Development of the physiological basis for the in vitro propagation of tree and herbaceous peonies and implementation of a method for peony micropropagation.
Development of furniture components, solitaires and furniture sets for special use (such as old people's homes) by employing the strategy of complex development. This includes design, construction technology, waterproofing and surface finish practices.
Valorisation of mushroom by-products by means of developing a technological process that allows their use in food products and in sustainable animal feed additives.
To develop an efficient technique to inseminate nuliparous and multiparous sows. We propose the use of an easy to use transcervical catheter, a reduced insemination dose and a single insemination per estrus.
The lumigreen system is developed to solve present problems connected with poor growth conditions and quality of grass on sport turfs like football fields, tennis fields and golf greens.
Transcervical insemination (tc-ai) in swine is successful with the easy-use catheter magaplus. To complete the new tc-ai system we will design: 1. A specific packing system and/or an applicator for sperm doses. 2. A device to fix the catheter during the slowest inseminations.
To deliver cotton varieties with improved tolerance to abiotic stress (mainly drought and salinity resistance), together with improved efficiency in cotton transformation, screening of a broad collection of wild cotton germplasms and transformation into novel gene constructs.
Homogeneous and quality results in cross-breeding pigs with the goals of investigating the homogeneity and quality of herdability genetic characteristics in three cross-breeding pigs.
Improvement of fertility and prolificness in swine reproduction. Evaluation of genetic factors and animal welfare that affect the semen quality of males in artificial insemination centres and embryo mortality in sow farms.
Development of a new harvesting process and technology for various crops to be applicable under different climatic and terrain conditions. The technology will operate under high speed and will increase harvesting results.