Abstract
Long-term no-till (NT) systems in the semiarid central Great Plains of the United States require flexible management strategies to minimize the impacts of herbicide resistant (HR) kochia (Kochia scoparia L.) and tumble windmill grass (Chloris verticillata Nutt.) as well as nutrient stratification on soil and crop productivity. This study examined strategic tillage (ST) to control HR weeds and improve crop yields in an otherwise long-term NT cropping system. Treatments were three crop rotations: (1) continuous winter wheat (Triticum aestivum L.) (WW); (2) wheat-fallow (WF); and (3) wheat-grain sorghum (Sorghum bicolor L.)-fallow (WSF); as main plots. Subplots were reduced tillage (RT), continuous NT, and ST of NT. Results showed ST and RT treatments provided significant control of HR weeds. Soil water content at wheat planting was significantly less with RT compared to NT or ST. Strategic tillage did not affect wheat or grain sorghum yields, but RT decreased sorghum yields by 15% compared to NT. Increasing cropping intensity reduced wheat yields. Strategic tillage reduced bulk density and had no effect on aggregate size distribution or mean weight diameter (MWD) compared to NT though RT reduced the proportion of large macroaggregates and MWD. Similarly, ST compared to NT had no effect on soil organic carbon (SOC) or nitrogen (N) concentrations. Soil phosphorus (P) was not different among the tillage treatments though RT increased potassium (K) concentration near the soil surface. The SOC, MWD, and micronutrient availability were greatest with WW though it had significantly lower pH and K concentration. Our results suggest ST could provide a mitigation option for HR weeds in NT systems with little impact on crop yields and soil properties.
Highlights
Adoption of no-tillage (NT) has allowed for more efficient soil water storage and greater cropping intensity in dryland production systems across the semiarid central Great Plains (CGP) of the United States [1,2]
Findings showed one-time strategic tillage (ST) was effective at controlling tumble windmill grass and HR kochia and had no negative impacts on soil water content at wheat planting
Long-term reduced tillage (RT) negatively affected the proportion of large macroaggregates and mean weight diameter (MWD)
Summary
Adoption of no-tillage (NT) has allowed for more efficient soil water storage and greater cropping intensity in dryland production systems across the semiarid central Great Plains (CGP) of the United States [1,2]. There are concerns about the long-term sustainability of such NT systems due to build-up of herbicide-resistant (HR) weed populations, soil compaction, soil ruts, and varmint (Taxidea taxus) holes causing a rough surface for field operations, as well as stratification of pH, nutrients, and SOC in the top few centimeters of the soil profile [5,6]. These conditions can lead to reductions in the availability and uptake of nutrients to growing crops as well as an increased risk of nitrogen (N) and phosphorus (P) losses in surface runoff to the environment. This ST approach could increase productivity and profitability of dryland cropping systems in the semiarid CGP
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