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Account No.: Date Received <br />4010203 - 1/1 - 7155 Sample i.d. <br />Group:Sample I.d. No. 1/1 4010203 <br />INTERPRETATION:Page three of three <br />AgIndex (Nutrients/Na+Cl) <br />8 Average nutrient ratio Composts with low AgIndex values have high concentrations of sodium and/or chloride <br />compared to nutrients. Repeated use of a compost with a low AgIndex (< 2) may result in sodium and/or chloride <br />acting as the limiting factor compared to nutrients, governing application rates. These composts may be used on well-draining <br />soils and/or with salt-tolerant plants. Additional nutrients form another source may be needed if the application rate is limited by <br />sodium or chloride. If the AgIndex is above 10, nutrients optimal for plant growth will be available without concern of sodium and/or <br />chloride toxicity. Composts with an AgIndex of above 10 are good for increasing nutrient levels for all soils. Most composts score <br />between 2 and 10. Concentrations of nutrients, sodium, and chloride in the receiving soil should be considered when determining <br />compost application rates. The AgIndex is a product of feedstock quality. Feedstock from dairy manure, marine waste, industrial <br />wastes, and halophytic plants are likely to produce a finished compost with a low AgIndex. <br />Plant Available Nitrogen (lbs/ton) <br />5 Average N Provider Plant Available Nitrogen (PAN) is calculated by estimating the release rate of Nitrogen from <br />the organic fraction of the compost. This estimate is based on the respiration rate, ammonia, and nitrate values. Despite the PAN <br />value of the compost, additional sources of Nitrogen may be needed during the growing season to offset the Nitrogen demand <br />of the microbes present in the compost. With ample nutrients these microbes can further breakdown organic matter in the <br />compost and release bound Nitrogen. Nitrogen demand based on a high C/N ratio is not considered in the PAN calculation <br />because additional Nitrogen should always be supplemented to the receiving soil when composts with a high C/N ratio are applied. <br />C/N Ratio <br />19 Indicates immaturity As a guiding principal, a C/N ratio below 14 indicates maturity and above 14 indicates <br />immaturity, however, there are many exceptions. Large woodchips (>6.3mm), bark, and redwood are slow to breakdown and <br />therefore can result in a relatively stable product while the C/N ratio value is high. Additionally, some composts with chicken manure <br />and/or green grass feedstocks can start with a C/N ratio below 15 and are very unstable. A C/N ratio below 10 supplies Nitrogen, <br />while a ratio above 20 can deplete Nitrogen from the soil. The rate at which Nitrogen will be released or used by the microbes is <br />indicated by the respiration rate. If the respiration rate is too high the transfer of Nitrogen will not be controlable. <br />Soluble Nutrients & Salts (EC5 w/w dw - mmhos/cm) <br />4.6 Average salts This value refers to all soluble ions including nutrients, sodium, chloride and some <br />soluble organic compounds. The concentration of salts will change due to the release of salts from the organic matter as it degrades, <br />volatilization of ammonia, decomposition of soluble organics, and conversion of molecular structure. High salts + high AgIndex is <br />indicative of a compost high in readily available nutrients. The application rate of these composts should be limited by the optimum <br />nutrient value based on soil analysis of the receiving soil. High Salts + low AgIndex is indicative of a compost low in nutrients with <br />high concentrations of sodium and/or chloride. Limit the application rate according to the toxicity level of thesodium and/or chloride. <br />Low salts indicates that the compost can be applied without risking salt toxicity, is likely a good source of organic matter, and that <br />nutrients will release slowly over time. <br />Lime Content (lbs. per ton) <br />2.3 Low lime content Compost high in lime or carbonates are often those produced from chicken manure (layers) <br />ash materials, and lime products. These are excellent products to use on a receiving soil where lime has been recommended by <br />soil analysis to raise the pH. Composts with a high lime content should be closely considered for pH requirements when formulating <br />potting mixes. <br />Physical Properties <br />Percent Ash <br />39.4 Average ash content Ash is the non-organic fraction of a compost. Most composts contain approximately 50% <br />ash (dry weight basis). Compost can be high in ash content for many reasons including: excess minerilzation(old compost), <br />contamination with soil base material during turning, poor quality feedstock, and soil or mineral products added. Finding the source <br />and reducing high ash content is often the fastest means to increasing nutrient quality of a compost. <br />Particle Size % > 6.3 MM (0.25") <br />0.0 Suitable for all uses Large particles may restrict use for potting soils, golf course topdressings, seed-starter <br />mixes, and where a fine size distribution is required. Composts with large particles can still be used as excellent additions to field <br />soils, shrub mixes and mulches. <br />Appendix: <br />Plant Available Nitrogen (PAN) calculations: Estimated available nutrients for use when calculating application rates <br />PAN = (X * (organic N)) + ((NH4-N) + (NO3-N)) lbs/ton (As Rcvd.) <br />X value = If RR < 2 then X = 0.1 <br />If RR =2.1 to 5 then X = 0.2 Plant Available Nitrogen (PAN) 5.4 <br />If RR =5.1 to 10 then X = 0.3 Ammonia (NH4-N) 0.26 <br />If RR > 10 then X = 0.4 Nitrate (NO3-N) 0.01 <br />Note: If C/N ratio > 15 additional N should be applied. Available Phosphorus (P2O5*0.64) 5.3 <br /> RR = Respiration rate Available Potassium (K2O) 11.6 <br />11 Jan. 24 <br />Super Compost <br />Jan24B No. 27