Marie-Christin Wimmler
© David Giesemann
PhD student
NameMarie-Christin Wimmler
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Chair of Forest Biometrics and Systems Analysis
Chair of Forest Biometrics and Systems Analysis
Visiting address:
Hauptgebäude (Altbau), Ground Floor, Room E12 Pienner Straße 8
01737 Tharandt
Postfach 1117
Office hours:
- Wednesday:
- 10:00 - 11:00
- ERASMUS-Sprechstunde
Office hours in July and August are only available on request. Alternative dates available upon request online.
Table of contents
Research Interests
I have a background in water management with a focus on water quality and modelling groundwater flow. Within my PhD, I concentrate on root grafting of black mangroves from a network perspective. For my research I use agent-based modelling to simulate the distribution of resources through root grafts and investigate costs and benefits for trees that are part of a group.
Projects
- Since 2019: "Kropotkin's Garden: Networking beats competition in the struggle for limited resources" funded by VolkswagenStiftung
Have a look at the project in our research overview
Abridged CV
- Since 2022: Erasmus Coordinator of the Department of Forest Sciences, TU Dresden (Germany)
- Since 2019: PhD Student, Institute of Forest Growth and Forest Computer Sciences, TU Dresden (Germany)
- 2016 – 2017: Student Assistant, Institute of Groundwater Management, TU Dresden (Germany)
- 2016 – 2019: Master of Science in Water Management, TU Dresden (Germany)
- 2013 – 2016: Bachelor of Science in Water Management, TU Dresden (Germany)
Publications
Peer-reviewed articles
2021
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Plant–soil feedbacks in mangrove ecosystems: establishing links between empirical and modelling studies, 22 Jul 2021, In: Trees - Structure and Function. 35, 5, p. 1423–1438, 16 p.Electronic (full-text) versionResearch output: Contribution to journal > Review article
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Partial canopy loss of mangrove trees: Mitigating water scarcity by physical adaptation and feedback on porewater salinity, 5 Jan 2021, In: Estuarine, coastal and shelf science. 248, 106797Electronic (full-text) versionResearch output: Contribution to journal > Research article
2020
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Metamodels for evaluating, calibrating and applying agent-based models: A review, 2020, In: JASSS. 23, 2, 9Electronic (full-text) versionResearch output: Contribution to journal > Research article
This information is provided by the FIS.
Other
2024
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pyMANGA: Harnessing the Power of Modularity and Reusability for Robust Ecological Modeling, 11 Sep 2024Research output: Contribution to conferences > Presentation slides
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Natural Root Grafting: A Vector for Hydraulic Redistribution?, 10 Sep 2024Research output: Contribution to conferences > Presentation slides
2023
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Are root grafts cooperative traits for mangroves to cope with water stress?, Dec 2023Research output: Contribution to conferences > Presentation slides
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Sind Wurzelverwachsungen ein Hinweis auf Kooperation zwischen Mangroven bei der Bewältigung von Wasserstress?, 11 Sep 2023Research output: Contribution to conferences > Presentation slides
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Developing a Benchmarking Framework for a Ready-to-Use RBB Library for Forest Ecology: pyMANGA, Sep 2023Research output: Contribution to conferences > Presentation slides
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Are root grafts cooperative traits for mangrovesto cope with water stress?: Understanding Root Grafting and Water Exchange in Mangrove Trees, Jul 2023Research output: Contribution to conferences > Presentation slides
2022
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Stepwise reduction of model complexity: Block-specific benchmarks are the key to effective and reliable testing of complex simulation models that consist of conceptually differing building blocks, 6 Jul 2022Research output: Contribution to conferences > Presentation slides
2020
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Roots of Cooperation: Can Root Graft Networks Benefit Trees Under Stress?, 1 Dec 2020Electronic (full-text) versionResearch output: Other contribution > Other
This information is provided by the FIS.
Wimmler, M.-C. (2018): Quantification of the temporal dynamics of water uptake and transpiration of mangroves. Institute of Groundwater Management & Institute of Forest Growth and Computer Sciences, TU Dresden. Master thesis.
Wimmler, M.-C. (2016): Implementation and evaluation of electrochemical investigations on the degradation of environmental relevant micro pollutants in aqueous solutions. Fraunhofer-Institut für Keramische Technologien und Systeme IKTS & Institute of Water Chemistry, TU Dresden. Bachelor thesis.