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Účelem publikace je poskytnout pěstitelům a zpracovatelům informace o biologické charakteristice, z ní plynoucích nárocích na pěstitelské podmínky a postupy pěstování lupiny bílé, žluté a úzkolisté jako významného zdroje dusíkatých látek ve výživě hospodářských zvířat, alternativního k sojovým extrahovaným šrotům. Pro úplnost je uváděna i lupina proměnlivá, možnosti jejího využití a způsob pěstování. Cílem metodiky je ukázat možnosti využití lupiny a srozumitelně charakterizovat rozhodující agrotechnická opatření ovlivňující kvalitu a množství dosažené produkce.
V rámci řešení výzkumného záměru MSM 2678424601 byla vytvořena linie hrachu AGT 210.12. Linie má oranžovou barvu děloh - gen Orc. Linie AGT 210.12 vznikla z křížení Konto x 4876. selekce byly prováděny od F2 generace.
The crossing was carried out in 2002. The selection of individual plants was repeated every year from the F2 generation. Yield tests were performed since the F4 generation, the 2 10 m2 yield trials. Breeding line SM 441/02 was included in yield trials in the green maturity (technological maturity) and was sown (sowing density: 1,1 mil of germinating seeds per hectare) with standard varieties. The homogenization process usually takes 3 - 4 years, morphologically different and less efficient lines were excluded during the process. When needed, the reselections from yield trials were carried out. Selections of resistant plants (from F2 generation) to the powdery mildew (Erysiphe pisi) were traditionally done in the field or greenhouse after artificial inoculation with Erysiphe pisi. Selections aimed at obtaining field resistance to foot-rot complex diseases (the most important diseases) in peas were carried out practically since F3 generation using tests in infected soil. The breeding lines were tested since F4 - F6 generation, the repeated tests for resistance to fusarium race 1 and race 2 were done in a the laboratory conditions. The analyses of starch, amylose and resistant starch content were carried out in all lines selected in yield trials. Chlorophyll and carotenoids (lutein and β-carotene) were observed.
AGT 578/03 se vyznačuje nízkým obsahem antinutričních látek (kyanogenních glykosidů) v semeni ve srovnání s registrovanými odrůdami olejného lnu v ČR.
The possibility of use of two technological types of Linum usitatissimum L., namely flax (grown for fibre) and linseed (grown for seed), for phytoextraction of cadmium (Cd) from Cd-contaminated soil was studied. A four-year field-simulated experiment was carried out with 6 flax and 4 linseed cultivars in order to study organ accumulation of Cd by flax and linseed plants at artificial concentration range 10 to 1000 mg Cd . kg-1 soil. The most Cd was accumulated by roots, followed by shoots, while reproductive parts (capsules and seeds) played comparably smaller role. The increasing soil Cd concentration resulted in increasing Cd accumulation by roots, while transport to above-ground plant parts was progresivelly inhibited. Even high soil Cd concentrations (1000 mg Cd . kg-1 soil) had not dramatic negative effect on plant growth and development.differences as well as the differences between both technological Linum types have been found in Cd accumulation (flax being better Cd accumulator than linseed). Nevertheless, the recorded variation between technological types and within is in multiples of Cd values (units of mg Cd . kg-1 DW), not in as needed for practical phytoextraction. A significant year-to-year effect on plant growth/development resulting in high variation in Cd accumulation was observed. Further, the contrasting in total Cd accumulation (high accumulating flax cv. Jitka versus low accumulating linseed cv. Jupiter) were selected for future experiments. The uptake of Cd by flax/ linseed from ha per season was calculated and the strategy for flax/linseed growing on heavy metal polluted soils with subsequent utilization of heavy metal-contaminated biomass is discussed.
Jedná se o unikátní směs dvou mykoparazitických půdních hub Clonostachys rosea (kmen SCL-01) a Trichoderma asperellum - harzianum (kmen ASPH). Směs obou hub vytváří kulturu označenou GXT-08, uloženou v chráněném a bezpečném uložení v České sbírce mikroorganismů CCM v Brně. Obě komponenty směsi jsou snadno kultivovatelné jak na tekutých, tak i na pevných (agarových) živných půdách a jsou vhodné k výrobě biopreparátu s využitím submersních i povrchových metod masové kultivace.

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