Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing

Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing

<p>Diatoms, microscopic single-celled algae, are present in almost all habitats containing water (e.g. streams, lakes, soil and rocks). In the terrestrial environment, their diversified species distributions are mainly controlled by physiographical factors and anthropic disturbances which make...

Full description

Bibliographic Details
Main Authors: J. Foets, C. E. Wetzel, N. Martínez-Carreras, A. J. Teuling, J.-F. Iffly, L. Pfister
Format: Article
Language:English
Published: Copernicus Publications 2020-10-01
Series:Hydrology and Earth System Sciences
Online Access:https://hess.copernicus.org/articles/24/4709/2020/hess-24-4709-2020.pdf
id doaj-0c29a0b35a154af48e30b4cc9aa0cd98
record_format Article
spelling doaj-0c29a0b35a154af48e30b4cc9aa0cd982020-11-25T03:26:58ZengCopernicus PublicationsHydrology and Earth System Sciences1027-56061607-79382020-10-01244709472510.5194/hess-24-4709-2020Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracingJ. Foets0J. Foets1C. E. Wetzel2N. Martínez-Carreras3A. J. Teuling4J.-F. Iffly5L. Pfister6L. Pfister7Environmental Research and Innovation Department, Luxembourg Institute of Science and Technology, Belvaux, LuxembourgDepartment of Environmental Sciences, Wageningen University and Research, Wageningen, the NetherlandsEnvironmental Research and Innovation Department, Luxembourg Institute of Science and Technology, Belvaux, LuxembourgEnvironmental Research and Innovation Department, Luxembourg Institute of Science and Technology, Belvaux, LuxembourgDepartment of Environmental Sciences, Wageningen University and Research, Wageningen, the NetherlandsEnvironmental Research and Innovation Department, Luxembourg Institute of Science and Technology, Belvaux, LuxembourgEnvironmental Research and Innovation Department, Luxembourg Institute of Science and Technology, Belvaux, LuxembourgFaculty of Science, Technology and Medicine, University of Luxembourg, Belval, Luxembourg<p>Diatoms, microscopic single-celled algae, are present in almost all habitats containing water (e.g. streams, lakes, soil and rocks). In the terrestrial environment, their diversified species distributions are mainly controlled by physiographical factors and anthropic disturbances which makes them useful tracers in catchment hydrology. In their use as a tracer, diatoms are generally sampled in streams by means of an automated sampling method; as a result, many samples must be collected to cover a whole storm run-off event. As diatom analysis is labour-intensive, a trade-off has to be made between the number of sites and the number of samples per site. In an attempt to reduce this sampling effort, we explored the potential for the Phillips sampler, a time-integrated mass-flux sampler, to provide a representative sample of the diatom assemblage of a whole storm run-off event. We addressed this by comparing the diatom community composition of the Phillips sampler to the composite community collected by automatic samplers for three events. Non-metric multidimensional scaling (NMDS) showed that, based on the species composition, (1) all three events could be separated from each other, (2) the Phillips sampler was able to sample representative communities for two events and (3) significantly different communities were only collected for the third event. These observations were generally confirmed by analysis of similarity (ANOSIM), permutational multivariate analysis of variance (PERMANOVA), and the comparison of species relative abundances and community-derived indices. However, sediment data from the third event, which was sampled with automatic samplers, showed a large amount of noise; therefore, we could not verify if the Phillips sampler sampled representative communities or not. Nevertheless, we believe that this sampler could not only be applied in hydrological tracing using terrestrial diatoms, but it might also be a useful tool in water quality assessment.</p>https://hess.copernicus.org/articles/24/4709/2020/hess-24-4709-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author J. Foets
J. Foets
C. E. Wetzel
N. Martínez-Carreras
A. J. Teuling
J.-F. Iffly
L. Pfister
L. Pfister
spellingShingle J. Foets
J. Foets
C. E. Wetzel
N. Martínez-Carreras
A. J. Teuling
J.-F. Iffly
L. Pfister
L. Pfister
Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing
Hydrology and Earth System Sciences
author_facet J. Foets
J. Foets
C. E. Wetzel
N. Martínez-Carreras
A. J. Teuling
J.-F. Iffly
L. Pfister
L. Pfister
author_sort J. Foets
title Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing
title_short Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing
title_full Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing
title_fullStr Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing
title_full_unstemmed Technical note: A time-integrated sediment trap to sample diatoms for hydrological tracing
title_sort technical note: a time-integrated sediment trap to sample diatoms for hydrological tracing
publisher Copernicus Publications
series Hydrology and Earth System Sciences
issn 1027-5606
1607-7938
publishDate 2020-10-01
description <p>Diatoms, microscopic single-celled algae, are present in almost all habitats containing water (e.g. streams, lakes, soil and rocks). In the terrestrial environment, their diversified species distributions are mainly controlled by physiographical factors and anthropic disturbances which makes them useful tracers in catchment hydrology. In their use as a tracer, diatoms are generally sampled in streams by means of an automated sampling method; as a result, many samples must be collected to cover a whole storm run-off event. As diatom analysis is labour-intensive, a trade-off has to be made between the number of sites and the number of samples per site. In an attempt to reduce this sampling effort, we explored the potential for the Phillips sampler, a time-integrated mass-flux sampler, to provide a representative sample of the diatom assemblage of a whole storm run-off event. We addressed this by comparing the diatom community composition of the Phillips sampler to the composite community collected by automatic samplers for three events. Non-metric multidimensional scaling (NMDS) showed that, based on the species composition, (1) all three events could be separated from each other, (2) the Phillips sampler was able to sample representative communities for two events and (3) significantly different communities were only collected for the third event. These observations were generally confirmed by analysis of similarity (ANOSIM), permutational multivariate analysis of variance (PERMANOVA), and the comparison of species relative abundances and community-derived indices. However, sediment data from the third event, which was sampled with automatic samplers, showed a large amount of noise; therefore, we could not verify if the Phillips sampler sampled representative communities or not. Nevertheless, we believe that this sampler could not only be applied in hydrological tracing using terrestrial diatoms, but it might also be a useful tool in water quality assessment.</p>
url https://hess.copernicus.org/articles/24/4709/2020/hess-24-4709-2020.pdf
work_keys_str_mv AT jfoets technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT jfoets technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT cewetzel technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT nmartinezcarreras technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT ajteuling technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT jfiffly technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT lpfister technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
AT lpfister technicalnoteatimeintegratedsedimenttraptosamplediatomsforhydrologicaltracing
_version_ 1724590153192701952

Similar Items