Development and Implementation of the National Pork Producers Council On-Farm/Environmental Assistance Program

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The On-Farm Odor Assistance Program (ONOAP) was developed by the National Pork Producer’s Council (NPPC) in order to address odour and environmental concerns related to pork production. The OFOAP is a voluntary, non-regulatory program, that received Environmental Protection Agency (EPA) endorsement; it provides swine producers an opportunity to be involved with an environmental assessment of their operation. The developed program would provide consistent assessments of swine operations irrespective of location, and environmental control practices that can be developed. Assesors achieve certification upon the completion of an intensive training course and completion of verification assessments supervised by certified assessors. “Experience has shown that assessments by trained professionals will reveal challenges that can reduce odor potentials and improve environmental efforts in most swine production operations.”

A Method for Evaluating Manure Pit Additives in Manure Channels and Simulated Outdoor Lagoons

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A Floating Chamber for estimating Nitrous Oxide Emissions from Farm Scale Treatment Units for Livestock Wastes

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A floating rectangular polyvinyl chloride (PVC) open bottom chamber coupled with a molecular sieve trap was designed to measure the amounts of nitrous oxide gas (N2O) emitted during aerobic treatment or storage of liquid animal slurries. A number of outdoor calibration trials, using water and a standard gas mixture, resulted in an averageN2O recovery of 79$8%. Further experiments carried out on a farm scale aerobic treatment unit confirmed the reliability and ease of use of the method.

Composted and Noncomposted Manure Application to Conventional and No-Tillage Systems: Corn Yield and Nitrogen Uptake

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Characteristics of Hydorgen Sulfide Concentration in Mechanically Ventilated Swine Buildings

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Hydrogen sulfide levels were measured in two mechanically ventilated 1,000 pig finsihing buildings. The study set out to measure seasonal variation in hydrogen sulfide levels and factors that impact these variations, evaluate daily hydrogen sulfide variation and distinguish different patterns and examine spatial hydrogen sulfide concentration levels at three sampling locations.

Average daily mean building concentrations in both facilities were 3180 +/- 16 ppb and 232 +/- 39 ppb, the difference between the mean concentration in the two buildings was not statistically significant. Seasonal concentration patterns were saddle-shaped, with lowest concentration levels reported in early June and highest concentrations in April and September. Hydroegn sulfide concnetration levels were inversely correlated to building ventilation rate, which varied according to seasonal temperatures. The highest daily mean hydrogen sulfide rate corresposnded to th day airflow rates were the lowest.

Daily hydorgen sulfide concentration rates are influenced by ambient temperature followed by the building ventilation variation. Four daily concentration patterns were identified, 92% of the time hydrogen sulfide concentrations varied indirectly with building airflow followed by the outside air temperature. Spatial variations were very evident throughout the study. Barn 3b had a range of 271 ppb between the end wall and pit chimney, while Barn 4B had a range of 265 ppb ebtween the end wall and pit head space. Therefore it is very important in determing the appropriate the proper location of measurement, that which will be determined by the objectives set out in the experiment.

The Use of Snowfluent as an Alternative Method for Treatment of Liquid Hog Manure

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Snowfluent has been successfully used in treating municipal wastewater since 1985, however this technology has never been applied to liquid hog manure. The process is very similar to that of making artifical snow, a production of a very fine aerasol when wastewater is propelled at a high velocity from the nozzle of a snow gun. The study was conducted in February 1997 at a 300 sow farrow-to-finish hog operation near Vegerville, Alberta. During snowmaking, bioaerosols were taken 6 m, 16 m, and 100 m within the snowgun tarjectory line. The liquid manure was sampled throughout the snowmaking period, and samples were also taken from newly made snow and the snowpack as it aged. Samples were also taken from the runoff as the snow melted and from standing water that remained after the snow was melted.
All samples collected were measured for: fecal coliform,pH, conducivity, Na, Ca, Cl, P, NH3 and NO3-N.

During the snowmaking process decreases between 87.8 – 99.3% of fecal coliforms were realized in the new snow, and significant decreases in pathogens were also observed in the snowpack. The snowpack and the melt water both reported decreases in excess of greater than 99.99%. Bioaerosol samples were taken at 100 m downwind from the snowgun did not differ from those upwind of the snowgun. Elevated levels were found throughout the tarjectory line of the snowgun, with the levels levels being reported at the 16 m range. As well, bacteria level in the trajectory line were founs to be in higher concentrations than normally reported in swine facilities. Bacteria concentrations at the 100 m point were not significantly higher than concentration levels upwind of the snowgun.

Samples of the new snow, aging snowpack and melt water indicated the concentrations of soluable constituents in the initial melt water were significantly higher than the initial concentrations in the snow. The snowpack served as a filtering mechanism, retaining the larger particles of organic matter within the snowpack and letting the more water soluable constituents drain out. This trial has shown Snowfluent to be a effective treatment for liquid hog manure, however the treatment is not effective enough for meltwater to be discharges into surface water or applied to frozen soil.

Soil mineral N and N net mineralization during autumn and winter under an oilseed rape-winter wheat-winter barley rotation in different crop management systems.

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Soil sampling in autumn gives important information on the soil N dynamic. In the growing seasons 1991/92 to 1995/96, the effects of different crop management systems on soil mineral N (NO3-N plus NH4-N:N(min) were investigated in a factorial field experiment at Hohenschulen Experimental Station near Kiel in NW Germany. The crop rotation was oilseed rape–winter wheat–winter barley, and soil tillage (conservation tillage without ploughing, conventional tillage), application of pig slurry (none, autumn, autumn + spring), mineral N fertilization (0, 120 and 240 kg N ha-1) and fungicide application (none, three applications) were all varied. Each year, the treatments occurred in all three crops of the rotation and were located on the same plots. N(min) was determined on four dates (‘After drilling’, ‘End of autumn growth’ before winter, ‘Beginning of spring growth’ before N fertilizer application, and ‘After harvest’) to 90 cm in 30 cm horizons. Under all crops, N(min) showed a large year to year variation. Highest values of 132 kg N ha-1 were observed ‘After drilling’, which decreased until ‘End of growth’. The increase of autumn N(min) (‘After drilling’, ‘End of autumn growth’) was mainly due to autumn slurry, whereas mineral N fertilizer mainly affected N(min) ‘After harvest’. Soil tillage and fungicide application only slightly modified N(min) at all dates. The relationship between N leaching and N(min) measured either ‘After drilling’ or at the ‘End of autumn growth’ in 1991/92-1994/95 remained too poor to be used to estimate N leaching. N net mineralization during autumn and winter varied with crops, as estimated by the N(min) changes between ‘After drilling’ minus ‘Start of spring growth’ plus N uptake by the crop at ‘Start of spring growth’ plus N leaching during winter. On average over the years, 39 kg N ha-1 were mineralized under oilseed rape and 42 kg N ha-1 under wheat compared with 31 kg N ha-1 under barley. However, a large year-to-year variation occurred. In addition, the ranking of the years differed with the crops. Slurry application led to different amounts of mineralized N. Under barley only 25 kg N ha-1 were calculated for the autumn slurry, but 42 kg N ha-1 for the autumn plus spring slurry treatment. In contrast, under oilseed rape the highest value of 41 kg N ha-1 occurred in the autumn slurry plots. Under wheat, slurry application only slightly affected N mineralization. Increased mineral N fertilization decreased N release under oilseed rape, but significantly increased it under cereals. Application of fungicides did not affect N mineralization during winter.

Hydraulic Conductivity Reduction Due to Ponded Hog Manure

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One of the most vocal concerns regarding the development of large intensive hog operations is the possbility of ground water contamination from the earthen manure storage (EMS) facility. Regulations regarding the construction of an EMS is to maintain a minimum seepage rate through the earthen material. Current regulations suggest a clay content of 15% and a plasticity index of 10% should be achieved in order to properly construct a EMS. Researchers at the University of Saskatchewan studied the impact of ponded hog manure on flow rate, attempting to answer the following specific questions: (1) How much is flow reduced? (2) Does texture have an effect upon flow reduction? (3) Does length of time of manure ponding have an effect on flow reduction? (4) Is the flow reduction due toa seal and/or clogging within the soil? (5) What is the durability of the seal or clogging? (6) What is the effect of flow rates upon seal removal?

Seven different soils ranging in caly content from 9-33% were studied using 20cm soils column tests in a low-temperature (5-6 degress Celcius) environment. The average hydraulic conductivity values measured with water ranged from 2.63 x 10 exp -8 m/s to 131.8 x 10 exp -8 m/s. The hydrualic conducivity rapidly decreased within the first hour with a very thin black layer resting on the soil surface. Hydrualic conductivity values for all soil types (regardless of natural conductivity of the soil) dropped to about 0.1 x 10 exp -8 m/s within 3-6 weeks of ponding manure. The seal increased downward at a rate of 0.3 mm/month. The formation of the manaure seal is the primary factor for the reduction of hydrualic conductivity of all soils types tested. The text as well as the amount of time of manure ponding seems to have little effect upon flow reduction. However the seal seems to be temperature sensitive; unplanned heating events during the course of the experiment resulting in increased flow rates, average hydrualic conducivity rose from 0.10 x 10 exp -8 m/s to 0.36 x 10 exp -8 m/s when temperatures rose for the period of one day. Seal removal followed by ponding with a chemical solution resulted in the hydrualic conducivity returning back to original values measured with water.

Survival of Culturable Bacteria during Co-composting of Institutional, Agricultural and Municipal Solid Wastes

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Production of carbon dioxide in a fattening pig house under field conditions. I. Exhalation by pigs

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