• About
    • Research Program
    • PhD Projects - First cohort
    • PhD Projects - Second cohort
    • PhD Projects - Third cohort
    • Postdoc projects
    • Job opportunities
    • News articles about NatRiskChange
  • People
    • Team Leadership
    • NatRiskChange Members
    • Associated Members
    • Principal Investigators
    • Associated Scientists and Supervisors
    • Visiting Scientists
    • Alumni and Alumnae
    • Former Staff
    • Institutions & Partners
  • Activities
    • Lecture Series
    • Publications
    • Awards for NatRiskChange members
  • Qualification program
    • Modules & Courses
    • Softskill courses
    • Task Force Eifel Floods 2021
    • Task Force Wildfires in Australia 2019/2020
    • Task Force Avalanche 2019
    • Task Force Pluvial Fooding in Berlin 2017 and 2019
    • Task Force Randi Forest Land degradation 2017
    • Task Force Kumamoto Earthquake 2016
    • Task Force Braunsbach Flash flood 2016
  •    Home
  • Emergency
  • Uni A-Z
  •    German Sign Language
  •    Easy-to-read
  •    Sitemap
  • Close
  • Close
  • PhD Projects - First cohort
  • PhD Projects - First cohort
  • PhD Projects - First cohort
  • PhD Projects - First cohort
  • Close
  • Studying
    • Studying at the UP
    • What to Study
    • Application and Enrollment
    • Studying
    • Advising and Services
    • Dates and Deadlines
  • Research
    • Research at the UP
    • Profiles, Programs and Projects
    • Research Funding
    • Research Data
    • Cooperations and Partnerships
    • Young Academics
  • University
    • Explore the UP
    • Organization
    • Corporate Community Relations
    • Campus International
    • Förderinstrumente
    • Working at the UP
  • Online Services
    • Intranet
    • BI.UP
    • Mail.UP (Webmailbox)
    • PULS
    • Moodle
    • University Library
    • Evaluation Portal (PEP)
    • Internship Portal
    • ZIM – Center for IT and Media
  • Close
 
Logo DFG - Research Training Group
DFG - Research Training Group "NatRiskChange"
  • English
    •  
    •  
    •  
    •  
  • Emergency
  • Uni A-Z
  • Studying
    • Studying at the UP
    • What to Study
    • Application and Enrollment
    • Studying
    • Advising and Services
    • Dates and Deadlines
  • Research
    • Research at the UP
    • Profiles, Programs and Projects
    • Research Funding
    • Research Data
    • Cooperations and Partnerships
    • Young Academics
  • University
    • Explore the UP
    • Organization
    • Corporate Community Relations
    • Campus International
    • Förderinstrumente
    • Working at the UP
  • Online Services
    • Intranet
    • BI.UP
    • Mail.UP (Webmailbox)
    • PULS
    • Moodle
    • University Library
    • Evaluation Portal (PEP)
    • Internship Portal
    • ZIM – Center for IT and Media
Logo DFG - Research Training Group
DFG - Research Training Group "NatRiskChange"
  • About
    • Research Program
    • PhD Projects - First cohort
    • PhD Projects - Second cohort
    • PhD Projects - Third cohort
    • Postdoc projects
    • Job opportunities
    • News articles about NatRiskChange
  • People
    • Team Leadership
    • NatRiskChange Members
    • Associated Members
    • Principal Investigators
    • Associated Scientists and Supervisors
    • Visiting Scientists
    • Alumni and Alumnae
    • Former Staff
    • Institutions & Partners
  • Activities
    • Lecture Series
    • Publications
    • Awards for NatRiskChange members
  • Qualification program
    • Modules & Courses
    • Softskill courses
    • Task Force Eifel Floods 2021
    • Task Force Wildfires in Australia 2019/2020
    • Task Force Avalanche 2019
    • Task Force Pluvial Fooding in Berlin 2017 and 2019
    • Task Force Randi Forest Land degradation 2017
    • Task Force Kumamoto Earthquake 2016
    • Task Force Braunsbach Flash flood 2016
Close
  • DFG - Research Training Group "NatRiskChange"
  • About
  • PhD Projects - First cohort
About
  • Research Program
    • Workpackage I
    • Workpackage Q
    • Workpackage P
  • PhD Projects - First cohort
    • Project I1: Natural hazards in a changing climate – What causes the variability?
    • Project I2: Study of transient periods in natural and in induced seismicity
    • Project I3: Towards non-ergodic, time dependent, ground-motion models
    • Project I4: Changing Risk from Glacial Lake Outburst Floods
    • Project Q1: Regional flood hazard changes from a space-time recurrence perspective
    • Project Q2: Complex network analysis based on event synchronization of natural hazards
    • Project Q3: Understanding drivers of changing susceptibility of flood-prone residents
    • Project Q4: Analysing changes in micro-scale flood related vulnerability of companies
    • Project P1: Landslide Prediction under Changing Boundary Conditions
    • Project P2: Transient merging of two Rhine flow regimes from climate change
    • Project P3: Spatio-temporal response of extreme precipitation to climate change and decadal climate variability
    • Project P4: Assessment of early-warning signals and tipping points of sudden ecosystem shifts causing rapid land degradation in drylands
  • PhD Projects - Second cohort
    • Project I5: Changes in European windstorm characteristics
    • Project I6: Detecting time-depending forcing of seismicity
    • Project I7: Time dependent monitoring of active faults and landslides properties: developing new data processing approaches based on music information retrieval (MIR) strategies
    • Project I8: Learning landslide triggers from complex networks
    • Project I9: Analysis of concurrent climate extremes driving land degradation and recovery in the Mediterranean regions
    • Project Q5: Recurrence analysis of event-like hydrological data with uncertainties
    • Project Q6: Investigation of interrelationships between floods and climate variability using multi-layer complex networks
    • Project Q7: Changes of vulnerability in respect to flood induced business interruption
    • Project Q8: Evolving Risks from Himalayan Glacial Outburst Floods
    • Project P5: Altered hydrological and sediment event dynamics in high alpine areas
    • Project P6: Linking occurrence probabilities to large scale flow
    • Project P7: Adaptation to flood risk - from quantification to prediction
  • PhD Projects - Third cohort
    • Project I10: Point process modelling of induced seismicity
    • Project I11: Propagation of subglacial floods
    • Project I12: Spatiotemporal signature of extreme rainfall under climate change
    • Project I13: Multiple flood experience and social resilience
    • Project Q9: The effect of meteorological hazards on dynamics of vulnerability
    • Project Q10: Impact of extreme events on topological robustness of interdependent infrastructure networks
    • Project Q11: Quantifying the contributions of hazard, exposure and vulnerability changes to flood damage trends
    • Project Q12: Contribution of wind and topography on wildfire hazard
    • Project Q13: Quantifying changes in exposure, vulnerabilities and risks of pluvial and fluvial floods
    • Project P8: Changing water and energy regimes for key alpine surface conditions
    • Project P9: Introducing big-data and crowdsourcing to seismic hazard assessment
    • Project P10: Predicting large landslides in a changing climate
    • Project X1: Analysis of the extreme flood event of July 2021
  • Postdoc projects
    • Machine learning applications
    • Multi-hazard and risk assessment
  • Job opportunities
  • News articles about NatRiskChange
  • Research Program
    • Workpackage I
    • Workpackage Q
    • Workpackage P
  • PhD Projects - First cohort
    • Project I1: Natural hazards in a changing climate – What causes the variability?
    • Project I2: Study of transient periods in natural and in induced seismicity
    • Project I3: Towards non-ergodic, time dependent, ground-motion models
    • Project I4: Changing Risk from Glacial Lake Outburst Floods
    • Project Q1: Regional flood hazard changes from a space-time recurrence perspective
    • Project Q2: Complex network analysis based on event synchronization of natural hazards
    • Project Q3: Understanding drivers of changing susceptibility of flood-prone residents
    • Project Q4: Analysing changes in micro-scale flood related vulnerability of companies
    • Project P1: Landslide Prediction under Changing Boundary Conditions
    • Project P2: Transient merging of two Rhine flow regimes from climate change
    • Project P3: Spatio-temporal response of extreme precipitation to climate change and decadal climate variability
    • Project P4: Assessment of early-warning signals and tipping points of sudden ecosystem shifts causing rapid land degradation in drylands
  • PhD Projects - Second cohort
    • Project I5: Changes in European windstorm characteristics
    • Project I6: Detecting time-depending forcing of seismicity
    • Project I7: Time dependent monitoring of active faults and landslides properties: developing new data processing approaches based on music information retrieval (MIR) strategies
    • Project I8: Learning landslide triggers from complex networks
    • Project I9: Analysis of concurrent climate extremes driving land degradation and recovery in the Mediterranean regions
    • Project Q5: Recurrence analysis of event-like hydrological data with uncertainties
    • Project Q6: Investigation of interrelationships between floods and climate variability using multi-layer complex networks
    • Project Q7: Changes of vulnerability in respect to flood induced business interruption
    • Project Q8: Evolving Risks from Himalayan Glacial Outburst Floods
    • Project P5: Altered hydrological and sediment event dynamics in high alpine areas
    • Project P6: Linking occurrence probabilities to large scale flow
    • Project P7: Adaptation to flood risk - from quantification to prediction
  • PhD Projects - Third cohort
    • Project I10: Point process modelling of induced seismicity
    • Project I11: Propagation of subglacial floods
    • Project I12: Spatiotemporal signature of extreme rainfall under climate change
    • Project I13: Multiple flood experience and social resilience
    • Project Q9: The effect of meteorological hazards on dynamics of vulnerability
    • Project Q10: Impact of extreme events on topological robustness of interdependent infrastructure networks
    • Project Q11: Quantifying the contributions of hazard, exposure and vulnerability changes to flood damage trends
    • Project Q12: Contribution of wind and topography on wildfire hazard
    • Project Q13: Quantifying changes in exposure, vulnerabilities and risks of pluvial and fluvial floods
    • Project P8: Changing water and energy regimes for key alpine surface conditions
    • Project P9: Introducing big-data and crowdsourcing to seismic hazard assessment
    • Project P10: Predicting large landslides in a changing climate
    • Project X1: Analysis of the extreme flood event of July 2021
  • Postdoc projects
    • Machine learning applications
    • Multi-hazard and risk assessment
  • Job opportunities
  • News articles about NatRiskChange

PhD projects of the first cohort (2015-2018)

Project I1: Natural hazards in a changing climate – What causes the variability?

Thomas Moran, FU Berlin

Project I2: Study of transient periods in natural and in induced seismicity

Bernhard Fiedler, Universität Potsdam

Project I3: Towards non-ergodic, time dependent, ground-motion models

Sebastian Specht, Universität Potsdam

Project I4: Changing Risk from Glacial Lake Outburst Floods

Georg Veh, Universität Potsdam

Project Q1: Regional flood hazard changes from a space-time recurrence perspective

Dadiyorto Wendi, Universität Potsdam

Project Q2: Complex network analysis based on event synchronization of natural hazards

Ankit Argawal, Universität Potsdam

Project Q3: Understanding drivers of changing susceptibility of flood-prone residents

Jonas Laudan, Universität Potsdam

Project Q4: Analysing changes in micro-scale flood related vulnerability of companies

Tobias Sieg, Universität Potsdam

P1: Landslide Prediction Under Changing Boundary Conditions

Ugur Öztürk, Universität Potsdam

P2:Transient merging of different Rhine flow regimes from climate change

Erwin Rottler, Universität Potsdam

P3: Spatio-temporal response of extreme precipitation to climate change and decadal climate

Madlen Peter (née Fischer), FU Berlin

P4: Assessment of early-warning signals and tipping points of rapid land degradation in drylands

Jennifer von Keyserlingk, Universität Potsdam and TU Berlin

Last changed: 05.03.2020, Dr. rer. nat. Theresia Petrow

Social Media

Facebook

Instagram

LinkedIn

Research Gate

Twitter

XING

YouTube

Contact

University of Potsdam
DFG Research Training Group "NatRiskChange"
Karl-Liebknecht-Str. 24/25
14476 Potsdam-Golm

Tel.: +49 331 977-5434
Fax: +49 331 977-2092
E-Mail: natriskuuni-potsdampde

Imprint
Data Protection Declaration
Accessibility

Route

show big map

Certificates

Bundesinitiative Klischeefrei
Code of Conduct
Exzellente Lehre
HRK-Audit
Systemakkreditierung
Total E-Quality

Memberships

Netzwerk Studienorientierung Brandenburg
Scholars at Risk NetworkScholars at Risk
EUA
EDUC
CONAHEC

Quick Links

Dates and Deadlines
Press
Jobs and Vacancies
Course Catalogue
Addresses, Directions and Maps

This Page

Print
Save as Bookmark

URL:https://www.uni-potsdam.de/en/natriskchange/index/phd-projects-first-cohort