Surface‐soil carbon stocks greater under well‐managed grazed pasture than row crops

Becker, Alex; Horowitz, Leah S.; Ruark, Matthew D.; Jackson, Randall D.

doi:10.1002/saj2.20388

Cited by 17 publications

(12 citation statements)

References 76 publications

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“…Pastures had greater SOM and labile C and N than annual and forage cropping systems, aligning with previous studies (Becker et al., 2022; Franzluebbers et al., 2000; Guillaume et al., 2021; Sanford et al., 2012). As perennial systems, well‐managed pastures continuously cover the soil surface, nearly eliminate soil disturbance, and provide greater C inputs through longer growing seasons, continual root production and turnover, and root exudation (Cates et al., 2016; Franzluebbers & Stuedemann, 2015; Jackson et al., 1997; Sanford et al., 2022; Sprunger et al., 2017; Teague & Kreuter, 2020).…”

Section: Resultssupporting

confidence: 90%

Cropping systems with perennial vegetation and livestock integration promote soil health

Augarten

Malone

Richardson

et al. 2023

Agricultural & Env Letters

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Soil health can differ across cropping systems because of variation in edaphic and management factors. We evaluated how biological indicators of soil health (soil organic matter [SOM], permanganate oxidizable carbon [POXC], mineralizable carbon [MinC], autoclaved-citrate-extractable [ACE] protein, and potentially mineralizable nitrogen [PMN]) compared across four common Wisconsin cropping systems: grazed cool-season pastures, forage-based rotations that included perennial legumes or grasses, annual rotations receiving manure, and annual rotations receiving synthetic fertilizers. Biological indicators of soil health were up to 195% greater in pastures than other cropping systems. MinC, POXC and PMN were 10%-90% greater in forage-based rotations than annual cropping systems, but only MinC and POXC were greater in annual systems with manure compared to those without manure by 35% and 7%, respectively. Perennial vegetation and livestock integration offer the greatest potential to increase biological indicators of soil health in agricultural lands.

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Section: Resultssupporting

confidence: 90%

Cropping systems with perennial vegetation and livestock integration promote soil health

Augarten

Malone

Richardson

et al. 2023

Agricultural & Env Letters

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“…However, other reviews reported modest soil C gains in annual crops using no‐till (Blanco‐Canqui, 2021) and cover crops (Jian et al., 2020), so I explored a range of ecosystem C balance outcomes when varying the soil C parameter (Table 2). Similarly, recent studies of managed grazing have reported significant (320 kg C ha −1 yr −1 ; Becker et al, 2022) to moderate (840 kg C ha −1 yr −1 ; Franzluebbers, 2010) to very high (~3,590 kg C ha –1 yr –1 ; Stanley et al., 2018) accumulations of soil C under well‐managed grazed pastures. The value of soil C increase making Scenario B net zero was ∼1,630 kg C ha –1 yr –1 , while the Stanley et al.…”

Section: Soil C Balance Is the Wildcardmentioning

confidence: 78%

“…Dense, fibrous root systems of well‐managed perennial grasses keep soils in place, help build soil aggregates, and foster diverse and dynamic soil microbial communities (Oates et al., 2012; Jarchow et al., 2020; Teague & Kreuter, 2020)—a recipe for potential accumulation of atmospheric C in soil organic matter pools, which has been observed by many (Machmuller et al., 2015; Stanley et al., 2018; Becker et al, 2022; Mosier et al., 2021). Moreover, well‐managed grazing affords producers the opportunity to manage land in ways that promote birds, pollinators, fish, and microbes (Lyons et al., 2000a; Lyons et al., 2000b; Weigel et al., 2000; Rook & Tallowin, 2003; Rook et al., 2004; Lyons et al., 2017).…”

Section: Well‐managed Grazed Perennial Grasslands Enhance Ecosystem H...mentioning

confidence: 99%

“…This indicates a greater overall C footprint for grazed grasslands than Scenario A but includes improved water quality, reduced flooding, and enhanced biodiversity (Franzluebbers et al., 2012; Spratt et al., 2021). However, as discussed below, when using more optimistic, but conservative estimates of soil C change (e.g., Becker et al, 2022), the grass‐finishing system has a C footprint of ∼15.2 coal‐fired power plants, which is similar but a bit less than the current grain‐fed feedlot system (Table 2).…”

Section: What About the C Footprint Of Increasing Cattle Numbers?mentioning

confidence: 99%

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Grazed perennial grasslands can match current beef production while contributing to climate mitigation and adaptation

Jackson

2022

Agricultural & Env Letters

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The U.S. grain-finished beef system is highly productive but has many negative consequences for human health and well-being because it pollutes surface and groundwaters, exacerbates flooding, reduces biodiversity, and contributes to climate change. Moving the entire U.S. grain-fed beef production system to a grass-finished system is possible without displacing food production and under conservative soil carbon (C) change estimates would result in a reduced but similar C footprint, while improving soil health, water quality, and biodiversity. More optimistic estimates for soil C accumulation indicate the system would result in significant atmospheric C drawdown. Agroecological transformation like this is limited only by our imagination and policies that incentivize agriculture for the public good rather than profits for a few.

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“…Another sustainability benefit of well-managed grazing is increased plant biodiversity [ 15 , 16 , 17 ]. There is also an abundance of scientific evidence that shows that rotating crops, such as corn or soy, with livestock grazed on cover crops can improve soil health [ 18 ], sequester carbon [ 14 , 19 ], and increase the abundance of pollinating insects [ 20 ]. High-intensity agriculture with low crop diversity will decrease insect biodiversity [ 21 ].…”

Section: Insight From Learning That Animals Are Part Of the Landmentioning

confidence: 99%

Grazing Cattle, Sheep, and Goats Are Important Parts of a Sustainable Agricultural Future

Grandin

2022

Animals

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Many people believe that animal agriculture should be phased out and replaced with vegetarian substitutes. The livestock industry has also been attacked because it uses vast amounts of land. People forget that grazing cattle or sheep can be raised on land that is either too arid or too rough for raising crops. At least 20% of the habitable land on Earth is not suitable for crops. Rotational grazing systems can be used to improve both soil health and vegetation diversity on arid land. Grazing livestock are also being successfully used to graze cover crops on prime farmland. Soil health is improved when grazing on a cover crop is rotated with conventional cash crops, such as corn or soybeans. It also reduces the need for buying fertilizer. Grazing animals, such as cattle, sheep, goats, or bison, should be used as part of a sustainable system that will improve the land, help sequester carbon, and reduce animal welfare issues.

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Surface‐soil carbon stocks greater under well‐managed grazed pasture than row crops

Cited by 17 publications

References 76 publications

Cropping systems with perennial vegetation and livestock integration promote soil health

Cropping systems with perennial vegetation and livestock integration promote soil health

Grazed perennial grasslands can match current beef production while contributing to climate mitigation and adaptation

Grazing Cattle, Sheep, and Goats Are Important Parts of a Sustainable Agricultural Future

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