Lolium, Festuca species, and xFestulolium interspecies hybrids are widely used in agriculture, these species are considered the optimal grass species for intensive forage production. Lolium species are susceptible to abiotic stress, which has an increasing trend with the forthcoming climate change. Therefore, Festulolium interspecies hybrids have been bred, which have suitable parameters (drought resistance, ability of roots to penetrate through the compacted soil layers, better nutrient availability, etc.) to ensure a quality production and performance of other ecosystem services. Root biomass and root architecture are critical for meeting a number of ecosystem functions. In this work, I focused on the evaluation of the root system and the comparison of the soil infiltration capacity in selected Graminacae species. To compare selected parameters, grasses were grown in tubes filled with sand. Lolium multiflorum (cv. DALLARA), Festuca pratensis (cv. HYPERBOLA), Festulolium braunii (cv. HOSTYN), Festulolium krasanii (cv. HYKOR and HIPAST), Festulolium loliaceum (cv. PRIOR) and Trifolium pratense (cv. CALLISTO) species have been tested. The parameters evaluated were following: plant length, number of tillers, maximum rooting depth, total root length, root volume, root surface, root length in single thickness categories, dry matter of above-ground and underground biomass. The highest values were measured in Lolium multiflorum (cv. DALLARA) and in Festulolium braunii (cv. HOSTYN). Another part of the work was the sampling and evaluating roots from the soil on experimental plots in Vatín. In this measurement, Festuca rubra (cv. GONDOLIN) and Festulolium krasanii (cv. HYKOR) were selected. There were not found statistically significant differences in the total root length, root surface and root volume parameters. Festulolium (cv. HYKOR) had significantly stronger roots in the comparison to Festuca rubra. The last part of the research was the comparison of the soil infiltration capacity in these species: Festuca rubra (cv. GONDOLIN) and Festulolium (cv. HOSTYN, PRIOR and HYKOR). The highest infiltration capacity was measured on the Festulolium loliaceum (cv. PRIOR) plot.
Identifer | oai:union.ndltd.org:nusl.cz/oai:invenio.nusl.cz:427730 |
Date | January 2019 |
Creators | Dostál, Jiří |
Source Sets | Czech ETDs |
Language | Czech |
Detected Language | English |
Type | info:eu-repo/semantics/masterThesis |
Rights | info:eu-repo/semantics/restrictedAccess |
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