The vegetative and reproductive development of balansa clover

Monks, D. P.

January 2009

The vegetative and reproductive development of balansa clover (Trifolium michelianum Savi.) were quantified in relation to the environmental drivers of each phenophase in field and controlled environments. In a grazed experiment over 6 years, balansa clover sown with cocksfoot (Dactylis glomerata) contributed 1.6 t DM/ha/year, or ~20% of the total DM production. However, grazing management for increased seed production during flowering in the establishment year strongly influenced balansa clover regeneration. The earliest closed plot (September) averaged between 2.2 and 4.3 t DM/ha/year of balansa clover across all six years. In an incubator, balansa clover required 29°Cd for germination with an optimum temperature of 14°C and a maximum of 40°C. The base temperature for germination was 0°C. A field experiment determined that 38°Cd were required for emergence with an optimum soil temperature (Topt) of 8.5°C. The time from emergence until the first leaf appeared, the phyllochron and timing of axillary leaf appearance were compared with perennial ryegrass (Lolium perenne) and white clover (Trifolium repens L.). The rate of each was found to increase linearly with temperature. The balansa clover cultivar ‘Frontier’ required 97°Cd from sowing for the first leaf to appear, had a phyllochron of 47°Cd and secondary leaves appeared after 490°Cd. For each vegetative stage, the base temperature was 2.5°C. The timing of flower appearance depended on the quantity and direction of change of the photoperiod at emergence. A balansa clover plant, cv. ‘Bolta’, which emerged on 1 December into an increasing photoperiod of 15.6 hours flowered after 574°Cd (Tbase = 2.5°Cd) or 58 days after emergence. In contrast, if the plant emerged on 16 January into a similar but decreasing photoperiod it took 1503°Cd or 227 days to flower. This length of time became progressively shorter until remaining constant after the shortest day. In contrast, ‘Frontier’ took a constant 390 and 690 °Cd in increasing and decreasing photoperiods, respectively. The time which an individual inflorescence took from pollination until seeds were physiologically mature was 250 °Cd for both ‘Bolta’ and ‘Frontier’. The re-establishment of balansa clover each year relied on a large seed set (>1000 kg/ha) in the establishment year. The continued survival of balansa clover would then depend on a similar seeding event within a 4-5 year period to maintain the seed bank. Management considerations for balansa clover persistence and survival are discussed.

Dactylis glomerata

day degrees

dryland

establishment

leaf area

mixed pastures

temperature

Vegetace ve městě - hodnocení časových změn vlivu vegetačního krytu na místní klima pomocí metod dálkového průzkumu Země / Urban vegetation - temporal analysis of urban vegetation impact on local climate using remote sensing

PAVLÍČKOVÁ, Lenka

January 2018

The urban heat island (UHI) is a phenomenon of noticeably higher temperatures in the cities as compared to their respective surrounding areas. This thesis aims at characterizing the influence of city expansion to the urban heat island phenomenon. The study is carried out in a city of Caceres in the Spanish province of the same name. A model input data is obtained with Landsat multispectral images. The analysis of satellite images shows that functional vegetation cover and water surfaces help in mitigating urban heat island effect. However, the Caceres city expansion does not influence the urban heat island intensity. A possible explanation for it is as the city expanded the ratio of vegetation to dry land remains constant in time.

Československá informační politika v 70. a 80. letech 20. století - projekt ÚTZ a vývoj jeho realizace / Information policy in Czechoslovakia in the 70's and 80's the 20th century - ÚTZ project development and realization

Císařová, Iveta

January 2011

This work disserts upon information policy in Czechoslovakia in the 70`s and 80`s the 20th century. It concerns with program of national information policy for scientific and technical development P18 and P13 and its partial aims and tasks. It enters into details of activities of Central technical base, its services and functions in four five-year plans of national economy. It analyses System of Central technical base and its individual modules. It follows development of computer technique and information transfer technology. It concerns with International system of scientific and technical information and cooperation between countries of Council for Mutual Economic Assistance in connection with Central technical base (for example: information line Moscow-Prague-Vienna). This work is devoted to Center of computerized information exchange which negotiates a connection to countries in soviet area and also connection to capitalistic vendors. At the end there is a short part about development after 1990.