Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment

During rain events, herbicides can be transported from their point of application to surface waters, where they may harm aquatic organisms. Since the spatial pattern of mobilisation and transport is heterogeneous, the contributions of different fields to the herbicide load in the stream may vary...

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Main Authors: T. Doppler, L. Camenzuli, G. Hirzel, M. Krauss, A. Lück, C. Stamm
Format: Article
Language:English
Published: Copernicus Publications 2012-07-01
Series:Hydrology and Earth System Sciences
Online Access:http://www.hydrol-earth-syst-sci.net/16/1947/2012/hess-16-1947-2012.pdf
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spelling doaj-5feecdab979144e9b4f3aea1674689f22020-11-24T23:38:41ZengCopernicus PublicationsHydrology and Earth System Sciences1027-56061607-79382012-07-011671947196710.5194/hess-16-1947-2012Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experimentT. DopplerL. CamenzuliG. HirzelM. KraussA. LückC. StammDuring rain events, herbicides can be transported from their point of application to surface waters, where they may harm aquatic organisms. Since the spatial pattern of mobilisation and transport is heterogeneous, the contributions of different fields to the herbicide load in the stream may vary considerably within one catchment. Therefore, the prediction of contributing areas could help to target mitigation measures efficiently to those locations where they reduce herbicide pollution the most. <br><br> Such spatial predictions require sufficient insight into the underlying transport processes. To improve the understanding of the process chain of herbicide mobilisation on the field and the subsequent transport through the catchment to the stream, we performed a controlled herbicide application on corn fields in a small agricultural catchment (ca. 1 km<sup>2</sup>) with intensive crop production in the Swiss Plateau. Water samples were collected at different locations in the catchment (overland flow, tile drains and open channel) for two months after application in 2009, with a high temporal resolution during rain events. We also analysed soil samples from the experimental fields and measured discharge, groundwater level, soil moisture and the occurrence of overland flow at several locations. Several rain events with varying intensities and magnitudes occurred during the study period. Overland flow and erosion were frequently observed in the entire catchment. Infiltration excess and saturation excess overland flow were both observed. However, the main herbicide loss event was dominated by infiltration excess. <br><br> Despite the frequent and wide-spread occurrence of overland flow, most of this water did not reach the channel directly, but was retained in small depressions in the catchment. From there, it reached the stream via macropores and tile drains. Manholes of the drainage system and storm drains for road and farmyard runoff acted as additional shortcuts to the stream. <br><br> Although fast flow processes such as overland and macropore flow reduce the influence of the herbicide's chemical properties on transport due to short travel times, sorption properties influenced the herbicide transfer from ponding overland flow to tile drains (macropore flow). However, no influence of sorption was observed during the mobilisation of the herbicides from soil to overland flow. These observations on the role of herbicide properties contradict previous findings to some degree. Furthermore, they demonstrate that valuable insight can be gained by making spatially detailed observations along the flow paths.http://www.hydrol-earth-syst-sci.net/16/1947/2012/hess-16-1947-2012.pdf
collection DOAJ
language English
format Article
sources DOAJ
author T. Doppler
L. Camenzuli
G. Hirzel
M. Krauss
A. Lück
C. Stamm
spellingShingle T. Doppler
L. Camenzuli
G. Hirzel
M. Krauss
A. Lück
C. Stamm
Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
Hydrology and Earth System Sciences
author_facet T. Doppler
L. Camenzuli
G. Hirzel
M. Krauss
A. Lück
C. Stamm
author_sort T. Doppler
title Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
title_short Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
title_full Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
title_fullStr Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
title_full_unstemmed Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
title_sort spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment
publisher Copernicus Publications
series Hydrology and Earth System Sciences
issn 1027-5606
1607-7938
publishDate 2012-07-01
description During rain events, herbicides can be transported from their point of application to surface waters, where they may harm aquatic organisms. Since the spatial pattern of mobilisation and transport is heterogeneous, the contributions of different fields to the herbicide load in the stream may vary considerably within one catchment. Therefore, the prediction of contributing areas could help to target mitigation measures efficiently to those locations where they reduce herbicide pollution the most. <br><br> Such spatial predictions require sufficient insight into the underlying transport processes. To improve the understanding of the process chain of herbicide mobilisation on the field and the subsequent transport through the catchment to the stream, we performed a controlled herbicide application on corn fields in a small agricultural catchment (ca. 1 km<sup>2</sup>) with intensive crop production in the Swiss Plateau. Water samples were collected at different locations in the catchment (overland flow, tile drains and open channel) for two months after application in 2009, with a high temporal resolution during rain events. We also analysed soil samples from the experimental fields and measured discharge, groundwater level, soil moisture and the occurrence of overland flow at several locations. Several rain events with varying intensities and magnitudes occurred during the study period. Overland flow and erosion were frequently observed in the entire catchment. Infiltration excess and saturation excess overland flow were both observed. However, the main herbicide loss event was dominated by infiltration excess. <br><br> Despite the frequent and wide-spread occurrence of overland flow, most of this water did not reach the channel directly, but was retained in small depressions in the catchment. From there, it reached the stream via macropores and tile drains. Manholes of the drainage system and storm drains for road and farmyard runoff acted as additional shortcuts to the stream. <br><br> Although fast flow processes such as overland and macropore flow reduce the influence of the herbicide's chemical properties on transport due to short travel times, sorption properties influenced the herbicide transfer from ponding overland flow to tile drains (macropore flow). However, no influence of sorption was observed during the mobilisation of the herbicides from soil to overland flow. These observations on the role of herbicide properties contradict previous findings to some degree. Furthermore, they demonstrate that valuable insight can be gained by making spatially detailed observations along the flow paths.
url http://www.hydrol-earth-syst-sci.net/16/1947/2012/hess-16-1947-2012.pdf
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