Can generative artificial intelligence technology help design a nice, backyard, home, ecological, biodiverse, naturalistic, floral and/or fruit and vegetable garden and thus effectively increase the level of sustainability and fulfillment of pro-ecological, pro-environmental and pro-climate urban and rural development solutions, fulfillment of sustainable land use requirements, creation of pro-climate green areas in urban agglomerations, etc.?

In recent years, the establishment of additional urban parks, green areas, flower meadows, botanical gardens, etc., in the areas of urban agglomerations has been growing in importance. The purpose of increasing the scale of green areas in cities while reducing areas of concrete sidewalks and asphalt roadways is to improve living conditions for residents, reduce atmospheric temperatures and increase humidity, which is particularly important during increasingly severe summer heat and dry periods, improve aesthetics and increase the scale of pro-climate land use, reduce greenhouse gas emissions, improve air quality, create places for recreation and rest, create conditions that allow pollinating insects, birds and other animals to feed. On the other hand, the scale of establishing home flower gardens, flower and vegetable gardens, vegetable and fruit gardens, etc. is also growing. The functions of home flower gardens, mini botanical gardens are analogous to those described above. However, the purpose of establishing also home vegetable and/or fruit gardens is to create a source of one's own crops, fruits and vegetables, which are usually grown without the use of pesticides and other pesticides and most of the cultivation, gardening, agricultural work is done by hand. As a result, most small-scale home flower, vegetable and/or fruit gardens are run in the formula of sustainable, pro-environmental and pro-climate gardening. In this way, those who run home vegetable and fruit gardens save money by spending less of it on groceries, eat healthier by eating less highly processed and industrially produced food products. Besides, the decreasing scale of citizens' purchases of agricultural crops and food products processed from them in stores, shopping centers, hypermarkets and discount stores generates a reduction in greenhouse gas emissions emitted by vehicles transporting the said food products from factories, agro-processing plants to wholesalers, logistics centers and then to the said retail stores. Besides, in connection with the trend towards sustainability, within the framework of creating sustainable gardens, the said gardens are designed to be as naturalistic as possible, highly biodiverse, consisting of different species of meadow flower plants, species of fruit plants, vegetables, shrubs, trees, etc., selecting certain different species of the said plants so that they can coexist with each other. A good solution for running sustainable, pro-environmental and pro-climate gardens is also to create one's own water source, i.e. by building deep water wells and creating retention systems and ministaves to catch and collect rainwater. A good solution to increase the scale of biodiversity, humidity and improve aesthetic value is the creation of byways, ministaws, water reservoirs, where specially selected species and varieties of aquatic plants, fish and other pond animals exist. In addition, in order to increase the ecological security of flower pollination, a good solution is to establish a small apiary, adapted to the size of the local garden and/or nearby other gardens and green areas, where populations, honeybee colonies will exist. The design of this kind of nice, highly biodiverse flower garden containing zones of shrubs, trees, vegetable and fruit crops, as well as ponds, naturalized rest zones, etc., requires the application of a great deal of time and knowledge in the fields of horticulture, crop cultivation, landscaping design, plant biology, ecology of ecosystems composed of coexisting multiple plant species, but also animals such as specific species of fish and other pond animals. In addition, in this kind of multifunctional, biodiverse garden, an important role can be played by a composter which will be an important element of sustainability and closed-loop economy, reduction of post-horticultural, agricultural and other organic waste. Therefore, new ICT information technologies, knowledge resources available on the Internet and their multi-criteria and intelligent processing implemented with the help of generative artificial intelligence may prove helpful in this kind of design, in which it is necessary to take into account many different conditions of the specific location of the planned garden, specific terrain, local climate, etc., and the various determinants mentioned above.

I am conducting research on this issue. I have included the conclusions of my research in the following article:

IMPLEMENTATION OF THE PRINCIPLES OF SUSTAINABLE ECONOMY DEVELOPMENT AS A KEY ELEMENT OF THE PRO-ECOLOGICAL TRANSFORMATION OF THE ECONOMY TOWARDS GREEN ECONOMY AND CIRCULAR ECONOMY

Article IMPLEMENTATION OF THE PRINCIPLES OF SUSTAINABLE ECONOMY DEVE...

I invite you to discuss this important topic for the future of the planet's biosphere and climate.

I have described the key issues of opportunities and threats to the development of artificial intelligence technology in my article below:

OPPORTUNITIES AND THREATS TO THE DEVELOPMENT OF ARTIFICIAL INTELLIGENCE APPLICATIONS AND THE NEED FOR NORMATIVE REGULATION OF THIS DEVELOPMENT

Article OPPORTUNITIES AND THREATS TO THE DEVELOPMENT OF ARTIFICIAL I...

In view of the above, I address the following question to the esteemed community of scientists and researchers:

Can generative artificial intelligence technology help design a nice, backyard, home, ecological, biodiverse, naturalistic, floral and/or fruit and vegetable garden and thus effectively increase the level of sustainability and fulfillment of pro-ecological, pro-environmental and pro-climate urban and rural development solutions, fulfillment of sustainable land use requirements, creation of pro-climate green areas in urban agglomerations, etc.?

Can artificial intelligence help design a nice, backyard, home, ecological, biodiverse, naturalistic flower and/or fruit and vegetable garden?

What do you think about this topic?

What is your opinion on this issue?

Please answer,

I invite everyone to join the discussion,

Thank you very much,

Best wishes,

Dariusz Prokopowicz

The above text is entirely my own work written by me on the basis of my research.

In writing this text I did not use other sources or automatic text generation systems.

Copyright by Dariusz Prokopowicz