Soil Nutrient Accumulation in an Orchardgrass Hayfield following Poultry Litter Application R.A. Gilfillen 1 *, B.B. Sleugh 2, W.T. Willian 1, and M.L.

Slides:

Advertisements

Similar presentations

Soil Testing in Tomatoes

Advertisements

CATION EXCHANGE CAPACITY

Do In and Post-Season Plant-Based Measurements Predict Corn Performance and/ or Residual Soil Nitrate? Patrick J. Forrestal, R. Kratochvil, J.J Meisinger.

Soil Salinity/Sodicity/Alkalinity and Nutrients

Reducing Soil Phosphorus Buildup From Animal Manure Applications Gerald W. Evers Texas A&M University Agricultural Research and Extension Center Overton.

Phosphorus Index for Oregon and Washington Steve Campbell USDA - Natural Resources Conservation Service Portland, Oregon Dan Sullivan Oregon State University.

A. What is it? B. Why is it important? C. How is it done?

PHOSPHORUS UPTAKE BY SILAGE CORN IN SOUTHERN IDAHO Amber Moore, Steve Hines, Brad Brown, Mario de Haro Marti, Christi Falen, Mireille Chahine, Tianna Fife,

Manure Issues & The Texas Fertilizer Law R. D. Hoestenbach, Jr. ASFFPCO June 22-25, 2003 Fort Worth, Texas.

Morteza Mozaffari Soil Testing and Research Laboratory, Marianna Efforts to Improve N Use Efficiency of Corn in Arkansas Highlights of Research in Progress.

Soil Sampling For Home Landscape and Garden Developed by: Dr. Teri Hamlin Georgia Department of Education.

Effect of Long-term Cattle Manure Application on Soil Test Phosphorus, Organic Carbon and Winter Wheat Grain Yield Natasha Macnack, Peter Omara, Lawrence.

Short Term Effectiveness of Poultry Litter as a Fertilizer for Newly Established Loblolly Pine (Pinus taeda L.) Allan Pringle and Kenneth Farrish Division.

Experiences with PSNT in North Carolina David H. Hardy Soil Testing Section Agronomic Division- NCDA&CS.

Soil and Water Quality with Miscanthus on a Louisiana Coastal Plain Hillside L. Gaston and W. Felicien LSU AgCenter School of Plant, Environmental and.

Enrichment of Trace Metals in an Ultisol Impacted by Applied Broiler Litter Irenus A. Tazisong Zachary Senwo Robert Taylor.

Modeling of Soil Nutrients – An Introduction to Logical Spreadsheeting Russell Yost Department of Tropical Plant and Soil Science, University of Hawai`i.

Soil Organic Carbon Sequestration in the Southeastern USA: Alan J. Franzluebbers Ecologist Watkinsville GA TN MS AL GA FL VA NC SC MD Potential and Limitations.

Nutrient Content of Lettuce Plant and Soil Analysis (ESC 515) Amy Angert George Scherer.

Analysis of Tropical Rain Forest Soil & Tropical Dry Forest Tree  Determination of Soil pH  Comparison of Available NH4-N and NO3-N  Comparison of %

Ch. 4 continued Soil Properties.

To show that intense management can increase the rate at which soil quality improves -To compare soil quality between two different management intensities.

Managing Manure for Crop Production when Feeding DDGS Kyle Jensen ISU Extension Field Specialist-Crops.

Ministry of Agriculture

Soil Management for the Home Gardener Dr. Greg Schwab Extension Soil Management Specialist Estill County Horticulture Seminar February 3, 2004 Soil Management.

Carbon content of managed grasslands: implications for carbon sequestration Justine J. Owen * and Whendee L. Silver Dept. of Environmental Science, Policy.

Introduction Agriculture is a large contributor of non-point source pollution to surface water. Field surface application of manure as a soil amendment.

Residue Biomass Removal and Potential Impact on Production and Environmental Quality Mahdi Al-Kaisi, Associate Professor Jose Guzman, Research Assistant.

Soil. Chemistry Review Cation: atom that forms a positive charge (example: Ca +2 ) anion: atom that forms a negative charge (example: S -2 )

EFFECTS OF Calliandra calothyrsus and Alnus acuminata GREEN MANURES IN MAIZE PRODUCTION IN THE HIGHLAND VOLCANIC SOILS OF RWANDA Didace HABAMENSHI ISAE.

How soils supply plant nutrients An Introduction to Soil Chemistry

Soil Fertility and Nutrient Cycling in Grazing Systems Julia Gaskin, Sustainable Agriculture Coordinator Agricultural Pollution Prevention Program College.

Soil Nutrient Availability Following Application of Biosolids to Forests in Virginia. Eduardo C. Arellano and Thomas R. Fox Department of Forestry, Blacksburg,

Nutrient Budgets For CNMPs Nutrient Management Planners Training March 31, 2009 Bobby Smith County Extension Coordinator UGA Cooperative Extension Morgan.

MINERALS REQUIRED IN LIVESTOCK DIETS Major minerals (Required in large quantities) Beef Dairy Swine Chicken Finishing Cow Dry Lactating Finishing Sow Broiler.

Matt Ruark Dept. Soil Sci. CORN STOVER REMOVAL AND SOIL FERTILITY.

A Survey of Phosphorus in the Yaqui Valley, Sonora, Mexico Barbara Cade-Menun Geological and Environmental Sciences Stanford University.

TOTAL AND EXTRACTABLE PHOSPHORUS CONCENTRATIONS AT DIFFERENT DEPTHS IN A SOIL FERTILIZED WITH MANURE R. DA SILVA DÍAS 1, C. A. de ABREU 2, R. M. MESTAS.

Oak Hickory on Coarse Textured Kamic Soils Stinchfield Woods, MI Jennifer Austin Joshua Berk Knox Erin Uloth Jennifer Dowdell Presentation for Soil Properties.

Field Specific Decisions: N vs P CNMP Core Curriculum Section 5 – Nutrient Management.

Consequences of Aluminum or Ferrous Sulfate Amended Poultry Litter on Concentrations of Aluminum in Plant and Soil Sosten Lungu, Haile Tewolde and Dennis.

Surface Chemistry. Topics 1.Soil Minerals 2.Soil Adsorption Phenomena 3.Interaction of Water – Clay Minerals 4.Inorganic and Organic Solute Adsorption.

Projected Deliverables: Estimates of N losses due to leaching, volatilization, and uptake by competing understory vegetation Determine the relative efficiency.

Using Poultry Litter for Fertility on Pastures and Hayfields Julia Gaskin, Sustainable Agriculture Coordinator Agricultural Pollution Prevention Program.

Savoy,*H.J. 1, Leib, B. 1, and Joines, D. 2 1 Associate Professors, University of Tennessee, Biosystems Engineering and Soil Science, Extension 2. Manager,

Organic Waste N and P Dynamics Under Dryland Agroecosystems Jim Ippolito and Ken Barbarick USDA-ARS-NWISRL & Colorado State University.

Effects of parent material and land use on soil phosphorus forms in Southern Belgium Renneson 1 M., Dufey 2 J., Bock 1 L. and Colinet 1 G. 1 University.

Precision Ag and Conservation Precision Ag Technologies are most often developed to increase efficiency and decrease input cost However, they provide great.

4 TH INTERNATIONAL CONFERENCE ON AGRICULTURE AND HORTICULTURE JULY 13-15, 2015 BEIJING, CHINA The Impact of Phosphorus Fertilizers on Heavy Metals Content.

West Hills College Farm of the Future The Precision-Farming Guide for Agriculturalists Chapter Four Soil Sampling and Analysis.

Soil nutrient dynamics and rye cover crop efficacy to remediate nutrient accumulation in broiler litter amended soils Annesly Netthisinghe, Becky Gilfillen,

Precision Management beyond Fertilizer Application Hailin Zhang.

COPPER DISTRIBUTION ZINC DISTRIBUTION Soil P, Fe, Cu, and Zn levels were greatest in the open barn area. The run of retention area contained equally high.

Enhanced Soil Test Methods for Determining Fertilizer Application Rates Rick Haney, Daren Harmel, and Alan Franzluebbers Introduction  Agricultural fertilizer.

Temporal and Spatial Influences of Juglands nigra and Gleditsia triacanthos on Soil Indicators in a Southern Appalachian Silvopasture Study Area By Scott.

Temporary Storage of Poultry Broiler Litter C.C. Mitchell*, Agronomy & Soils, Auburn Univ., AL H. A. Torbert, USDA-ARS Soil Dynamics Laboratory, Auburn,

Wood ash, the residue remaining from the combustion of bark, sawdust and yard waste for energy generation for forestry product operations, is an effective.

Bob Woods Area Extension Agronomy Specialist

RESULTS AND DISCUSSION

Virginia Recycling Association Annual Meeting Organics Session

Results and Discussion

Carbon Cycling in Perennial Biofuel Management Systems

Evaluation of N-stabilizers in Enhancing NUE of Animal Manures

EFFECT OF ABATTOIR WASTES ON THE PHYSICO- CHEMICAL PROPERTIES OF TWO SOIL TYPES IN ENUGU STATE NIGERIA EDEH, I.G. AND IGWE, C.A. UNIVERSITY OF NIGERIA,

Bioscience conference, Berlin, Germany

Responses of Wheat Genotypes to Phosphorus In Organic and Conventional Cropping Systems In the Pacific Northwest Julia L. Piaskowski, Washington State.

Precision Nutrient Management: Grid-Sampling Basis

Soriano MD1, García-España L2, Lull C3, Boluda R2

CATION EXCHANGE CAPACITY

In-Field Soil Sampling

Presentation transcript:

Soil Nutrient Accumulation in an Orchardgrass Hayfield following Poultry Litter Application R.A. Gilfillen 1 *, B.B. Sleugh 2, W.T. Willian 1, and M.L. Futrell 1 Western Kentucky University 1 and Dow AgroSciences, Des Moines, IA 2 Abstract Poultry litter can be an excellent source of nutrients for forage production. If properly managed, litter can be returned to land; however, one concern regarding land application of poultry litter is soil nutrient accumulation. Applying poultry litter to land at recommended crop N rates can lead to an accumulation of P, K, and some micronutrients in the soil. This study was developed to observe accumulation in nutrient content of the soils after four years of fertilization with poultry litter and/or inorganic fertilizers. A completely randomized block design consisting of four treatments was utilized: an inorganic N, P, K fertilizer (I), poultry litter applied according to recommended P rate (PPL), poultry litter applied according to recommended N rate (NPL), and poultry litter applied at recommended P rate with supplemental inorganic N fertilizer (NPPL). Soil samples from the last year of the study were analyzed for pH, CEC, organic matter, and available nutrient content. Differences between treatments were found for CEC along with available P, S, Cu, Zn, and Na. In each of these measurements, the NPL treatment was significantly higher than all other (p<=0.01). Indications are that while the increased CEC would be useful, the increase in availability of P, Cu, Zn, and Na can lead to more serious environmental concerns. Objectives – After four years of application do soil nutrients accumulate faster and at higher amounts based on the four fertility treatments. – Determine which nutrients are accumulating in the soil that might be of environmental concern. Results and Discussion  Available Nutrient Accumulations (Figures 1 and 2) –In the NPL treatment, P, K, Cu, and Zn were all in higher concentrations than in the remaining treatments (p<=0.05 & 0.01)  Organic matter content (Figure 3) –Addition of poultry litter and additional vegetative growth led to higher organic matter contents in the NPL and I treatments in comparison to the other treatments (p<=0.05). –The I, NPPL, and PPL treatments were all similar in organic matter content (p<=0.05)  Cation exchange capacity (Figure 3) –Additions of poultry litter to meet N requirements led to higher CEC than all other treatments (p<=0.05). References Franzluebbers, A.J., J.A. Stuedemann, and S.R. Wilkinson Bermudagrass management in the southern piedmont USA. II. Soil phosphorus. Soil Sci. Soc. Am. J. 66: Kentucky Agricultural Statistics Service Kentucky Agricultural Statistics. Frankfort, KY. Kingery, W.L., C.W. Wood, D.P. Delaney, J.C. Williams, and G.L. Mullins Impact of long-term application of broiler litter on environmentally related soil properties. J. Environ. Qual. 23: Sharpley, A.N Soil mixing to decrease surface stratification of phosphorus in manured soils. J. Environ. Qual. 32: Sistani, K.R., G.E. Brink, A. Adeli, H. Tewolde, and D.E. Rowe Year-round soil nutrient dynamics from broiler litter application to three bermudagrass cultivars. Agron. J. 96: Summary After four years of litter application, available P, K, Cu, and Zn were all observed to be highest in the NPL treatment in comparison to all others. This would again indicate that these nutrients are accumulating faster in the N rate (NPL) treatment than in the treatments involving P rate of application (NPPL or PPL) or inorganic fertilizer (I). Organic matter content was highest in the NPL and I treatments. The NPL treatment was higher than either the NPPL or PL treatments. Cation Exchange Capacity was greater in the NPL treatment than all others. While organic matter and CEC increases are beneficial to orchardgrass production in Kentucky, the potential environmental concerns that excess nutrients create is of greater significance. * Materials and Methods  General Site Information  WKU Agricultural Research and Education Complex, Bowling Green, KY  Fifteen random soil cores were taken from each plot at the end of the 4 year study to a depth of 15 cm.  Soil type: Pembroke silt loam (Mollic Paleudalf)  Soil slope: 0-2%  Fertilizer application : split application - March 26 and Aug. 30, 2001, March 21 and Aug. 16, 2002, March 24 and Aug. 22, 2003 and April 2 and August 10,  Poultry litter applications (wet weight basis) Mg ha -1 PL ^ NPL: PPL: NPPL: I:  Inorganic applications kg ha NPL: PPL: NPPL:  NH 4 NO I:  NH 4 NO    Soil sample analysis: Water pH was determined using the 1:1 soil water extract. Nutrient content of soil samples was determined using Mehlich-I. Soil nutrients were analyzed via ICP. Acknowledgements The authors wish to thank the USDA-ARS at Bowling Green and Mississippi State for providing funding and cooperation. Many thanks to the WKU Agronomy graduate and undergraduate students for assistance with field sampling and laboratory analysis. OMCEC CuZn p<=0.05 p<=0.01 p<=0.05 Introduction  Poultry Production in Kentucky In 1991, there were 2.2 million broilers produced. In 2000 there were 20.8 million produced. (KASS, 2001) Poultry production moved to the 2nd highest agricultural cash industry in 2001 (KASS, 2001). Most of the poultry production is found in four counties in the western part of the state, which leaves limited land area for poultry waste application due to transportation costs.  Nutrient accumulation from poultry litter application Soil nutrient imbalances can result from long term application of incorrect litter rates (Sistani et al., 2004) Poultry litter is high in P and some micronutrients in relationship to the quantities required by plants (Sistani et al., 2004). There is greater concerns over P accumulations when poultry litter is applied based on N content (Sharpley et al., 2003;Franzluebbers et al., 2002).  Soil P accumulations from poultry litter application Broiler litter applied to meet N requirements can give 8x as much P as needed (Franzluebbers et al., 2002) Extractable P was six times greater in litter vs. non-littered soils to a depth of 60 cm (Kingery et al., 1994).  Micronutrient accumulation from poultry litter application In littered soils, increases were seen in Cu and Zn levels which could be of concern after repeated application due to toxicities (Kingery et al, 1994).  Results of forage production with poultry litter application Mehlich-I extractable soil P remained constant over time when forages were removed as hay after poultry litter application (Franzluebbers et al., 2002) Haying of bermudagrass forage results in relatively constant Mehlich-I extractable soil P (Franzluebbers et al., 2002)