Difference between revisions of "Team:DTU-Denmark/Collaborations"
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| − | <p style="text-align:center;"> <img src="https://static.igem.org/mediawiki/2018/f/ | + | <p style="text-align:center;"> <img src="https://static.igem.org/mediawiki/2018/f/f0/T--DTU-Denmark--collab-ku.jpg" style="max-width: 90%;" |
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| + | We knew quite early on that we wanted the report to cover the possibility of colonization on Mars. At DTU, we were intrigued to look retrospectively at the space race that lead to the moon landing and look into the political situation at the time in order to draw parallels to what might need to happen now to land a manned mission on Mars. The pressing matter would subsequently be what to do when we do land a mission on Mars by looking at previous colonization and imperialism and look into some of the driving factors of that era. | ||
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| + | Brainstorming was a big part of our first Skype meetings, and because of our early start, our discussions managed to shape parts of each others Human Practice projects. We continuously separated to do research and met online to discuss our findings in relation to the further development of the project. This way, we slowly found a common angle for the project which ended up being “why colonize Mars?”. We would structure the report so that it discussed the issues in different ways: explaining, analyzing, interpreting, and evaluating. We sorted the report in a manner that made sense first exploring previous events in history and relating them to Mars colonization, then analyzing rhetorically the most cogent arguments for and against Mars colonization, and finally discussing the ethical implications of Mars colonization while also determining the current measures set in place to prevent contamination and the like of planets such as Mars. | ||
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| + | All in all, our collaboration has been a huge success where we have gotten the opportunity to work on our projects in a completely different way and perhaps more importantly, worked with other incredible universities and people. Thanks you Frida, Victoria, and Matt! | ||
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| + | As UCPH got the offer to participate at Københavns Kulturnat (the biggest cultural event in Copenhagen, translates to “Copenhagen Culture Night”), they decided to extend the Danish-based part of the collaboration to include that event as well. This has enabled us to reach a large amount of people to discuss our report. Read more about Københavns Kulturnat here. | ||
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| − | <h2 class="media-heading" style="text-align: left;margin-bottom: 35px; color:#50C8E8;"> | + | <h2 class="media-heading" style="text-align: left;margin-bottom: 35px; color:#50C8E8;">Discussing the road to Mars with Stanford-Brown-RISD</h2> |
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| − | <p> | + | <p>The supervisor of the <a target="_blank" href="https://2018.igem.org/Team:Stanford-Brown-RISD">Stanford-Brown-RISD</a> (SBR) team, Lynn Rothschild, approached us back in the early days of the team with a project that quickly got everyone's attention: Using the mycelium of fungi to help NASA with building a base on Mars. Her own team was also participating in this, but they decided to concentrate on providing substrate for the fungal materials by using cyanobacteria. Therefore, we have been meeting multiple times over the course of the project, where we in the beginning discussed what was needed to accomplish the result and which ideas we each had. Furthermore, any problems we had and potential solutions was also brought up. |
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| + | Lynn Rothschild visited us a couple of times, where she was very helpful in guiding us through what the SBR team was doing and giving us suggestions on what we should be focusing on. | ||
| − | <p id="education-figur-1" style="text-align:center;"> <img src="https://static.igem.org/mediawiki/2018/ | + | |
| + | <p id="education-figur-1" style="text-align:center;"> <img src="https://static.igem.org/mediawiki/2018/7/7e/T--DTU-Denmark--collab-standford.jpg" style="max-width: 100%;" > <figcaption><p style="text-align:center; font-size:14px;"><b>Fig. 1a</b> - The DTU team having a skype meeting with three members of the Stanford Brown team. <b>Fig. 1b</b> - Kyle standing with Lynn and three members of the Stanford team.</p></figcaption> | ||
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| − | + | Both of our project relies on the idea of using fungal bricks and without consulting each other, we discovered that we each had been testing on which substrate to grow it on. We then agreed to send DTU grown bricks to the US, so that they could verify their results on our bricks. The delivery of bricks happened when our supervisor Kyle visited their team. | |
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| − | + | The importance of modelling the project was also a focus of our both teams. Both teams have created models that describes different stages of the project, where all of our models can be linked together to describe the whole process from growing the mycelium from a single spore, to figuring out how the biomass develops, from how long it takes for a fungi to fill out a form to describing the mechanical properties of the fungus needed to design the final structure on Mars. The illustration below shows the connection between our models. | |
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Revision as of 21:05, 14 October 2018
The question of why we want to travel to Mars
For the Human Practises part of the project, we decided quite early on to do a collaboration with the University of Copenhagen and their iGEM team. Our universities are already tightly bound together and seeing as we both did space related projects and were familiar with each other and our respective projects due to having met at the BioBrick Tutorial and later at the Nordic iGEM Conference, it made perfect sense to have our teams meet with the aim to elevate the ambitions of our respective human practises projects by joining forces. We agreed that it would be fun to explore a new side of our natural science-brains and write a report based on humanistic fields. We found that this was quite unusual in previous iGEM space projects and therefore found it relevant to question issues related to space travel in a new way. The University of Exeter had reached out to do a space-related human practises project and together, we decided to do a three-part space-related humanistic report each university exploring the same overall issue on the basis of different fields. DTU engaged in history, UCPH rhetoric, and Exeter ethics.
We knew quite early on that we wanted the report to cover the possibility of colonization on Mars. At DTU, we were intrigued to look retrospectively at the space race that lead to the moon landing and look into the political situation at the time in order to draw parallels to what might need to happen now to land a manned mission on Mars. The pressing matter would subsequently be what to do when we do land a mission on Mars by looking at previous colonization and imperialism and look into some of the driving factors of that era.
Brainstorming was a big part of our first Skype meetings, and because of our early start, our discussions managed to shape parts of each others Human Practice projects. We continuously separated to do research and met online to discuss our findings in relation to the further development of the project. This way, we slowly found a common angle for the project which ended up being “why colonize Mars?”. We would structure the report so that it discussed the issues in different ways: explaining, analyzing, interpreting, and evaluating. We sorted the report in a manner that made sense first exploring previous events in history and relating them to Mars colonization, then analyzing rhetorically the most cogent arguments for and against Mars colonization, and finally discussing the ethical implications of Mars colonization while also determining the current measures set in place to prevent contamination and the like of planets such as Mars.
All in all, our collaboration has been a huge success where we have gotten the opportunity to work on our projects in a completely different way and perhaps more importantly, worked with other incredible universities and people. Thanks you Frida, Victoria, and Matt!
As UCPH got the offer to participate at Københavns Kulturnat (the biggest cultural event in Copenhagen, translates to “Copenhagen Culture Night”), they decided to extend the Danish-based part of the collaboration to include that event as well. This has enabled us to reach a large amount of people to discuss our report. Read more about Københavns Kulturnat here.
Discussing the road to Mars with Stanford-Brown-RISD
The supervisor of the Stanford-Brown-RISD (SBR) team, Lynn Rothschild, approached us back in the early days of the team with a project that quickly got everyone's attention: Using the mycelium of fungi to help NASA with building a base on Mars. Her own team was also participating in this, but they decided to concentrate on providing substrate for the fungal materials by using cyanobacteria. Therefore, we have been meeting multiple times over the course of the project, where we in the beginning discussed what was needed to accomplish the result and which ideas we each had. Furthermore, any problems we had and potential solutions was also brought up.
Lynn Rothschild visited us a couple of times, where she was very helpful in guiding us through what the SBR team was doing and giving us suggestions on what we should be focusing on.
Fig. 1a - The DTU team having a skype meeting with three members of the Stanford Brown team. Fig. 1b - Kyle standing with Lynn and three members of the Stanford team.
Both of our project relies on the idea of using fungal bricks and without consulting each other, we discovered that we each had been testing on which substrate to grow it on. We then agreed to send DTU grown bricks to the US, so that they could verify their results on our bricks. The delivery of bricks happened when our supervisor Kyle visited their team.
The importance of modelling the project was also a focus of our both teams. Both teams have created models that describes different stages of the project, where all of our models can be linked together to describe the whole process from growing the mycelium from a single spore, to figuring out how the biomass develops, from how long it takes for a fungi to fill out a form to describing the mechanical properties of the fungus needed to design the final structure on Mars. The illustration below shows the connection between our models.