Long-Term VegetablesLong- Term Organic Farming Impacts on Soil FertilityVery few long-term organic farming studies exist, especially in the central Great Plains. Data was gathered from annual soil tests from Grant Family Farms (GFF), the largest organic mixed crop farm in Colorado, located in Northern Colorado. The land that now makes up GFF was purchased in the early 1970s and sustainable agricultural practices were used until the mid-1980s when organic farming practices were implemented. GFF uses leguminous cover crops as green manures and dairy manure as their only fertility inputs. Crop rotations among over twenty different vegetable and herb crops are standard practice. Soil test data from twelve fields, 17 to 50 acres (7 to 20 hectares) in size, was compiled and analyzed for changes over time in soil chemical properties for ten soil fertility components: pH, electrical conductivity (EC), soil organic matter (SOM), nitrate (NO3-N), phosphorus (P), potassium (K), zinc (Zn), iron (Fe), manganese (Mn), and copper (Cu). The number of years of data per field ranges from to 5 to 12 over the period of 1985 to 2000. Annual soil tests revealed a significant increase in P, K, SOM, Zn, and Fe levels in 33% of the fields. Soil pH decreased significantly (p<0.05) in four fields. Soil NO3-N and Cu did not change significantly over time in organic production in any of the observed fields. Soil P reached a level in many fields that could become an environmental runoff risk if soils are not managed carefully. Overall, there was an observed increase in soil fertility components over time in organic production.
Graduate Student: Jami Daniel Farmer: Lew Grant, Grant Family Farms Funding from the Organic Farming Research Foundation PowerPoint Presentation: Long-term Organic Farming Impacts on Soil Fertility Full Text Article: http://ofrf.org/publications/Grant%20reports/00.49.15.Davis.Fall00.IB12.pdf
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