Seaweed Ecological Zone
Smart seaweed ecological zone
The marine environment of the Baltic Sea is facing tremendous threats. The proliferation of microalgae in the ocean not only threatens the survival of other marine life, but also the algae has created a huge ocean "dead zone" in the Baltic Sea area, which is gradually spreading. trend. At the same time, especially in summer, due to the increasing temperature and global warming, the algae reproduction phenomenon in the ocean has become more and more serious. The ecological damage caused by the dispersion of algae in the seawater has become one of the key issues in the management of the Baltic Sea in recent years. It has caused great pressure on the local ecology and disrupted the balance of the system.
The project is located in the Baltic Sea in Russia. Due to the greenhouse effect in recent years, this area has caused environmental problems with seaweed flooding, which has caused great pressure on the local ecology and disrupted the balance of the system.
In order to solve this problem, we have designed a smart seaweed ecological zone. The so-called intelligence is to use a data system to plan the ecological distribution of seaweed, so that the seaweed is distributed in an orderly manner according to its biological properties, instead of flooding, removing those redundant seaweeds and reducing the environment. Pressure, temperature, humidity, and the characteristics of seaweed can solve the problems of sulfur dioxide and some metal pollution in the water. The purpose of the project is to re-plan the seaweed ecological zone based on the current situation of the Baltic Sea algae flooding and site surveys, so that it can form a circulatory system. Create economic and environmental values, and endow the landscape with ornamental properties, and contribute to the ecological development of the region.
For this specific purpose, in the process of investigation, we first collected temperature data and humidity data in the area for 5 years, which are the main factors affecting the growth and distribution of seaweed. Secondly, we also investigated a series of data such as wind and rainwater runoff, which are secondary factors that affect the distribution and growth of seaweeds. Based on these data, we plan to effectively remove and retain seaweeds.
Based on this plan, we constructed a data model. The model was first based on site planning to improve the original environmental dilapidation of the site, remodel the site, and combine the areas that are not suitable for seaweed growth using scientific and technological means combined with ecological methods. improve. At the same time, based on the method of machine transformation, we also proposed its operation method, that is, combined with the model of the seaweed ecological zone to promote the development of the local economy. Since the seaweed ecological area can be beneficial to improve the local ecology and economic development, this has attracted the attention of investors. Investors invest in it on a large scale. The local residents, as specific operators, jointly create it through scientific and technological means to facilitate development. The seaweed ecological area in the country, which also brings corresponding economic benefits to local development, and the value of economic benefits not only brings more benefits to the village name, but also attracts more investors, which also forms The blockchain circulation system in this ecological area.
The model was first based on site planning to improve the original environmental dilapidation of the site, remodel the site, and combine the areas that are not suitable for seaweed growth using scientific and technological means combined with ecological methods. improve.