DISTURBED BALANCE: An interactive exhibition to arouse the public
awareness on biological invasions.
DISTURBED BALANCE is an interactive media exhibition.
In this project, two representative invasive species from southern China, African Giant Snails and American Crayfishes were selected to introduce. We tried to provide a vivid and immersive experience for audiences, so that they can participate in a simulated invasive process of these two species and realize how their own behaviors will change the ecological balance. It aims to arouse people's vigilance against biological invasion.
INTERACTIVE MEDIA EXHIBITION
As the team leader, worked with Wenxin Xue and Yuan Wei
Contextual inquiry, Solid device design and building, Visual design and programming, Circuit construction, Interaction design, Exhibition display
2 Monthes, 2018 winter
Due to the boom of transnational trade and transportation industry, nowadays,
more and more species have been brought into unprecedented territories.
Invasive species refer to those species that are introduced intentionally or unintentionally and brought into the new environment by natural falling and other ways, which cause or may cause harm to the local ecological environment, natural landscape, biodiversity, human health and economic development.
How to relevantly display the concrete damages caused or may cause by invasive species to audiences.
How might we raise public awareness to consider their role in the species invasion.
Provide an immersive exhibition and let audiences participate and interpose in the simulated invasion process of selected species.
Remind audiences how much difference can their subtle behaviors make to the ecological balance.
Which invasive species did we choose and why?
In order to maximize the audience's resonance, we aimed to select the exotic species that invade China in a wide range and could be seen frequently, yet have not arouse people's enough awareness.
Therefore based on the observation of Chinese farmers markets, restaurants, pet shops, urban landscape, etc., and referring to the level of exposure in news reports, we chose American Crayfish ( Procambarus clarkii ) and African Giant Snail ( Achatina flica ) as the design and research objects.
Information about the selected species
Characters and the invasion path of CRAYFISH
Click the picture to view details.
After being brought into China, crayfish has become a popular food to Chinese people. Therefore, they have been widely and massively cultivated in paddy fields as a kind of important economic aquatic animal.
However, due to their burrowing characteristics, crayfishes escaped from their breeding areas have caused great damage to dams and rice terrace fields. Especially in Yunnan Province, a large number of ancient terraced fields have all been dug by crayfishes, resulting in the inability of terraces to store water and causing serious soil loss. Moreover the insecticides sprayed to eliminate crayfishes also caused harm to local animals.
In order to meet people's consumption demand, the amount of crayfish raised is increasing year by year. Yet, for diners who enjoy the tasty crayfish meat, most of them don't know what damages these 'Delicacies' made with their powerful claws.
Characters and the invasion path of ACHATINA FULICA (African giant snails)
Click the picture to view details.
After being brought into China by accident, African giant snails occupied the south of China by virtue of its rapid reproduction rate and external suitable climate environment. they gnawed at local plants and cause damage to the ecological balance.
Because the meat of African snails is rich in protein, many people tried to catch it home for cooking. In addition, many curious children would like to take them home as pets. However, there are many kinds of deadly bacteria and parasites in its body, which may be infected by human by eating or simply skin contact.
Due to one passenger's carelessness, African giant snails were brought to China and thrived unscrupulously. Every time it rains, people could see a large number of african giant snail climbing out of the soil. However, they do not know where these huge snails came from, how to deal with them and how much damage they did to the ecosystem.
How to design an interactive experience to display the harm caused by the invasion of crawfish and African giant snails
due to human behaviors ?
design plan for CRAYFISH
Digging and Erosion
Make simulated rainfalls
Physical installation: Simulated terrace wetland environment for Crayfish with
quantitative detection on the soil condition.
In a transparent acrylic tank, a small simulated terrace was built, and rice seedlings were planted between ridges. Above the terrace, there is a water pan with tiny holes, which is used for simulating the rainfall conditions. 16 light sensors are distributed 1 cm under the soil surface, which can quantitatively detect the soil loss caused by crawfish digging holes.
Dynamic patterns: Vividly display the real-time soil loss condition, according to the collected sensor data. The undulating curves are taken from the shape of terrace field and represent the water and soil conditions in the area.
Under different thickness of soil, the light intensity measured by light sensor is different. When the soil above becomes thinner, the augmented light value will relatively increase the repulsion force between the blue wave lines at the corresponding coordinates on the interface, thus creating a visual gap.
The interaction logic: When the amount of soil loss in a certain location exceeds the limit value, the light sensor buried under the ground will reflect the changed value on the change of patterns.
After the crayfish are put into the simulated small terrace environment by the audience, they will start burrowing and digging holes on the soil surface. As the soil on the terrace surface is loosened by crayfish, and the rice seedlings planted are damaged by crayfish, the water storage capacity of the soil will be reduced.
For this reason, the surface soil will be washed away by the water flow dripping from the upper tank. With the thinning of the surface soil, the light value measured by the light sensor will increase, and the repulsive force of the corresponding coordinate position to the wave lines will increase.
Thus the increased curve interval reflects the real-time soil loss situation caused by crayfish digging holes in the terrace.
design plan for GIANT SNAILS
Physical installation: A balance mechanism affected by the weight distribution of internal snails and plant leaves
On the tray full of wet soil, there are five sets of balance installations that can qualify their tilt angle. Audiences can use tweezers to plug the snail or plant leaf into the upper pipe of the installation. The movement of snails and the consumption leaves will cause the weight distribution change of the pipe, which is reflected in the inclination angle.
Dynamic patterns: It shows the amount of plants eaten by snails, according to the tilt angle of the balance.
The rheostat at the rotating axis can measure the inclination angle of the pipe quantitatively. If the pipe rotates clockwise, the resistance will increase. When the pipe rotates counterclockwise, the resistance decreases.
The value of the resistance desides the attraction or repulsion force to the scattered point at the corresponding coordinates.
The interaction logic: When the points at a certain coordinate position begin to gather, it means that the damage of the plants by snails is aggravating. When the points start to spread, it means that the plants have been completely consumed and the snails plan to move
Before the snail lands, the tube is evenly filled with plant leaves in a horizontal state. At this time, the scattered points on the interface gather at the center point. it means that the snails have not yet begun to invade other regions.
When an audience moves the snail to the right end of a certain pipe, the pipe rotates clockwise, and the increased rheostat resistance value will enlarge the attraction to the circular scattered points on the corresponding coordinates, symbolizing the beginning of the invasion there.
As the snail creeps and gradually consumes the leaves, the weight distribution in the pipe moves to left, so the pipe rotates counterclockwise, and the resistance value of the rheostat begins to decrease.
When the rotation angle of the pipeline exceeds the set threshold value, the attraction force of the corresponding coordinates to the scattered point converts into repulsion force, then the scattered points start to spread outward and would be converged to other coordinates.
This means that the snails there have depleted the vegetation resources and started a new invasion process to the rest of the area.
BUILDING & ASSEMBLING
Building process of the devices for GIANT SNAILS
Building process of the devices for CRAYFISH
Arrangement in the exhibition space
Plane layout of devices & Operation guidance for viewers
OPENING: BACKGROUND INTRODUCTION
OUTLINE the EXHIBITION to AUDIENCES
MAIN: OPERATION PART 1
INVASION of CRAYFISH
1. Escape occurs Create invasion
Transfer the fleeing crayfish from the net cage to the simulated terrace field. In this way, let the audience know the invasion path of crayfish.
2. Digging & destroying... Rain falls
When the soil has been loosened, audiences then pour water into the upper perforated tank to simulate rainfall, the natural trigger of soil erosion.
3. Soil flushed Terrace collapsed
Audiences can observe the differences of the terrace slope and the soil content of the puddles between the experimental group and the control group.
The quantity and location
of soil loss was transformed
into vivid visual patterns,
according to data collected
by the bare light sensors.
MAIN: OPERATION PART 2
INVASION of GIANT SNAILS
1. Attach on Lorries Launch and invade
Transfer the attached snails from the lorry model into the tubes. This symbolizes snails' invasion to a new environment caused due to the logistics industry
2. Consume various plants... influence the balance
Fill the pipe with leaves of different plants for snails to eat. This means that the destruction of local vegetation by snails has officially begun.
3. balance broken Invasion scope expends
As the leaves are consumed by the snail, the weight distribution of the pipe is constantly changing, and the rotation angle will control patterns on the wall.