Forage legumes in grass pastures in tropical Brazil and likely impacts on greenhouse gas emissions: A review

Boddey, Robert M.; Casagrande, Daniel Rume; Homem, Bruno Grossi Costa; Alves, B. J. R.

doi:10.1111/gfs.12498

Cited by 56 publications

(43 citation statements)

References 85 publications

(155 reference statements)

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“…These results (i.e., the increased milk productivity by 52% and the related increased income from milk sales by 58%) are consistent with (and even surpass the results of) different studies that have evaluated the potential of Arachis pintoi accessions (mainly CIAT 17434) in integrated grass-legume systems for livestock production in the tropics. These studies highlight, in comparison with monoculture pastures, improvements in both forage quantity and quality, a strong compatibility with aggressive Brachiaria species, as well as higher meat and milk production levels and stocking rate (Peters et al, 2011;Crestani et al, 2013;Pereira et al, 2019;Boddey et al, 2020;Villegas et al, 2020). Other studies show average increases in milk production of 31% in Colombia (Rivas and Holmann, 2000), 7 and 11.4% in Costa Rica (Peters et al, 2001;Romero and González, 2004), and 20% in Peru (Lara and Reategui, 2004).…”

Section: Discussionmentioning

confidence: 99%

Risk Reduction and Productivity Increase Through Integrating Arachis pintoi in Cattle Production Systems in the Colombian Orinoquía

Enciso

Castillo

Ruden

et al. 2021

Front. Sustain. Food Syst.

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In many parts of the foothills of the Orinoquía region of Colombia, cattle production takes place on poorly drained soils. The region is dominated by extensive grazing systems of Brachiaira humidicola cv. Humidicola, a grass with high adaptation potential under temporal waterlogging conditions. Inadequate management practices and low soil fertility result in degradation, however, with important negative effects on pasture productivity and the quality and provision of (soil) ecosystem services–a situation that is likely to worsen in the near future due to climate change. Against this background, AGROSAVIA (Corporación Colombiana de Investigación Agropecuaria) selected Arachis pintoi CIAT 22160 cv. Centauro (Centauro) as a promising alternative for the sustainable intensification of livestock production and rehabilitation of degraded areas. This study assesses dual-purpose milk production in the foothills of the Colombian Orinoquía from an economic perspective. We compare two production systems: the Centauro–Brachiaira humidicola cv. Humidicola association (new system) and Brachiaira humidicola cv. Humidicola as a monoculture (traditional system). We used cashflow and risk assessment models to estimate economic indicators. The projections for economic returns consider changes in forage characteristics under regional climate change scenarios RCP (2.6, 8.5). The LIFE-SIM model was used to simulate dairy production. Results show that the inclusion of Centauro has the potential to increase animal productivity and profitability under different market scenarios. The impact of climatic variables on forage production is considerable in both climate change scenarios. Both total area and potential distribution of Centauro could change, and biomass production could decline. Brachiaira humidicola cv. Humidicola showed better persistence due to higher nitrogen levels in soil when grown in association with Centauro. The legume also provides a number of ecosystem services, such as improving soil structure and composition, and also contributes to reducing greenhouse gas emissions. This helps to improve the adaptation and mitigation capacity of the system.

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Section: Discussionmentioning

confidence: 99%

Risk Reduction and Productivity Increase Through Integrating Arachis pintoi in Cattle Production Systems in the Colombian Orinoquía

Enciso

Castillo

Ruden

et al. 2021

Front. Sustain. Food Syst.

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“…Therefore, these ecosystems are an important resource for the country, since it can be used as food for it is cattle, and also present a great potential for mitigation of greenhouse gas emissions (Bustamante et al, 2012;Herrero et al, 2016;Ikhuoso et al, 2020). Despite tropical forage legumes were rst used on a wide scale several decades ago in the northeasterly Australian Shaw, (1961), currently, most tropical pasture, mainly in Brazil, are dominated by C4 grasses like Brachiaria brizantha, Megathyrsus maximus, and to a lesser extent by C3 legumes like Stylosanthes capitata Vogel (Boddey et al, 2020;Olivera-Viciedo et al, 2021a, 2021b.…”

Section: Introductionmentioning

confidence: 99%

Are the interaction effects of warming and drought on nutritional status and biomass production in a tropical forage legume greater than their individual effects?

Viciedo

Prado

Martínez

et al. 2021

Preprint

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Climate change effects on natural and managed ecosystems are difficult to predict due to its multi-factor nature. However, most studies which investigate the impacts of climate change factors on plants, such as warming or drought, were conducted under one single stress and controlled environments. In this study, we evaluated the effects of elevated temperature (+ 2°C) (T) under different conditions of soil water availability (W) to understand the interactive effects of both factors on leaf, stem, and inflorescence macro and micronutrients concentration and biomass allocation of a tropical forage species, Stylosanthes capitata Vogel under field conditions. Temperature control was performed by a Temperature Free-Air Controlled Enhancement (T‐FACE) system. We observed that warming changed nutrient concentrations and plant growth depending on soil moisture levels, but the responses were specific for each plant-organ. In general, we observed that warming under well-watered conditions greatly improved nutrient concentration and biomass production, whilst the opposite effect was observed under non-irrigated and non-warmed conditions. However, under warmed and non-irrigated conditions, we observed that leaf biomass and leaf nutrient concentration greatly reduced when compared to non-warmed and irrigated plants. Our findings suggest that warming (2°C above ambient temperature) and drought, as well as both combined stresses, will change the nutrient requirements and biomass distributions between plant aerial organs of S. capitata in tropical ecosystems, which may impact animal feeding in the future.

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“…There is also an increased interest in the role of legumes in tropical environments, e.g., Boddey et al. (2020). This special issue expands and updates the discussion on the role of legumes in farming systems with an emphasis on lower rainfall environments.…”

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confidence: 99%

Editorial—Annual and perennial forage legumes in dryland pasture systems

Smith

Elgersma²

2021

Grass and Forage Science

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Editorial-Annual and perennial forage legumes in dryland pasture systems Grass and Forage Science has a strong history of publishing science related to the role of legumes in grassland farming systems. Climate change, altered production systems and associated changes in land use create challenges for the sustainable intensification of animal production from grazing. Pasture legumes are uniquely placed to provide high-quality forage and biologically fixed nitrogen despite the challenges associated with the incorporation of legumes into grazing systems. Climate change, as predicted by a range of climate models, is

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Forage legumes in grass pastures in tropical Brazil and likely impacts on greenhouse gas emissions: A review

Cited by 56 publications

References 85 publications

Risk Reduction and Productivity Increase Through Integrating Arachis pintoi in Cattle Production Systems in the Colombian Orinoquía

Risk Reduction and Productivity Increase Through Integrating Arachis pintoi in Cattle Production Systems in the Colombian Orinoquía

Are the interaction effects of warming and drought on nutritional status and biomass production in a tropical forage legume greater than their individual effects?

Editorial—Annual and perennial forage legumes in dryland pasture systems

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