Diatom assemblages of non-living substrates in petrifying Cratoneurion springs from lower Belgium

Denys, Luc; Oosterlynck, Patrik

doi:10.5507/fot.2015.014

Cited by 13 publications

(10 citation statements)

References 31 publications

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“…The restricted range of pH suitable for its colonization, in- In the site (sample) codes the number is referred to the elevation of the spring, and the final "m" denotes a bryophyte ("moss") sample (more details in Table 1 Wojtal 2013). The assemblages of the springs studied also show analogies with those of petrifying springs affected by nitrate enrichment (denyS & ooSterlynck 2015), which is consistent with the fact that the springs studied included limestone precipitating springs. The most characteristic algae (species involved in biocalcification processes) of LPS appear to be less sensitive to nitrate than to phosphate enrichment (Cantonati et al 2016 Besides other anthropogenic pressures (nitrates, artificial morphology of the site of emergence), an important driver is the low discharge, that is likely to cause extensive parts of the substrata to dry out during low flow.…”

Section: Diatom Assemblage Composition and Main Environmental Determisupporting

confidence: 82%

“…In spite of being the sole widely-distributed spring type included in the European Union Habitat Directive (EU-HD 1992), LPS are affected by many impacts, the most important ones being water diversion, and inadequate management due to lack of appreciation. The charac-teristics of diatom assemblages of petrifying springs affected by nitrate enrichment were recently discussed by denyS & ooSterlynck (2015).…”

Section: Introductionmentioning

confidence: 99%

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A new Navicula (Bacillariophyta) species from low-elevation carbonate springs affected by anthropogenic disturbance

Cantonati¹,

Angeli²,

Spitale³

et al. 2016

Fottea

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Diatom assemblages in carbonate spring habitats at low elevations, with low discharge, and affected by direct human impacts were studied only recently and in some geographic areas. We describe and characterize the ecology of a new Navicula species from springs with these characteristics within the basin of the River Adige in the south-eastern Alps and Alpine foothills (Province of Verona, Italy). Navicula veronensis sp. nov. is in the group of species around N. cincta but has distinct outline, size, central area, and proximal raphe endings. The availability of data on the distribution of the new species in streams of the Island of Cyprus allowed to quantitatively compare the ecological preferences, niche position, and niche breadth of Navicula veronensis sp. nov. with those of allied species. The new species was found to be characteristic of medium-high conductivity freshwaters, rich in sulphates and chloride, often nitrate enriched and affected by marked discharge fluctuations and seasonal desiccation. Niche position however differed only slightly from those of morphologically-similar species, with the exception of Navicula dealpina that was found to be characteristic of oligotrophic, calciumbicarbonate rich environments with medium(-low) conductivity. Canonical Correspondence Analysis clearly showed that the most influential environmental variables determining the diatom assemblages of low-elevation carbonate springs affected by anthropogenic disturbance were nitrate enrichment, spring morphology alteration (in particular for water abstraction), and low discharge.

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Section: Diatom Assemblage Composition and Main Environmental Determisupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

A new Navicula (Bacillariophyta) species from low-elevation carbonate springs affected by anthropogenic disturbance

Cantonati¹,

Angeli²,

Spitale³

et al. 2016

Fottea

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“…It is not surprising that NH 4 and PO 4 variables act in the same way ( Figure 2). More curiously though is the opposite relation between these two variables and the NO 3 concentration though a similar observation has been made by Denys and Oosterlynck [48] in Flanders. The second axis showed that the canopy cover also plays an important role in the dispersion of the species assemblages.…”

Section: Global Analysissupporting

confidence: 69%

“…The negative relation with PO 4 , and with NH 4 when keeping the outliers in the dataset, indicates that the more oligotrophic the conditions the more rich the community. Other studies indicate that this kind of relationship is not always attributed to eutrophication, and human impacts are sometimes positively correlated to species richness [48]. These studies may address a wider range of conditions than in the present study and suggest that this relationship is scaledependent.…”

Section: Species Richnessmentioning

confidence: 43%

Factors Affecting the Presence and the Diversity of Bryophytes in the Petrifying Sources Habitat (7220) in Wallonia and the Brussels-Capital Region, Belgium

Couvreur

Martin

Sotiaux

2016

International Journal of Agronomy

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Bryological composition, water chemistry, and environmental factors were characterized on 67 Belgian travertines. We explore the relationship between these environmental factors and the community composition, species richness, or presence of individual species using Redundancy Analysis with Hellinger’s transformation (tb-RDA) or Generalized Linear Models (GLMs). The best variables explaining the community composition are slope, NO3, NH4, and PO4. The species richness is negatively related to canopy cover and PO4.Palustriella commutatatends to be more frequent when the slope is steeper and to a lesser degree when the canopy cover is lower.Eucladium verticillatumtends to be slightly more frequent when canopy cover and NH4concentrations are lower.Cratoneuron filicinumis more frequent at higher Mg concentrations andPellia endiviifoliais more frequent at lower PO4concentrations and higher NO3concentrations.Brachythecium rivulareshowed wide ecological amplitude and almost none of the tested environmental factors seem to be related to its presence. The study identifies eutrophication as the main factor responsible for habitat deterioration. Practical indications on the best ways to maintain or to enhance the quality of these petrifying sources are given.

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“…Diatom valves are counted (~400 valves are required to adequately represent species assemblages) and identified on each slide along random transects with a Leica DMRX light microscope (Leica Microsystems GmbH, Wetzlar, Germany) (or any other microscope with similar performances and equipped with a 100× oil immersion objective) at a magnification of 1000× using the most updated taxonomic books and monographs (e.g., Refs ). The ecological classification is typically based on the Van Dam et al system using the software (OMNIDIA 6.0.2), refined and updated with the inclusion of information concerning poorly known aerial species (e.g., Refs ).…”

Section: Terrestrial Diatom Sampling and Identificationmentioning

confidence: 99%

Terrestrial diatoms as tracers in catchment hydrology: a review

et al. 2017

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Diatoms are remarkable organisms. They are present in almost all habitats containing water (e.g., lakes, streams, soils, bark) and rank among the most common algal groups in both freshwaters and marine ecosystems. The ubiquitous character of aquatic diatoms has triggered countless applications as environmental tracers for studies in water quality, paleoclimate reconstruction and sediment tracing. However, diatoms also occur in the terrestrial environment. It is this plethora of diatom life-forms that has recently triggered interest in their use as tracers of hydrological processes. The use of diatoms in catchment hydrology has been very limited. Part of the reason is that until recently, the taxonomy and ecology of terrestrial diatom assemblages were largely unknown. However, in the past decade, much work has been done to quantify terrestrial diatom reservoir size, dynamics, and potential depletion following precipitation events. Therefore, such terrestrial diatoms now hold promise for use in catchment hydrology-for tracing runoff flow sources and pathways across a wide range of spatial scales. Here we review the literature on terrestrial diatoms and describe the various sampling protocols that have been designed and tested for specific applications in hydrological processes research. We review and summarize the work on terrestrial diatom reservoir characterization, transport mechanisms and pathways to show how such diatom-based tracer work might be possible at the catchment scale for rainfall-runoff studies. Finally, we present a vision for future work that might take advantage of terrestrial diatoms in catchment hydrology and discuss the main challenges going forward. © 2017 The Authors. WIREs Water published by Wiley Periodicals, Inc. How to cite this article:WIREs Water 2017Water , 4:e1241. doi: 10.1002Water /wat2.1241 INTRODUCTION D iatoms (Bacillariophyta) are present in almost all habitats containing water (e.g., lakes, streams, soils, litter, bark). They count among the most common algal groups in both freshwaters and marine ecosystems. 1 Despite their microscopic size (10-200 microns), 2 diatoms generate an impressive amount of carbon through photosynthesis: almost as much as all rainforests combined. 3 Identification of diatoms date back to the early 1700s as noted by Round et al. 1 Decades later, Otto Friedrich Müller published the first description of a diatom in 1783 (Vibrio paxillifer ≡ Bacillaria paradoxa). Since then, This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes. more than 64,000 diatom species have been described-and new species are added to that list almost daily with the number of extant species extrapolated to ca 100,000. 4,5 The identification of diatoms (from the Greek 'diatomos' or 'cut in half') commonly relies on the highly differentiated cell wall (or frustule) that is mostly co...

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Diatom assemblages of non-living substrates in petrifying Cratoneurion springs from lower Belgium

Cited by 13 publications

References 31 publications

A new Navicula (Bacillariophyta) species from low-elevation carbonate springs affected by anthropogenic disturbance

A new Navicula (Bacillariophyta) species from low-elevation carbonate springs affected by anthropogenic disturbance

Factors Affecting the Presence and the Diversity of Bryophytes in the Petrifying Sources Habitat (7220) in Wallonia and the Brussels-Capital Region, Belgium

Terrestrial diatoms as tracers in catchment hydrology: a review

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