shared_habitats
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shared_habitats [2018/11/08 11:21] – [constructed ecosystems] ami | shared_habitats [2018/11/25 09:00] (current) – [Shared Habitats] ami | ||
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======Shared Habitats====== | ======Shared Habitats====== | ||
Workshop proposition for the Piksel 2018 festival. | Workshop proposition for the Piksel 2018 festival. | ||
+ | Shared Habitats: http:// | ||
+ | http:// | ||
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The workshop -the Umwelt of the Forager- will be studying the biosemiotics of the beehive & its ecosystem. The workshop will be organized as a DYI BioLab: the starting point is the role of pheromones and the important task these signifiers play for the communication in the beehive and for the relation of the bees to their ecosystem. | The workshop -the Umwelt of the Forager- will be studying the biosemiotics of the beehive & its ecosystem. The workshop will be organized as a DYI BioLab: the starting point is the role of pheromones and the important task these signifiers play for the communication in the beehive and for the relation of the bees to their ecosystem. | ||
The focus of the workshop-lab will be on learning & sharing knowledge by asking questions & discussions. Participants will be sensing the ecology of the beehive and interprete the emergence of symbols. They will be detecting the granularity of waves formed between bacterial signals and the signs emitted through invisible (bio)technologies. In several hands-on sessions the microbial sphere in and around the beehive will be studied under the microscope. Participants will prepare agar plates to culture bacteria and spores that they collect at the intersection of places, called the Umwelt of the Forager (bee). They will ‘design’ with bacteria and reflect upon shared habitats for bees and other micro-organisms. | The focus of the workshop-lab will be on learning & sharing knowledge by asking questions & discussions. Participants will be sensing the ecology of the beehive and interprete the emergence of symbols. They will be detecting the granularity of waves formed between bacterial signals and the signs emitted through invisible (bio)technologies. In several hands-on sessions the microbial sphere in and around the beehive will be studied under the microscope. Participants will prepare agar plates to culture bacteria and spores that they collect at the intersection of places, called the Umwelt of the Forager (bee). They will ‘design’ with bacteria and reflect upon shared habitats for bees and other micro-organisms. | ||
- | {{: | + | {{: |
**Day 1: ** | **Day 1: ** | ||
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- [[http:// | - [[http:// | ||
- [[http:// | - [[http:// | ||
+ | - http:// | ||
**films** | **films** | ||
- | [[https:// | ||
[[https:// | [[https:// | ||
+ | {{vimeo> | ||
+ | // | ||
+ | // | ||
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- | fermentation | ||
+ | =====building knowledge: constructed ecosystems===== | ||
+ | The developments in biotechnology and their impact on society. The ultimate surveillance is DNA, which is in itself a form of encrypted archive. Not only can it be used as a storage medium for information, | ||
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+ | **microscope slides** | ||
+ | dark brown brood comb: https:// | ||
+ | The detritus of brood rearing: https:// | ||
+ | The eggs of most bees are soft and pliable. They are covered with a membranous, translucent, | ||
+ | {{: | ||
+ | {{: | ||
+ | \_ | ||
+ | {{: | ||
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+ | **bacteria** | ||
+ | ... Bees use a diverse community of bacteria to turn fresh pollen into a long-term food store. They need a range of bacteria to help them fight off infectious diseases, and also the bacteria can act as a preservative for bee bread within hives. Without a diverse microbiome the bee bread can be more vulnerable to mould, causing a food shortage for the hive... {{ : | ||
+ | |||
+ | **fermentation** | ||
Working with living material / transformations, | Working with living material / transformations, | ||
Creations knowledge, bacterial quarum sensing, biofilms. | Creations knowledge, bacterial quarum sensing, biofilms. | ||
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ferment | ferment | ||
- | research on propolis | + | **research on propolis** |
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- | propolis | + | |
The composition of propolis varies from hive to hive, from district to district, and from season to season. Normally it is dark brown in color, but it can be found in green, red, black and white hues, depending on the sources of resin found in the particular hive area. Detailed analyses show that the chemical composition of propolis varies considerably from region to region along with the vegetation. In northern temperate climates, for example, bees collect resins from trees, such as poplars and conifers (the biological role of resin in trees is to seal wounds and defend against bacteria, fungi and insects). “Typical” northern temperate propolis has approximately 50 constituents, | The composition of propolis varies from hive to hive, from district to district, and from season to season. Normally it is dark brown in color, but it can be found in green, red, black and white hues, depending on the sources of resin found in the particular hive area. Detailed analyses show that the chemical composition of propolis varies considerably from region to region along with the vegetation. In northern temperate climates, for example, bees collect resins from trees, such as poplars and conifers (the biological role of resin in trees is to seal wounds and defend against bacteria, fungi and insects). “Typical” northern temperate propolis has approximately 50 constituents, | ||
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=====list of materials===== | =====list of materials===== | ||
**I will bring**: | **I will bring**: | ||
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{{gallery>: | {{gallery>: | ||
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- | =====microscope slides: building knowledge===== | ||
- | dark brown brood comb: https:// | ||
- | The detritus of brood rearing: https:// | ||
- | The eggs of most bees are soft and pliable. They are covered with a membranous, translucent, | ||
- | {{: | ||
- | {{: | ||
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shared_habitats.txt · Last modified: 2018/11/25 09:00 by ami