Can artificial intelligence combined with Big Data Analytics help to reconstruct the genomes of recently extinct due to humans of various species of flora and/or fauna and thus restore the former biodiversity of the planet's natural ecosystems?

Due to the negative impact of human civilization on the planet's biosphere and climate, the sixth great extinction of many species of flora and fauna is currently taking place on planet Earth. The result is a rapidly progressive decline in the biodiversity of the planet's natural ecosystems. The aim is to halt or at least significantly slow down the progressive climate change, i.e. caused by increasing greenhouse gas emissions of the increasingly rapid global warming process. Many species of flora and fauna have already become extinct, many are on the verge of extinction due to a sharp decline in the number of individuals of the species. Some animal species are already found exclusively or almost exclusively in zoos. Few animal species have managed to be reconstructed on the basis of deliberate cross-breeding of species and varieties of closely related species. In order to increase the scale of the possibility of reproducing extinct species in the future, gene banks are being created, in which the genomes of specific species of flora and fauna are stored, including, above all, species threatened with extinction in the near future. Over the past few decades, insect populations, including pollinators, have declined by tens of percent in many parts of the world. The continuation of these processes, in addition to the rapidly advancing process of decline in biodiversity, the impoverishment of the planet's biosphere, will cause a rapidly advancing process of decline in the production of agricultural crops under the intensive, unsustainable and productive model of human farming. In countries occurring in the tropics, natural tropical rainforests continue to be cut down only to create new areas of arable land for the creation of arable fields where crops are grown to feed livestock generating high methane emissions. In addition, the new arable land created in this way is quickly eroded and the restoration of forest ecosystems back in these areas is also hindered for this reason. Coral reefs in the seas and oceans are also dying out, and the populations of marine fish and other animal species living in the seas and oceans are rapidly declining. Key factors in the still large-scale great sixth extinction of species of flora and fauna include continued deforestation, the cutting down of natural forest ecosystems to increase cultivated areas, the degradation of natural ecosystems caused by industrial development, continued high levels of environmental pollution, continued rising greenhouse gas emissions generating a progressive global warming process, etc. In view of the above, unsustainable intensive economy is causing a rapidly progressive decline in the biodiversity of the planet's natural ecosystems, and attempts are being made to counteract this. In order to slow down the progressive process of global warming, reduce greenhouse gas emissions, reduce the level of environmental pollution and devastation of natural ecosystems, reduce the scale of extinction of species of flora and fauna, slow down the process of decline in the biodiversity of natural ecosystems, it is necessary to urgently accelerate the processes of carrying out pro-environmental transformation of the economy in order to efficiently build a sustainable, green, zero-carbon zero-growth and closed-cycle economy. In the process of building a sustainable, green, zero-carbon zero-growth economy and a closed loop economy, new ICT information technologies and Industry 4.0/5.0 can help, including generative artificial intelligence technologies and multi-criteria processing of large data sets as part of ongoing research and analytical processes using Big Data Analytics. New technologies can help increase the efficiency and accelerate the process of a sustainable, green, zero-carbon, zero-growth and closed-loop economy and thus help protect the climate, biosphere and biodiversity of the planet's natural ecosystems. As part of the application of new Industry 4.0/5.0 technologies, including generative artificial intelligence and Big Data Analytics, it is possible to increase the efficiency of research conducted with the goal of reconstructing the genomes of extinct species of flora and/or fauna. In this regard, perhaps artificial intelligence combined with Big Data Analytics can help reconstruct the genomes of various species of flora and/or fauna that have recently become extinct due to humans and thus restore the former biodiversity of the planet's natural ecosystems.

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

Can artificial intelligence coupled with Big Data Analytics help in reconstructing the genomes of various species of flora and/or fauna that have recently become extinct due to humans, and thus restore the former biodiversity of the planet's natural ecosystems?

Can artificial intelligence coupled with Big Data Analytics help restore the genomes of extinct species of flora and/or fauna?

What do you think about this topic?

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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