Most dairy production systems are pasture-based, usually consisting of sole grass species. This system facilitates pasture management, but results in high production costs, mainly because of nitrogen fertilizers. An alternative to making forage systems more sustainable is to introduce legumes into the pasture. Mixed pastures allow better forage distribution over time and reduce fertilization costs. Thus, the objective of this study was to evaluate, throughout the year, three forage systems (FS): FS1 (control) - elephant grass (EG), ryegrass (RG), and spontaneous species (SS); FS2 - EG + RG + SS + arrowleaf clover; and FS3 - EG + RG + SS + forage peanut. Elephant grass was planted in rows spaced 4 m apart. Ryegrass was sown between the EG lines, in the winter. Arrowleaf clover was sown according to the respective treatments and forage peanut was preserved. Evaluation was carried out using Holstein cows. The experiment was arranged in a completely randomized design, with three treatments (FS), and three repetitions (paddocks) with repeated measurements (grazing cycles). Forage mass achieved 3.46, 3.80, and 3.91 t ha-1 for the treatments FS1, FS2 and FS3, respectively. The forage systems intercropped with legumes produced the best results.
RESUMO Esta pesquisa foi conduzida com o objetivo de avaliar a produtividade de dois genótipos de trigo de duplo propósito, BRS Tarumã e BRS Umbu, submetidos ao pastejo com vacas em lactação. O delineamento experimental foi o inteiramente ao acaso, com dois tratamentos (genótipos), três repetições (piquetes) e medidas repetidas no tempo (pastejos). Avaliaram-se a precocidade, a composição estrutural dos trigos, as produções de forragem e de biomassa de lâminas foliares, as taxas de acúmulo diário de forragem e de lâminas foliares, a taxa de lotação, as ofertas de forragem e de lâminas foliares, a eficiência de pastejo, o consumo aparente e a produção de grãos. O trigo mais precoce para produção de forragem foi o BRS Umbu. Houve diferença para a produção de forragem (3196 vs. 4143kg MS/ha) e de lâminas foliares (2281 vs. 3205kg MS/ha) para os genótipos BRS Umbu e BRS Tarumã, respectivamente. Valores similares foram encontrados para taxa de lotação (2,26UA/ha); eficiência de pastejo (52,26%), consumo aparente (2,91%) e produção de grãos (1716kg/ha). O genótipo BRS Tarumã é o mais indicado para o manejo de duplo propósito em condições de pastejo com vacas em lactação. Palavras-chave: cereais de inverno, forragem, grãos, Triticum aestivum ABSTRACT The objective of this research was to evaluate the productivity of two dual-purpose wheat genotypes BRS Tarumã and BRS Umbu under grazing with lactating cows. The experimental design was completely randomized, with two treatments, three replications (paddocks) and repeated measures (grazing cycles).Studied variables were early growth, the structural composition of wheat, forage production, leaf blade biomass, the stocking rate, the herbage and leaf blade allowance, the grazing efficiency, the herbage intake and grain yield. The earliest genotype for forage production was the BRS Umbu. Differences in herbage yield between BRS Umbu and BRS Tarumã genotypes (3196 vs. 4143kg DM/ha)
RESUMO Objetivou-se com este trabalho avaliar a taxa de produção de forragem e o valor nutritivo da Coastcross-1, inoculada com Azospirillum brasilense, fertilizada com diferentes doses de N e submetida ao regime de corte. O delineamento experimental foi o de blocos ao acaso, com três repetições, em esquema fatorial. Os fatores foram o uso da inoculação (não inoculada, inoculada somente no plantio e reinoculada no segundo ano), níveis de N (0, 100 e 200kg/ha/ano de N) e os períodos do ano. Avaliaram-se a taxa de produção e a composição botânica da forragem, a composição morfológica, o teor de proteína bruta, a digestibilidade in situ da matéria orgânica e os nutrientes digestíveis totais da Coastcross-1. A inoculação, quando não associada ao adubo nitrogenado, ocasionou aumento na taxa de produção de forragem, na participação da Coastcross-1 e na produção de nutrientes digestíveis totais. Houve redução nos teores de proteína bruta da Coastcross-1, quando a gramínea adubada com 200kg/ha/ano de N foi inoculada. A inoculação tem efeito positivo na Coastcross-1 não submetida à adubação nitrogenada.
Three pasture-based systems (PS) with bermuda grass (BG) + forage peanut + 75 kg of N ha-1; BG + common vetch + 75 kg of N ha-1 and BG + 150 kg of N ha-1 were evaluated. Lactating Holstein cows were used for evaluation and the experimental design was completely randomized. Forage mass, botanical and structural composition, daily dry matter accumulation rate and stocking rate were evaluated. Samples were collected by hand-plucking method to analyze crude protein (CP), neutral detergent fiber (NDF), (ISDMD), in situ organic matter digestibility (ISOMD) and total digestible nutrients (TDN). Average forage production and stocking rate were 13.8; 15.3 and 16.1 t ha-1 and 5.6; 6.4 and 5.5 UA ha-1 day-1 for PS respectively. Average CP and NDF were 16.4; 22.2 and 15.3%; 68.3; 65.7 and 66.3%; for ISDMD, ISOMD and TDN were 68.5; 70.3 and 66.4%; 64.3; 63.2 and 65.3%; 57.3; 58.3 and 57.5%, for PS respectively. Best results were reported on bermuda grass mixed with common vetch.
Three grazing systems with Coastcross-1 bermuda grass (CC) + 100 kg N ha-1 year-1 + common vetch; CC + 100 kg N ha-1 year-1 + arrowleaf clover; and CC + 200 kg N ha-1 year-1 were evaluated. Thirteen grazing cycles were performed during the experimental period (313 days), with two, five, four and two cycles respectively in winter, spring, summer and fall. Lactating Holstein cows were used in the evaluation. Daily accumulation rate, forage production, rate of forage disappearance, agronomic intake, grazing efficiency, herbage allowance and stocking rate were evaluated. Mean rates of forage yield and stocking rate were 20.8; 17.6 and 19.7 t DM ha-1 and 7.0; 6.8 to 6.8 animal units ha-1 day-1 for the respective forage systems. The mixture Coastcross-1 plus common vetch, fertilized with 100 kg N ha-1 year-1 and Coastcross-1 fertilized with 200 kg N ha-1 year-1 provided greater productivity and better distribution of forage throughout the seasons.
Elephant grass (EG) (Pennisetum purpureum Schum.) have great importance in tropical and subtropical climates, especially on dairy farms. Normally, EG is established alone under high fertilization levels. EG in organic production system can improve low production costs and environmental issues, are still little known. The aim of this research was to evaluate the performance of herbage yield, nutritive value, extraction/ export nutrient and forage yield and animal responses. Three production systems of EG were analyzed: (i) EG mixed spontaneous-growing species (SGE) in warm-season and ryegrass (R) in cool-season under organic production; (ii) EG mixed SGE + R under conventional system (positive control); and (iii) EG based under conventional production (control). Holstein cows were used in a rotational stocking. Forage samples were collected to evaluate the pasture and animal responses. Seven grazing cycles were performed during the experimental period (312 days). Herbage yield, forage intake, and stocking rate were 12548; 10270; 19168 kg ha -1 and 2.5; 2.6; 2.7% and 3.3; 2.1; 4.5 AU ha -1 day -1 , respectively. Crude protein of EG was 17.9; 15.4; 16.4%, respectively. Mixed pastures, in conventional and organic production, had a better forage distribution throughout the seasons. Highest forage yield and extraction/ export nutrient was reported in pure EG within the conventional system.
Forage-legume systems are a sustainable and competitive alternative for improving pasture yield and quality because of the symbiotic nitrogen fixation capacity and high nutritional value of legumes. This study aimed to evaluate the forage mass, nutritional value, and nutrient export rate in three forage systems (FS): FS1, with elephant grass (Pennisetum purpureum) (EG), annual ryegrass (Lolium multiflorum) (AR), and spontaneous growth species (SGS); FS2, with EG + AR + SGS + arrowleaf clover (Trifolum vesiculosum); and FS3, with EG + AR + SGS + forage peanut (Arachis pintoi). The experiment was arranged in a completely randomized design, with three replicates, and repeated measures over time. Results of pre-grazing forage mass were 3.5, 3.8, and 3.9 t/ha, and crude protein export were 1.4, 2.1, and 2.3 t/ha, for the treatments FS1, FS2 and FS3, respectively. Highest crude protein, in situ dry matter digestibility and total digestible nutrients, and lowest neutral detergent fiber were found in the intercropping system with forage peanut, especially in winter. Nutritional values were also better in legume-systems than the non-legume system.
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