Increased forest cover and limits on clear-felling could substantially reduce landslide occurrence in Tasman, New Zealand.-Reference-Cited by-同舟云学术

Increased forest cover and limits on clear-felling could substantially reduce landslide occurrence in Tasman, New Zealand.

Published:2020-11-27 Issue: Volume:50 Page:
ISSN:1179-5395
Container-title:New Zealand Journal of Forestry Science
language:
Short-container-title:NZJFS

Author:

Griffiths James W.,Lukens Claire E.,May Roger

Abstract

Background: Landslides can cause substantial environmental, social and economic impacts. Under future climate scenarios the frequency of landslide-triggering events is likely to increase. Land managers, therefore, urgently require reliable high-resolution landslide susceptibility models to inform effective landslide risk assessment and management. Methods: In this study, gridded rainfall, topography, lithology and land cover surfaces were used to develop a high-resolution (10 m x 10 m) spatial model of landslides that occurred in Tasman, New Zealand during a period when ex-tropical Cyclone Gita brought heavy rain to the region. We separately modelled landslides in the same dataset as a function of the erosion susceptibility classification (ESC) data layer used to determine the level of control applied to forestry activities under the National Environmental Standards for Plantation Forestry (NES-PF). Models were fit using boosted regression trees. Results: Our preferred model had excellent predictive power (AUROC = 0.93) and included the parameters: aspect, elevation, mid-slope position, land cover, rainfall, slope, and a descriptive seven-class topographical index. Land cover, elevation, rainfall, slope and aspect were the strongest predictors of landslides with the land cover classes ‘seral native vegetation’ and clear-felled plantation forest’ predicting higher probabilities of landslides and tall native forest and closed canopy plantation forest predicting lower probabilities of landslides. The ESC was a poor predictor of landslides in the study area (AUROC = 0.65). Conclusions: Our study shows that accurate, high-resolution landslide probability surfaces can be developed from landslide distribution, land cover, topographical and rainfall data. We also show that landslide occurrence in the Tasman region could be substantially reduced by increasing the extent of permanent forest cover and by limiting clear-fell harvest of plantation forests on landslide-prone slopes. The ESC framework that underpins the NES-PF was a poor predictor of landslides and, therefore, an unreliable basis for regulating forestry activities in the Tasman, New Zealand.

Publisher

Scion

Subject

General Medicine

Reference82 articles.

1. Amishev, D., Basher, L., Phillips, C.J., Hill, S., Marden, M., Bloomberg, M., & Moore, J.R. (2014). New forest management approaches to steep hills. MPI Technical Paper (2014/39). Ministry for Primary Industries, Wellington, New Zealand. 22 p. Retrieved from URL https://www.researchgate.net/publication/284367466_New_forest_management_approaches_to_steep_hills.

2. Barrell, D.J.A., & Smith Lyttle, B. (2015). Identification of areas possibly susceptible to landsliding in the coastal sector of the Dunedin City district. GNS Science Consultancy Report (2015/34). Institute of Geological & Nuclear Sciences Limited, Lower Hutt, New Zealand. 38 p. Retrieved from URL https://www.orc.govt.nz/media/2104/technical-attachment-1b-gns-science_dunedin-landslide_susceptibility.pdf.

3. Basher, L., Harrison, D., Phillips, C., & Marden, M. (2015a). What do we need for a risk management approach to steepland plantation forests in erodible terrain? New Zealand Journal of Forestry, 60(2), 7-10.

4. Basher, L., Lynn, I., & Page, M. (2015b). Update of the Erosion Susceptibility Classification (ESC) for the proposed National Environmental Standard for Plantation Forestry-Revision of the ESC. MPI Technical Paper (2015/13). Landcare Research New Zealand Ltd, Nelson, New Zealand. 17 p . Retrieved from URL https://www.mpi.govt.nz/dmsdocument/7998/direct.

5. Basher, L.R. (2013). Erosion processes and their control in New Zealand. In J. Dymond (Ed.), Ecosystem services in New Zealand-conditions and trends (pp. 363-374): Manaaki Whenua Press.

Cited by 7 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Exploring the post-harvest ‘window of vulnerability’ to landslides in New Zealand steepland plantation forests;Ecological Engineering;2024-09

2. Land Use and Land Cover as a Conditioning Factor in Landslide Susceptibility: A Literature Review;Advances in Natural and Technological Hazards Research;2024

3. Tree root research in New Zealand: a retrospective 'review' with emphasis on soil reinforcement for soil conservation and wind firmness;NZ J FORESTRY SCI;2023

4. Tree root research in New Zealand: a retrospective ‘review’ with emphasis on soil reinforcement for soil conservation and wind firmness;New Zealand Journal of Forestry Science;2023-05-24

5. A Case Study on the Energy Capacity of a Flexible Rockfall Barrier in Resisting Landslide Debris;Forests;2022-08-30