Barium

Jaritz, M.

doi:10.1002/9783527619634.ch23j

Cited by 3 publications

(2 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Removal of material (in red), no change (in yellow) and deposition of material (in green). The resulting patterns reflect the landslide dynamics: red colours dominate in the upper scarp section, and alternate with distinct zones of deposition and no change, which suggests slide-like movement, which is in accordance with observations by Jaritz and Marte (2008). Deposition predominates in the toe area of the slide, without interruptions of vast removal and no change areas, suggesting flow-type accumulations to prevail in the lower section of the landslide.…”

Section: Topographical Changesupporting

confidence: 73%

“…Major events occurred in the early 1927, 1935 and 1988, during which 2-3x10 6 m 3 was mobilized as rock-and soil slides, and debris flows (Jaritz and Marte, 2008). The geology is formed by a tilted sedimentary sequence of alternating Molasse marls, sandstone and conglomerates (Friebe, 2007), that, in combination with a highly fractured rock mass, promotes groundwater flow to potential failure planes, thus reactivating the landslide.…”

Section: Study Areamentioning

confidence: 99%

See 1 more Smart Citation

Object-based integrated landscape change analysis: synergy of multi-temporal LiDAR and very high resolution orthophotos

Kamps

Seijmonsbergen

Bouten

2016

GEOBIA 2016: Solutions and Synergies

View full text Add to dashboard Cite

ABSTRACT:Active landslides have three major effects on a landscape: 1. land cover change, 2. topographical change, and 3. above ground biomass change. Data derived from multi-temporal Light Detection and Ranging technology (LiDAR) is used in combination with multi-temporal orthophotos to quantify changes between 2006 and 2012, caused by a landslide near Doren in Austria. Data synergy is used to optimize accuracies of land cover change, and to improve results of topographical change analysis and aboveground biomass estimations. Topographical change is calculated using differencing of digital terrain models. The above ground biomass is quantified by applying a local-maximum algorithm for tree top detection, in combination with allometric equations. The land cover change classification accuracies were improved from 65% (using only LiDAR) and 76% (using only orthophotos) to 90% (using synergy) for 2006. A similar increase from respectively 64% and 75% to 91% was established for 2012. The results of the improved land cover classifications were used to optimize the topographical and above ground biomass change calculations. Fine-scale improvements of the classifications included forest edges and shadows, small open spots in the vegetation, and confusion between land cover classes. The enhanced accuracies of the land cover change analysis demonstrate the effectiveness and advantages of using synergy of LiDAR and orthophotos using OBIA. The method has great potential to be transferred to larger areas for use in monitoring, although data size calls for workflows to operate on cloud-based infrastructures that provide sufficient computational power.

show abstract

Section: Topographical Changesupporting

confidence: 73%

Section: Study Areamentioning

confidence: 99%

Object-based integrated landscape change analysis: synergy of multi-temporal LiDAR and very high resolution orthophotos

Kamps

Seijmonsbergen

Bouten

2016

GEOBIA 2016: Solutions and Synergies

View full text Add to dashboard Cite

show abstract

Bariumverbindungen, löslich [MAK Value Documentation in German language, 2010]

2012

The MAK‐Collection for Occupational Health and Safety

View full text Add to dashboard Cite

Veröffentlicht in der Reihe Gesundheitsschädliche Arbeitsstoffe , 48. Lieferung, Ausgabe 2010 Der Artikel enthält folgende Kapitel: Allgemeiner Wirkungscharakter Wirkungsmechanismus Toxikokinetik und Metabolismus Aufnahme, Verteilung, Ausscheidung Metabolismus Erfahrungen beim Menschen Einmalige Exposition Wiederholte Exposition Tierexperimentelle Befunde und In‐vitro‐Untersuchungen Akute Toxizität Subakute, subchronische und chronische Toxizität Wirkung auf Haut und Schleimhäute Allergene Wirkung Reproduktionstoxizität Genotoxizität Kanzerogenität Bewertung

show abstract

Major and trace element hydrogeochemistry of fractured igneous aquifers located in an active strike-slip fault zone: example of the Gezin district (Elazığ, Turkey) in the Eastern Anatolian Fault Zone

Okan

Yiğit

2022

Arab J Geosci

View full text Add to dashboard Cite

Barium

Cited by 3 publications

References 48 publications

Object-based integrated landscape change analysis: synergy of multi-temporal LiDAR and very high resolution orthophotos

Object-based integrated landscape change analysis: synergy of multi-temporal LiDAR and very high resolution orthophotos

Bariumverbindungen, löslich [MAK Value Documentation in German language, 2010]

Major and trace element hydrogeochemistry of fractured igneous aquifers located in an active strike-slip fault zone: example of the Gezin district (Elazığ, Turkey) in the Eastern Anatolian Fault Zone

Contact Info

Product

Resources

About