Abstract
he motto of our project “Using Local Genetic Resources for Global Challenges”.
“The man of the new era creates a connection between the Fourth Industrial Revolution and the possibility of solving real-world problems. The world’s major development centers are moving towards a bio-based society, from the health industry to agriculture ”.
Our overall goal in this R&D project can be defined as follows:
In the midst of climate, climatic, nutritional, processing technology changes in the world, using local resources and endowments, as well as improving scientific knowledge, to find and provide answers to global challenges in a value-creating way that is understood in both economic and ethical terms.
The main goal of the research is to preserve the genetic wealth of the Carpathian Basin at a high level for innovation purposes within the framework of the Pannon Breeding Program.
Breeding of field fodder and industrial plants with increased content value and broadening the biological background of Hungarian seed production, research and determination of the content values ??necessary for the production of modern food, and related plant breeding.
Breeding of plants promising for its active ingredient, using the taxon propagating material of 3 herbs.
Research on the interaction between environmentally friendly and / or green phytotechnologies and taxa with a suitable genetic background, which are most important for the annual ornamental plant seed production and practical variety use, with reference model species.
Promoting urban green habitat innovation: studying the growing conditions and tolerances of native natural species and varieties of complex green farming systems, and researching grasslands along settlements and road networks connecting settlements.
In the framework of semi-industrial seed experiments, the selection of the most efficient seed cleaning and treatment technology, the development of a high-efficiency technology that satisfies high quality requirements.
We also aimed to study the growing conditions and tolerance of tolerant clones of plant species, and to implement drought tolerance and irrigation test experiments to exploit genetic values.
The genetic basis (genetic wealth) of the plants focused on the project should be defined, as well as the related methodology. These varieties will also be suitable internationally for use on green surfaces in areas with similar characteristics, affected by climate change and pollution.
Hungary