ABSTRACT
The extension of the area occupied by the inter tussock stratum and tussock stratum in natural pastures is essential for the productive performance of grazing animals. Images obtained from unmanned remote sensors can provide useful information, especially because they have a high spatial resolution. Thus, this study evaluated the performance of the supervised adaptive classification applied to aerial images obtained from an onboard drone camera to map the area covered by tussocks in a natural pasture of the Pampa biome. The study was carried out in a natural pasture area managed since 1986 under different forage allowances, considering treatments of 8, 12, and 16 kg of dry matter per 100 kg live weight (% LW). An aerial image from September 2017, obtained with a Canon S100 camera onboard a drone at an altitude of 120 m, with a spatial resolution of 5 cm, was used. The random forest and support vector machine classifiers were tested associated with specific classification rules. False-color images showed considerable visual similarity in the large patterns of the vegetation distribution and the validation performed with independent samples when compared to the classified images. The tested classifiers were able to measure the area covered by the tussock stratum, which could be an indicator of the quality vegetation in a natural grassland of the Pampa biome.
A quantidade de área ocupada por estrato inferior e superior em pastagens naturais tem grande importância sobre o desempenho produtivo dos animais em pastejo. Imagens obtidas de sensores remotos não tripulados podem fornecer informações úteis, especialmente por possuírem alta resolução espacial. O objetivo deste trabalho foi avaliar o desempenho de classificação supervisionada adaptativa aplicada a imagem aérea obtida por câmera a bordo de drone, no mapeamento da área coberta por touceiras em pastagem natural do bioma Pampa. O estudo foi realizado em área de pastagem natural, manejada desde 1986 sob diferentes ofertas de forragem, tendo sido considerados os tratamentos 8, 12 e 16 kg de matéria seca por 100 kg de peso vivo (% PV). Foi utilizada uma imagem aérea, de setembro de 2017, obtida com uma câmera Canon S100, a bordo de um drone a 120 m de altitude, correspondendo a resolução espacial de 5 cm. Foram testados dois classificadores, Random Forest e Support Vector Machine associados a regras específicas de classificação. As imagens de falsa cor, quando comparadas às imagens classificadas, apresentaram considerável semelhança visual nos grandes padrões de distribuição da vegetação, bem como na validação feita com amostras independentes. Os classificadores testados foram capazes de mensurar a área coberta por estrato superior, podendo ser um indicador da qualidade da vegetação, em pastagem natural do bioma Pampa.
Subject(s)
Pasture , Classification , Remote Sensors , Unmanned Aerial DevicesABSTRACT
ABSTRACT: The extension of the area occupied by the inter tussock stratum and tussock stratum in natural pastures is essential for the productive performance of grazing animals. Images obtained from unmanned remote sensors can provide useful information, especially because they have a high spatial resolution. Thus, this study evaluated the performance of the supervised adaptive classification applied to aerial images obtained from an onboard drone camera to map the area covered by tussocks in a natural pasture of the Pampa biome. The study was carried out in a natural pasture area managed since 1986 under different forage allowances, considering treatments of 8, 12, and 16 kg of dry matter per 100 kg live weight (% LW). An aerial image from September 2017, obtained with a Canon S100 camera onboard a drone at an altitude of 120 m, with a spatial resolution of 5 cm, was used. The random forest and support vector machine classifiers were tested associated with specific classification rules. False-color images showed considerable visual similarity in the large patterns of the vegetation distribution and the validation performed with independent samples when compared to the classified images. The tested classifiers were able to measure the area covered by the tussock stratum, which could be an indicator of the quality vegetation in a natural grassland of the Pampa biome.
RESUMO: A quantidade de área ocupada por estrato inferior e superior em pastagens naturais tem grande importância sobre o desempenho produtivo dos animais em pastejo. Imagens obtidas de sensores remotos não tripulados podem fornecer informações úteis, especialmente por possuírem alta resolução espacial. O objetivo deste trabalho foi avaliar o desempenho de classificação supervisionada adaptativa aplicada a imagem aérea obtida por câmera a bordo de drone, no mapeamento da área coberta por touceiras em pastagem natural do bioma Pampa. O estudo foi realizado em área de pastagem natural, manejada desde 1986 sob diferentes ofertas de forragem, tendo sido considerados os tratamentos 8, 12 e 16 kg de matéria seca por 100 kg de peso vivo (% PV). Foi utilizada uma imagem aérea, de setembro de 2017, obtida com uma câmera Canon S100, a bordo de um drone a 120 m de altitude, correspondendo a resolução espacial de 5 cm. Foram testados dois classificadores, Random Forest e Support Vector Machine associados a regras específicas de classificação. As imagens de falsa cor, quando comparadas às imagens classificadas, apresentaram considerável semelhança visual nos grandes padrões de distribuição da vegetação, bem como na validação feita com amostras independentes. Os classificadores testados foram capazes de mensurar a área coberta por estrato superior, podendo ser um indicador da qualidade da vegetação, em pastagem natural do bioma Pampa.
ABSTRACT
Understanding the grazing process and animal response to sward structures (e.g., sward height) is key to setting targets for efficient grazing management. We hypothesized that the short-term intake rate (STIR) of dry matter (DM) and digestible organic matter (OM) by dairy heifers is maximized with Kikuyu grass (Cenchrus clandestinus-Hochst. ex Chiov.) of intermediate sward heights. The treatments consisted of five pre-grazing sward heights (10, 15, 20, 25, and 30 cm) randomly assigned to two of ten paddocks. The experimental design included two measurements of each paddock at different periods and times of day. Three Holstein heifers (440 ± 42 kg body weight) were used to determine the STIR, which was estimated using the double-weighing technique with correction for insensible weight losses. The bite mass (BM), bite rate (BR), sward structural characteristics, and nutritional value of herbage samples were assessed. The data were analyzed using mixed models with a factorial arrangement of five sward heights, two times of day, and two evaluation periods. The sward height of Kikuyu grass that maximized both STIRs was approximately 20 cm. The STIR of the DM was 30% and 15% lower than the maximum in the shortest and tallest swards tested, respectively. In swards shorter than 20 cm, the STIR was lower because the BM decreased with sward height, whereas in those greater than 20 cm, the lower BM and STIR of DM was explained by a decrease in bulk density and bite volume. The top stratum was composed mainly of highly digestible leaf blades with similar nutrient content across sward heights; therefore the STIR of digestible OM was also maximized at 20 cm. Hence, the optimal pre-grazing sward height of Kikuyu grass should be managed at 20 cm under rotational stocking systems to maximize nutrient intake rate of dairy heifers.
Subject(s)
Cenchrus , Pennisetum , Animal Feed/analysis , Animals , Cattle , Diet/veterinary , Eating/physiology , Energy Intake , Female , Nutritive Value , SeasonsABSTRACT
In the last decades, population growth worldwide boosts agricultural demand for food production. This huge driver rendered global food production more and more specialized, so agricultural landscapes became uniform and monotonic. The loss of diversity is a strong evidence of how modern agricultural landscapes have been disconnecting from nature. Evidence of environmental side-effects from this pathway are abundant in literature. Now, society is pressing towards changing practices aiming for healthy diets and sustainable food production systems. This raises the question: how to reconnect nature and agriculture in the context of future food production? In this review we propose a reconnection process based on the principles of ecological intensification or sustainable intensification. The integrated crop-livestock systems (ICLS) are the most consolidated technological pathway to reconcile crop production with natural processes. These systems are diverse and can partially mimic natural ecosystems exploring the synergies of natural biological processes, while achieving high levels of food production. ICLS promote soil improvements and mitigate greenhouse gas (GHG) emissions, reducing the agricultural share of global warming and climate change. Besides, these systems are more efficient in the use of nutrients and can optimize the use of other inputs such as pesticides. We present evidence of soil health and biogeochemical cycle restoration in addition to system stability improvement, and assume those symptoms as evidence of mixing crops and livestock fostering reconnection with natural processes.(AU)
Subject(s)
Agribusiness/methods , Systems Integration , Sustainable Development Indicators , Animal Husbandry/methods , Ecological DevelopmentABSTRACT
We aimed to evaluate the effect of different grazing management strategies on carcass characteristics traits, meat quality and CH4 intensity and yield of lambs grazing Italian ryegrass pastures in Southern Brazil. A grazing trial was performed (2014 and 2015) in a randomized complete block design with two grazing management targets and four replicates. Treatments were traditional rotational stocking (RT), with pre- and post-grazing sward heights of 25 and 5 cm, respectively, and 'Rotatinuous' stocking (RN), with pre- and post-grazing sward heights of 18 and 11 cm, respectively. Castrated crossbred Texel and Polwarth lambs were used. Results indicated that diet cost per kg of dry matter (p = 0.001) and per hectare (p < 0.001) were lower for RN than for RT treatment. Final live weight (p = 0.022) and hot and cold carcass weight (p = 0.006) were greater for the RN treatment. All commercial cuts were greater for RN than for RT treatment. The RN treatment presented greater (p < 0.001) production of carcass, edible food and crude protein. Feed efficiency and feed cost conversion were better for RN than for RT treatment. CH4 intensity per kg of carcass, edible food and crude protein gain were 2.6, 2.7 and 2.1 times lower (p < 0.001) for RN. Moreover, CH4 yield was lower (p = 0.014) for RN than for RT treatment, with an average of 7.6 and 8.3% of the gross energy intake, respectively. We conclude that the 'Rotatinuous' stocking results in a greater carcass production, carcass quality and lower diet cost, and CH4 intensity and yield of grazing lambs. Adopting this grazing management strategy could enhance both lamb production and mitigation of CH4 intensity and yield in grazing ecosystems, which could be considered a good example of climate-smart livestock production.
Subject(s)
Animal Feed , Lolium , Animal Feed/analysis , Animals , Brazil , Climate , Diet , Ecosystem , SheepABSTRACT
In the last decades, population growth worldwide boosts agricultural demand for food production. This huge driver rendered global food production more and more specialized, so agricultural landscapes became uniform and monotonic. The loss of diversity is a strong evidence of how modern agricultural landscapes have been disconnecting from nature. Evidence of environmental side-effects from this pathway are abundant in literature. Now, society is pressing towards changing practices aiming for healthy diets and sustainable food production systems. This raises the question: how to reconnect nature and agriculture in the context of future food production? In this review we propose a reconnection process based on the principles of ecological intensification or sustainable intensification. The integrated crop-livestock systems (ICLS) are the most consolidated technological pathway to reconcile crop production with natural processes. These systems are diverse and can partially mimic natural ecosystems exploring the synergies of natural biological processes, while achieving high levels of food production. ICLS promote soil improvements and mitigate greenhouse gas (GHG) emissions, reducing the agricultural share of global warming and climate change. Besides, these systems are more efficient in the use of nutrients and can optimize the use of other inputs such as pesticides. We present evidence of soil health and biogeochemical cycle restoration in addition to system stability improvement, and assume those symptoms as evidence of mixing crops and livestock fostering reconnection with natural processes.
Subject(s)
Agribusiness/methods , Animal Husbandry/methods , Sustainable Development Indicators , Systems Integration , Ecological DevelopmentABSTRACT
Sustainable intensification of land-use practices has never been more important to ensure food security for a growing world population. When combined under thoughtful management, cover cropping and crop-livestock integration under no-till systems can benefit from unexpected synergies due to their unique features of plant-animal diversification and complex agroecosystem functions. Mimicking the nutrient coupling/decoupling processes of natural ecosystems by diversifying plant and animal components of no-till integrated crop-livestock operations is an essential feature of the design of agroecological systems that support self-regulating feedbacks and lend resilience while increasing productivity and ecosystem service provision. Focusing on grazing animals as drivers of agroecosystem change, we highlight the benefits of grazed cover crops in rotation with cash crops for primary and secondary production and for soil physical, chemical, and biological parameters. However, careful management of grazing intensity is imperative; overgrazing drives soil deterioration, while light to moderate grazing enhances overall system functioning and allows for the generation of emergent properties.
Subject(s)
Crops, Agricultural , Ecosystem , Livestock , Animals , Herbivory , Soil/chemistry , Sustainable DevelopmentABSTRACT
This paper aims to discuss the impact of the introduction of pastures and grazing animals in agricultural systems. For the purposes of this manuscript, we focus on within-farm integrated crop-livestock systems (ICLS), typical of Southern Brazil. These ICLS are designed to create and enhance the synergisms and emergent properties have arisen from agricultural areas where livestock activities are integrated with crops. We show that the introduction of the crop component will affect less the preceding condition than the introduction of the livestock component. While the introduction of crops in pastoral systems represents increasing diversity of the plant component, the introduction of animals would represent the entry of new flows and interactions within the system. Thus, given the new complexity levels achieved from the introduction of grazing, the probability of arising emergent properties is theoretically much higher. However, grazing management is vital in determining the success or failure of such initiative. The grazing intensity practiced during the pasture phase would affect the canopy structure and the forage availability to animals. In adequate and moderate grazing intensities, it is possible to affirm that livestock combined with crops (ICLS) has a potential positive impact. As important as the improvements that grazing animals can generate to the soil-plant components, the economic resilience remarkably increases when pasture rotations are introduced compared with purely agriculture systems, particularly in climate-risk situations. Thus, the integration of the pastoral component can enhance the sustainable intensification of food production, but it modifies simple, pure agricultural systems into more complex and knowledge-demanding production systems.(AU)
Subject(s)
24444 , PastureABSTRACT
Avaliaram-se os efeitos de níveis de correção da fertilidade do solo (testemunha, calagem, adubação e calagem + adubação) e da idade de rebrota (21, 28, 35, 42, 49, 56, 63, 70, 77 e 84 dias) sobre a dinâmica de crescimento e rendimento de forragem de Trachypogon plumosus em Roraima. O aumento da idade de rebrota resultou em maiores rendimentos de matéria seca (MS), taxa absoluta de crescimento (TAC), taxa de assimilação líquida (TAL), razão de área foliar (RAF) e índice de área foliar (IAF), ocorrendo o inverso quanto à taxa média de crescimento (TMC). A gramínea mostrou-se responsiva à melhoria da fertilidade do solo. A calagem + adubação ou a adubação proporcionaram maiores rendimentos de MS (1.934 e 1.661 kg ha-1), TAC (36,6 e 31,5 kg ha-1 dia-1), TMC (32,5 e 27,9 kg ha-1 dia-1), TAL (4,993 e 4,152 g/m2), RAF (152,9 e 140,9 cm2/g) e IAF (2,42 e 2,14). Para otimizar a eficiência de utilização da forragem produzida e reduzir perdas por senescência da gramínea, o período mais adequado de sua utilização, durante o período chuvoso, situa-se entre 56 e 63 dias com o uso de adubação e calagem + adubação e entre 63 a 70 dias para a testemunha e a calagem
We assessed the effects of levels of soil fertility correction (control, liming, fertilization and liming + fertilization) and of regrowth ages (21, 28, 35, 42, 49, 56, 63, 70, 77, and 84 days) on growth dynamic and forage yield of Trachypogon plumosus in the Roraima´s savannas. Dry matter (DM) yields, absolute growth rate (AGR), net assimilation rate (NAR), and leaf area ratio (LAR) increased consistently with regrowth age, while the crop growth rate (CGR) was inversely proportional to regrowth age. The grass showed high responsivity to soil fertility improvement. Liming + fertilization or fertilization alone provided higher DM yields (1,934 and 1,661 kg ha-1), AGR (36.6 and 31.5 kg ha-1.day), CGR (32.5 and 27.9 kg ha-1.day), NAR (4.993 e 4.152 g/m2), LAR (152.9 and 140.9 cm2/g), and LAI (2.42 and 2.14). Regrowth intervals of 56 to 63 days for liming + fertilized and fertilized pastures, and 63 to 70 days for control or liming pastures were appropriate to provide maximum forage yields, growth rates and to prevent larger losses relative to senescence and leaf death
Subject(s)
Manure/analysis , Pasture/analysis , Poaceae/growth & development , Soil Treatment/methods , Crops, Agricultural/growth & developmentABSTRACT
Avaliaram-se os efeitos de níveis de correção da fertilidade do solo (testemunha, calagem, adubação e calagem + adubação) e da idade de rebrota (21, 28, 35, 42, 49, 56, 63, 70, 77 e 84 dias) sobre a dinâmica de crescimento e rendimento de forragem de Trachypogon plumosus em Roraima. O aumento da idade de rebrota resultou em maiores rendimentos de matéria seca (MS), taxa absoluta de crescimento (TAC), taxa de assimilação líquida (TAL), razão de área foliar (RAF) e índice de área foliar (IAF), ocorrendo o inverso quanto à taxa média de crescimento (TMC). A gramínea mostrou-se responsiva à melhoria da fertilidade do solo. A calagem + adubação ou a adubação proporcionaram maiores rendimentos de MS (1.934 e 1.661 kg ha-1), TAC (36,6 e 31,5 kg ha-1 dia-1), TMC (32,5 e 27,9 kg ha-1 dia-1), TAL (4,993 e 4,152 g/m2), RAF (152,9 e 140,9 cm2/g) e IAF (2,42 e 2,14). Para otimizar a eficiência de utilização da forragem produzida e reduzir perdas por senescência da gramínea, o período mais adequado de sua utilização, durante o período chuvoso, situa-se entre 56 e 63 dias com o uso de adubação e calagem + adubação e entre 63 a 70 dias para a testemunha e a calagem(AU)
We assessed the effects of levels of soil fertility correction (control, liming, fertilization and liming + fertilization) and of regrowth ages (21, 28, 35, 42, 49, 56, 63, 70, 77, and 84 days) on growth dynamic and forage yield of Trachypogon plumosus in the Roraima´s savannas. Dry matter (DM) yields, absolute growth rate (AGR), net assimilation rate (NAR), and leaf area ratio (LAR) increased consistently with regrowth age, while the crop growth rate (CGR) was inversely proportional to regrowth age. The grass showed high responsivity to soil fertility improvement. Liming + fertilization or fertilization alone provided higher DM yields (1,934 and 1,661 kg ha-1), AGR (36.6 and 31.5 kg ha-1.day), CGR (32.5 and 27.9 kg ha-1.day), NAR (4.993 e 4.152 g/m2), LAR (152.9 and 140.9 cm2/g), and LAI (2.42 and 2.14). Regrowth intervals of 56 to 63 days for liming + fertilized and fertilized pastures, and 63 to 70 days for control or liming pastures were appropriate to provide maximum forage yields, growth rates and to prevent larger losses relative to senescence and leaf death(AU)
Subject(s)
Soil Treatment/methods , Pasture/analysis , Poaceae/growth & development , Manure/analysis , Crops, Agricultural/growth & developmentABSTRACT
The Pampa biome is an important ecosystem in Brazil that is highly relevant to livestock production. The objective of this study was to analyze the potential use of vegetation indices to discriminate grazing intensities on natural grasslands in the Pampa biome. Moderate Resolution Imaging Spectroradiometer (MODIS) Normalized Difference Vegetation Index (NDVI) and Enhanced Vegetation Index (EVI) images from Jan to Dec, 2000 to 2013 series, were analyzed for natural grassland experimental units managed under high (forage allowance of 5 ± 2 % live weight LW), moderate (13 ± 5 % LW) and low grazing intensity (19 ± 7 % LW). Regardless of intensity, the temporal profiles showed lower NDVI and EVI during winter, increased values in spring because of summer species regrowth, slightly decreased values in summer, especially in years when there is a water deficit, and increased values in the fall associated with the beginning of winter forage development. The average temporal profiles of moderate grazing intensity exhibited greater vegetation index values compared with low and high grazing intensities. The temporal profiles of less vegetation index were associated with lower green biomass accumulation caused by the negative impact of stocking rates on the leaf area index under high grazing intensity and a floristic composition with a predominance of tussocks under low grazing intensity. Vegetation indices can be used for distinguishing moderate grazing intensity from low and high intensities. The average EVI values can discriminate moderate grazing intensity during any season, and the NDVI values can discriminate moderate grazing intensity during spring and winter.
Subject(s)
Flora , Pasture , Grassland , Biomass , Animal HusbandryABSTRACT
The Pampa biome is an important ecosystem in Brazil that is highly relevant to livestock production. The objective of this study was to analyze the potential use of vegetation indices to discriminate grazing intensities on natural grasslands in the Pampa biome. Moderate Resolution Imaging Spectroradiometer (MODIS) Normalized Difference Vegetation Index (NDVI) and Enhanced Vegetation Index (EVI) images from Jan to Dec, 2000 to 2013 series, were analyzed for natural grassland experimental units managed under high (forage allowance of 5 ± 2 % live weight LW), moderate (13 ± 5 % LW) and low grazing intensity (19 ± 7 % LW). Regardless of intensity, the temporal profiles showed lower NDVI and EVI during winter, increased values in spring because of summer species regrowth, slightly decreased values in summer, especially in years when there is a water deficit, and increased values in the fall associated with the beginning of winter forage development. The average temporal profiles of moderate grazing intensity exhibited greater vegetation index values compared with low and high grazing intensities. The temporal profiles of less vegetation index were associated with lower green biomass accumulation caused by the negative impact of stocking rates on the leaf area index under high grazing intensity and a floristic composition with a predominance of tussocks under low grazing intensity. Vegetation indices can be used for distinguishing moderate grazing intensity from low and high intensities. The average EVI values can discriminate moderate grazing intensity during any season, and the NDVI values can discriminate moderate grazing intensity during spring and winter.(AU)
Subject(s)
Grassland , Pasture , Flora , Animal Husbandry , BiomassABSTRACT
Abstract We assessed the effects of levels of soil fertility correction (control, liming, fertilization and liming + fertilization) and of regrowth ages (21, 28, 35, 42, 49, 56, 63, 70, 77, and 84 days) on growth dynamic and forage yield of Trachypogon plumosus in the Roraima´s savannas. Dry matter (DM) yields, absolute growth rate (AGR), net assimilation rate (NAR), and leaf area ratio (LAR) increased consistently with regrowth age, while the crop growth rate (CGR) was inversely proportional to regrowth age. The grass showed high responsivity to soil fertility improvement. Liming + fertilization or fertilization alone provided higher DM yields (1,934 and 1,661 kg ha-1), AGR (36.6 and 31.5 kg ha-1.day), CGR (32.5 and 27.9 kg ha-1.day), NAR (4.993 e 4.152 g/m2), LAR (152.9 and 140.9 cm2/g), and LAI (2.42 and 2.14). Regrowth intervals of 56 to 63 days for liming + fertilized and fertilized pastures, and 63 to 70 days for control or liming pastures were appropriate to provide maximum forage yields, growth rates and to prevent larger losses relative to senescence and leaf death.
Resumo Avaliaram-se os efeitos de níveis de correção da fertilidade do solo (testemunha, calagem, adubação e calagem + adubação) e da idade de rebrota (21, 28, 35, 42, 49, 56, 63, 70, 77 e 84 dias) sobre a dinâmica de crescimento e rendimento de forragem de Trachypogon plumosus em Roraima. O aumento da idade de rebrota resultou em maiores rendimentos de matéria seca (MS), taxa absoluta de crescimento (TAC), taxa de assimilação líquida (TAL), razão de área foliar (RAF) e índice de área foliar (IAF), ocorrendo o inverso quanto à taxa média de crescimento (TMC). A gramínea mostrou-se responsiva à melhoria da fertilidade do solo. A calagem + adubação ou a adubação proporcionaram maiores rendimentos de MS (1.934 e 1.661 kg ha-1), TAC (36,6 e 31,5 kg ha-1 dia-1), TMC (32,5 e 27,9 kg ha-1 dia-1), TAL (4,993 e 4,152 g/m2), RAF (152,9 e 140,9 cm2/g) e IAF (2,42 e 2,14). Para otimizar a eficiência de utilização da forragem produzida e reduzir perdas por senescência da gramínea, o período mais adequado de sua utilização, durante o período chuvoso, situa-se entre 56 e 63 dias com o uso de adubação e calagem + adubação e entre 63 a 70 dias para a testemunha e a calagem.
ABSTRACT
O efeito da idade da planta (21, 28, 35, 42, 49, 56, 63 e 70 dias) sobre a produção de forragem e características morfogênicas e estruturais de Axonopus aureus, durante o período chuvoso, foi avaliado em condições de campo. O delineamento experimental foi inteiramente casualizado com três repetições. As avaliações foram realizadas no período de maio a agosto de 2009. O aumento da idade da planta resultou em maiores massas de forragem (MF), taxa absoluta de crescimento, número de perfilhos/planta, número de folhas/perfilho, tamanho médio de folhas, índice de área foliar e taxas de expansão e senescência foliar. As relações entre idades da planta com a MF e a taxa absoluta de crescimento da gramínea foram ajustadas ao modelo quadrático, sendo os máximos valores registrados aos 64,3 (1.394 kg/ha de MS) e 47,2 dias (26,62 kg/ha/dia de MS), respectivamente. As taxas de crescimento da cultura, taxa de crescimento relativo, taxas de aparecimento de perfilhos e de folhas foram inversamente proporcionais às idades da planta. Visando conciliar produtividade de forragem com a maximização das características morfogênicas e estruturais da gramínea, o período de descanso mais adequado para pastagens de A. aureus situa-se entre 42 e 49 dias.
The effects of plant age (21, 28, 35, 42, 49, 56, 63 and 70 days) on forage mass (FM) yield, and morphogenetic and structural characteristics of Axonopus aureus, during rainy season, were evaluated under natural field conditions. The experimental design was a completely randomized, with three replications. Evaluations were carried out during the period of May to August 2009. A FM yield, absolute growth rate (AGR), number of tillers/plant, number of leafs/plant, leaf area index, leaf senescence and elongation rates and blade length increased consistently with growth stage. The relations between FM and AGR with cutting plants age were described by the quadratic regression model. The maximum FM yield and forage production rate performance were estimated at 64.3 (1,394 kg/ha of FM) and 47.2 days of regrowth (26.62 kg/ha/day of FM). The crop growth and relative growth rates, tiller and leaf appearance rates were inversely proportional to cutting plant age. These data suggest that rest period of 42 to 49 days were appropriate for obtain maximum FM yields and improved the grass morphogenetic and structural characteristics.
Subject(s)
Grassland , Poaceae/growth & development , MorphogenesisABSTRACT
O efeito da adubação nitrogenada (0, 50, 100 e 200 kg N ha-1) sobre o acúmulo de forragem e características morfogênicas e estruturais de Trachypogon plumosus foi avaliado nos cerrados de Roraima. O delineamento experimental foi em blocos casualizados com três repetições. A adubação nitrogenada proporcionou incrementos quadráticos na produção de matéria seca, teores de nitrogênio, taxas de aparecimento e alongamento foliar, número de folhas vivas/perfilho, comprimento final de folha e índice de área foliar, sendo os máximos valores estimados com a aplicação de 153,5 (2.849 kg ha-1); 124,0 (23,97 g/kg); 155,4 (0,155 folha perfilho-1 dia-1); 116,1 (2,64 cm dia-1 perfilho-1); 147,0 (6,43 folhas perfilho-1), 135,1 (19,04 cm) e 181,2 kg de N ha-1 (2,56), respectivamente. A densidade populacional de perfilhos e a taxa de senescência foliar foram diretamente proporcionais às doses de nitrogênio, ocorrendo o oposto quanto à eficiência de utilização e a recuperação aparente do nitrogênio.
The effect of nitrogen fertilization (0, 50, 100 and 200 kg N ha-1) on forage production and morphogenetic and structural characteristics of Trachypogon plumosus was evaluated in the Roraima´s savannas. The experimental design was in randomized blocks with three replicates. Nitrogen fertilization promoted quadratic increase in the dry matter (DM) yield, nitrogen contents, leaf appearance rate, leaf elongation rate, number of live leaves/tiller, final leaf length and leaf area index; maximum values were estimated with application of 153.5 (2,849 kg ha-1); 124.0 (23.97 g/kg); 155.4 (0.155 leaf tiller-1 day-1); 116.1 (2.64 cm day-1 tiller-1); 147.0 (6.43 leaves tiller-1); 135.1 (19.04 cm) and 181.2 kg N ha-1, (2.56), respectively. Tiller population density and leaf senescence rate were directly proportional to nitrogen levels, and the opposite occurred for efficiency of utilization and apparent nitrogen recovery.
Subject(s)
Aging , Pasture , Plant Leaves , Morphogenesis , Nitrogen , PoaceaeABSTRACT
Este trabalho objetivou avaliar o comportamento ingestivo de cordeiros, terminados em sistemas de produção em pastagem de azevém (Lolium multiflorum) sobressemeado em Tifton 85 (Cynodon sp) nos tratamentos: 1- cordeiros desmamados precocemente, aos 40 dias de idade, e mantidos em pastagem de azevém até o abate; 2- cordeiros sem desmame, na mesma pastagem de azevém até o abate; 3- cordeiros sem desmame suplementados em creep feeding a partir de 40 dias de idade, na pastagem de azevém, até o abate. Foram realizadas avaliações do comportamento ingestivo dos cordeiros, de agosto a setembro de 2004, verificando as atividades de pastejo, ruminação, amamentação, acesso a creep feeding e outras atividades. O delineamento experimental foi inteiramente casualisado com 3 repetições e parcelas subdivididas no tempo, considerando os dias e períodos como subparcelas. Não houve efeito (p>0,05) dos tratamentos sobre o tempo de pastejo e amamentação, entretanto, houve redução no tempo de ruminação (p<0,05), e elevação do tempo em outras atividades (p<0,05) para cordeiros em creep feeding. O tempo de pastejo no período da tarde foi superior (p<0,05) ao da manhã, sendo que as demais atividades foram distribuídas homogeneamente ao longo do dia. O sistema de produção de cordeiros pode alterar os padrões de comportamento alimentar dos cordeiros, sendo que o pastejo é a atividade que demanda mais tempo dos animais durante o dia.
The objective of this study was to evaluate the lambs behavior intake produced in grazing systems on ryegrass pasture (Lolium multiflorum) oversowned on Tifton-85 (Cynodon sp): 1-lambs weaned around 40 days of age in ryegrass pastures until slaughter; 2- lambs without weaning, in the same ryegrass pasture until slaughter; 3- lambs in ryegrass pasture without weaning, supplemented at creep feeding at 1% BW from 40 days of age to slaughter. The lambs ingestive behavior was observed through their grazing, rumination, sucking, creep feeding and other activities from August to September of 2005. The experimental design was completely randomized design with three repetitions and split-plot design on time, considering days and periods of days as subplots. Lambs grazing and suckling time were not affected (P>0.05). By systems of production; however, rumination time was reduced (p<0.05) and the other activities time (p<0.05) increased for creep feeding systems. The grazing time during the afternoon was higher (p<0.05) than during the morning, whereas the other activities were distributed homogeneously throughout the day. Meat lambs systems of production may change the ingestive behavior, but the grazing activity keep requiring the most of the time of the animals during the day.
Este estudio evaluó el comportamiento ingestivo de corderos engordados en sistemas de producción en raigrás (Lolium multiflorum) resembrado en Tifton 85 (Cynodon sp), como sigue: 1- corderos destetados a los 40 días de edad y en pasto hasta el sacrificio, 2- corderos en el potrero con sus madres hasta sacrificio sin el destete, 3- corderos suplementados durante la lactancia en creep feeding en la pastura de raigrás hasta sacrificio, sin el destete. Se realizaron evaluaciones de la conducta alimentaria de los corderos de Agosto a Septiembre de 2004, con la comprobación de las actividades de pastoreo, rumia, la lactancia materna, el acceso a la suplementación y otras actividades mediante el control temporal durante el día. El diseño experimental fue completamente casual con tres repeticiones y parcelas en el tiempo, teniendo en cuenta los días y los períodos como subparcelas. No se observó efecto (p>0,05) de los sistemas sobre el tiempo de pastoreo y la lactancia, sin embargo, hubo una reducción en el tiempo de rumia (p <0,05), y el aumento de tiempo en otras actividades (p <0,05) para los corderos en la alimentación privada en creep feeding. El tiempo de pastoreo de la tarde fue superior (p <0,05) que en la mañana, y las actividades restantes se distribuyeron de manera uniforme durante todo el día. El sistema de producción de corderos puede cambiar los patrones de conducta de alimentación de los mismos, y el pastoreo es la actividad que exige más tiempo de los animales durante el día.
Subject(s)
Animals , Lolium , Sheep , Cynodon , Eating/physiology , Feeding Behavior/physiology , Weaning , PastureABSTRACT
O experimento foi conduzido para comparar a eficiência dos métodos do disco medidor de forragem (DMF), o bastão graduado (BG), a régua e o medidor de capacitância (MC), utilizados em estimativas da massa de forragem (MF) em pastagens. Os instrumentos foram empregados em pastagens de capim-estrela (Cynodon nlemfuensis Vanderyst var. nlemfuensis) usadas sob condições de pastejo contínuo, taxa de lotação variável e em diferentes alturas do pasto. O delineamento foi o inteiramente ao acaso com duas repetições e os tratamentos foram quatro alturas do pasto: 5, 10, 15 e 20cm. A altura do pasto nos piquetes foi mantida por ajustes da taxa de lotação, usando-se novilhas da raça Nelore (Bos indicus). As avaliações nos pastos foram realizadas em períodos mensais, de 7/11/2007 a 26/4/2008. A efetividade de cada método para quantificar a MF foi avaliada por equação de regressão. O MC não apresentou resultados consistentes. Os valores obtidos de coeficiente de determinação para avaliação da MF foram baixos e inferiores a 0,63 com o BG, DMF e com a régua. Medições de MF em pastos de capim-estrela sob pastejo contínuo podem ser realizadas preferivelmente com o DMF, ou com o BG e a régua.
The experiment was conducted aiming to compare the efficiency of the methods rising plate meter (RP), sward stick (SS), ruler and capacitance meter (CM), used to estimate herbage mass on pastures. The instruments were used in stargrass pasture (Cynodon nlemfuensis Vanderyst var. nlemfuensis) under continuous stocking, variable stocking rate, and sward heights. The design was completely randomized with two replicates and the treatments were sward heights: 5, 10, 15, and 20cm. The sward height at paddock was maintained by stocking rate adjustments using Nellore heifers (Bos indicus). The swards were evaluated monthly, from November 7th, 2007 to April 26th, 2008. The effectiveness of each method to quantify the herbage mass was evaluated by the regression equation. The capacitance meter did not show consistent results. The values of coefficient of determination for the evaluation of herbage mass were low and less than 0.63 with the SS, RP and the ruler. Measurements of herbage mass on swards of stargrass under continuous stocking can be performed preferably with the RP, or with the SS and the ruler.
ABSTRACT
A intensidade de pastejo e suas alterações ao longo do tempo podem afetar a composição botânica e a estrutura do pasto. Este trabalho buscou avaliar o efeito de distintas ofertas de forragem (OF) sobre a dinâmica populacional de espécies de uma pastagem natural dos Campos Sulinos. As avaliações da composição botânica foram realizadas em 12 de janeiro e 17 de julho através do método BOTANAL. Os tratamentos constaram de diferentes OF (kg MS 100kg-1 de peso vivo dia-1): 8, 12 e 16 durante todo ano e diferentes combinações de sequências: 8 na primavera e 12 no resto do ano (8-12); 12 na primavera e 8 no resto do ano (12-8); 16 na primavera e 12 no resto do ano (16-12). O delineamento utilizado foi o de blocos casualizados com duas repetições. A oferta de forragem provocou alterações na composição botânica da vegetação. A manipulação da OF na primavera alterou a composição botânica da vegetação e apresentou maior impacto nas menores OF.
Grazing intensity manipulation can affect structure and botanical composition of the pasture. The objective of this research was to evaluate the effects of different forage allowances and different seasonal sequences of forage allowance (FA) on the species population dynamics in the rangelands of Campos Sulinos. The botanical composition evaluations were made in January 12th and July 17th, using BOTANAL method. Treatments were of different FA (kg DM 100kg-1 of live weight day-1): 8, 12, 16 all around the year; and different sequences of FA: 8 on spring and 12 at the rest of year (8-12); 12 on spring and 8 at the rest of year (12-8) and 16 on spring and 12 at the rest of year (16-12). The statistical design used was randomized blocks with two replications. The forage allowance led to changes in botanical and structural composition of vegetation. It can be inferred that the forage allowance variation on the vegetation had higher impact on smaller forage allowances.