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Poultry Manure Reduces Nitrate Loss to Water in Iowa Study

Poultry Manure Reduces Nitrate Loss to Water in Iowa Study

Iowa State University researchers concluded from a long-term field study that poultry manure, when applied at a rate to meet crop nitrogen (N) requirements, can reduce nitrate loss and achieve equal or better yields in corn-soybean production systems. This research effort, Long-term Effects of Poultry Manure Application on Nitrate Leaching in Tile Drain Waters, evaluated tile drained field plots over 12 cropping seasons. While this research focused on nitrate (NO­3-N) loss by field-tile drains (typically placed 3 to 6 feet deep), similar trends would be anticipated in Nebraska for nitrate leaching below the crop root zone and the eventual impacts on ground and, possibly, surface water quality.

The research team evaluated four N treatments, including poultry manure application rates of 150 lbs N/acre (PM150) and 300 lbs N/acre (PM300), urea ammonium nitrate (UAN) at 150 lbs N/acre (UAN150), and a control at 0 lbs N/acre (Control) on a tile-drained field near Ames, Iowa from 1998 to 2009. Manure and UAN were typically applied on the same day, typically between mid-April and mid-May. The research was conducted in loam soils with organic matter averaging 3.4% in the top 12 inches. Nitrate-N loss was measured from mid-March to October.

Animal Manures Reduce Nitrogen Transport

Graph of the average (1998-2009) cumulative NO<sub>3</sub>-N loss in response to interaction effects of N treatments
Figure 1. Average (1998-2009) cumulative NO3-N loss in response to interaction effects of N treatments

Take Home Message:  Poultry manure applied at agronomic rates reduces loss of nitrate from the crop root zone as compared to commercial fertilizer and over application of manure.

Average cumulative nitrate-N loss for the UAN150 treatment was significantly greater than nitrate-N experienced by the PM150 treatment (Figure 1). In addition, over application of animal manure (PM300) increased nitrate-N movement to tile drains more than an agronomic rate of commercial fertilizer (UAN150) or manure (PM150). Nitrate losses were highest from March through June (periods of low evapotranspiration rates and high precipitation) and lowest from July through September (low precipitation, higher evapotranspiration, and deeper root zone).

Why? Several factors contribute to the reduced nitrate losses from manure substituted for commercial fertilizer. A review of 141 studies by Xia (et al., 2017) where manure was substituted for fertilizer identified three likely explanations:

  • Slow release of N stored in manure’s organic matter results in N release later in the growing season.
  • Rapid soil microbial growth resulting from manure’s carbon (energy for microbes) immobilizes nitrate-N early in the growing season. This microbial N is released later in the crop growing season.
  • Improvements in soil properties including water stable soil aggregates and cation exchange capacity hold soil mineral N in place.

Similar results for reduced leaching of N from manured fields were observed by Xia (et al., 2017) in a review of 141 manure versus commercial fertilizer comparisons. (See Does Manure Benefit Crop Productivity? Environment?)

Yield and Nitrogen Source

Take Home Message:  Poultry manure demonstrates equal or greater yields than commercial fertilizer when applied at similar N rates.

Manure and fertilizer treatments were applied prior to corn planting in plots maintained in a corn-soybean rotation. On average, corn yield responded to N as follows:

PM300 > PM150 = UAN150 > Control

Soybean yield responded to N as follows:

PM300 > PM150 > UAN150 > Control

Actual yields are summarized in Table 1. The authors state that “The findings from this long-term study show promising results for the use of poultry manure to reduce NO3-N leaching to tile waters and improve yields when compared to traditional UAN application.”

Table 1. Average crop yields1 as a function of N treatment, based on 12 crop-years for corn and soybeans.
Crop PM300 PM150 UAN150 Control
Corn2 177a 161b 155b 92
Soybeans2 52a 49b 42c 36
1Corn and soybean yields corrected to 15.5% and 13% moisture, respectively.
2Values followed by the same letter are not significantly different.

When Does Nitrate-N Leach?

The 12-year evaluation period produced results commonly expected for movement of water to tile drains. Distribution of rainfall during the growing season impacted both water flow and nitrate concentrations. For example, higher than normal precipitation during April and May resulted in higher than normal tile flow volumes, nitrate concentrations in tile flow, and nitrate losses. Wet and dry cycles of weather conditions also influenced annual tile drain water volume and nitrate losses. Limiting the nitrate-N pool in the soil during the spring (when water movement beyond the root zone is common) is important to protecting water quality. Animal manure can achieve this outcome.

The authors also noted that land application of poultry manure according to recommended N rates is an environmentally preferable source of N compared to UAN (and likely other common commercial fertilizers). However, the author’s noted that at the currently accepted N application rate for both UAN and PM, “NO3-N concentrations measured in tile drainage outflow exceeded the EPA requirements for safe drinking water.”

Does This Apply to Nebraska?

Take Home Message:  Poultry manure applied at agronomic rates reduces loss of nitrate from the crop root zone as compared to commercial fertilizer and over application of manure.

The general trends observed by this Iowa study would be expected for leaching losses of nitrate-N from Nebraska corn and soybean fields. Risk of nitrate-N losses is highest prior to planting and during the early growing season. Low evapotranspiration rates, higher precipitation, and the presence of nitrate-N is a recipe for N loss in drain tiles in Iowa and leaching to groundwater in Nebraska.

Similar results are also anticipated for most animal manures. Most slurry and solid manures store much of their N in a slow release organic form and supply sufficient carbon for rapid soil microbial growth following manure application. These properties are important to a fertility product with less risk of N leaching.

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