Resumo
The research was conducted to determine forage yield and some quality characteristics of Hungarian vetch + triticale mixture, sowed in five different times under rainfed conditions of Central Anatolia, Turkey. The mixture was sowed in the second, third and fourth week of October, and the first and the second week of November in 2017 and 2018. Depending on the sowing times, plant height (PH) of Hungarian vetch and triticale was between 46.7 and 59.4 cm, and 85.9 and 93.4 cm, respectively. Green forage yield (GFY) was between 1746.2 and 2059.4 kg da-1, dry matter yield (DMY) was between 541.0 and 707.6 kg da-1, crude protein yield (CPY) was between 80.4 and 110.3 kg da-1, digestible dry matter yield (DDMY) was between 340.8 and 453.9 kg da-1, acid detergent fiber (ADF) ratio was between 31.8 and 33.7%, neutral detergent fiber (NDF) ratio was between 44.7 and 49.5%, total digestible nutrient (TDN) was between 57.9 and 60.4% and relative feed value (RFV) was between 118.6 and 133.8. Sowing time had a significant effect (P < 0.05) on PH of triticale, while it has a very significant effect (P < 0.01) on GFY, DMY, CPY, DDMY, NDF ratios and RFV. Delaying the sowing time caused a decrease in the GFY, DMY and quality of the mixture. Results revealed that the first week of October is the most appropriate sowing time to obtain high dry matter yield with high quality under continental climate conditions of the Central Anatolia.
A pesquisa foi conduzida para determinar a produção de forragem e algumas características de qualidade da mistura de ervilhaca húngara + triticale, semeada em cinco épocas diferentes em regime de sequeiro na região Central da Anatólia, Turquia. A mistura foi semeada na segunda, terceira e quarta semanas de outubro, e na primeira e segunda semanas de novembro de 2017 e 2018. Dependendo da época de semeadura, a altura da planta (PH) da ervilhaca e triticale húngara foi entre 46,7 e 59,4 cm e 85,9 e 93,4 cm, respectivamente. O rendimento de forragem verde (GFY) ficou entre 1746,2 e 2059,4 kg da-1, o rendimento de matéria seca (DMY) foi entre 541,0 e 707,6 kg da-1, o rendimento de proteína bruta (CPY) foi entre 80,4 e 110,3 kg da-1, digestível seco o rendimento de matéria (DDMY) estava entre 340,8 e 453,9 kg da-1, a proporção da fibra em detergente ácido (FDA) estava entre 31,8 e 33,7%, a proporção da fibra em detergente neutro (FDN) estava entre 44,7 e 49,5%, o nutriente digestível total (NDT) era entre 57,9 e 60,4% e o valor relativo da alimentação (RFV) foi entre 118,6 e 133,8. A época de semeadura teve um efeito significativo (P < 0,05) no PH do triticale, enquanto teve um efeito muito significativo (P < 0,01) nas relações GFY, DMY, CPY, DDMY, FDN e RFV. O atraso na semeadura ocasionou diminuição no GFY, DMY e na qualidade da mistura. Os resultados revelaram que a primeira semana de outubro é a época de semeadura mais adequada para a obtenção de alta produtividade de matéria seca com alta qualidade nas condições climáticas continentais da Anatólia Central.
Assuntos
Sementes , Vicia/crescimento & desenvolvimento , Triticale/crescimento & desenvolvimento , Turquia , 24444Resumo
The spatial variability of soil organic matter, plant water availability, and soil nitrogen (N) availability are drivers of crop response to mineral N fertilizer. The complex interaction of these factors is responsible for within-field corn and wheat yield variability. The hairy vetch (HV) cover crop is an economic, environmentally friendly, and efficient N source capable of conciliating crop yield and soil health. Nevertheless, the HV effects to mitigate yield gap of management zone (MZ) have not yet been documented. This study evaluated the effects of HV and mineral N fertilization, in single or combined input, on alleviating crop yield gap. The study was carried out in two croplands southern Brazil. The experimental design was a complete randomized block in a split plot having MZ (high, medium, and low yield) and N fertilizer rates. Wheat and corn N uptake and grain yield had a quadratic adjustment with N fertilizer input, but there was a significant MZ effect, where low yield zone (LYZ) was less responsive. Consequently, mineral N fertilization as a single input to mitigate the yield gap in this MZ was not efficient. On the other hand, HV increased corn N uptake and grain yield mainly in LYZ compared to MYZ and HYZ. HV fully mitigated the yield gap between MYZ and HYZ. The combined use of HV and mineral N fertilization rate adjusted according to N legume credit and MZ was an efficient strategy to boost yield, favoring soil health and environmental protection.
Assuntos
Vicia/crescimento & desenvolvimento , Fertilizantes , Nitrogênio , Triticum , 24444 , Zea maysResumo
O estande de plantas é um dos principais componentes do rendimento que altera a produtividade das culturas, maximizando o ambiente produtivo para a cultura. Nesse sentido, objetivou-se com este trabalho avaliar a produção de forragem e a composição química de duas espécies de ervilhaca em diferentes densidades de semeadura. O experimento foi conduzido no ano de 2011, em área experimental do Departamento de Fitotecnia da Universidade Federal de Santa Maria, Rio Grande do Sul. Os tratamentos constaram de duas espécies de ervilhaca (ervilhaca peluda e ervilhaca comum) em quatro densidades de semeadura (50, 100, 150 e 200 sementes m-2). O delineamento experimental utilizado foi o de blocos ao caso, disposto em fatorial (2x4), em quatro repetições. Os valores de FDA aumentaram conforme o aumento da densidade de semeadura, o que não ocorreu para as demais características bromatológicas avaliadas. A densidade ótima de semeadura deve ser ajustada conforme a espécie e o corte, variando de 66 a 200 sementes viáveis por metro quadrado. A produção de massa seca total é maximizada quando a densidade de semeadura for de 136 sementes viáveis m-2 .(AU)
The plant stand is one of the main yield components amending crop productivity, maximizing productive environment for culture. In this sense the objective with this study was to evaluate forage production and chemical composition of two cultivars of common vetch at different densities. The experiment was conducted in 2011, in an area of the Crop Science of the Department of the Federal University of Santa Maria, Rio Grande do Sul. Treatments consisted of two genotypes of vetch (hairy vetch and common vetch) at four seeding rates (50, 100, 150 and 200 seeds m-2). The experimental design was a randomized blocks design, arranged in (2x4) factorial design with four replications. The ADF values increased with increasing seeding rate, which did not occur for the other qualitative characteristics evaluated. The optimum seeding rate should be adjusted according to the cultivar and cutting, ranging 66-200 viable seeds per square meter. The total dry matter production is maximized when the seeding rate is 136 seeds m-2 .(AU)