GMU:Life in an aquatic ecosystem: Difference between revisions

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Mindaugas Gapševičius & Alessandro Volpato
''Lecturer(s):'' [[:Category:Mindaugas Gapševičius|Mindaugas Gapševičius]] & Alessandro Volpato
Mondays, 15.30-18.30


Last semester, we built a rainwater pond in the campus garden. The motivation in maintaining the pond has shown us that we need to keep working on it. The upcoming semester we want to concentrate on the pond itself: Who lives there, what does its ecosystem look like, and what are the effects of human intervention in its ecosystem?
''Credits:'' 4 [[SWS]]


During the course we will try to understand how different species interact in the aquatic ecosystem. We will explore two different ecosystems: the naturally occurring environment of a rainwater pond and the self-made aquatic environment in a laboratory setting.  
Date: Mondays, 15:30-18.30


We have outlined several experiments that we will begin with: 1) we will take samples of water from different locations in the pond to see how the composition of the ecosystem differs; 2) we will introduce tardigrades into the pond to see if they adapt to it; 3) we will set up an ecosystem in a lab setting with different photosynthetic organisms and analyze their behavior by adding different nutrients or providing different amounts of light.
''Venue:'' DIY Biolab @ [[Marienstraße 7b]], [[Marienstraße 7b/202|Room 202]]


The experiments offered are designed to give students an idea of how the methods used in the natural sciences can be used in arts and how their use can lead to a different quality in an artwork. The experiments will shed light on how, for example, lawn fertilizer or the change in ph of water affects the ecosystem. The result of the course is an artistic project documented in the wiki.
''First meeting:'' 21.10.2024
 
[[Workshop on redesigning wetland]]: 18.10.2024, @ 13:30-18:30 (everyone is welcome)
 
 
 
 
Last semester, we started a rainwater pond in the campus garden. The onset of a tiny freshwater body created space for a small ecosystem to set on, and generated additional motivation to study the microbes colonizing the pond, from an artistic perspective.
 
The upcoming semester we will concentrate on its evolving ecosystem: Who lives there, which microbes colonized it first, what do their interactions look like and what are the effects of human intervention on the development of the ecosystem?
 
During the course we will observe how different species interact within this aquatic ecosystem, track the evolution of the outside natural pond and compare it with a laboratory artificial replica of it.
 
We have outlined several experiments that we will begin with:
 
1) Compare the microbiomes in different parts of the pond;
 
2) Hunt, domesticate, grow and release tardigrades into the pond and see how they adapt to it;
 
3) Study growth conditions of different photosynthetic organisms in presence or absence of fundamental nutrients;
 
The experiments are designed to teach students how methods used in the life sciences can be applied in arts and how their use can lead to a different quality in an artwork. The experiments will shed light on how, for example, lawn fertilizer or the change in pH of water affects the ecosystem. The result of the course is an artistic project documented in the wiki.


Please send your motivation (3-4 sentences) to mindaugas.gapsevicius@uni-weimar.de. Preference will be given to students who want to explore art-science methods and aquatic ecosystems.
Please send your motivation (3-4 sentences) to mindaugas.gapsevicius@uni-weimar.de. Preference will be given to students who want to explore art-science methods and aquatic ecosystems.
== Syllabus ==
*18.10.2024 [[/Preclass]] (Workshop on redesigning wetland) 13:30-18:30
*21.10.2024 [[/Intro]] (Experiments with algae/cyanobacteria)
*28.10.2024 [[/Tardigrades]] (Excursion to Ilm Park and presentations of first ideas)
*04.11.2024 [[/Rainwater garden]]
*11.11.2024 [[/Discussion on works of others]]
*18.11.2024 [[/Introduction of organisms into the wetland]]
*25.11.2024 [[/Progress]] (Inspecting the wetland after the introduction of the organisms)
*02.12.2024-06.12.2024 /excursion to Schiefer Park
*09.12.2024
*16.12.2024
*06.01.2025
*13.01.2025
*20.01.2025
*27.01.2025
*03.02.2025
== Student ==
*[[/Dahye Seo]]
*[[/Cosmo Schüppel]]
*[[/Jan Munske]]
*[[/Negin Ehtesabian]]
*[[/Kaya Leonie Pilsner]]
*[[/Juyoun Oh]]
[[Category:WS24]]
[[Category:Werkmodul]]
[[Category:Fachmodul]]
[[Category:Mindaugas Gapševičius]]
[[Category:Alessandro Volpato]]

Latest revision as of 13:29, 25 November 2024

Lecturer(s): Mindaugas Gapševičius & Alessandro Volpato

Credits: 4 SWS

Date: Mondays, 15:30-18.30

Venue: DIY Biolab @ Marienstraße 7b, Room 202

First meeting: 21.10.2024

Workshop on redesigning wetland: 18.10.2024, @ 13:30-18:30 (everyone is welcome)



Last semester, we started a rainwater pond in the campus garden. The onset of a tiny freshwater body created space for a small ecosystem to set on, and generated additional motivation to study the microbes colonizing the pond, from an artistic perspective.

The upcoming semester we will concentrate on its evolving ecosystem: Who lives there, which microbes colonized it first, what do their interactions look like and what are the effects of human intervention on the development of the ecosystem?

During the course we will observe how different species interact within this aquatic ecosystem, track the evolution of the outside natural pond and compare it with a laboratory artificial replica of it.

We have outlined several experiments that we will begin with:

1) Compare the microbiomes in different parts of the pond;

2) Hunt, domesticate, grow and release tardigrades into the pond and see how they adapt to it;

3) Study growth conditions of different photosynthetic organisms in presence or absence of fundamental nutrients;

The experiments are designed to teach students how methods used in the life sciences can be applied in arts and how their use can lead to a different quality in an artwork. The experiments will shed light on how, for example, lawn fertilizer or the change in pH of water affects the ecosystem. The result of the course is an artistic project documented in the wiki.

Please send your motivation (3-4 sentences) to mindaugas.gapsevicius@uni-weimar.de. Preference will be given to students who want to explore art-science methods and aquatic ecosystems.

Syllabus

Student