; Jurburg et al, 2017; Srivastava & Vellend, 2005). Its effect also counted on the disturbance intensities and frequencies.…”

Section: Discussionmentioning

confidence: 99%

“…The proliferative microbes on the inner surface of the space station (Alekhova et al, 2005) have been threatening its normal operation, which is a serious problem and could be shifted to the issue of the effect of disturbance on community succession. Disturbance is acknowledged as a key factor of biodiversity via affecting eco-processes (Banitz et al, 2020). However, the mechanisms behind the observed community diversity under disturbance need to be further clarified (Fox, 2013; Shea et al, 2004).…”

Section: Discussionmentioning

confidence: 99%

“…Finally, studies with similar gradient-based methods on combined multiple factors with synergy, are still at an early stage. Most studies still concentrate on a single factor, and only a few have noticed the combined influence of multiple factors (Banitz et al, 2020; Zeng et al, 2020). In contrast, a large number of phenomena in nature are caused by the complex interaction of the latter condition (Elmqvist et al, 2003; Martínez-Ramos et al, 2016), including “ecological surprises” such as drastic shifts in community compositions and biodiversity (Banitz et al, 2020; Filbee-Dexter et al, 2017; Newman, 2019).…”

Section: Discussionmentioning

confidence: 99%

“…Disturbance is acknowledged as a key factor of biodiversity via affecting eco-processes (Banitz et al, 2020). However, the mechanisms behind the observed community diversity under disturbance need to be further clarified (Fox, 2013;Shea et al, 2004).…”

Section: And S3mentioning

confidence: 99%

See 3 more Smart Citations

Cure or Curse? Simulation Indicates that Microbes Proliferate under Disinfection Measures in the Space Station

Li,

Liu,

Chen

et al. 2024

Preprint

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The long-term stay on the space station requirement poses a knotty issue about the stable hardware and reliable guarantee of astronauts' health. Despite regular cleaning with wipes, microbes still proliferate in the space station. This study distilled three key factors--low-dose ionizing radiation, dilution and quaternary ammonium compound from the scenario. Species abundance and differential metabolites were applied to test their sole/combined influences on the three-simple-species microbial community succession. Mechanisms were built in mathematical models to generate the structural and behavior similarity with the phenomena. The results showed that LDIR, dilution and QAC, solely or jointly, could contribute to microbial proliferation. The synergy of disturbances might convert them from harmful factors to rewarding ones (e.g. the transformation of QAC into nutrients under LDIR), leading to this "Ecological Surprise". These results shed light on the mechanisms driving microbial community succession in the space station and highlighted the need for tailored biocontrol strategies in the specific environment.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: And S3mentioning

confidence: 99%

See 2 more Smart Citations

Cure or Curse? Simulation Indicates that Microbes Proliferate under Disinfection Measures in the Space Station

Li,

Liu,

Chen

et al. 2024

Preprint

View full text Add to dashboard Cite

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“…Being protected from surface environmental changes by layers of rocks and unconsolidated materials, aquifers are groundwater-dependent ecosystems that have been persisted relatively unaltered for million years (Gibert and Deharveng 2002). Natural and anthropogenic factors of different origin, extent, and intensity can affect the pristine aquifer conditions, with direct consequences on ecological functioning and ecosystem services provided by the resident biota (Danielopol and Griebler 2008;Battisti et al 2016;Burri et al 2019;Ma et al 2019;Banitz et al 2020). Current regulation uses fecal indicators as microbial pollution compliance parameters to determine the groundwater quality status intended for human consumption, while a broader environmental perspective should be considered to assess the aquifer ecological status (Griebler and Avramov 2015).…”

Section: Introductionmentioning

confidence: 99%

Redox conditions and a moderate anthropogenic impairment of groundwater quality reflected on the microbial functional traits in a volcanic aquifer

et al. 2022

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Groundwater is an important freshwater resource and hosts specialized microbial assemblages providing fundamental ecosystem services. The current knowledge on the role of aquatic microorganisms in subsurface ecosystems is still limited. This work aimed to explore the links between groundwater hydrogeochemical properties and microbial community traits in a volcanic unconfined aquifer, moderately impacted by anthropic activities. The main physical and chemical parameters of groundwater samples were analyzed, along with microbial biomass (total cell counts, ATP-active biomass concentration), potential metabolic activity, and physiological profiles at the microbial community level (Biolog ™ EcoPlates). The results showed the coexistence of oxidizing and reducing groundwater conditions across the study area. We discriminated two groups of oxidizing/reducing groundwater samples (Ox and Red), each including two subgroups with different chemical conditions attributed to contrasting levels of anthropogenic impact for non-intensive agricultural practices and waste disposal activities (Ox − and Ox + ; Red − and Red +). Although the microbial biomass was likely not affected by changing redox, the microbial metabolic potential and functional diversity changed significantly. In the Ox samples, the community-level physiological profiles were different, mainly owing to the utilization of carboxylic acids (Ox − > Ox +) and carbohydrates (Ox + > Ox −). In the Red samples, a wider set of organic substrates were consumed by the microbial communities, including those less bioavailable (e.g., phenols). Significant differences were also found between Red − and Red + , mainly owing to the relative increase in the utilization of amino acids in Red − , polymers and amines in Red + , along with the active biomass. By reflecting the local redox conditions and moderate levels of anthropogenic impact, the applied approach highlighted changes of microbial metabolic potential and physiological profiles that imply direct repercussions on biogeochemical cycling and the ecosystem services provided by groundwater microorganisms.

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The north–south divide? Macroalgal functional trait diversity and redundancy varies with intertidal aspect

Amstutz,

Firth,

Foggo

et al. 2023

Annals of Botany

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Background and Aims Marine macroalgae (‘seaweeds’) are critical to coastal ecosystem structure and function, but also vulnerable to the many environmental changes associated with Anthropogenic Climate Change (ACC). The local habitat conditions underpinning observed and predicted ACC-driven changes in intertidal macroalgal communities are complex and likely site-specific, in addition to more commonly reported regional factors like sea surface temperatures. Methods We examined how the composition and functional trait expression of macroalgal communities in SW England varied with aspect (i.e., north-south orientation) at four sites with opposing Equator- (EF) and Pole-facing (PF) surfaces. Previous work at these sites had established that average annual (low tide) temperatures vary by 1.6°C and that EF surfaces experience six-fold more frequent extremes (i.e., > 30°C). Key Results PF macroalgal communities were consistently more taxon rich; eleven taxa were unique to PF habitats, with only one restricted to EF. Likewise, functional richness and dispersion were greater on PF surfaces (dominated by algae with traits linked to rapid resource capture and utilization, but low desiccation tolerance), although differences in both taxon and functional richness were likely driven by the fact that less diverse EF-surfaces were dominated by desiccation-tolerant fucoids. Conclusions Although we cannot disentangle the influence of temperature variation on algal ecophysiology from the indirect effects of aspect on species interactions (niche pre-emption, competition, grazing etc), our study system provides an excellent model for understanding how environmental variation at local scales affects community composition and functioning. By virtue of enhanced taxonomic diversity, PF-aspects supported higher functional diversity, and consequently, greater effective functional redundancy. These differences may imbue PF-aspects with resilience against environmental perturbation, but if predicted increases in global temperatures are realised, some PF-sites may shift to a depauperate, desiccation-tolerant seaweed community with a concomitant loss of functional diversity and redundancy.

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Prospects for Integrating Disturbances, Biodiversity and Ecosystem Functioning Using Microbial Systems

Cited by 3 publications

References 106 publications

Cure or Curse? Simulation Indicates that Microbes Proliferate under Disinfection Measures in the Space Station

Cure or Curse? Simulation Indicates that Microbes Proliferate under Disinfection Measures in the Space Station

Redox conditions and a moderate anthropogenic impairment of groundwater quality reflected on the microbial functional traits in a volcanic aquifer

The north–south divide? Macroalgal functional trait diversity and redundancy varies with intertidal aspect

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