Getting to the root causes of soil erosion using high-res remote sensing

Soil erosion processes are notably active in New Zealand: our steep slopes, generally weak sedimentary rocks, and high annual rainfall totals including frequent large rainfall events, underscored by a history of vegetation clearance for agriculture, mean that around 192 million tonnes of soil on agricultural land are lost to erosion every year.

Large rainfall events in New Zealand commonly trigger hundreds to thousands of shallow landslides, especially in more marginal pastoral hill country, causing significant damage to land and infrastructure as well as contributing large quantities of sediment to aquatic environments. These landslide inventories are used to determine which land is most susceptible to shallow landsliding to support targeting of erosion control measures.

Within the Ministry of Business, Innovation and Employment research programme Smarter Targeting of Erosion Control (STEC), scientists at Manaaki Whenua have been using new remote sensing techniques to fill these data gaps, mapping over 100,000 landside scars from high-resolution satellite or aerial imagery across the North Island.

The latest mapping uses very high resolution (0.5 m) satellite imagery from storm events in the Horizons (2018 storm), Waikato (2017), Auckland (2017), Hawke’s Bay (2011), and Greater Wellington (2005–2010) regions, complementing previous landslide mapping in the Horizons and Northland regions over many decades.

These landslide inventories form the basis for machine learning models that predict where landslides may occur in future based on landscape factors such as topography, land cover and rock type. Regional-scale modelling of shallow landslide susceptibility for Hawke’s Bay and Horizons is now complete.

As part of his PhD work within the STEC programme, Manaaki Whenua’s Raphael Spiekermann used semi-automated mapping with high-resolution aerial imagery and slope information from Light Detection and Ranging (LiDAR) data to record some 40,000 shallow landslides in the Wairarapa. Use of LiDAR-based data significantly improved the ability to correctly identify landslide versus non-landslide locations.

The current acquisition of LiDAR elevation data across much of New Zealand will enable improved targeted erosion control with higher-resolution landslide susceptibility modelling.

In linked work published recently in the Journal of Environmental Management, Manaaki Whenua’s Mr Spiekermann, Dr Hugh Smith, and colleagues at Massey University have used LiDAR to delineate individual tree crowns and classify these into one of four dominant tree classes – poplar/willow, eucalypts, kānuka and conifers – on two pastoral hill country farms near Masterton. This is the first classification of individual trees at landscape scale in New Zealand using freely accessible data, which achieved an overall accuracy of 92.6%.

Tree roots bind soil and help mitigate soil erosion, but some species are better at it than others. Poplars and willows are commonly used in pastoral hill country to mitigate landslide erosion on hillslopes.

By identifying the locations and types of trees present in the landscape, the researchers can estimate the reduction in future landslide erosion achieved. Additionally, the models can be used to predict what effect future planting would have on erosion rates.

Source:  Manaaki Whenua

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