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1

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Using water stable isotopes to understand evaporation, moisture stress, and re-wetting in catchment forest and grassland soils of the summer drought of 2018 (2020)

Kleine, Lukas [Verfasser] ; Tetzlaff, Dörthe [Verfasser] ; Smith, Aaron [Verfasser] ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

b3kat_BV046866951

Umfang: 1 Online-Ressource

Sprache: Englisch

DOI: 10.18452/21841

URN: urn:nbn:de:kobv:11-110-18452/22559-3

URL: Volltext (kostenfrei)

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2

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Spatially distributed tracer-aided runoff modelling and dynamics of storage and water ages in a permafrost-influenced catchment (2019)

Piovano, Thea I. [Verfasser] ; Tetzlaff, Doerthe [Verfasser] ; Carey, Sean K. [Verfasser] ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

b3kat_BV045910230

Umfang: 1 Online-Ressource

Sprache: Englisch

DOI: 10.18452/20607

URN: urn:nbn:de:kobv:11-110-18452/21386-3

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3

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Water ages in the critical zone of long-term experimental sites in northern latitudes (2018)

Sprenger, Matthias [Sonstige] ; Tetzlaff, Doerthe [Sonstige] ; Buttle, Jim [Sonstige] ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

b3kat_BV045137037

Umfang: 1 Online-Ressource

Sprache: Englisch

DOI: 10.18452/19632

URN: urn:nbn:de:kobv:11-110-18452/20406-7

URL: Volltext (kostenfrei)

Mehr zum Autor: Sprenger, Matthias

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4

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Critical Zone Storage Controls on the Water Ages of Ecohydrological Outputs (2020)

Kuppel, Sylvain ; Tetzlaff, Doerthe ; Maneta, Marco P. ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_23529

Umfang: 1 Online-Ressource (11 Seiten)

Inhalt: Spatially explicit knowledge of the origins of water resources for ecosystems and rivers is challenging when using tracer data alone. We use simulations from a spatially distributed model calibrated by extensive ecohydrological data sets in a small, energy‐limited catchment, where hillslope‐riparian dynamics are broadly representative of humid boreal headwater catchments that are experiencing rapid environmental transition. We hypothesize that in addition to wetness status, landscape heterogeneity modulates the water pathways that sustain ecosystem function and streamflows. Simulations show that catchment storage inversely controls stream water ages year‐round, but only during the drier seasons for transpiration and soil evaporation. The ages of these evaporative outputs depend much less on wetness status in the oft‐saturated riparian soils than on the freely draining hillslopes that subsidize them. This work highlights the need to consider local dynamics and time‐changing lateral heterogeneities when interpreting the ages, and thus the vulnerability, of water resources feeding streams and ecosystems in landscapes.

Inhalt: Knowing how much time water spends in a landscape (its “age”) helps understanding how water travels through it. These dynamics inform of the stability of water resources for ecosystems and societies, and of their vulnerabilities under climate and land use changes. Water ages may vary depending on how wet or dry a location gets between seasons and years. We thus need to learn more about the demographics (“how much and how old?”) of the water used by plants, evaporated from soils, and flowing in streams, but it is often impossible to monitor the heterogeneity of water pathways within landscapes. Addressing this challenge, we used a numerical model built upon coupling ecohydrological processes and that maps landscape locations. We adjusted this model using multiple data sets in a catchment representative of humid boreal environments where climate and vegetation are rapidly changing. We found markedly different aging patterns between water escaping the system through the plants, soils, and stream, depending on water storage status. This changing duration of water movement also differs between the catchment as a whole and its parts. This method can be used to better understand the multiple ways in which water moves through landscapes, in current and future conditions.

Inhalt: Peer Reviewed

In: Hoboken, NJ : Wiley, 47,16

Sprache: Englisch

DOI: 10.1029/2020GL088897

DOI: 10.18452/22856

URN: urn:nbn:de:kobv:11-110-18452/23529-1

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5

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Visualizing catchment‐scale spatio‐temporal dynamics of storage‐flux‐age interactions using a tracer‐aided ecohydrological model (2022)

Smith, Aaron ; Tetzlaff, Doerthe ; Maneta, Marco P. ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_25263

Umfang: 1 Online-Ressource (3 Seiten)

ISSN: 0885-6087 , 0885-6087

Inhalt: Peer Reviewed

In: New York, NY : Wiley, 36,2, 0885-6087

Sprache: Englisch

DOI: 10.1002/hyp.14460

DOI: 10.18452/24586

URN: urn:nbn:de:kobv:11-110-18452/25263-1

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6

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Isotope hydrology and water sources in a heavily urbanized stream (2021)

Marx, Christian ; Tetzlaff, Dörthe ; Hinkelmann, Reinhard ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_25312

Umfang: 1 Online-Ressource (20 Seiten)

ISSN: 0885-6087 , 0885-6087

Inhalt: Complex networks of both natural and engineered flow paths control the hydrology of streams in major cities through spatio‐temporal variations in connection and disconnection of diverse water sources. We used spatially extensive and temporally intensive sampling of water stable isotopes to disentangle the hydrological sources of the heavily urbanized Panke catchment (~220 km2) in the north of Berlin, Germany. The isotopic data enabled us to partition stream water sources across the catchment using a Bayesian mixing analysis. The upper part of the catchment streamflow is dominated by groundwater (~75%) from gravel aquifers. In dry summer periods, streamflow becomes intermittent in the upper catchment, possibly as a result of local groundwater abstractions. Storm drainage dominates the responses to precipitation events. Although such events can dramatically change the isotopic composition of the upper stream network, storm drainage only accounts for 10%–15% of annual streamflow. Moving downstream, subtle changes in sources and isotope signatures occur as catchment characteristics vary and the stream is affected by different tributaries. However, effluents from a wastewater treatment plant (WWTP), serving 700,000 people, dominate stream flow in the lower catchment (~90% of annual runoff) where urbanization effects are more dramatic. The associated increase in sealed surfaces downstream also reduces the relative contribution of groundwater to streamflow. The volume and isotopic composition of storm runoff is again dominated by urban drainage, though in the lower catchment, still only about 10% of annual runoff comes from storm drains. The study shows the potential of stable water isotopes as inexpensive tracers in urban catchments that can provide a more integrated understanding of the complex hydrology of major cities. This offers an important evidence base for guiding the plans to develop and re‐develop urban catchments to protect, restore, and enhance their ecological and amenity value.

Inhalt: Peer Reviewed

In: New York, NY : Wiley, 35,10, 0885-6087

Sprache: Englisch

DOI: 10.1002/hyp.14377

DOI: 10.18452/24642

URN: urn:nbn:de:kobv:11-110-18452/25312-2

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7

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Estimates of water partitioning in complex urban landscapes with isotope‐aided ecohydrological modelling (2022)

Gillefalk, Mikael ; Tetzlaff, Doerthe ; Marx, Christian ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_25629

Umfang: 1 Online-Ressource (10 Seiten)

Inhalt: Urban green space is increasingly viewed as essential infrastructure to build resilience to climate change by retaining water in the city landscape and balancing ecohydrological partitioning into evapotranspiration for cooling and groundwater recharge. Quantifying how different vegetation types affect water partitioning is essential for future management, but paucity of data and the complex heterogeneity of urban areas make water balance estimates challenging. Here, we provide a preliminary assessment of water partitioning from different sized patches of trees and grass as well as from sealed surfaces. To do this, we used limited field observations together with an advanced, process-based tracer-aided ecohydrological model at a meso-scale (5 km2) in central Berlin, Germany. Transpiration was the dominant green water flux accounting for over 50% of evapotranspiration in the modelled area. Green water fluxes were in general greater from trees compared with grass, but grass in large parks transpired more water compared with grass in small parks that were intensively used for recreation. Interception evaporation was larger for trees compared with grass, but soil water evaporation was greater for grass compared with trees. We also show that evapotranspiration from tree-covered areas comprise almost 80% of the total evapotranspiration from the whole model domain while making up less than 30% of the surface cover. The results form an important stepping-stone towards further upscaling over larger areas and highlights the importance of continuous high-resolution hydrological measurements in the urban landscape, as well as the need for improvements to ecohydrological models to capture important urban processes.

Inhalt: Peer Reviewed

In: New York, NY : Wiley, 36,3

Sprache: Englisch

DOI: 10.1002/hyp.14532

DOI: 10.18452/24948

URN: urn:nbn:de:kobv:11-110-18452/25629-8

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8

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Stable isotopes of water reveal differences in plant – soil water relationships across northern environments (2020)

Tetzlaff, Doerthe ; Buttle, James ; Carey, Sean ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_23614

Umfang: 1 Online-Ressource (19 Seiten)

ISSN: 0885-6087 , 0885-6087

Inhalt: We compared stable isotopes of water in plant stem (xylem) water and soil collected over a complete growing season from five well-known long-term study sites in northern/cold regions. These spanned a decreasing temperature gradient from Bruntland Burn (Scotland), Dorset (Canadian Shield), Dry Creek (USA), Krycklan (Sweden), to Wolf Creek (northern Canada). Xylem water was isotopically depleted compared to soil waters, most notably for deuterium. The degree to which potential soil water sources could explain the isotopic composition of xylem water was assessed quantitatively using overlapping polygons to enclose respective data sets when plotted in dual isotope space. At most sites isotopes in xylem water from angiosperms showed a strong overlap with soil water; this was not the case for gymnosperms. In most cases, xylem water composition on a given sampling day could be better explained if soil water composition was considered over longer antecedent periods spanning many months. Xylem water at most sites was usually most dissimilar to soil water in drier summer months, although sites differed in the sequence of change. Open questions remain on why a significant proportion of isotopically depleted water in plant xylem cannot be explained by soil water sources, particularly for gymnosperms. It is recommended that future research focuses on the potential for fractionation to affect water uptake at the soil-root interface, both through effects of exchange between the vapour and liquid phases of soil water and the effects of mycorrhizal interactions. Additionally, in cold regions, evaporation and diffusion of xylem water in winter may be an important process.

Inhalt: Peer Reviewed

In: New York, NY : Wiley, 35,1, 0885-6087

Sprache: Englisch

DOI: 10.1002/hyp.14023

DOI: 10.18452/22939

URN: urn:nbn:de:kobv:11-110-18452/23614-9

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9

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Identifying Dominant Processes in Time and Space: Time‐Varying Spatial Sensitivity Analysis for a Grid‐Based Nitrate Model (2022)

Wu, Songjun ; Tetzlaff, Doerthe ; Yang, Xiaoqiang ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_26458

Umfang: 1 Online-Ressource (23 Seiten)

Inhalt: Distributed models have been increasingly applied at finer spatiotemporal resolution. However, most diagnostic analyses aggregate performance measures in space or time, which might bias subsequent inferences. Accordingly, this study explores an approach for quantifying the parameter sensitivity in a spatiotemporally explicit way. We applied the Morris method to screen key parameters within four different sampling spaces in a grid‐based model (mHM‐Nitrate) for NO3‐N simulation in a mixed landuse catchment using a 1‐year moving window for each grid. The results showed that an overly wide range of aquatic denitrification rates could mask the sensitivity of the other parameters, leading to their spatial patterns only related to the proximity to outlet. With adjusted parameter space, spatial sensitivity patterns were determined by NO3‐N inputs and hydrological transport capacity, while temporal dynamics were regulated by annual wetness conditions. The relative proportion of parameter sensitivity further indicated the shifts in dominant hydrological/NO3‐N processes between wet and dry years. By identifying not only which parameter(s) is(are) influential, but where and when such influences occur, spatial sensitivity analysis can help evaluate current model parameterization. Given the marked sensitivity in agricultural areas, we suggest that the current NO3‐N parameterization scheme (land use‐dependent) could be further disentangled in these regions (e.g., into croplands with different rotation strategies) but aggregated in non‐agricultural areas; while hydrological parameterization could be resolved into a finer level (from spatially constant to land use‐dependent especially in nutrient‐rich regions). The spatiotemporal sensitivity pattern also highlights NO3‐N transport within soil layers as a focus for future model development.

Inhalt: Peer Reviewed

In: [New York] : Wiley, 58,8

Sprache: Englisch

DOI: 10.1029/2021WR031149

DOI: 10.18452/25789

URN: urn:nbn:de:kobv:11-110-18452/26458-1

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10

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Upscaling Tracer‐Aided Ecohydrological Modeling to Larger Catchments: Implications for Process Representation and Heterogeneity in Landscape Organization (2023)

Yang, Xiaoqiang ; Tetzlaff, Doerthe ; Müller, Christin ; [weitere]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_27097

Umfang: 1 Online-Ressource (22 Seiten)

Inhalt: Stable isotopes of water are ideal tracers to integrate into process‐based models, advancing ecohydrological understanding. Current tracer‐aided ecohydrological modeling is mostly conducted in relatively small‐scale catchments, due to limited tracer data availability and often highly damped stream isotope signals in larger catchments (〉100 km2). Recent model developments have prioritized better spatial representation, offering new potential for advancing upscaling in tracer‐aided modeling. Here, we adapted the fully distributed EcH2O‐iso model to the Selke catchment (456 km2, Germany), incorporating monthly sampled isotopes from seven sites between 2012 and 2017. Parameter sensitivity analysis indicated that the information content of isotope data was generally complementary to discharge and more sensitive to runoff partitioning, soil water and energy dynamics. Multi‐criteria calibrations revealed that inclusion of isotopes could significantly improve discharge performance during validations and isotope simulations, resulting in more reasonable estimates of the seasonality of stream water ages. However, capturing isotopic signals of highly non‐linear near‐surface processes remained challenging for the upscaled model, but still allowed for plausible simulation of water ages reflecting non‐stationarity in transport and mixing. The detailed modeling also helped unravel spatio‐temporally varying patterns of water storage‐flux‐age interactions and their interplay under severe drought conditions. Embracing the upscaling challenges, this study demonstrated that even coarsely sampled isotope data can be of value in aiding ecohydrological modeling and consequent process representation in larger catchments. The derived innovative insights into ecohydrological functioning at scales commensurate with management decision making, are of particular importance for guiding science‐based measures for tackling environmental changes.

Inhalt: Peer Reviewed

In: [New York] : Wiley, 59,3

Sprache: Englisch

DOI: 10.1029/2022WR033033

DOI: 10.18452/26416

URN: urn:nbn:de:kobv:11-110-18452/27097-5

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