airSUM - Structure from Motion supported stock unearthing Method: Erosion modeling in Viennese vineyards

Author(s)
Robert Kanta, Sabine Kraushaar
Abstract

Soil mobilization is particularly high in viticulture. In Austria and especially in Vienna, soil protection measures are frequently implemented without the vintners knowing how high their erosion rates are and where in particular they can introduce additional measures. New, highly accurate and cost-efficient methods for erosion estimation are expected to improve this situation.

A relatively fast and low-cost option is the stock unearthing method (SUM), which provides a rough estimation of erosion based on biomarkers, but neglects the inter-row area. The improved stock unearthing method (ISUM) approach uses additional measurement points in this area and therefore delivers more accurate erosion volumes. Additionally, the use of Structure from Motion (SfM) DEMs provides respectable results on small plots in vineyards. This study combines and evaluates the unmanned aerial vehicle (UAV) SfM approach with the SUM. This results in a millimeter scale resolution and can be applied to larger study areas. The combination of SUM and SfM forms the new airSUM approach that provides a more accurate representation of the recent relief, rendering interpolation techniques unnecessary, reproducing visible runoff patterns, and enhancing erosion volume estimations. The use of airSUM enabled the detection of 32.7 ± 17.5 m3 (avg. of ∼ 84.1 ± 45 t ha−1 yr−1) soil erosion on an area of 700 m2 in a period of 8 years. Erosion hotspots could be modeled mainly in the wheel tracks with depths of up to 20.5 cm parallel to the slope and correspond excellently with field observations. This is partly due to the compaction of the surface, but mainly due to the preferential runoff and erosion. The identification of the erosion hot spots, runoff breaches and consequent runoff concentration allows the precise allocation of mitigation funds to reduce overland flow and erosion.

Organisation(s)
Department of Geography and Regional Research
Journal
CATENA
Volume
238
ISSN
0341-8162
DOI
https://doi.org/10.1016/j.catena.2024.107830
Publication date
04-2024
Peer reviewed
Yes
Austrian Fields of Science 2012
105404 Geomorphology
Keywords
ASJC Scopus subject areas
Earth-Surface Processes
Portal url
https://ucrisportal.univie.ac.at/en/publications/504c358e-3c5e-410e-a26d-fcaa398d28ba