Runoff Quality from No-Till Cotton Fertilized with Broiler Litter in Subsurface Bands

Surface broadcast of broiler litter to no-till row crops exposes the litter and its nutrients to risks of loss in runoff water and volatilization and may limit the potential benefit of litter to the crops. Subsurface banding of litter could alleviate these risks. A field study was conducted in 2008...

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Bibliographic Details
Published in:Journal of environmental quality 2013, Vol.42 (1), p.284-291
Main Authors: Adeli, A, Tewolde, H, Shankle, M. W, Way, T. R, Brooks, J. P, McLaughlin, M. R
Format: Article
Language:English
Subjects:
Agricultural equipment
Agricultural practices
Agriculture
Animals
Aquatic ecosystems
Bacteria
band placement
Chickens
Cotton
Cover crops
Crop residues
Experimental design
fertilizer application
Fertilizers
Gossypium hirsutum
highlands
Litter
losses from soil
Manure
Manures
no-tillage
nutrient content
Nutrient loss
nutrients
Phosphorus
pollution load
Poultry
poultry manure
rainfall simulation
risk
Runoff
Silt loam
silt loam soils
Simulated rainfall
soil bacteria
Soil conservation
soil nutrients
Surface water
Tillage
volatilization
Water Movements
Water quality
Wheat
Winter wheat
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Summary:Surface broadcast of broiler litter to no-till row crops exposes the litter and its nutrients to risks of loss in runoff water and volatilization and may limit the potential benefit of litter to the crops. Subsurface banding of litter could alleviate these risks. A field study was conducted in 2008 and 2009 on an upland Falkner silt loam soil to determine the effect of broiler litter placement on runoff nutrient losses from no-till cotton ( L.). Treatments included surface broadcast broiler litter applied manually, subsurface-banded litter applied by tractor-drawn equipment, and no broiler litter, all in combination with or without winter wheat ( L.) cover crop residue. Broiler litter rate was 5.6 Mg ha. The experimental design was a randomized complete block with a split-plot arrangement of treatments replicated three times. In 2008, simulated rainfall was used to generate runoff 27 d after litter application. Subsurface-banded litter reduced runoff total C, N, P, NH, NO, Cu, Zn and water-soluble P (WP) concentrations by 72, 64, 51, 49, 70, 36, 65, and 77%, respectively, compared with surface broadcast. The reductions were greater in 2009 where runoff occurred 1 d after litter application. Bacterial runoff was decreased by one log with subsurface-banded litter compared to surface broadcast. Except for C, NH, N, and WP, the presence of winter cover crop residue did not affect the load or runoff nutrient concentrations in either year. The results indicate that subsurface banding litter to no-till cotton substantially reduces nutrient and bacterial losses in runoff compared with surface broadcasting.
ISSN:1537-2537
0047-2425
1537-2537
DOI:10.2134/jeq2012.0358