Impact of Crop Rotations and Soil Amendments on Long‐Term No‐Tilled Soybean Yield

Ashworth, Amanda J.; Allen, Fred L.; Saxton, Arnold M.; Tyler, Donald D.

doi:10.2134/agronj2016.04.0224

Cited by 27 publications

(24 citation statements)

References 45 publications

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“…At RECM, poultry litter was the greatest positive driver for earthworm abundance and composition, as was the corn–soybean rotation. Previous research on the same plot area noted significantly reduced earthworm abundance under continuous cotton, likely owing to the pesticide‐intensive rotation of cotton (Ashworth et al, 2017a). Therefore, as noted above, more SOC was stored in the upper profile of cotton sequences due to the dominant role that earthworms play in breaking down recalcitrant residues.…”

Section: Resultsmentioning

confidence: 87%

“…Similarly, the soybean–soybean–corn–soybean rotation had the lowest K levels (98.8 kg ha −1 ). In general, soybean produces about one‐third the amount of residue of corn, but about twice as much K is removed in the grain (Wilhelm et al, 1986; Ashworth et al, 2017a). The continuous corn and the cotton–corn rotation resulted in greater K, N, and C (7.9 Mg ha −1 ) levels in the upper 15 cm than the soybean–soybean–corn–soybean rotation ( P < 0.05, Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Soils were collected between crop rows from each plot center with a shovel and were hand sorted by species present ( Diplocardia caroliniana Eisen, Lumbricus rubellus Hoffmeister, and Amyntha spp.) to determine abundance per Ashworth et al (2017a).…”

Section: Methodsmentioning

confidence: 99%

“…Finally, nonparametric multidimensional scaling ordination of Bray–Curtis dissimilarities was performed using PRIMER 7.0.13 software to visualize the relationships between microbial community structures and dynamic soil properties. Analysis was performed as described in Ashworth et al (2017); briefly, operational taxonomic unit relative abundances were normalized by total and square root transformed prior to calculation of the distance matrix. The chemical properties and earthworm abundances were related to microbial community structure using Pearson correlations.…”

Section: Methodsmentioning

confidence: 99%

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Crop Rotations and Poultry Litter Affect Dynamic Soil Chemical Properties and Soil Biota Long Term

et al. 2018

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Dynamic soil chemical interactions with conservation agricultural practices and soil biota are largely unknown. Therefore, this study aims to quantify long‐term (12‐yr) impacts of cover crops, poultry litter, crop rotations, no‐tillage, and their interactions on dynamic soil properties and to determine their relationships with nutrient cycling, crop yield, and soil biodiversity (soil microbial and earthworm communities). Main effects were 13 different cropping sequences of soybean [Glycine max (L.) Merr.], corn (Zea mays L.), and cotton (Gossypium hirsutum L.) at the Research and Education Center at Milan, TN, and eight sequences of corn and soybean at the Middle Tennessee Research and Education Center, Spring Hill, TN. Sequences were repeated in 4‐yr phases from 2002 to 2014. Split‐block cover crop treatments consisted of winter wheat (Triticum aestivum L.), hairy vetch (Vicia villosa Roth), poultry litter, and a fallow control. Soil C and nutrient fluxes were calculated at surface (0–5 cm) and subsurface (5–15 cm) layers during Years 0, 2, 4, 8, and 12. After 12 yr, weighted means (0–15 cm) of soil pH, P, K, Ca, Mg, total N, and C were greater under poultry litter‐amended soils compared with cover crops (P < 0.05). In addition, continuous corn sequences resulted in greater soil K, N, and C concentrations than soybean–soybean–corn–corn rotations (P < 0.05). Poultry litter treatments were positively correlated with greater soil fertility levels, as well as higher crop yield and soil biodiversity. These results underscore linkages between manure additions and cropping sequences, within the nutrient cycling, soil health, and crop production continuum. Core Ideas Bio‐covers illicit greater soil property responses than crop rotations in upper horizons. After 12 yr, cropping rotations affect subsurface physiochemical fluctuations. Soil biodiversity was linked to poultry litter and high‐residue‐producing crops. Poultry litter was the greatest driver for earthworm and microbe community structure. Crop rotation diversity altered soil habitat by influencing nutrient status and residue.

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Section: Resultsmentioning

confidence: 87%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Crop Rotations and Poultry Litter Affect Dynamic Soil Chemical Properties and Soil Biota Long Term

et al. 2018

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“…Tillage has been used for centuries to control pests, including weeds, insects, and other invertebrates, such as slugs, but regularly disrupting soil decreases its quality and leaves it susceptible to erosion [ 54 , 55 , 56 ]. Crop rotation is a stalwart of IPM, and remains a reliable approach for disrupting pest lifecycles [ 56 , 57 , 58 , 59 ]. Moreover, there is strong evidence that more diverse rotations have fewer pest populations [ 58 , 60 ].…”

Section: Tactics For Controlling Belowground Pests and The Value Omentioning

confidence: 99%

In-Field Habitat Management to Optimize Pest Control of Novel Soil Communities in Agroecosystems

Pearsons

Tooker

2017

Insects

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The challenge of managing agroecosystems on a landscape scale and the novel structure of soil communities in agroecosystems both provide reason to focus on in-field management practices, including cover crop adoption, reduced tillage, and judicial pesticide use, to promote soil community diversity. Belowground and epigeal arthropods, especially exotic generalist predators, play a significant role in controlling insect pests, weeds, and pathogens in agroecosystems. However, the preventative pest management tactics that dominate field-crop production in the United States do not promote biological control. In this review, we argue that by reducing disturbance, mitigating the effects of necessary field activities, and controlling pests within an Integrated Pest Management framework, farmers can facilitate the diversity and activity of native and exotic arthropod predators.

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Soybean yield response to gypsum soil amendment, cover crop, and rotation

Raut

Shedekar

Islam³

et al. 2020

Agricultural & Env Letters

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Growing demand for soybean [Glycine max (L.) Merr.] creates pressure to expand soybean production onto marginal lands and grow soybean continuously. Experiments comparing continuous soybean with soybean–corn (Zea mays L.) rotation, cereal rye [Secale cereale (L.)] cover crop with no cover crop, and flue‐gas desulfurization (FGD) gypsum surface‐applied at 0, 1.1, and 2.2 Mg ha−1 were conducted at Shorter, AL, Farmland, IN, Hoytville, OH, and Piketon, OH, for 5 yr. The objective was to evaluate soybean yield response to these practices across a range of soil types and climatic conditions. Response to continuous soybean and cover crop varied by site (soil drainage class) with no interaction effects. Continuous soybean reduced yield only on well‐ and moderately well‐drained soil types. Cover crop reduced yield on the very poorly drained soil type and increased yield on the well‐drained soil type. Crop production practices that promote soil health and sustainability may not provide yield improvement.

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Impact of Crop Rotations and Soil Amendments on Long‐Term No‐Tilled Soybean Yield

Cited by 27 publications

References 45 publications

Crop Rotations and Poultry Litter Affect Dynamic Soil Chemical Properties and Soil Biota Long Term

Crop Rotations and Poultry Litter Affect Dynamic Soil Chemical Properties and Soil Biota Long Term

In-Field Habitat Management to Optimize Pest Control of Novel Soil Communities in Agroecosystems

Soybean yield response to gypsum soil amendment, cover crop, and rotation

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