Types and Distribution of Quaternary Deposits Originating From Carbonate Rock Slopes in the Vinodol Valley, Croatia – New Insight Using Airborne Lidar Data

Jagodnik, Petra; Gazibara, Sanja Bernat; Jagodnik, Vedran; Arbanas, Snježana Mihalić

doi:10.17794/rgn.2020.4.6

Cited by 10 publications

(5 citation statements)

References 22 publications

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“…The rock fragment in the soil is a product of weathering and disintegration of rocks; rock fragments may be produced in chemical weathering and root penetration processes that transform rocks into soil [ 53 ]; tectonic movement [ 54 ]; physical weathering, landslides, and debris flows [ 55 ]; and water selective erosion of soil fine particles [ 37 ].…”

Section: Discussionmentioning

confidence: 99%

Effects of Content of Soil Rock Fragments on Soil Erodibility in China

Yang

Zhang

Huang

et al. 2022

IJERPH

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Soil erosion is serious in China—the soil in plateau and mountain areas contain a large of rock fragments, and their content and distribution have an important influence on soil erosion. However, there are still no complete results for calculating soil erodibility factor (K) that have corrected rock fragments in China. In this paper, the data available on rock fragments in the soil profile (RFP); rock fragments on the surface of the soil (RFS); and environmental factors such as elevation, terrain relief, slope, vegetation coverage (characterised by normalised difference vegetation index, NDVI), land use, precipitation, temperature, and soil type were used to explore the effects of content of soil rock fragments on calculating of K in China. The correlation analysis, typical sampling area analysis, and redundancy analysis were applied to analyse the effects of content of soil rock fragments on calculating of K and its relationship with environment factors. The results showed that (1) The rock fragments in the soil profile (RFP) increased K. The rock fragments on the surface (RFS) of the soil reduced K. The effect of both RFP and RFS reduced K. (2) The effect of rock fragments on K was most affected by elevation, followed by terrain relief, NDVI, slope, soil type, temperature, and precipitation, but had little correlation with land use. (3) The result of redundancy analysis showed elevation to be the main predominant factor of the effect of rock fragments on K. This study fully considered the effect of rock fragments on calculating of K and carried out a quantitative analysis of the factors affecting the effect of rock fragments on K, so as to provide necessary scientific basis for estimating K and evaluating soil erosion status in China more accurately.

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Section: Discussionmentioning

confidence: 99%

Effects of Content of Soil Rock Fragments on Soil Erodibility in China

Yang

Zhang

Huang

et al. 2022

IJERPH

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“…Moreover, in many landslide susceptibility assessments, stratigraphic units presented in geological maps are aggregated and used to describe rock characteristics [66], that is, forming engineering geological formations. Therefore, engineering geological formations were additionally mapped using LiDAR DTM derivatives to modify the geological contact, according to a suggestion by [67,68]. The suggested methodology demonstrated efficacy in forested areas and resulted in an engineering geological map.…”

Section: Deriving Input Data Layers For Landslide Conditioning Factor...mentioning

confidence: 99%

The Use of High-Resolution Remote Sensing Data in Preparation of Input Data for Large-Scale Landslide Hazard Assessments

Sinčić

Gazibara

Krkač

et al. 2022

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The objective of the study is to show that landslide conditioning factors derived from different source data give significantly different relative influences on the weight factors derived with statistical models for landslide susceptibility modelling and risk analysis. The analysis of the input data for large-scale landslide hazard assessment was performed on a study area (20.2 km2) in Hrvatsko Zagorje (Croatia, Europe), an area highly susceptible to sliding with limited geoinformation data, including landslide data. The main advantage of remote sensing technique (i.e., LiDAR, Light Detection and Ranging) data and orthophoto images is that they enable 3D surface models with high precision and spatial resolution that can be used for deriving all input data needed for landslide hazard assessment. The visual interpretation of LiDAR DTM (Digital Terrain Model) morphometric derivatives resulted in a detailed and complete landslide inventory map, which consists of 912 identified and mapped landslides, ranging in size from 3.3 to 13,779 m2. This inventory was used for quantitative analysis of 16 input data layers from 11 different sources to analyse landslide presence in factor classes and thus comparing landslide conditioning factors from available small-scale data with high-resolution LiDAR data and orthophoto images, pointing out the negative influence of small-scale source data. Therefore, it can be concluded that small-scale landslide factor maps derived from publicly available sources should not be used for large-scale analyses because they will result in incorrect assumptions about conditioning factors compared with LiDAR DTM derivative factor maps. Furthermore, high-resolution LiDAR DTM and orthophoto images are optimal input data because they enable derivation of the most commonly used landslide conditioning factors for susceptibility modelling and detailed datasets about elements at risk (i.e., buildings and traffic infrastructure data layers).

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“…Airborne LiDAR is valuable for road design on slopes and in hilly areas. In their study, P. Jagodnik et al [81] discovered that the type and shape of soil geological engineering properties can be integrated to detect gravitational mass movement and rockfall occurrence from mapping using a visual interpretation from LiDAR. In comparison, R. Pellicani et al [82] and D. Gadone et al [83] identified characteristics of soil failure signals and hence detected soil instability by mapping from LiDAR.…”

Section: Designing Roads On Slopse and In Hilly Areasmentioning

confidence: 99%

Perceived Usefulness of Airborne LiDAR Technology in Road Design and Management: A Review

et al. 2021

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Airborne light detection and ranging (LiDAR) surveying technology plays an important role in road design, and it is increasingly implemented in the design stage. The ability of LiDAR as a remote sensing technology to be used in non-accessible places (i.e., hilly terrain, steep slope) makes it a powerful tool, and it has the potential to provide benefits that simplify existing design processes for designers and practitioners. This paper reviews the application of airborne LiDAR in road design and factors including items from the perceived usefulness of technology. The context of the future direction of LiDAR technology is highlighted in civil engineering road design, roadway inspection and as-built documentation. The implementation of this technology is expected to assist the end-users in developing more manageable planning for road construction and thus to ensure the usage of LiDAR technology is enhanced from time to time, especially in Malaysia.

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Types and Distribution of Quaternary Deposits Originating From Carbonate Rock Slopes in the Vinodol Valley, Croatia – New Insight Using Airborne Lidar Data

Cited by 10 publications

References 22 publications

Effects of Content of Soil Rock Fragments on Soil Erodibility in China

Effects of Content of Soil Rock Fragments on Soil Erodibility in China

The Use of High-Resolution Remote Sensing Data in Preparation of Input Data for Large-Scale Landslide Hazard Assessments

Perceived Usefulness of Airborne LiDAR Technology in Road Design and Management: A Review

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