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2. Effects of condensed tannin-enriched alternative energy feedstuff supplementation on performance, nitrogen utilization, and rumen microbial diversity in grazing beef cattle

Author

Fonseca, Natalia Vilas Boas, Cardoso, Abmael da Silva, Granja-Salcedo, Yury Tatiana, Siniscalchi, Débora, Camargo, Karine Dalla Vecchia, Dornellas, Isadora Alves, Silva, Maria Luisa Curvelo, Vecchio, Lucas dos Santos Del, Grizotto, Regina Kitagawa, and Reis, Ricardo Andrade

Published
2024
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5. Effect of 3-Nitrooxypropanol Combined with Different Feed Additives on Growth Performance, Carcass Traits, Enteric Methane Emissions, and Physiological Responses in Feedlot Beef Cattle Fed a High-Concentrate Finishing Diet.

Author

Souza, William Luiz de, Niehues, Maria Betânia, Cardoso, Abmael da Silva, Carvalho, Victor Valério de, Perdigão, Alexandre, Acedo, Tiago Sabella, Costa, Diogo Fleury Azevedo, Tamassia, Luis Fernando Monteiro, Kindermann, Maik, and Reis, Ricardo Andrade

Subjects
GREENHOUSE gases, BEEF industry, ZEBUS, BEEF cattle, NUTRITIONAL status
Abstract

Simple Summary: The beef industry faces significant challenges in increasing red protein production given the growing population, with projections to be approximately 28% higher by 2050. Additionally, there are increasing government and public pressures for all industries to mitigate greenhouse gases, which include methane. The livestock industry contributes approximately 14.5% of greenhouse gas emissions attributed to human activities. This study investigated the combination of the methane inhibitor 3-nitrooxypropanol with monensin sodium or a feed additive package consisting of essential oils, 25-Hydroxy-Vitamin-D3, an active metabolite of vitamin D3, and carbo-amino-phospho-chelated minerals such as chromium and zinc. The results showed that 3-nitrooxypropanol, regardless of the combination used, reduced daily enteric methane emissions by over 38%, in addition to increasing feed conversion by over 6% when combined with monensin sodium compared to the treatment without 3-nitrooxypropanol. Furthermore, the combination of 3-nitrooxypropanol with the additive package showed better conditions in growth performance, carcass traits, meat quality, blood parameters, and nutrient intake and digestibility. This offers the meat industry more nutritional strategies to meet the growing demand for protein while reducing environmental impacts. The objective of this study was to evaluate the effect of 3-nitrooxypropanol (3-NOP) in combination with different feed additives on growth performance, carcass traits, meat quality, enteric methane (CH4) emissions, nutrient intake and digestibility, and blood parameters in feedlot beef cattle. In experiment (Exp.) 1, one hundred sixty-eight Nellore bulls (initial bodyweight (BW) 410 ± 8 kg) were allocated to 24 pens in a completely randomized block design. In Exp. 2, thirty Nellore bulls (initial BW 410 ± 3 kg) were allocated to a collective pen as one group, and treatments were allocated in a completely randomized design. Three treatments were applied: Control (CTL): monensin sodium (26 mg/kg of dry matter, DM); M3NOP: CTL with 3-NOP (100 mg/kg DM); and Combo: 3-NOP (100 mg/kg DM) with essential oils (100 mg/kg DM), 25-Hydroxy-Vitamin-D3 (0.10 mg/kg DM), organic chromium (4 mg/kg DM), and zinc (60 mg/kg DM). In Exp. 1, bulls in the Combo group had greater (p < 0.01) dry matter intake (DMI) at d 28 compared to the CTL and M3NOP groups. During d 0 to 102, bulls' final BW and average daily gain (ADG) were greater (p ≤ 0.03) for the Combo group compared to the CTL. The bulls in the Combo and M3NOP groups had better (p < 0.01) feed conversion (FC) and feed efficiency (FE) compared to the CTL. Hot carcass weight (HCW), carcass ADG, and carcass yield were greater (p ≤ 0.05) for bulls in the Combo group compared to the CTL and M3NOP groups. The bulls in the Combo group had greater (p = 0.01) dressing compared to the M3NOP group. Combo bulls had better (p = 0.02) biological efficiency compared to the CTL. The bulls in the Combo group had lower (p < 0.01) carcass pH compared to the CTL and M3NOP groups. In Exp. 2, bulls in the Combo group had greater (p = 0.04) DMI at d 28 compared to the CTL and had greater (p < 0.01) DMI at d 102 compared to the CTL and M3NOP groups. The bulls in the Combo group had greater (p = 0.04) HCW compared to the CTL and M3NOP groups and carcass ADG was greater (p = 0.04) for bulls in the Combo group compared to the M3NOP group. The bulls in the Combo and M3NOP groups had lower (p < 0.01) CH4 production (38.8%, g/d), yield (41.1%, g/kg DMI), and intensity (40.8%, g/kg carcass ADG) and higher (p < 0.01) H2 emissions (291%, g/d) compared to the CTL. Combo bulls had lower (p < 0.01) blood glucose and insulin, and higher nutrient intake and digestibility (p ≤ 0.05) compared to the CTL and M3NOP groups. Combining 3-NOP with different feed additives improved FC and FE, and reduced enteric CH4 emissions. Combo treatment improved growth performance, carcass traits, nutrient intake, and digestibility, and improved glucose and insulin responses in feedlot beef cattle on a high-concentrate finishing diet. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Enteric methane mitigation strategies for ruminant livestock systems in the Latin America and Caribbean region: A meta-analysis

Author

Jaurena, Gustavo, Gonda, Horacio, Gere, José Ignacio, Cerón-Cucchi, María Esperanza, Ortiz-Chura, Abimael, Tieri, María Paz, Hernández, Olegario, Ricci, Patricia, Juliarena, María Paula, Lombardi, Banira, Abdalla, Adibe Luiz, Abdalla-Filho, Adibe Luiz, Berndt, Alexandre, Oliveira, Patrícia Perondi Anchão, Henrique, Fábio Luis, Monteiro, Alda Lúcia Gomes, Borges, Luiza Ilha, Ribeiro-Filho, Henrique Mendonça Nunes, Pereira, Luiz Gustavo Ribeiro, Tomich, Thierry Ribeiro, Campos, Mariana Magalhães, Machado, Fernanda Samarini, Marcondes, Marcos Inácio, Mercadante, Maria Eugênia Zerlotti, Sakamoto, Leandro Sannomiya, Albuquerque, Lucia Galvão, Carvalho, Paulo César de Faccio, Rossetto, Jusiane, Savian, Jean Víctor, Rodrigues, Paulo Henrique Mazza, Júnior, Flávio Perna, Moreira, Tainá Silvestre, Maurício, Rogério Martins, Pacheco Rodrigues, João Paulo, Borges, Ana Luiza da Costa Cruz, Reis e Silva, Ricardo, Lage, Helena Ferreira, Reis, Ricardo Andrade, Ruggieri, Ana Cláudia, Cardoso, Abmael da Silva, da Silva, Sila Carneiro, Chiavegato, Marília Barbosa, Valadares-Filho, Sebastião de Campos, Silva, Flávia Adriane de Sales, Zanetti, Diego, Berchielli, Telma Teresinha, Messana, Juliana Duarte, Muñoz, Camila, Ariza-Nieto, Claudia Janeth, Sierra-Alarcón, Andrea Milena, Gualdrón-Duarte, Laura Bibiana, Mestra-Vargas, Lorena Inés, Molina-Botero, Isabel Cristina, Barahona-Rosales, Rolando, Arango, Jacobo, Gaviria-Uribe, Xiomara, Giraldo Valderrama, Luis Alfonso, Rosero-Noguera, Jaime Ricardo, Posada-Ochoa, Sandra Lucía, Abarca-Monge, Sergio, Soto-Blanco, Roberto, Ku-Vera, Juan Carlos, Jiménez-Ocampo, Rafael, Flores-Santiago, Ever del Jesus, Castelán-Ortega, Octavio Alonso, Vázquez-Carrillo, María Fernanda, Benaouda, Mohammed, Gómez-Bravo, Carlos Alfredo, Bolovich, Víctor Ilich Alvarado, Céspedes, Medardo Antonio Díaz, Astigarraga, Laura, Congio, Guilhermo Francklin de Souza, Bannink, André, Mayorga Mogollón, Olga Lucía, and Hristov, Alexander Nikolov

Published
2021
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13. Effects of Agricultural Expansion on Soil Carbon and Nitrogen Stocks in the Amazon Deforestation Arc.

Author

Azevedo, Jorge Cardoso de, Cardoso, Abmael da Silva, Lage Filho, Nauara Moura, Faturi, Cristian, Silva, Thiago Carvalho da, Domingues, Felipe Nogueira, Costa, Vladimir Eliodoro, Ruggieri, Ana Cláudia, Reis, Ricardo Andrade, and do Rêgo, Aníbal Coutinho

Subjects
*AGRICULTURE, *CARBON in soils, *NITROGEN in soils, *DEFORESTATION, *SOIL depth
Abstract

Typical successions in land use affect the dynamics of carbon (C) and nitrogen (N) in the soil. This study aimed to determine the effects of land use change on soil organic carbon and N content and stocks in pastures, crops, and forests in the Amazon. Soil C and N stocks were assessed at depths of 30 and 100 cm to determine 13C isotopic abundance. The concentrations of C and N in crops were lower (p < 0.05) than those in other land use types. Soil organic C and soil N stocks for pasture (67.6, 144.8, 5.7, and 13.3) and forest (77.1, 137.5, 6.3, and 13.8) systems were similar, but greater than those of the crop area (36.4, 63.9, 3.0, and 6.0), regardless of depth (30 and 100 cm for C and N). Land use change for pastures in the Arc of Deforestation region of the Amazon maintains SOC and N stocks in the soil and is more sustainable than the agricultural system with black pepper, as long as the conditions of soil, climate, and cultivation are similar. Part of the C3-derived carbon from the forest was replaced by C4-derived C from grasses at soil depths up to 100 cm. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Economic Evaluation of Nitrogen Fertilization Levels in Beef Cattle Production: Implications for Sustainable Tropical Pasture Management.

Author

Souza, William Luiz de, Romanzini, Eliéder Prates, Delevatti, Lutti Maneck, Leite, Rhaony Gonçalves, Bernardes, Priscila Arrigucci, Cardoso, Abmael da Silva, Reis, Ricardo Andrade, and Malheiros, Euclides Braga

Subjects
BEEF industry, BEEF cattle, SUSTAINABILITY, CORPORATE profits, NITROGEN fertilizers, PASTURE management, UREA as fertilizer
Abstract

Understanding economic scenarios is crucial in all production chains. Tropical pastures are Brazil's primary food source for beef cattle production, and current pasture management is not ideal due to land degradation. An economic evaluation assists farmers with improving pasture management using novel techniques, such as nitrogen (N) fertilization, which is straightforward and practical. The economic effects of different N fertilizer levels in beef cattle production were evaluated. This study was conducted over three years (2014/2015, 2015/2016, and 2016/2017) using four concentrations of urea fertilizer (0, 90, 180, and 270 kg N/ha). A principal component analysis and sensitivity analysis were performed using financial data. A financial pattern was observed, with increases in some variables, such as cost-effective operating and cost-total operating from those measuring costs and gross revenue, operating profit, and net income from those estimating revenues. Treatment with 180 kg N/ha fertilizer resulted in increased profitability, payback, internal rate of return, and net present value (at 6% and 12% tax) of 17.76%, 2.79 years, 35.79%, and USD 5926.03 and USD 1854.35, respectively. For this study, the main costs associated with profitability were supplementation, animal purchases, and sale prices. The best treatment to achieve excellent grazing pressure in tropical areas with oxisol is 180 kg/ha per year. [ABSTRACT FROM AUTHOR]

Published
2023
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16. How Are Warm-Season Pastures' Nutritive Value and Fermentation Characteristics Affected by Open Pasture, Silvopasture, and Sward Herbage Maturity?

Author

Ferreira, Mariane Rodrigues, Cardoso, Abmael da Silva, Andrade, Marina Elizabeth Barbosa, Brito, Thais Ribeiro, and Ruggieri, Ana Cláudia

Subjects
*GUINEA grass, *GRASSES, *SILVOPASTORAL systems, *PASTURES, *MASS production
Abstract

This study aimed to evaluate the forage mass and nutritional value (NV) of Guinea Massai grass (Megathyrsus maximus × Megathyrsus infestum) in an open pasture (OP) or the silvopastoral system (SPS) at different stages of development (SDs). The experimental design was completely randomized, with five replications. The treatments were distributed in a factorial scheme 2 × 4, corresponding to types of systems (OP and SPS) and four SD (vegetative stage—S1, pre-flowering—S2, full flowering—S3 and maturity after flowering—S4). There was no interaction of the system × stage of plant development in any of the variables evaluated. The production of forage mass and Guinea Massai grass morphological components did not differ (p > 0.05) between SPS and OP. However, they differed between the SDs (p ≤ 0.05), with an increasing linear effect for forage mass, percentage of the stem, and dead material, and decreasing for leaf percentage and leaf: stem ratio. Only protein content differed (p < 0.05) among the chemical composition variables between culture systems. The shading caused by the SPS did not decrease the forage mass, NV, and in vitro dry matter digestibility of Guinea Massai grass compared to the system in OP. The advance of the SD of Guinea Massai grass increases the forage mass, with higher proportions of morphological components of low NV, such as stem and dead material. Silvopastoral system of Guinea Massai grass and eucalyptus is effective to prolongate the grazing season, with a greater amount of green leaves in the sward and better NV, without compromising herbage mass production in the forage growing season. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Emission of Greenhouse Gases and Ammonia from the Excreta of Nellore Bulls Submitted to Energy and Tannin Supplementation.

Author

Rigobello, Izabela Larosa, Cardoso, Abmael da Silva, Fonseca, Natalia Vilas Boas, Ongaratto, Fernando, Silva, Matheus Mello, Bahia, Angelica Santos Rabelo de Souza, Dornellas, Isadora Alves, and Reis, Ricardo Andrade

Subjects
*GREENHOUSE gases, *TANNINS, *SORGHUM, *AMMONIA gas, *DIETARY supplements, *BULLS, *NITROUS oxide
Abstract

Animal supplementation during the background phase may increase greenhouse gas emissions (GHG). The inclusion of tannins in the diet of Nellore bulls can mitigate nitrous oxide (N2O), methane (CH4), and ammonia (NH3) production. The objective of this study was to quantify the effect of energy supplementation associated with sources of tannins in the diet of young Nellore bulls backgrounded in pastures with N2O, CH4, and NH3 emissions. Two experiments were conducted in a completely randomized design. The treatments were three supplementation strategies: (1) soybean hulls 0.3% of body weight (BW), (2) sorghum grain 0.3% of the BW, and (3) peanut peel 0.3% of BW, the last two being sources of tannin. The static closed chambers method was used to quantify N2O and CH4 emissions and the semi-open chamber technique to estimate NH3 volatilization. Supplementation strategies did not affect the N2O emissions (p = 0.9116). The soil water-filled pore space explained the variation in the N2O fluxes (p = 0.0071). The treatments did not change the total CH4 emissions (p = 0.3599), and no explanatory variable was correlated with the CH4 fluxes. The NH3 volatilization did not vary according to the supplements or tannin inclusion (p = 0.5170). However, the type of excreta affected the NH3 volatilization (p < 0.0001). Ammonia volatilization averaged 14.05, 4.16, and 2.25% of the applied N for urine, urine + dung, and dung, respectively. The energetic supplementation of Nellore bulls containing sources of tannins in the evaluated dosages was not a mitigation strategy for the emissions of N2O, CH4, and NH3. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Effect of diurnal feeding times and sources of energy supplementation to optimise rearing of F1 Angus × Nellore young bulls.

Author

Berça, Andressa Scholz, Cardoso, Abmael da Silva, Fonseca, Natália Vilas Boas, Poppi, Dennis P., Tedeschi, Luís Orlindo, Micheletti, Isabela Rita Coletti, Meireles, Willi Rocha, Ruggieri, Ana Cláudia, and Reis, Ricardo Andrade

Subjects
*CORN as feed, *FORAGE, *BEEF cattle, *RENEWABLE energy sources, *DIETARY supplements, *MICROBIOLOGICAL synthesis, *BULLS
Abstract

Context: Energy supplementation with highly fermentable carbohydrates can be a strategy to maximise the efficiency of nitrogen use (ENU) from high-nutritional value forages. Aims: The study aimed to investigate the independent or associated effects of two diurnal feeding times (0900 or 1700 hours) with two sources of energy supplementation (corn or citrus pulp) in the growing of F1 Angus × Nellore young bulls on palisade grass pastures, and their implications on the forage chemical composition, nutrient intake and digestibility, ENU, microbial protein synthesis, animal performance, and gain per area. Methods: There were 36 bulls used as experimental animals, with initial bodyweight (BW) of 290 ± 5 kg, and 32 similar bulls were used in a put-and-take system to maintain sward characteristics. The experiment was conducted in a complete randomised design with four treatments and three replications (paddocks). The treatments consisted of energy supplementation at 0.3% BW with corn or citrus pulp fed at 0900 or 1700 hours for four periods of 28 days. For evaluation of ruminal and blood parameters, ENU, intake, and nutrient digestibility, eight ruminal cannulated 1/2 Aberdeen Angus × 1/2 Nellore young bulls were used, with 280 ± 7 kg of initial BW, distributed in a 4 × 4 double Latin square design, consisting of four periods and four treatments. Key results: Supplementation at 0.3% of BW with corn or citrus pulp at 0900 or 1700 hours can reach up to 1.06 kg/day of young bulls reared on palisade grass pastures fertilised with 180 kg nitrogen/ha/year and managed at 25 cm of height compared with corn-based supplements. There were no effects on microbial protein synthesis or its efficiency. Conclusions: Citrus pulp can be used as an alternative energy source to corn, because it has the same potential for animal performance, ENU and microbial protein synthesis in tropical pastures with a high proportion of soluble protein, and structural and non-fibrous carbohydrates with high dry matter digestibility. Implications: Supplementing grazing beef cattle at 0.3% BW with corn or citrus pulp in the morning or afternoon is an efficient nutritional strategy to improve animal performance. Different responses of energy supplementation to grazing beef cattle may occur due to the type of energy substrate and the supplementation time. Citrus pulp supplied in the afternoon can improve beef cattle performance. Citrus pulp can replace corn as an energy supplement and it is a non-human edible food. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Effect of the Interaction between Excreta Type and Nitrogen Fertilizer on Greenhouse Gas and Ammonia Emissions in Pastures.

Author

Ongaratto, Fernando, Fernandes, Marcia Helena Machado da Rocha, Dallantonia, Erick Escobar, Lima, Lais de Oliveira, Val, Guilherme Alves do, Cardoso, Abmael da Silva, Rigobello, Izabela Larosa, Gomes, Laís Mayumi, Reis, Ricardo Andrade, Ruggieri, Ana Claudia, and Malheiros, Euclides Braga

Subjects
GREENHOUSE gases, AMMONIUM nitrate, NITROGEN fertilizers, TROPICAL climate, TROPICAL conditions, PASTURES, GRASSLAND soils
Abstract

This study aimed to evaluate the emission factor of N2O, CH4, and the volatilization of NH3 for the combination of feces or urine with increasing doses of ammonium nitrate in tropical palisade grass pastures. The emission of greenhouse gases was assessed in eight treatments combining feces and urine with doses (75 and 150 kg of N ha−1) of ammonium nitrate, (32% N). The emission factor of N2O was 0.11, 0.19, and 0.17% for feces, urine, and 75 kg N ha−1 year−1 (as ammonium nitrate) and showed an additive linear effect when feces or urine were combined with increasing doses of N fertilizer. The emission factor of CH4 of feces (0.18 kg CH4 animal−1 year−1) was similar irrespective of combination with ammonium nitrate. The N loss by volatilized NH3 has a decreasing linear effect (p < 0.05) for the combination of feces or urine with ammonium nitrate. We concluded that N2O and CH4 emission factors of feces and urine in tropical climate conditions are lower than those reported by the IPCC. However, their N2O emission factors are sharply enhanced when combined with ammonium nitrate. These results may contribute to improvements in national and regional greenhouse gas inventories of livestock production. [ABSTRACT FROM AUTHOR]

Published
2023
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20. The Impact of Mineral and Energy Supplementation and Phytogenic Compounds on Rumen Microbial Diversity and Nitrogen Utilization in Grazing Beef Cattle.

Author

Teobaldo, Ronyatta Weich, Granja-Salcedo, Yury Tatiana, Cardoso, Abmael da Silva, Constancio, Milena Tavares Lima, Brito, Thais Ribeiro, Romanzini, Eliéder Prates, and Reis, Ricardo Andrade

Subjects
ENERGY minerals, BEEF cattle, MICROBIAL diversity, MINERAL oils, GRAZING, TANNINS, CARVACROL
Abstract

The objective of this study was to evaluate the effect of the addition of a phytogenic compound blend (PHA) containing hydrolyzable tannins, carvacrol, and cinnamaldehyde oil to mineral salt or energy supplementation on the rumen microbiota and nitrogen metabolism of grazing Nellore cattle. Eight castrated Nellore steers were distributed in a double-Latin-square 4 × 4 design, with a 2 × 2 factorial arrangement (two types of supplements with or without the addition of the PHA), as follows: energy supplement without the PHA addition (EW); energy supplement with the PHA addition (EPHA); mineral supplement without the addition of the PHA (MW); mineral supplement with the PHA addition (MPHA). Steers that received supplements with the PHA have a lower ruminal proportion of valerate (with the PHA, 1.06%; without the PHA, 1.15%), a lower ruminal abundance of Verrucomicrobia, and a tendency for lower DM digestibility (with the PHA, 62.8%; without the PHA, 64.8%). Energy supplements allowed for higher ammonia concentrations (+2.28 mg of NH3-N/dL), increased the propionate proportion (+0.29% of total VFA), and had a higher ruminal abundance of Proteobacteria and Spirochaetae phyla in the rumen. The PHA addition in the supplement did not improve nitrogen retention, reduced the ruminal proportion of valerate, and had a negative impact on both the total dry-matter digestibility and the abundance of several ruminal bacterial groups belonging to the Firmicutes and Verrucomicrobia phyla. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Additive Tannins in Ruminant Nutrition: An Alternative to Achieve Sustainability in Animal Production.

Author

Fonseca, Natalia Vilas Boas, Cardoso, Abmael da Silva, Bahia, Angélica Santos Rabelo de Souza, Messana, Juliana Duarte, Vicente, Eduardo Festozo, and Reis, Ricardo Andrade

Abstract

Sustainable intensification involves maintaining ecosystem balance and increasing productivity per animal per unit area. Phytogenic additives can be used as an alternative to achieve sustainable intensification. Tannins are phenolic compounds present in plants that are classified according to their chemical structure into hydrolyzable and condensed compounds. When added to ruminant diets, condensed tannins exert effects on rumen fermentation, such as a reduction in rumen protein degradation and enteric methane production per unit of dry matter ingested, and may also improve weight gain. The advantage of this mechanism is that it increases dietary protein utilization, reduces nitrogen excretion in urine, and reduces nitrous oxide emissions. However, the positive effects of these compounds as nutritional additives require further investigation. Therefore, the objective of this review is to demonstrate the results hitherto known of the use of condensed tannins in ruminant nutrition. The use of tannins can result in both positive and negative effects, depending on the sources and doses administered. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Bahiagrass and soil responses to lime sources and application levels.

Author

Cardoso, Abmael da Silva, Silveira, Maria L., Kohmann, Marta M., Vendramini, João M. B., Sellers, Brent, Baldo, Amanda, and Sekiya, Bianca Midori Souza

Abstract

The increasing cost of lime and the agronomic problems associated with soil acidity management has prompted the need to re‐examine management strategies to correct soil pH while maintaining forage productivity. This study evaluated the effect of different lime sources (pelletized dolomitic limestone [dolomite] and hydrated calcitic limestone [Hi‐Cal]) and application levels (0, 1.1, 2.2, and 4.4 Mg ha–1 yr–1) on soil chemical properties and bahiagrass (Paspalum notatum Flügge) responses in 2014 through 2017. Forage and soil responses were monitored during the 4‐yr period, and residual lime effect was also evaluated 3 yr after liming ceased (2020). Liming increased bahiagrass herbage accumulation by 12% relative to control; however, no effect of lime source (P =.6), application level (P =.16), or their interaction (P =.11) was observed. Both lime sources increased tissue P, Mg, Ca, and S concentrations relative to control; however, tissue B, Zn, Mn, Fe, and Cu generally decreased. A single application of Hi‐Cal or two annual applications of dolomite increased soil pH from 4.5 to the recommended level of 5.5 for bahiagrass. Soil pH (0–45 cm depth) increased with repeated lime applications particularly in Hi‐Cal treatments, but no adverse effects on bahiagrass were observed. Soil pH remained above the recommended level 3 yr after liming ceased. Despite the lack of treatment effect, soil P and K levels decreased with time likely because of nutrient removal with harvested forage. Proper P and K fertilization along with soil pH management are key components to maintain long‐term productivity of bahiagrass. Core Ideas: Calcitic limestone increased soil pH faster than dolomitic limestone.Soil pH remained above the recommended level 3 yr after lime application ceased.Liming increased bahiagrass herbage accumulation by 12%.Selection of lime sources should be based on availability and cost.Proper liming and P and K fertilization is key to maintain bahiagrass productivity. [ABSTRACT FROM AUTHOR]

Published
2022
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23. Response of Phytogenic Additives on Enteric Methane Emissions and Animal Performance of Nellore Bulls Raised in Grassland.

Author

Teobaldo, Ronyatta Weich, Cardoso, Abmael da Silva, Brito, Thais Ribeiro, Leite, Rhaony Gonçalves, Romanzini, Eliéder Prates, Granja-Salcedo, Yury Tatiana, and Reis, Ricardo Andrade

Abstract

The objective of this study was to evaluate the intake and digestibility of nutrients, emission of enteric CH4, and productive performance of Nellore bulls grazing Urochloa brizantha cv. Marandu palisade grass pastures during the rainy season, receiving an energy supplement or mineral supplement, with or without the inclusion of phytogenic additives. Forty-eight Nellore bulls were treated with: (1) energy supplement without the inclusion of phytogenic additives; (2) energy supplement with the inclusion of phytogenic additives; (3) mineral supplement without the inclusion of phytogenic additives; and (4) mineral supplement with the inclusion of phytogenic additives. Consumption of total dry matter (DM), crude protein (CP), apNDF, and energy; digestibility of DM, CP, and energy; average daily gain; stocking rate; and gain per area were higher in animals consuming energy supplements than those consuming mineral supplements. Digestibility of DM, NDF, and energy levels were lower in animals that consumed phytogenic additives. Compared with mineral supplements, the supply of energy supplements provides higher nutrient intake, increases enteric CH4 emission, and improves nutrient digestibility, providing a greater productive performance. The inclusion of phytogenic additives negatively affected nutrient intake and digestibility, did not reduce enteric CH4 emission, and influenced productive performance. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Ammonia, nitrous oxide and methane emissions from excreta of cattle receiving rumen undegradable protein.

Author

Carvalho, Geovany Macêdo, Brito, Liziane de Figueiredo, Coelho, Larissa de Melo, Cardoso, Abmael da Silva, Messana, Juliana Duarte, Colovate, Paulo Henrique Detogni, Ganga, Maria Júlia Generoso, Cruz, Mara Cristina Pessôa da, Malheiros, Euclides Braga, and Berchielli, Telma Teresinha

Abstract

We hypothesized that supplementation with rumen undegradable protein (RUP) during the rearing phase mitigates nitrous oxide (N2O), methane (CH4), and ammonia (NH3) emissions from excreta of Nellore animals in Urochloa brizantha 'Xaraés' pasture. The treatments applied to soil were urine and dung of animals supplemented without RUP or with RUP in the middle and end of the rearing phase. We assessed N2O and CH4 emissions using a static closed chamber and NH3 emissions using the semi‐open static chamber method. No effects were observed for supplement, excreta type, period, or interaction on N2O emissions. The mean emission factor was 0.03% of N in the excreta lost as N2O. Higher NH3 losses were observed for the urine treatments in the end period, regardless of the supplement type. The mean NH3 emission factor for urine was 2.96 and 13.8% for the middle and end periods, respectively, while the mean value for dung was 3.9%. The type of supplement did not affect CH4 emissions, and the mean dung emission factor was 0.12 kg CH4 head–1 year–1. In summary, the supplementation of beef cattle in pastures with RUP did not mitigate NH3, N2O, and CH4 emissions from excreta. The excreta emission factors for the GHGs measured, regardless of differences in the type of excreta, type of supplement, and period, were lower than the default value of Intergovernmental Panel on Climate Change revised guidelines. Further studies will be needed to fully understand the mechanisms underlying the effects of RUP on greenhouse gas emissions. Core Ideas: Rumen undegradable protein supplementation did not affect NH3, N2O, and CH4 emission from excreta.Higher NH3 losses were observed for the urine treatments on the end period.Emission factors calculated for N2O, NH3, and CH4 were lower than that reported by the Intergovernmental Panel on Climate Change. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Emissão de gases de efeito estufa e mitigação de N2O na produção de bovinos de corte em pastagens tropicais

Author

Cardoso, Abmael da Silva [UNESP], Universidade Estadual Paulista (Unesp), and Ruggieri, Ana Cláudia [UNESP]

Subjects
CH4 emissions from soil, Mudanças climáticas, Climate change, Emissão de CH4 do solo, Quantificação de N2O, Volatilização de NH3, N2O quantification, NH3 production
Abstract

Submitted by ABMAEL DA SILVA CARDOSO null (abmael2@gmail.com) on 2016-02-29T19:30:32Z No. of bitstreams: 1 Thesis Abmael Cardoso.pdf: 4203256 bytes, checksum: eeef81b9a1141b4332bcce33ce34a9cf (MD5) Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-03-02T13:20:00Z (GMT) No. of bitstreams: 1 cardoso_as_dr_jabo_par.pdf: 1460797 bytes, checksum: 5dda1834a4ab8b93b8992f104d2eb0c0 (MD5) Made available in DSpace on 2016-03-02T13:20:00Z (GMT). No. of bitstreams: 1 cardoso_as_dr_jabo_par.pdf: 1460797 bytes, checksum: 5dda1834a4ab8b93b8992f104d2eb0c0 (MD5) Previous issue date: 2016-02-03 Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) Metano (CH4) e óxido nitroso (N2O) são dois dos mais importantes gases de efeito estufa emitidos pela pecuária. Eles são produzidos pelas excretas dos animais e fertilizantes. No Brasil, a quantidade emitida destes gases e opções para mitigação foram pouco exploradas. Uma sequência de 4 experimentos foram realizados em campo (em duas estações chuvosas e duas secas, 106 dias de duração cada) com o objetivo de quantificar as emissões de N2O e CH4, volatilização de NH3 e o fator de emissão (FE) quando aplicadas fezes, urina, fezes + urina e fertilizante ureia em Latossolo Vermelho cultivado com capim-marandu. Investigou-se o efeito da umidade do solo e compactação, composição da urina, volume urinário, e adição de fezes sobre as emissões de N2O em um Latossolo recebendo urina manipulada em condições controladas, bem como nas emissões de CH4. Como opção para mitigar as emissões de gases de efeito estufa (GEE) foram estudadas as variáveis como as alturas de pastejo que afetam a magnitude das emissões de GEE; a influência estacional na produção e consumo dos GEE; quais são as variáveis chaves associadas com as emissões de GEE em pastagens de capim-marandu. Adicionalmente, investigou se o efeito dietético dos níveis do sal mineral na concentração de N na urina, o volume urinário, a proporção dos compostos nitrogenados na urina e a concentração de N nas fezes em condições de campo. Os FEs de N2O quantificados diferiram de acordo com a excreta e estação do ano. O FEs foram 2,34%, 4.26% e 3,95% na estação chuvosa e 3.00%, 1.35% e 1.59% na estação seca, respectivamente, para fezes, urina e fezes + urina. O FE do fertilizante ureia foi 0,37%. As emissões médias do CH4 acumuladas foram 99,72, 7,82 e 28,64 (mg C-CH4 m2) para fezes, urina e fezes + urina nesta sequência. Quando manipuladas as condições do solo como umidade, compactação e adição de fezes as emissões de N2O foram influenciadas sendo maiores nos tratamentos com adição de fezes. Ao se variar a concentração do N-urinário aplicado (em igual volume de urina) afetou a produção de N2O diminuindo as emissões da maior para a menor concentração de N aplicada e não foi observado efeito ao se variar o volume de urina aplicado (contendo igual concentração de N-urinário). A concentração de KCl adicionada na urina afetou as emissões de N2O de forma curvilínea enquanto o tipo de composto nitrogenado não. Ao se estudar as emissões de CH4 estas responderam aos fatores do solo como umidade, compactação e adição de fezes e não foram afetadas pela variação da concentração de N-urinário e volumes de urina. A fonte de nitrogênio aplicada não afetou a produção/oxidação de CH4. A altura do pasto, estação e ano afetaram as emissões de N2O e CO2 e a estação as de CH4. As maiores emissões ocorreram no verão e as menores no inverno. A altura do pasto apresentou efeito linear negativo nas emissões de N2O acumuladas anual e linear positivo nas emissões de CO2. O efeito dietético dos níveis de sal mineral influenciaram a concentração de N-urinário, volume de urina, N-ureia, N-alantoína e N-ácido hipurico. A concentração de N-urinário apresentou efeito negativo linear, o volume de urina, N-ureia, N-alantoína e N-ácido hipúrico positivo linear. Enquanto que a excreção total de N excretado via urina, N-creatinina e concentração de N nas fezes não foram afetadas pelos níveis de sal mineral na dieta. As emissões de CH4, N2O e NH3 diferiram dos FEs defaults preconizados pelo IPCC. A umidade e a compactação do solo podem ser os principais fatores que regulam as emissões de N2O e CH4 e depende da variação sazonal da precipitação pluviométrica. CH4 and N2O are two of the most important greenhouse gas emitted by livestock. They are produced from animal excretes and the fertilizer. In Brazil the amount and options to mitigate these gases are little explored. We carried out a sequence of 4 field-trials (two rainy and two dry season, 106 days each) aimed to quantify the N2O and CH4 emissions, NH3 volatilization and emission factor (EF) after application of dung, urine, dung + urine and urea fertilizer on a Ferralsol of a marandu palisade-grass pastureland of Brazil. We aimed to investigate the effects of soil moisture, soil compaction, urine composition, urine volume, and dung addition on N2O emission from a urine-treated tropical Ferralsol under controlled conditions as well on CH4 emission. As option to mitigate greenhouse gas (GHG) emissions we studied how grazing heights affect the magnitude of GHG emissions; how season influence GHG production and consumption; what are the key driving variables associated with GHG emissions. Additionally, we investigated the effect of dietary mineral salt levels on urine-N concentration, urine volume, the proportion of N compounds in the urine and faeces-N concentration under field conditions. The emissions factor (EF) calculated differed according excretes and season. The EFs were 2.34%, 4.26% and 3.95% in the rainy season and 3.00%, 1.35% and 1.59% in the dry season, respectively, for the dung patches, urine patches and dung + urine. The N2O EF from urea was 0.37%. The averages of CH4 accumulated emissions were 99.72, 7.82 and 28.64 (mg CH4-C m2) for dung, urine and dung + urine in this sequence. The manipulated soil conditions moisture content, compaction, and dung addition affected N2O emissions when varying quantities of urine-N were applied (in equal urine volumes) being higher when added dung and did not affect when varying urine volumes were applied (containing equal quantities of urine-N). The urine-N concentration influenced N2O emissions decreasing from the lower concentration to the higher and the chemical form of urine-N did not. The concentration of KCl added to the urine influenced N2O emissions presenting a curvilinear curve. When the CH4 emissions were influenced by soil factors moisture content, compaction and dung addition and did not responded to the variation in the urine-N concentration and volume. The source of N did not influence the CH4 emissions/oxidation. Pasture height, season and year affect N2O and CO2 emissions and the season CH4 releases. The greater emissions occurred in the summer and the lower in the winter. Pasture height had negative linear effect on annual cumulative N2O emissions and positive linear effect on annual cumulative CO2 emissions. Dietary effects of mineral salt level influenced the N concentration in the urine, urine volume, urea-N, allantoin-N and hyppuric acid. While the total N excreted daily via urine, creatinine-N and N concentration in feces were not affected by mineral salt level in the diet. The emissions of CH4, N2O and NH3 differs that default EFs preconized by the IPCC. Soil moisture and compaction appear to be the main factors regulating N2O and CH4 emissions and depends of the rainfall seasonality. FAPESP: 2013/24782-8 FAPESP: 2012/06718-8

Published
2016

27. Effect of volume of urine and mass of faeces on N2O and CH4 emissions of dairy-cow excreta in a tropical pasture.

Author

Cardoso, Abmael da Silva, Alves, Bruno José Rodrigues, Urquiaga, Segundo, and Boddey, Robert Michael

Subjects
*EMISSIONS (Air pollution), *METHANE
Abstract

We aimed to quantify nitrous oxide (N2O) and methane (CH4) emissions as a function of the addition of different quantities of bovine faeces and urine on soil under pasture. Two experiments were performed in randomised complete blocks with five replicates. In the first experiment, the emissions of CH4 and N2O were evaluated for 14 days after the addition of four amounts of faeces (0.0, 1.2, 1.8 and 2.4 kg of fresh faeces per plot), and in a second experiment, N2O emissions were evaluated for 43 days after addition of four volumes of urine (0.0, 1.0, 1.5 and 2.0 L). Urine and faeces came from crossbred (Fresian x Gir) dairy cows fed on pasture and concentrates. N2O emissions from faeces did not alter the emission factor (EF) according to the faeces weight (P = 0.73). N2O-N EF from faeces-N averaged 0.18% (±0.05) of total applied N. The volume of urine applied influenced N2O losses. The EF decreased linearly (P = 0.015) with increasing volumes of urine, being 4.9% (±0.75), 3.36% (±0.7) and 2.43% (±0.46) of N applied emitted as N2O for the 1.0, 1.5 and 2.0 L volumes of urine respectively. The EF from urine was significantly (P < 0.0001) higher than the EF from faeces. There was no change to the CH4 emissions per kilogram of excreta when the amount of faeces added was varied (P = 0.87). However, the CH4 emitted increased linearly with the amount of faeces (P = 0.02). The CH4 EF was estimated to be 0.95 (±0.38) kg/head.year. [ABSTRACT FROM AUTHOR]

Published
2018
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28. N2O emissions from urine-treated tropical soil: Effects of soil moisture and compaction, urine composition, and dung addition.

Author

Cardoso, Abmael da Silva, Quintana, Bruna Giovani, Janusckiewicz, Estella Rosseto, Brito, Liziane de Figueiredo, Morgado, Eliane da Silva, Reis, Ricardo Andrade, and Ruggieri, Ana Claudia

Subjects
*NITROUS oxide & the environment, *SOIL science, *NITROGEN in soils, *URINE, *SOIL moisture, *SOIL compaction
Abstract

Increasing attention is being paid to the importance of N 2 O emissions due to livestock activities in tropical countries. Understanding the key variables driving N 2 O emission could help minimize impacts of N 2 O release and improve the accuracy of N 2 O inventories. We aimed to investigate the effects of soil moisture, soil compaction, urine composition, urine volume, and dung addition on N 2 O emissions from a urine-treated tropical Ferralsol under controlled conditions. Manipulated soil conditions (e.g., moisture content, compaction, and dung addition) affected N 2 O emissions when varying quantities of urine-N ( p = 0.02) were applied (urine volumes remained equal) and when varying urine volumes ( p = 0.04) were applied (quantities of urine-N remained equal). When the amount of urine-N applied was varied, the estimated N 2 O emission factor (EF) was 3.14 ± 0.70%, 2.29 ± 1.25%, 3.90 ± 0.64%, 4.73 ± 0.88%, and 6.62 ± 1.10% for moist soil, dry soil, compacted soil, plus dung, and plus dung and compacted soil treatments, respectively. While varying the volume of urine, the estimated N 2 O EF was 4.96 ± 1.66%, 4.27 ± 1.42%, 3.99 ± 1.19%, 6.50 ± 0.35%, and 7.37 ± 0.76% for moist, dry soil, compacted soil, plus dung, and plus dung and compacted soils treatments, respectively. The urine-N concentration influenced N 2 O emissions ( p = 0.02) [which decreased linearly ( p = 0.062)] as well the volume of urine ( p < 0.01) [which increased linearly ( p < 0.01)]. The chemical form of the applied urine-N (urea, nitrate, or ammonium) did not affect N 2 O emissions and the emissions factor averaged 1.40 ± 0.38%. N 2 O production was affected by the KCl concentration in the urine ( p < 0.01), and the effect was curvilinear. The key driving factor affecting N 2 O emissions was soil moisture content. The N 2 O response varied when the urine volume differed (in both moist and dry soil conditions), and with the addition of dung. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Effects of Replacing Cottonseed Meal with Corn Dried Distillers' Grain on Ruminal Parameters, Performance, and Enteric Methane Emissions in Young Nellore Bulls Reared in Tropical Pastures.

Author

de Araújo, Tiago Luís Da Ros, da Silva, Wilton Ladeira, Berça, Andressa Scholz, Cardoso, Abmael da Silva, Barbero, Rondineli Pavezzi, Romanzini, Eliéder Prates, and Reis, Ricardo Andrade

Subjects
DISTILLERY by-products, CORN meal, COTTONSEED, PASTURES, BEEF cattle, CATTLE carcasses, RUMEN fermentation
Abstract

Simple Summary: Dried distillers' grains (DDG), a co-product of ethanol production from corn, is gaining attention for its efficiency in ruminant nutrition, as it meets both the energy and protein demands of livestock and is less costly than the popular alternatives. The aim of this study was to evaluate the effect of replacing cottonseed meal with DDG at two levels (50 and 100%) on young Nellore bulls grazing Marandu grass in the rainy season, focusing on ruminal parameters, animal performance, and methane (CH4) emissions. When replacing 50% of cottonseed meal with DDG, animals presented higher intakes of dry matter, organic matter, forage, and digestible organic matter, compared to 100% DDG. Ruminal parameters, including pH, acetate, and acetate: propionate, were higher when animals received only mineral supplementation. Animals supplemented with concentrate (cottonseed meal and/or DDG) presented greater daily weight gain and final body weight than the animals consuming mineral supplementation. Replacing cottonseed meal with DDG does not cause great variations in ruminal parameters, animal performance, and enteric CH4 emissions in grazing Nellore cattle during the rearing phase in the wet season. However, supplementation of 0.3% body weight with the concentrate can improve the productive performance of grazing animals. Both protein sources, DDG or cottonseed meal, can be used to intensify grazing beef cattle production. Two experiments were conducted to evaluate the effect of replacing cottonseed meal with DDG on ruminal parameters, methane (CH4) emissions (Experiment 1), and animal performance (Experiment 2) of young Nellore bulls grazing Marandu grass during the rainy season. Four supplementation strategies were used in both experiments: (1) Mineral supplementation (MS); (2) conventional multiple supplement (energy/protein) with cottonseed meal and citrus pulp (CMS); (3) CMS with 50% cottonseed meal replaced by DDG (50DDG); and (4) CMS with 100% cottonseed meal replaced by DDG (100DDG). The 50DDG condition resulted in greater intake of dry matter (p = 0.033), organic matter (OM) (p = 0.050), forage (p = 0.035), and digestible OM (p = 0.031) than 100DDG. The supplemented animals presented greater final body weight (BW) and average daily gain than the animals consuming MS (p = 0.011), and lower pH, acetate, and acetate:propionate (p < 0.05). However, the treatments had no influence on stocking rate, gain per area, and enteric CH4 emissions (p > 0.05). Replacing cottonseed meal with DDG does not result in great variations in ruminal parameters, animal performance, and enteric CH4 emissions of grazing Nellore cattle during the rearing phase in the wet season. Both protein sources in 0.3% BW supplementation can be used to intensify beef cattle production in pastures. [ABSTRACT FROM AUTHOR]

Published
2021
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30. Ammonia Volatilization, Forage Accumulation, and Nutritive Value of Marandu Palisade Grass Pastures in Different N Sources and Doses.

Author

Corrêa, Darlena Caroline da Cruz, Cardoso, Abmael da Silva, Ferreira, Mariane Rodrigues, Siniscalchi, Débora, Gonçalves, Pedro Henrique de Almeida, Lumasini, Rodolfo Nussio, Reis, Ricardo Andrade, and Ruggieri, Ana Cláudia

Subjects
*AMMONIA, *FERTILIZER application, *AMMONIUM nitrate, *AMMONIUM sulfate, *PASTURES, *CHILDREN with cerebral palsy, *FERTILIZERS
Abstract

The reduction in ammonia (NH3) losses from volatilization has significant implications in forage production. The objective of this study was to evaluate the impact of N fertilizers (urea, ammonium nitrate, and ammonium sulfate) and four doses (0, 90, 180 and 270 kg N ha−1) on N losses by NH3 volatilization, accumulation, and forage chemical composition of Urochloa brizantha cv Marandu. Two field experiments were conducted to measure NH3 losses using semi-open chambers. The forage accumulation and chemical composition were evaluated in the third experiment; the response variables included forage accumulation, crude protein (CP), and neutral detergent fiber (NDF). Compared to urea, ammonium nitrate and ammonium sulfate reduced NH3 losses by 84% and 87% and increased total forage accumulation by 14% and 23%, respectively. Forage accumulation rate and CP increased linearly with the N levels, while NDF contents decreased linearly with the N levels. In both experiments, NH3 losses and forage characteristics were different according to the rainfall pattern and temperature variations. Our results indicate that the use of nitric and ammoniacal fertilizers and the application of fertilizer in the rainy season constitute an efficient fertilizer management strategy to increase forage yield and decrease losses from volatilization of NH3. [ABSTRACT FROM AUTHOR]

Published
2021
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31. Intensive Production and Management of Marandu Palisadegrass (Urochloa brizantha 'Marandu') Accelerates Leaf Turnover but Does Not Change Herbage Mass.

Author

Ongaratto, Fernando, Fernandes, Marcia Helena Machado da Rocha, Dallantonia, Erick Escobar, Lima, Lais de Oliveira, Val, Guilherme Alves do, Cardoso, Abmael da Silva, Rigobello, Izabela Larosa, Campos, Jorge Augusto Americo, Reis, Ricardo Andrade, Ruggieri, Ana Claudia, and Malheiros, Euclides Braga

Subjects
GRASSES, SIGNALGRASS, RANGE management, BEEF cattle, AMMONIUM nitrate
Abstract

Pasture intensification through higher stocking rates, nitrogen fertilization and intensified grazing management in beef cattle production optimizes pasture use by increasing the forage harvested. We aimed to assess its effects on the morphogenesis and canopy structure of Urochloa brizantha 'Marandu' (marandu palisadegrass) pastures. The treatments consisted of marandu palisadegrass pastures managed under continuous stocking and a canopy height of 25 cm, with different levels of intensification: extensive, semi-intensive, and intensive systems N-fertilized with 0 kg, 75 kg, and 150 kg N ha−1 year−1, respectively, as ammonium nitrate (32% of N), with four replicates (paddocks) in a completely randomized design. Phyllochron (9.8 days) and leaf lifespan (34.7 days) were shorter in intensified pastures, whereas herbage mass was similar among treatments. Extensive pastures had a higher proportion of senescent material; thus, more intensive systems showed higher proportions of leaves and stems, although the leaves-to-stem ratio remained similar across production systems. The defoliation interval was lower in intensive (14.4 days) and higher in extensive (18.7 days) treatments. Thus, pasture intensification accelerates leaf appearance, decreases leaf lifespan, shortens the tiller defoliation interval and increased herbage accumulation rate but does not change herbage mass. The extensive system produces excessive forage losses due to dead material. [ABSTRACT FROM AUTHOR]

Published
2021
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32. Are CH 4 , CO 2 , and N 2 O Emissions from Soil Affected by the Sources and Doses of N in Warm-Season Pasture?

Author

Corrêa, Darlena Caroline da Cruz, Cardoso, Abmael da Silva, Ferreira, Mariane Rodrigues, Siniscalchi, Débora, Toniello, Ariana Desie, Lima, Gilmar Cotrin de, Reis, Ricardo Andrade, and Ruggieri, Ana Claudia

Subjects
*CARBON dioxide, *GRASSLAND soils, *AMMONIUM sulfate, *PASTURES, *SOIL air, *AMMONIUM nitrate
Abstract

The intensification of pasture production has increased the use of N fertilizers—a practice that can alter soil greenhouse gas (GHG) fluxes. The objective of the present study was to evaluate the fluxes of CH4, CO2, and N2O in the soil of Urochloa brizantha 'Marandu' pastures fertilized with different sources and doses of N. Two field experiments were conducted to evaluate GHG fluxes following N fertilization with urea, ammonium nitrate, and ammonium sulfate at doses of 0, 90, 180, and 270 kg N ha−1. GHG fluxes were quantified using the static chamber technique and gas chromatography. In both experiments, the sources and doses of N did not significantly affect cumulative GHG emissions, while N fertilization significantly affected cumulative N2O and CO2 emissions compared to the control treatment. The N2O emission factor following fertilization with urea, ammonium nitrate, and ammonium sulfate was lower than the United Nations' Intergovernmental Panel on Climate Change standard (0.35%, 0.24%, and 0.21%, respectively, with fractionation fertilization and 1.00%, 0.83%, and 1.03%, respectively, with single fertilization). These findings are important for integrating national inventories and improving GHG estimation in tropical regions. [ABSTRACT FROM AUTHOR]

Published
2021
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33. Does the Effect of Replacing Cottonseed Meal with Dried Distiller's Grains on Nellore Bulls Finishing Phase Vary between Pasture and Feedlot?

Author

Hoffmann, Alvair, Berça, Andressa Scholz, Cardoso, Abmael da Silva, Fonseca, Natalia Vilas Boas, Silva, Maria Luísa Curvelo, Leite, Rhaony Gonçalves, Ruggieri, Ana Cláudia, and Reis, Ricardo Andrade

Subjects
DISTILLERY by-products, PASTURES, COTTONSEED, INGESTION, BEEF cattle, FORAGE plants, CORN stover, PASTURE management
Abstract

Simple Summary: The use of less costly products that are not consumed by humans in animal feed has gained increasing attention in the context of sustainable production. Dried distiller's grains (DDG), a co-product of the production of ethanol from corn, stands out for being efficient in the nutrition of ruminants, meeting both the energy and protein demands of the diets, when the cattle are kept in the pasture or feedlot. The study aimed to evaluate the effect of replacing cottonseed meal (CM) by DDG in two levels (50% (50DDG) and 100% (100DDG)), in terms of efficiency in the productive aspects of cattle finishing phase comparing pasture versus feedlot. The effect of replacing CM by DDG on dry matter, nutrients intake and nutrients digestibility depends on finishing system. While in the pasture system animal consumed more nutrients in the CM, a greater intake was observed in the 100DDG in feedlot. The nutrients digestibility was lower in the pasture. Animal performance and final body weight were higher in the feedlot. The use of DDG does not change the animal performance finished in pasture or feedlot, and it is a viable alternative to replace conventional supplements in finishing phase in both systems in tropical environment. The study aimed to evaluate the effect of replacing cottonseed meal by dried distiller's grains (DDG) in terms of efficiency in the productive aspects of beef cattle finishing in pasture versus feedlot. The experiment was conducted in a completely randomized design in a 2 × 3 factorial arrangement, with two production systems (pasture versus feedlot) and three supplements: CM, conventional supplement with cottonseed meal (CM) as a protein source; 50DDG: supplement with 50% replacement of CM by DDG; and 100DDG: 100% replacement. The effect of replacing CM by DDG on dry matter and nutrients intake and nutrients digestibility depends on the finishing system (p < 0.05). While in the pasture system animal consumed more nutrients in the CM, a greater intake was observed in the 100DDG in feedlot. The nutrients digestibility was lower in the pasture (p < 0.05). Animal performance and final body weight were higher in the feedlot (p < 0.0001), with averages of 1.57 kg/d and 566 kg of final body weight (FBW) for feedlot, and 0.99 kg/d and 504 kg FBW for pasture. The use of DDG does not change the animal performance finished in pasture or feedlot, and it is a viable alternative to replace conventional supplements in finishing phase in both systems in tropical environment. [ABSTRACT FROM AUTHOR]

Published
2021
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34. Grazing Intensity Impacts on Herbage Mass, Sward Structure, Greenhouse Gas Emissions, and Animal Performance: Analysis of Brachiaria Pastureland.

Author

Ruggieri, Ana Cláudia, Cardoso, Abmael da Silva, Ongaratto, Fernando, Casagrande, Daniel Rume, Barbero, Rondineli Pavezzi, Brito, Liziane de Figueiredo, Azenha, Mariane Vieira, Oliveira, André Alves, Koscheck, Jefferson Fabiano Werner, and Reis, Ricardo Andrade

Subjects
*BRACHIARIA, *GREENHOUSE gases, *GRASSES, *FORAGE plants, *PASTURES, *WEIGHT gain
Abstract

A 7 year experiment (2008–2014) evaluated cattle grazing intensity (sward height) effects on herbage mass, forage quality, and greenhouse gas emissions in continuously stocked pastures containing the tropical 'Marandu' palisade grass (Brachiaria brizantha (Hochst. ex A. Rich) Stapf cv. Marandu). The experiment consisted of three sward height treatments (15, 25, and 35 cm) and six replicates. There were four periods each year during the rearing phase. Significant effects were found for herbage mass, proportions of leaf and stem, crude protein, neutral detergent fiber, acid detergent fiber, lignin, animal performance, enteric methane (CH4), and greenhouse gas (GHG) emissions from soils. When the canopy height increased from 15 to 35 cm, the herbage mass rose from 5.23 to 9.86 kg t ha−1, leaf percentage decreased, and stem percentage increased. Crude protein content averaged 14.2%, and neutral detergent fiber averaged 58%. Average daily gain averaged 0.67, 0.81, and 0.90 kg −1 head−1, while live weight gain ha–1 was 649, 530, and 439 kg for the 15, 25, and 35 cm treatments, respectively. The weather variables explained the GHG emissions, interannual herbage mass, and structure variations. [ABSTRACT FROM AUTHOR]

Published
2020
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35. Intensification: A Key Strategy to Achieve Great Animal and Environmental Beef Cattle Production Sustainability in Brachiaria Grasslands.

Author

Cardoso, Abmael da Silva, Barbero, Rondineli Pavezzi, Romanzini, Eliéder Prates, Teobaldo, Ronyatta Weich, Ongaratto, Fernando, Fernandes, Marcia Helena Machado da Rocha, Ruggieri, Ana Cláudia, and Reis, Ricardo Andrade

Abstract

Intensification of tropical grassland can be a strategy to increase beef production, but methods for achieving this should maintain or reduce its environmental impact and should not compromise future food-producing capacity. The objective of this review was to discuss the aspects of grassland management, animal supplementation, the environment, and the socioeconomics of grassland intensification. Reducing environmental impact in the form of, for example, greenhouse gas (GHG) emissions is particularly important in Brazil, which is the second-largest beef producer in the world. Most Brazilian pastures, however, are degraded, representing a considerable opportunity for the mitigation and increase of beef-cattle production, and consequently increasing global protein supply. Moreover, in Brazil, forage production is necessary for seasonal feeding strategies that maintain animal performance during periods of forage scarcity. There are many options to achieve this objective that can be adopted alone or in association. These options include improving grassland management, pasture fertilization, and animal supplementation. Improving grazing management has the potential to mitigate GHG emissions through the reduction of the intensity of CO2 emissions, as well as the preservation of natural areas by reducing the need for expanding pastureland. Limitations to farmers adopting intensification strategies include cultural aspects and the lack of financial resources and technical assistance. [ABSTRACT FROM AUTHOR]

Published
2020
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