Your search keyword '"Elsenbeer, Helmut"' showing total 10 results

1. Runoff sources and land cover change in the Amazon: an end-member mixing analysis from small watersheds

Author

Neill, Christopher, Chaves, Joaquin E., Biggs, Trent, Deegan, Linda A., Elsenbeer, Helmut, Figueiredo, Ricardo O., Germer, Sonja, Johnson, Mark S., Lehmann, Johannes, Markewitz, Daniel, and Piccolo, Marisa C.

Published

2011

2. A hydrochemical approach to quantify the role of return flow in a surface flow-dominated catchment.

Author

Barthold, Frauke K., Turner, Benjamin L., Elsenbeer, Helmut, and Zimmermann, Alexander

Subjects

HYDRAULICS, LAND treatment of wastewater, WATERSHEDS, WATER chemistry, SUBIRRIGATION, WATER pipelines

Abstract

Stormflow generation in headwater catchments dominated by subsurface flow has been studied extensively, yet catchments dominated by surface flow have received less attention. We addressed this by testing whether stormflow chemistry is controlled by either (a) the event-water signature of overland flow, or (b) the pre-event water signature of return flow. We used a high-resolution hydrochemical data set of stormflow and end-members of multiple storms in an end-member mixing analysis to determine the number of end-members needed to explain stormflow, characterize and identify potential end-members, calculate their contributions to stormflow, and develop a conceptual model of stormflow. The arrangement and relative positioning of end-members in stormflow mixing space suggest that saturation excess overland flow (26-48%) and return flow from two different subsurface storage pools (17-53%) are both similarly important for stormflow. These results suggest that pipes and fractures are important flow paths to rapidly release stored water and highlight the value of within-event resolution hydrochemical data to assess the full range and dynamics of flow paths. [ABSTRACT FROM AUTHOR]

Published

2017

3. Connectivity of overland flow by drainage network expansion in a rain forest catchment.

Author

Zimmermann, Beate, Zimmermann, Alexander, Turner, Benjamin L., Francke, Till, and Elsenbeer, Helmut

Subjects

LAND treatment of wastewater, DRAINAGE, RAIN forests, WATERSHEDS, RAINFALL frequencies

Abstract

Soils in various places of the Panama Canal Watershed feature a low saturated hydraulic conductivity ( Ks) at shallow depth, which promotes overland-flow generation and associated flashy catchment responses. In undisturbed forests of these areas, overland flow is concentrated in flow lines that extend the channel network and provide hydrological connectivity between hillslopes and streams. To understand the dynamics of overland-flow connectivity, as well as the impact of connectivity on catchment response, we studied an undisturbed headwater catchment by monitoring overland-flow occurrence in all flow lines and discharge, suspended sediment, and total phosphorus at the catchment outlet. We find that connectivity is strongly influenced by seasonal variation in antecedent wetness and can develop even under light rainfall conditions. Connectivity increased rapidly as rainfall frequency increased, eventually leading to full connectivity and surficial drainage of entire hillslopes. Connectivity was nonlinearly related to catchment response. However, additional information on factors such as overland-flow volume would be required to constrain relationships between connectivity, stormflow, and the export of suspended sediment and phosphorus. The effort to monitor those factors would be substantial, so we advocate applying the established links between rain event characteristics, drainage network expansion by flow lines, and catchment response for predictive modeling and catchment classification in forests of the Panama Canal Watershed and in similar regions elsewhere. [ABSTRACT FROM AUTHOR]

Published

2014

4. Topographic controls on overland flow generation in a forest – An ensemble tree approach

Author

Loos, Martin and Elsenbeer, Helmut

Subjects

*RAIN forests, *DIGITAL elevation models, *WATERSHEDS, *RAINFALL, *FLUID dynamics, *PREDICTION theory

Abstract

Summary: Overland flow is an important hydrological pathway in many forests of the humid tropics. Its generation is subject to topographic controls at differing spatial scales. Our objective was to identify such controls on the occurrence of overland flow in a lowland tropical rainforest. To this end, we installed 95 overland flow detectors (OFDs) in four nested subcatchments of the Lutzito catchment on Barro Colorado Island, Panama, and monitored the frequency of overland flow occurrence during 18 rainfall events at each OFD location temporal frequency. For each such location, we derived three non-digital terrain attributes and 17 digital ones, of which 15 were based on Digital Elevation Models (DEMs) of three different resolutions. These attributes then served as input into a Random Forest ensemble tree model to elucidate the importance and partial and joint dependencies of topographic controls for overland flow occurrence. Lutzito features a high median temporal frequency in overland flow occurrence of 0.421 among OFD locations. However, spatial temporal frequencies of overland flow occurrence vary strongly among these locations and the subcatchments of Lutzito catchment. This variability is best explained by (1) microtopography, (2) coarse terrain sloping and (3) various measures of distance-to-channel, with the contribution of all other terrain attributes being small. Microtopographic features such as concentrated flowlines and wash areas produce highest temporal frequencies, whereas the occurrence of overland flow drops sharply for flow distances and terrain sloping beyond certain threshold values. Our study contributes to understanding both the spatial controls on overland flow generation and the limitations of terrain attributes for the spatially explicit prediction of overland flow frequencies. [Copyright &y& Elsevier]

Published

2011

5. Recovery of saturated hydraulic conductivity under secondary succession on former pasture in the humid tropics.

Author

Hassler, Sibylle K., Zimmermann, Beate, van Breugel, Michiel, Hall, Jefferson S., and Elsenbeer, Helmut

Subjects

DEFORESTATION, PASTURES, LANDSCAPES, LAND use, SOIL depth, RAINFALL, LAND cover, HYDROLOGY

Abstract

Abstract: Landscapes in the humid tropics are undergoing a continuous change in land use. Deforestation is still taking its toll on forested areas, but at the same time more and more secondary forests emerge where formerly agricultural lands and pastures are being abandoned. Regarding soil hydrology, the extent to which secondary succession can recover soil hydrological properties disturbed by antecedent deforestation and pasture use is yet poorly understood. We investigated the effect of secondary succession on saturated hydraulic conductivity (Ks) at two soil depths (0–6 and 6–12cm) using a space-for-time approach in a landscape mosaic in central Panama. The following four land-use classes were studied: pasture (P), secondary forest of 5–8 years of age (SF5), secondary forest of 12–15 years of age (SF12) and secondary forest of more than 100 years of age (SF100), each replicated altogether four times in different micro-catchments across the study region. The hydrological implications of differences in Ks in response to land-use change with land use, especially regarding overland flow generation, were assessed via comparisons with rainfall intensities. Recovery of Ks could be detected in the 0–6cm depth after 12 years of secondary succession: P and SF5 held similar Ks values, but differed significantly (α =0.05) from SF12 and SF100 which in turn were indistinguishable. Variability within the land cover classes was large but, due to sufficient replication in the study, Ks recovery could be detected nonetheless. Ks in the 6–12cm depth did not show any differences between the land cover classes; only Ks of the uppermost soil layer was affected by land-use changes. Overland flow – as inferred from comparisons of Ks with rainfall intensities – is more likely on P and SF5 sites compared to SF12 and SF100 for the upper sample depth; however, generally low values at the 6–12cm depth are likely to impede vertical percolation during high rainfall intensities regardless of land use. We conclude that Ks can recover from pasture use under secondary succession up to pre-pasture levels, but the process may take more than 8 years. In order to gain comprehensive understanding of Ks change with land use and its hydrological implications, more studies with detailed land-use histories and combined measurements of Ks, overland flow, precipitation and throughfall are essential. [Copyright &y& Elsevier]

Published

2011

6. Stormflow generation and flowpath characteristics in an Amazonian rainforest catchment

Author

Elsenbeer, Helmut and Vertessy, Robert A.

Subjects

HYDROLOGY, GEOLOGY

Abstract

The Amazon basin covers an area of roughly 7 x 106 km2 and encompasses diverse soil - landscape types with potentially differing hydrological behaviour. This study was conducted in theUltisol landscape of the western Amazon basin in Peru. Processes of stormflow generation were investigated on an event basis in a first-order rainforest catchment to establish a causal link between soil physical and precipitation characteristics, hillslope flowpaths and stormflow hydrograph attributes. A sharp decrease in soil hydraulic conductivity with depth and high rainfall intensity and frequency favour rapid near-surface flowpaths, mainly in the form of saturation-excess overland flow and return flow. The latter results in an almost randomoccurrence of overland flow, with no obvious topographic control. Hillslope flowpaths do not vary much with respect to the hydrograph attributes time of rise, response time, lag time and centroid lag time. They have the same response time as streamflow, but a somewhat lower time of rise and significantly shorter lag times. The recession constant for hillslope hydrographs is about 10 min, in contrast to the streamflow recession constants of 28, 75 and 149 min. Stormflow generation in this Ultisol rainforest catchment differs strongly from that reported for Oxisol rainforest catchments. These two soilscapes may define a spectrum of possible catchment hydrological behaviour in the Amazon basin. [ABSTRACT FROM AUTHOR]

Published

2000

7. Quantification and interpretation of suspended-sediment discharge hysteresis patterns: How much data do we need?

Author

Aich, Valentin, Zimmermann, Alexander, and Elsenbeer, Helmut

Subjects

*SUSPENDED sediments, *HYSTERESIS, *LAND treatment of wastewater, *SEDIMENT transport, *HYDROLOGY

Abstract

Sediment-discharge hysteresis loops are frequently analyzed to facilitate the understanding of sediment transport processes. Hysteresis patterns, however, are often complex and their interpretation can be complicated. Particularly, quantifying hysteresis patterns remains a problematic issue. Moreover, it is currently unknown how much data is required for analyzing sediment-discharge hysteresis loops in a given area. These open questions and challenges motivated us to develop a new method for quantifying suspended-sediment hysteresis. Subsequently, we applied the new hysteresis index to three suspended-sediment and discharge datasets from a small tropical rainforest catchment. The datasets comprised a different number of events and sampling sites. Our analyses show three main findings: (1) datasets restricted to only few events, which is typical for rapid assessment surveys, were always sufficient to identify the dominating hysteresis pattern in our research area. Furthermore, some of these small datasets contained multiple-peak events that allowed identifying intra-event exhaustion effects and hence, limitations in sediment supply. (2) Datasets comprising complete hydrological years were particularly useful for analyzing seasonal dynamics of hysteresis. These analyses revealed an exhaustion of hysteresis on the inter-event scale which also points to a limited sediment supply. (3) Datasets comprising measurements from two consecutive gauges installed at the catchment outlet and on a slope within that catchment allowed analyzing the change of hysteresis patterns along the flowpath. On the slope, multiple-peak events showed a stronger intra-event exhaustion of hysteresis than at the catchment outlet. Furthermore, exhaustion of hysteresis on the inter-event scale was not evident on the slope but occurred at the catchment outlet. Our results indicate that even small sediment datasets can provide valuable insights into sediment transport processes of small catchments. Furthermore, our results may serve as a first guideline on what to expect from an analysis of hysteresis patterns for datasets of varying quality and quantity. [ABSTRACT FROM AUTHOR]

Published

2014

8. Forests and erosion: Insights from a study of suspended-sediment dynamics in an overland flow-prone rainforest catchment

Author

Zimmermann, Alexander, Francke, Till, and Elsenbeer, Helmut

Subjects

*SUSPENDED sediments, *RAIN forests, *WATERSHEDS, *EROSION, *GROUND vegetation cover, *SPATIO-temporal variation, *REGRESSION analysis

Abstract

Summary: Forests seem to represent low-erosion systems, according to most, but not all, studies of suspended-sediment yield. We surmised that this impression reflects an accidental bias in the selection of monitoring sites towards those with prevailing vertical hydrological flowpaths, rather than a tight causal link between vegetation cover and erosion alone. To evaluate this conjecture, we monitored, over a 2-year period, a 3.3ha old-growth rainforest catchment prone to frequent and widespread overland flow. We sampled stream flow at two and overland flow at three sites in a nested arrangement on a within-event basis, and monitored the spatial and temporal frequency of overland flow. Suspended-sediment concentrations were modeled with Random Forest and Quantile Regression Forest to be able to estimate the annual yields for the 2years, which amounted to 1tha−1 and 2tha−1 in a year with below-average and with average precipitation, respectively. These estimates place our monitoring site near the high end of reported suspended-sediment yields and lend credence to the notion that low yields reflect primarily the dominance of vertical flowpaths and not necessarily and exclusively the kind of vegetative cover. Undisturbed forest and surface erosion are certainly no contradiction in terms even in the absence of mass movements. [ABSTRACT FROM AUTHOR]

Published

2012

9. Have we underestimated stemflow? Lessons from an open tropical rainforest

Author

Germer, Sonja, Werther, Lisa, and Elsenbeer, Helmut

Subjects

*HYDROLOGY, *PLANT stems, *RAINFALL, *RAIN forests, *ESTIMATION theory, *PALMS, *HYDROLOGIC models, *SATURATION vapor pressure, *GROUNDWATER recharge

Abstract

Summary: Stemflow was monitored on event-basis in an undisturbed open tropical rainforest with a large number of palm trees located in the southwestern Amazon basin of Brazil. We estimated stemflow of 24 trees with a diameter at breast height (DBH) over 5cm and of 16 juvenile and eight aborescent babassu palms (Orbignya phalerata Mart.). To obtain within-event stemflow variability we monitored stemflow of one additional aborescent babassu palm with a tipping-bucket rain gauge at 5-min intervals. Total stemflow of the forest accounted for 8.0±1.8% (S.E.) of incident rainfall and reached the forest floor over an area corresponding to the total basal area that sums up to only 0.3% of the plot area. The most influential predictive variables for stemflow generation were DBH and rainfall amount. The stemflow parameter ‘funneling ratio’, which is normalized for DBH and rainfall amount, was particularly useful to highlight the relevance of small trees (DBH⩽10cm) for stemflow generation. Small trees and babassu palms had significantly higher funneling ratios than larger trees (median funneling ratios: 15–27 and 1–2, respectively). The maximum 5-min stemflow intensity (1232mmh−1) was 15-fold that of rainfall. High funneling ratios of small trees and babassu palms suggest that high stemflow intensities are the rule rather than the exception. Therefore, we expect small trees and babassu palms to influence hydrologic processes as subsurface flow, saturation overland flow or groundwater recharge. Consequently, stemflow studies should include all DBH classes and species with exceptionally high funneling ratios. For modeling purposes, stemflow should be estimated and not just assumed if study sites have a large number of palms or of small trees. [ABSTRACT FROM AUTHOR]

Published

2010

10. Influence of land-use change on near-surface hydrological processes: Undisturbed forest to pasture

Author

Germer, Sonja, Neill, Christopher, Krusche, Alex V., and Elsenbeer, Helmut

Subjects

*LAND use, *HYDROLOGICAL forecasting, *PASTURES, *RUNOFF, *SOIL compaction, *WATER table, *RAINFALL intensity duration frequencies, *RIVER channels, *DEFORESTATION

Abstract

Summary: Soil compaction that follows the clearing of tropical forest for cattle pasture is associated with lower soil hydraulic conductivity and increased frequency and volume of overland flow. We investigated the frequency of perched water tables, overland flow and stormflow in an Amazon forest and in an adjacent 25-year-old pasture cleared from the same forest. We compared the results with the frequencies of these phenomena estimated from comparisons of rainfall intensity and soil hydraulic conductivity. The frequency of perched water tables based on rainfall intensity and soil hydraulic conductivity was expected to double in pasture compared with forest. This corresponded closely with an approximate doubling of the frequency of stormflow and overland flow in pasture. In contrast, the stormflow volume in pasture increased 17-fold. This disproportional increase of stormflow resulted from overland flow generation over large areas of pasture, while overland flow generation in the forest was spatially limited and was observed only very near the stream channel. In both catchments, stormflow was generated by saturation excess because of perched water tables and near-surface groundwater levels. Stormflow was occasionally generated in the forest by rapid return flow from macropores, while slow return flow from a continuous perched water table was more common in the pasture. These results suggest that deforestation for pasture alters fundamental mechanisms of stormflow generation and may increase runoff volumes over wide regions of Amazonia. [Copyright &y& Elsevier]

Published

2010