Articles | Volume 14, issue 6
https://doi.org/10.5194/hess-14-1021-2010
© Author(s) 2010. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/hess-14-1021-2010
© Author(s) 2010. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
24 Jun 2010
Runoff generating processes in adjacent tussock grassland and pine plantation catchments as indicated by mean transit time estimation using tritium
M. K. Stewart
Aquifer Dynamics & GNS Science, P.O. Box 30 368, Lower Hutt 5040, New Zealand
B. D. Fahey
Landcare Research, P.O. Box 40, Lincoln 7640, New Zealand
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Cited
18 citations as recorded by crossref.
- An Analysis of the Effects of Large Wildfires on the Hydrology of Three Small Catchments in Central Chile Using Tritium-Based Measurements and Hydrological Metrics F. Balocchi et al. 10.3390/hydrology9030045
- Hydrological functioning of forested catchments, Central Himalayan Region, India N. Qazi 10.1186/s40663-020-00275-8
- Estimating retention potential of headwater catchment using Tritium time series H. Hofmann et al. 10.1016/j.jhydrol.2018.04.030
- The ‘hidden streamflow’ challenge in catchment hydrology: a call to action for stream water transit time analysis M. Stewart et al. 10.1002/hyp.9262
- A French hydrologist’s research for sustainable agriculture R. Dupas et al. 10.1016/j.jhydrol.2022.128907
- Seasonal soil moisture patterns: Controlling transit time distributions in a forested headwater catchment M. Stockinger et al. 10.1002/2013WR014815
- Soil aggregation and soil fraction associated carbon under different vegetation types in a complex landscape X. Li et al. 10.1071/SR18193
- The Glendhu experimental catchment study, upland east Otago, New Zealand: 34 years of hydrological observations on the afforestation of tussock grasslands B. Fahey & J. Payne 10.1002/hyp.11234
- Quantifying the impacts of vegetation changes on catchment storage‐discharge dynamics using paired‐catchment data L. Cheng et al. 10.1002/2017WR020600
- Dating of streamwater using tritium in a post nuclear bomb pulse world: continuous variation of mean transit time with streamflow U. Morgenstern et al. 10.5194/hess-14-2289-2010
- Importance of tritium‐based transit times in hydrological systems M. Stewart & U. Morgenstern 10.1002/wat2.1134
- Conversion from tussock grassland to pine forest: effect on soil phytoliths and phytolith-occluded carbon (PhytOC) X. Li et al. 10.1007/s11368-018-2160-7
- Promising new baseflow separation and recession analysis methods applied to streamflow at Glendhu Catchment, New Zealand M. Stewart 10.5194/hess-19-2587-2015
- Mean transit times in headwater catchments: insights from the Otway Ranges, Australia W. Howcroft et al. 10.5194/hess-22-635-2018
- Streamflow response of a small forested catchment on different timescales A. Zabaleta & I. Antigüedad 10.5194/hess-17-211-2013
- A GLUE‐based uncertainty assessment framework for tritium‐inferred transit time estimations under baseflow conditions F. Gallart et al. 10.1002/hyp.10991
- Evaluation of SWAT models performance to simulate streamflow spatial origin. The case of a small forested watershed M. Meaurio et al. 10.1016/j.jhydrol.2015.03.050
- Hydrological field data from a modeller's perspective: Part 1. Diagnostic tests for model structure H. McMillan et al. 10.1002/hyp.7841
17 citations as recorded by crossref.
- An Analysis of the Effects of Large Wildfires on the Hydrology of Three Small Catchments in Central Chile Using Tritium-Based Measurements and Hydrological Metrics F. Balocchi et al. 10.3390/hydrology9030045
- Hydrological functioning of forested catchments, Central Himalayan Region, India N. Qazi 10.1186/s40663-020-00275-8
- Estimating retention potential of headwater catchment using Tritium time series H. Hofmann et al. 10.1016/j.jhydrol.2018.04.030
- The ‘hidden streamflow’ challenge in catchment hydrology: a call to action for stream water transit time analysis M. Stewart et al. 10.1002/hyp.9262
- A French hydrologist’s research for sustainable agriculture R. Dupas et al. 10.1016/j.jhydrol.2022.128907
- Seasonal soil moisture patterns: Controlling transit time distributions in a forested headwater catchment M. Stockinger et al. 10.1002/2013WR014815
- Soil aggregation and soil fraction associated carbon under different vegetation types in a complex landscape X. Li et al. 10.1071/SR18193
- The Glendhu experimental catchment study, upland east Otago, New Zealand: 34 years of hydrological observations on the afforestation of tussock grasslands B. Fahey & J. Payne 10.1002/hyp.11234
- Quantifying the impacts of vegetation changes on catchment storage‐discharge dynamics using paired‐catchment data L. Cheng et al. 10.1002/2017WR020600
- Dating of streamwater using tritium in a post nuclear bomb pulse world: continuous variation of mean transit time with streamflow U. Morgenstern et al. 10.5194/hess-14-2289-2010
- Importance of tritium‐based transit times in hydrological systems M. Stewart & U. Morgenstern 10.1002/wat2.1134
- Conversion from tussock grassland to pine forest: effect on soil phytoliths and phytolith-occluded carbon (PhytOC) X. Li et al. 10.1007/s11368-018-2160-7
- Promising new baseflow separation and recession analysis methods applied to streamflow at Glendhu Catchment, New Zealand M. Stewart 10.5194/hess-19-2587-2015
- Mean transit times in headwater catchments: insights from the Otway Ranges, Australia W. Howcroft et al. 10.5194/hess-22-635-2018
- Streamflow response of a small forested catchment on different timescales A. Zabaleta & I. Antigüedad 10.5194/hess-17-211-2013
- A GLUE‐based uncertainty assessment framework for tritium‐inferred transit time estimations under baseflow conditions F. Gallart et al. 10.1002/hyp.10991
- Evaluation of SWAT models performance to simulate streamflow spatial origin. The case of a small forested watershed M. Meaurio et al. 10.1016/j.jhydrol.2015.03.050
1 citations as recorded by crossref.
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