Authors:Árpád Illés, Csaba Bojtor, Seyed Mohammad Nasir Mousavi, L. Csaba Marton, Péter Ragán, and János Nagy
) ( Gombos & Nagy, 2019 ). In the scope of the experiment, in 2019 three maize ( Zea mays L.) hybrids with different maturity groups like H1 = FAO 400, H2 = FAO 330, H3 = FAO 490 were studied in long-termexperiment, where the environment promotes the large
Different long-term experiments were carried on chernozem (Debrecen) and loamy (Hajdúböszörmény) soils. They included the most important agrotechnical, biological (hybrid) and agroecological (crop year, soil) factors in maize production. This paper evaluated the results of polyfactorial long-term experiments. For the maize the most favourable crop rotation was winter wheat (in a tri-culture) with an N 60–120, P2O5 60–70, K2O and 90–110 kg ha−1, and a density of 75–90,000 plants ha−1. The different input levels of maize crop management systems can modify an adaptive capacity to ecological conditions and the resilience of agro-ecosystems. The optimalization of agrotechnical elements reduces the harmful climatic effects. The yields of maize varied between 2–11 t ha−1 in extensive and 10–15 t ha−1 in intensive crop management systems, respectively.
Main aim of this paper is to illustrate the experimental partial results of a study on various exterior wall fragments. The study was performed for selected wall fragments and time periods, with attention focused also on wall orientation (East and South) with identical layering and also on dynamic thermal parameters connected to the thermal comfort during summer and winter. Evaluation is done for real measured climate conditions in the area of experimental laboratory (exterior – University of Zilina) and interior conditions set according to the Slovak standard. For needs of the long-term experiment (since March 2017), temperature and relative humidity between layers are monitored. This paper deals specifically with the temperature measurement of selected days. For future publications also coupled heat-air-moisture transport analysis is intended. In this part of analysis, some extreme boundary conditions were selected and reviewed from the point of view of measured temperature inside the wall. Temperature peaks are characterized with respect to exposure to real atmospheric conditions.
Authors:Á. Illés, Cs. Bojtor, A. Széles, S.M.N. Mousavi, B. Tóth, and J. Nagy
maize ( Zea mays L.) hybrids of different genotypes (Hybrid 1: FAO 400, Hybrid 2: FAO 490, Hybrid 3: FAO 380). The long-termexperiment started 1986 and has been running with unchanged nutrient supplementation since then. We measured the MDA levels of
Authors:Gellért Sipos, Tamás Bihari, Dorottya Milánkovich, and Ferenc Darvas
several minutes. In case of long-termexperiments, one can use satellites or on-board testing on the ISS is possible.
CO 2 Conversion and Continuous-Flow Photochemistry
The availability of sufficient and