Christian Jaedicke er førsteamanuensis (20 %) ved Institutt for geofag. Hans hovedstilling er ved Norges geotekniske institutt – NGI.
Faglige interesser
• Snøfysikk
• Snøskred
• Vær og naturfarer
• Risikohåndtering
Undervisning
Bakgrunn
Master i hydrologi fra Uppsala universitet, doktorgrad i meteorologi og snøfysikk fra UNIS / UiB, Har 20 års erfaring som forsker og skredekspert ved Norges Geotekniske Institutt. Gjesteforeleser ved Universitetssenteret på Svalbard AS (UNIS) og UiT - Norges arktiske universitet.
Publikasjoner
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Toft, Håvard B; Müller, Karsten; Hendrikx, Jordy; Jaedicke, Christian & Bühler, Yves
(2023).
Can big data and random forests improve avalanche runout estimation compared to simple linear regression?
Cold Regions Science and Technology.
ISSN 0165-232X.
211.
doi:
10.1016/j.coldregions.2023.103844.
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Accurate prediction of snow avalanche runout-distances in a deterministic sense remains a challenge due to the complexity of all the physical properties involved. Therefore, in many locations including Norway, it has been common practice to define the runout distance using the angle from the starting point to the end of the runout zone (α-angle). We use a large dataset of avalanche events from Switzerland (N = 18,737) acquired using optical satellites to calculate the α-angle for each avalanche. The α-angles in our dataset are normally distributed with a mean of 33° and a standard deviation of 6.1°, which provides additional understanding and insights into α-angle distribution. Using a feature importance module in the Random Forest framework, we found the most important topographic parameter for predicting α-angles to be the average gradient from the release area to the β-point. Despite the large dataset and a modern machine learning (ML) method, we found the simple linear regression model to yield a higher performance than our ML attempts. This means that it is better to use a simple linear regression in an operational context
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Harbitz, Carl Bonnevie; Kaiser, Gunilla; Glimsdal, Sylfest; Jaedicke, Christian; Vafeidis, Athanasios T. & Gothlich, Stephan E.
[Vis alle 9 forfattere av denne artikkelen]
(2016).
Coastal inundation multi-hazard analysis for a construction site in Malaysia.
International Journal of Risk Assessment and Management.
ISSN 1466-8297.
19(1/2),
s. 142–164.
doi:
10.1504/IJRAM.2016.074444.
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Establishment of new manufacturing sites in high-technology industries requires considerable investments. These investments need to be safeguarded against the impacts of natural hazards. The March 2011 Tohoku earthquake and tsunami highlighted the tremendous impacts of cascading hazards and emphasised the importance of hazard and risk assessment in the early stages of site selection. A screening study of coastal inundation due to multiple hazards was performed for a potential manufacturing plant at the Batu Kawan Industrial Park in Penang state, Malaysia. The analysis accounted for river floods, rainfall and flash floods, cyclones, tides, storm surges, sea-level rise, and tsunamis. Natural hazards not related to inundation, such as earthquakes and volcanoes, were also briefly evaluated. Where relevant data were available, the hazards were assessed quantitatively. Otherwise, they were assessed qualitatively. The effects of climate changes were discussed for temperature and rainfall and for sea-level rise. The proposed development site elevation of 2.60 m LSD (Land Survey Data Level; 30 cm above mean sea level) will probably be reached by both the 100-year flood and the 100-year combined tide and storm surge. With a well-engineered drainage system the flooding risk is low, but in this low-lying area coincidence with a storm surge or high tide will aggravate the flooding situation. Sea-level rise over the next 100 years for the region is assumed to be less than 0.55 m. The relative levels for the other hazards were found to be lower. There is obviously significant uncertainty associated with the estimated hazard at the return periods considered for design. A further comparison of the various hazard levels is not meaningful without considering also the consequences (i.e. the risk).
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Eira, Inger Marie Gaup; Jaedicke, Christian; Magga , Ole Henrik; Maynard, Nancy G; Vikhamar Schuler, Dagrun & Mathiesen , Svein Dish
(2013).
Traditional Sámi snow terminology and physical snow classification-Two ways of knowing.
Cold Regions Science and Technology.
ISSN 0165-232X.
85,
s. 117–130.
doi:
10.1016/j.coldregions.2012.09.004.
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Humans describe the natural environment on the basis of their local experience and their interactions with nature in terms of its relevance to their daily lives. These descriptions are incorporated into local languages and form a specialized terminology that is unique and specifically applicable to needs and practices. In Guovdageaidnu (Kautokeino), Northern Norway, snow covers the ground more than seven months of the year in winter. Therefore, snow defines most of the conditions which must be met to support Sámi reindeer pastoralism. Snow is a prerequisite for mobility, tracking, visibility and availability of pasture plants. The terms used to describe the snow on the ground include characteristics needed to communicate snow properties relevant to reindeer herding. In this paper, traditional Sámi snow terms and their definitions are compared with the scientific and physical classification of snow on the ground. The study of traditional Sámi snow terms was carried out through historical documentation and interviews with reindeer herders. The results showed that many traditional Sámi terms describe snow conditions as they are defined by the international standard; whereas, other traditional terms describe the physical processes leading up to certain snow conditions. A group of snow terms have as their main purpose the clear communication of the snow conditions for reindeer herding to serve as a tool for internal communication within the herding community. A major finding was the herders' snow knowledge which was more holistic and integrated into the ecology of the herd and pastures than the international standard snow terms. The richness and relevance to reindeer herders of Sámi traditional snow terms show a distinctly different view of snow compared to the purely physically-based international classifications. This paper gives an overview of the most important traditional terms, their definitions, and the physical processes associated with those terms. Application of the terms was compared to local weather conditions and the physical processes that created the different snow conditions. The analysis underscores the richness and accuracy of Sámi snow terminology. In addition, this study illustrates the importance of using traditional Sámi terminology when developing adaptation strategies to future climate change for Sámi reindeer herding emphasizing the importance of two ways of knowing.
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Nadim, Farrokh ; Jaedicke, Christian; Smebye, Helge & Kalsnes, Bjørn
(2013).
Assessment of Global Landslide Hazard Hotspots.
I Sassa, Kyoji; Rouhban, B.; Briceño, Salvano & McSaveney, Mauri (Red.),
Landslides: Global Risk Preparedness.
Springer.
ISSN 978-3-642-22086-9.
s. 59–71.
doi:
10.1007/978-3-642-22087-6_4.
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Jaedicke, Christian; Studeregger, Arnold; Monti, Fabiano; Dellavedova, Paola; Stoffel, Lukas & Azzarello, Sergio
[Vis alle 9 forfattere av denne artikkelen]
(2018).
Local avalanche warning in Europe.
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Avalanche exposed settlements, communication lines, ski resort operations, construction
sites, tourism and professional guiding are only few examples of activities in the mountains where an
active risk management requires local avalanche warnings. While regional avalanche warning is somehow
standardized by the rules and standards of the European Avalanche Warning Services (EAWS),
local avalanche warning services use a great variety of methods and tools both in the avalanche hazard
assessment and in the communication of the results. To gain an overview of the different practices in
Europe, the EAWS established a working group on local avalanche warning. The aim of the working
group is to establish a general definition of local and regional avalanche warning and to outline the state
of the art in Europe. A questionnaire in six languages was circulated in Europe to target local avalanche
services collecting more than 200 answers. The analysis of the survey shows a large variety between
local avalanche services, very different set-ups and applied methods for assessing and communicating
the local avalanche danger. Based on the results of the questionnaire, a first definition of local versus
regional avalanche warning assessment is presented.
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Hestnes, Erik & Jaedicke, Christian
(2018).
Global warning reduces the consequences of snow-related hazards.
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Most recent publications dealing with consequences related to avalanches and slushflows
state that their impact on mankind will increase. That is a highly debatable statement. Milder weather,
shorter winters, less snow and rise of snowline will mainly shift their potential problem away from populated
areas and infrastructure. It is unlikely that expansion of settlement and/or human activity into these
areas will outweigh the hazard reduction, mainly because other types of rapid mass movements will
increase in those areas and in general. Surely are part of the Arctic and parts of cold continental and
mountainous regions, subject to more snow and rain in winter due to the climatic change, and consequently
to larger and more frequent avalanches and slushflows. It is, however, unlikely that the consequences
to future activity in remote areas will exceed the reduction in consequences in more densely
populated areas. Global warming reduces the impact by snow-related hazards on mankind, but the
general hazard potential worldwide will most likely increase.
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Malnes, Eirik; Eckerstorfer, Markus; Larsen, yngvar; Frauenfelder, Regula; Jónsson, Árni & Jaedicke, Christian
[Vis alle 7 forfattere av denne artikkelen]
(2013).
Remote sensing of avalanches in northern Norway using Synthetic Aperture Radar.
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Jaedicke, Christian; Kalsnes, Bjørn & Solheim, Anders
(2022).
Sørpeskred. Egenskaper, historikk og sikringsløsninger.
SINTEF akademisk forlag.
ISSN 978-82-536-1772-5.
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Sørpeskred er en skredtype som gjør stor skade på infrastruktur og bebyggelse, men som er forsket på og dokumentert i mye mindre omfang enn for eksempel snøskred og flomskred. Sørpeskred oppstår når snødekket mettes med vann og mobiliseres som en flytende masse nedover skredløpet. Det pågår diskusjoner om varmere vær med flere innslag av intensivt regn på snødekket om vinteren kan gi opphav til flere sørpeskred. Det er derfor viktig å kunne identifisere mulige sørpeskredområder og vurdere teknikker og konsepter for sikring mot sørpeskred. Rapporten gir en kort innføring i sørpeskred som naturfare, og hvilke prosesser som fører til sørpeskred. På bakgrunn av denne informasjonen blir ulike sikringsløsninger presentert og diskutert.
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Førland, Eirik J.; Alfnes, Eli; Amundsen, Helene; Asval, Randi Pytte; Benestad, Rasmus & Debernard, Jens
[Vis alle 19 forfattere av denne artikkelen]
(2007).
Climate change and natural disasters in Norway. An assessment of possible future changes.
met.no report 6/2007.
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Publisert
9. jan. 2024 13:58
- Sist endret
16. feb. 2024 15:44