Magnitude and frequency of landsliding in a large New Zealand catchment

Knowledge of long-term average rates of erosion is necessary if factors affecting sediment yields from catchments are to be understood. Without such information, it is not possible to assess the potential influence of extreme storms, and, therefore, to evaluate the relative importance of various com...

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Published in:	Geomorphology (Amsterdam, Netherlands) Vol. 49; no. 1; pp. 71 - 88
Main Authors:	Reid, L.M, Page, M.J
Format:	Journal Article
Language:	English
Published:	Amsterdam Elsevier B.V 2003 Elsevier
Subjects:	Bgi / Prodig Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Geomorphology Land-use impact Landslides Magnitude–frequency Marine and continental quaternary Natural hazards: prediction, damages, etc New Zealand, North I Physical geography Sediment budget Sediment yield Slopes Surficial geology New Zealand North Island Sediment yield Landslides Sediment budget Magnitude–frequency Land-use impact impact statements rivers rainfall aerial photography Australasia streams reforestation vegetation frequency drainage basins sediment yield land use modern landslides erosion Magnitude-frequency landform evolution Impact Precipitation Reforestation Watershed Landslide Slope dynamics Rainstorm Land use
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Abstract	Knowledge of long-term average rates of erosion is necessary if factors affecting sediment yields from catchments are to be understood. Without such information, it is not possible to assess the potential influence of extreme storms, and, therefore, to evaluate the relative importance of various components of a sediment budget. A study of the sediment budget for the Waipaoa catchment, North Island, New Zealand, included evaluation of long-term rates of landsliding for six landslide-prone land systems in the catchment. The number of landslides per unit area generated by each of several storms was counted on sequential aerial photographs and correlated with the magnitude of the corresponding storm. The resulting relationships were combined with magnitude–frequency relationships derived for storms from 70- to 100-year rainfall records in the area to estimate a long-term magnitude–frequency relationship for landsliding for each land system. The long-term average values of the areal landslide frequency (number of slides per unit area per unit time) were then calculated from these relationships. The volumes of a sample of landslide scars were measured in the field, and the proportion of slides that deliver sediment to channels was determined from aerial photographs. These measurements then allowed calculation of the long-term average rate of sediment production to streams from landslides for different land systems and types of vegetation. Results suggest that shallow landslides currently contribute about 15±5% of the suspended sediment load in the Waipaoa River above the Kanakanaia gauging station, and that 75% of the sediment production from the landslides occurs during storms with recurrence intervals of less than 27 years. Reforestation of 6.3% (93 km 2) of the slide-prone lands in the catchment between 1990 and 1995 resulted in a calculated decrease in slide-derived sediment of 10%. Calculations suggest that reforestation of an additional 3% (66 km 2) of the catchment in areas with the most sensitive combinations of land system and storm regime could decrease the total sediment inputs from landsliding by about 20%.
AbstractList	Knowledge of long-term average rates of erosion is necessary if factors affecting sediment yields from catchments are to be understood. Without such information, it is not possible to assess the potential influence of extreme storms, and, therefore, to evaluate the relative importance of various components of a sediment budget. A study of the sediment budget for the Waipaoa catchment, North Island, New Zealand, included evaluation of long-term rates of landsliding for six landslide-prone land systems in the catchment. The number of landslides per unit area generated by each of several storms was counted on sequential aerial photographs and correlated with the magnitude of the corresponding storm. The resulting relationships were combined with magnitude–frequency relationships derived for storms from 70- to 100-year rainfall records in the area to estimate a long-term magnitude–frequency relationship for landsliding for each land system. The long-term average values of the areal landslide frequency (number of slides per unit area per unit time) were then calculated from these relationships. The volumes of a sample of landslide scars were measured in the field, and the proportion of slides that deliver sediment to channels was determined from aerial photographs. These measurements then allowed calculation of the long-term average rate of sediment production to streams from landslides for different land systems and types of vegetation. Results suggest that shallow landslides currently contribute about 15±5% of the suspended sediment load in the Waipaoa River above the Kanakanaia gauging station, and that 75% of the sediment production from the landslides occurs during storms with recurrence intervals of less than 27 years. Reforestation of 6.3% (93 km 2) of the slide-prone lands in the catchment between 1990 and 1995 resulted in a calculated decrease in slide-derived sediment of 10%. Calculations suggest that reforestation of an additional 3% (66 km 2) of the catchment in areas with the most sensitive combinations of land system and storm regime could decrease the total sediment inputs from landsliding by about 20%. Knowledge of long-term average rates of erosion is necessary if factors affecting sediment yields from catchments are to be understood. Without such information, it is not possible to assess the potential influence of extreme storms, and, therefore, to evaluate the relative importance of various components of a sediment budget. A study of the sediment budget for the Waipaoa catchment, North Island, New Zealand, included evaluation of long-term rates of landsliding for six landslide-prone land systems in the catchment. The number of landslides per unit area generated by each of several storms was counted on sequential aerial photographs and correlated with the magnitude of the corresponding storm. The resulting relationships were combined with magnitude-frequency relationships derived for storms from 70- to 100-year rainfall records in the area to estimate a long-term magnitude-frequency relationship for landsliding for each land system. The long-term average values of the areal landslide frequency (number of slides per unit area per unit time) were then calculated from these relationships. The volumes of a sample of landslide scars were measured in the field, and the proportion of slides that deliver sediment to channels was determined from aerial photographs. These measurements then allowed calculation of the long-term average rate of sediment production to streams from landslides for different land systems and types of vegetation. Results suggest that shallow landslides currently contribute about 15 plus or minus 5% of the suspended sediment load in the Waipaoa River above the Kanakanaia gauging station, and that 75% of the sediment production from the landslides occurs during storms with recurrence intervals of less than 27 years. Reforestation of 6.3% (93 km super(2)) of the slide-prone lands in the catchment between 1990 and 1995 resulted in a calculated decrease in slide-derived sediment of 10%. Calculations suggest that reforestation of an additional 3% (66 km super(2)) of the catchment in areas with the most sensitive combinations of land system and storm regime could decrease the total sediment inputs from landsliding by about 20%.
Author	Reid, L.M Page, M.J
Author_xml	– sequence: 1 givenname: L.M surname: Reid fullname: Reid, L.M email: lmr7001@axe.humboldt.edu organization: USDA Forest Service, Pacific Southwest Research Station, Arcata, CA, USA – sequence: 2 givenname: M.J surname: Page fullname: Page, M.J email: pagem@landcare.cri.nz organization: Landcare Research, Private Bag 11-052, Palmerston North, New Zealand
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Keywords	Sediment yield Landslides Sediment budget Magnitude–frequency Land-use impact impact statements rivers rainfall aerial photography Australasia streams reforestation vegetation frequency drainage basins sediment yield land use modern landslides erosion Magnitude-frequency landform evolution Impact Precipitation Reforestation Watershed Landslide Slope dynamics Rainstorm Land use
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Snippet	Knowledge of long-term average rates of erosion is necessary if factors affecting sediment yields from catchments are to be understood. Without such...
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SubjectTerms	Bgi / Prodig Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Geomorphology Land-use impact Landslides Magnitude–frequency Marine and continental quaternary Natural hazards: prediction, damages, etc New Zealand, North I Physical geography Sediment budget Sediment yield Slopes Surficial geology
Title	Magnitude and frequency of landsliding in a large New Zealand catchment
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