2017
DOI: 10.1002/wat2.1241
|View full text |Cite
|
Sign up to set email alerts
|

Terrestrial diatoms as tracers in catchment hydrology: a review

Abstract: 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 recen… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1

Citation Types

5
33
0

Year Published

2017
2017
2024
2024

Publication Types

Select...
4
2
1
1

Relationship

2
6

Authors

Journals

citations
Cited by 36 publications
(38 citation statements)
references
References 61 publications
5
33
0
Order By: Relevance
“…While several ranges of value for the internal flow velocities have been simulated, a reasonable restriction based on the velocity likelihood could be foreseen. This further perspective should also shift experimental studies toward a better assessment of the water transit time along the different pathways at the hillslope scale, either using direct methods such water isotope tracing (Tetzlaff et al, 2018), developing imaginative indirect ones such as the diatom tracing (Pfister et al, 2017b), or taking advantage of suspended particles and water turbidity measurements.…”
Section: Overcoming the Remaining Uncertaintymentioning
confidence: 99%
See 1 more Smart Citation
“…While several ranges of value for the internal flow velocities have been simulated, a reasonable restriction based on the velocity likelihood could be foreseen. This further perspective should also shift experimental studies toward a better assessment of the water transit time along the different pathways at the hillslope scale, either using direct methods such water isotope tracing (Tetzlaff et al, 2018), developing imaginative indirect ones such as the diatom tracing (Pfister et al, 2017b), or taking advantage of suspended particles and water turbidity measurements.…”
Section: Overcoming the Remaining Uncertaintymentioning
confidence: 99%
“…In the northwestern Mediterranean context -especially concerned with specific autumnal convective meteorological events -the European cited research particularly demonstrates the importance of cumulative rainfall (Arnaud et al, 1999;Sangati et al, 2009;Camarasa-Belmonte, 2016), the previous soil moisture state (Cassardo et al, 2002;Marchandise and Viel, 2009;Hegedüs et al, 2013;Mateo Lázaro et al, 2014;Raynaud et al, 2015) and the storage capacity of the area affected by the precipitation (Viglione et al, 2010;Zoccatelli et al, 2010;Lobligeois, 2014;Garambois et al, 2015a;Douinot et al, 2016). The combined influence of the spatial distribution of precipitation and event-related storage capacities, reported in the study of a number of particular events (Anquetin et al, 2010;Le Lay and Saulnier, 2007;Laganier et al, 2014;Garambois et al, 2014;Faccini et al, 2016), suggests that there is a hydrological reaction in some areas of the catchments that arises from localised soil saturation.…”
mentioning
confidence: 99%
“…This shows that simulations of solute chemistry require an accurate estimation of the TTDs that goes beyond conservative tracer input–output relationships, and that accounts for the potential multiple modes of transport associated with different age fractions (Benettin et al, 2017). On the other hand, this also means that stream chemistry data (Neal et al, 2013) and new available tracers (Abbott et al, 2016; Hissler, Stille, Guignard, Iffly, & Pfister, 2014; Pfister et al, 2017; Visser et al, 2019) can be used to validate TTDs deduced from a conservative tracer input–output relationship (Guillet et al, 2019). Overall, these results highlight the need for new methods that do not calibrate TTDs using tracer input–output relationships but instead measure the TTDs directly, such as (Kim et al, 2016; Kirchner, 2019).…”
Section: Discussionmentioning
confidence: 99%
“…An interesting outcome was that the percentage of terrestrial diatoms in the stream samples increased when a peak in the hydrograph occurred meaning that they are indeed responsive to changes in stream flow conditions (Klaus et al, 2015;Martínez-Carreras et al, 2015;Pfister et al, 2015). As a follow-up to this proof-of-concept work, Pfister et al (2017) have advocated to better characterize the spatial and temporal dynamics of the terrestrial diatom reservoir -paving the way for new diatom sampling protocols of higher spatial and temporal resolution (Klaus et al, 2015). This should eventually provide new insights into the initiation of hydrological connectivity across the catchment (as inferred from diatom flushing to the stream from various terrestrial reservoirs).…”
Section: Introductionmentioning
confidence: 85%