GHG Mitigation Potential of Different Grazing Strategies in the United States Southern Great Plains

Wang, Tong; Teague, W.R.; Park, Seong; Bevers, Stan

doi:10.3390/su71013500

Cited by 56 publications

(43 citation statements)

References 36 publications

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“…LCA studies by Pelletier et al (2010) and Lupo et al (2013) support these observations, suggesting a 24-30% reduction in net GHG production as a function of sequestration from grass-fed beef production. These observations are consistent with an LCA analysis by Wang et al (2015) for beef production in Texas, and they track well with empirical observations (Teague et al, 2011;Dowhower et al, 2019;Rowntree et al, 2019). The importance of C-sequestration by grasslands is clearly critical to the efficacy of agriculture as a vehicle for GHG removal.…”

Section: Impacts Associated With Climate Changesupporting

confidence: 89%

Do Differences in Livestock Management Practices Influence Environmental Impacts?

Kleppel

2020

Front. Sustain. Food Syst.

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Herbivore-carnivore interactions are fundamental to grassland ecosystem functionality and to the human cultures that have long depended on these ecosystems for their nutrition. However, a large literature has developed during the past century indicating that animal agriculture is responsible for numerous negative environmental impacts. In this paper, I review literature on some of the environmental impacts of two different livestock management approaches, industrial-conventional (IC) management and regenerative-multi-paddock (RM) management. I consider the null hypothesis that the environmental impacts of ruminant livestock production are independent of the approach used to manage animals and grazing lands. It evident in the literature that managed grazing ecosystems are complex, and for certain system attributes, such as forage quality and plant community structure, the better management system is difficult to discern. In other areas definitive differences in impacts appear clearly management dependent. For instance, the soils of RM grasslands exhibit higher microbial biomass and diversity, and higher fungal: bacterial ratios than IC soils. Several impacts associated with livestock production appear to have less to do with grazing, per se, and more to do with support factors, such as feed production and manure management. The compilation of data from numerous sources suggests that RM management may reduce blue withdrawals and GHG emissions by >50%, relative to IC management. Accumulating data also suggest that a significant portion of anthropogenic CO 2-eq emissions can be removed from the atmosphere and stored in the soil by applying RM management practices. Finally, it is suggested that while research design may affect the outcomes of some studies, the quality and quantity of the science may not resolve many discrepancies in the data. It is suggested that the viability and sustainability of animal agriculture may depend upon broadening the goals of practitioners to include both food production and the restoration and protection of agricultural ecosystem services.

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Section: Impacts Associated With Climate Changesupporting

confidence: 89%

Do Differences in Livestock Management Practices Influence Environmental Impacts?

Kleppel

2020

Front. Sustain. Food Syst.

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“…Previous work also suggests grazing exclusion can decrease soil C pools, due to reduced root C inputs, decreased grazer‐driven plant growth, and increased microbial respiration (Shao et al, 2013). Notably, considerable disagreement exists regarding the potential C sequestration gains and subsequent mitigation benefits to be made via specialized grazing systems (Joyce et al, 2013; Wang et al, 2015). Meeting the simultaneous demands for soil restoration (Six, 2013) and animal protein production (Thornton, 2010; Herrero et al, 2016) requires an improved understanding of the complex relationships between livestock grazing and soil function and health at regional and global scales.…”

mentioning

confidence: 99%

A Global Meta‐Analysis of Grazing Impacts on Soil Health Indicators

et al. 2018

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Grazing lands support the livelihoods of millions of people across nearly one-half of the globe. Soils are the backbone of stability and resilience in these systems. To determine livestock grazing impacts on soil health, we conducted a global meta-analysis of soil organic carbon (SOC), total N, C/N ratio, and bulk density responses to grazing strategies (continuous, rotational, and no grazing) and intensities (heavy, moderate, and light grazing) from 64 studies around the world. Across all studies and grazing intensities, continuous grazing significantly reduced SOC, C/N, and total N compared with no grazing. Soil compaction (i.e., increased bulk density) was greater under both continuous and rotational grazing compared with no grazing; however, rotational grazing had lower bulk density than continuous grazing. Rotational grazing had greater SOC than continuous grazing and was not different from no grazing. The positive responses of SOC to rotational grazing could create climate change mitigation opportunities. Grazing strategy comparisons were minimally conditioned by aridity class (i.e., arid, subhumid, and humid); however, complete observations were notably limited or missing for many rotational grazing comparisons. For continuous and no grazing strategy comparisons, we found that grazing management can significantly influence soil function and health outcomes; however, site-specific environmental factors play important moderating roles. Greater coordination across regional, national, and global efforts, as well as consistent guidelines for soil health evaluation, would help overcome these knowledge gaps and vastly improve our collective understanding of grazing impacts on soil health, providing greater management and policy impacts.

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“…Paleo records provide evidence that management of grassland agroecosystems can create a large C sink (Retallack, 2013). Equally, changing management approaches in ruminant-based production chains can improve soil health and thereby create net C sinks (Wang et al, 2015;Rowntree et al, 2016;Stanley et al, 2018). Given that most agricultural producers have not used conservation practices outlined by Delgado et al (2011), applying such practices more broadly could lead to substantial soil health improvements and, therefore, a significant increase in C sink (Conant and Elliott, 2001;Liebig et al, 2010;Teague et al, 2011;Machmuller et al, 2015;Dowhower et al, 2019;Hillenbrand et al, 2019).…”

Section: Managing For Multi-functionality In Agricultural Systemsmentioning

confidence: 99%

“…Life cycle analyses that include all GHG emissions associated with the production of grain-based feeds, including the production and application of inorganic fertilizers and irrigation water to produce grain, show that the C footprint as well as soil erosion associated with grain-finished beef substantially exceeds the C footprint of grass-finished beef (Teague et al, 2016;Stanley et al, 2018). Additionally, C sequestered by plants grazed by cattle exceeds the enteric emissions of the grazing animals (Wang et al, 2015;Rowntree et al, 2016). The C footprint of the beef production chain can be substantially reduced when ruminants are finished on forages and grains produced using regenerative cropping practices that have a negative C footprint (Gattinger et al, 2012;Aguilera et al, 2013).…”

Section: Managing For Multi-functionality In Agricultural Systemsmentioning

confidence: 99%

Managing Grazing to Restore Soil Health, Ecosystem Function, and Ecosystem Services

Teague

Kreuter

2020

Front. Sustain. Food Syst.

126

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uses short-duration grazing periods, long adaptively varied post-grazing plant recovery periods requiring multiple paddocks per herd to ensure adequate residual biomass, and adjustment of animal numbers as environmental and economic conditions change. Using this approach, farmers and ranchers have achieved superior ecosystem and profitability outcomes. This manuscript summarizes the use of AMP grazing as regenerative tool for grazed and rotationally cropped lands.

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GHG Mitigation Potential of Different Grazing Strategies in the United States Southern Great Plains

Cited by 56 publications

References 36 publications

Do Differences in Livestock Management Practices Influence Environmental Impacts?

Do Differences in Livestock Management Practices Influence Environmental Impacts?

A Global Meta‐Analysis of Grazing Impacts on Soil Health Indicators

Managing Grazing to Restore Soil Health, Ecosystem Function, and Ecosystem Services

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