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The 2012 ASHS Annual Conference

9505:
Early Season N Fertilization Management Strategies in Strawberry Production

Wednesday, August 1, 2012: 4:30 PM
Trade Room
Tom Bottoms, UC Davis, Davis, CA
Michael Cahn, UC Cooperative Extension, Salinas, CA
Timothy K. Hartz, University of California, Davis, CA
Annual strawberry (Fragaria x ananassa Duch.) production is a major industry in the Salinas Valley of central California, an area with widespread NO3-N impairment of both surface water and groundwater. Pending environmental water quality regulation will require more efficient utilization of N fertilizer. Seasonal N application averages approximately 230 kg·ha-1; about half is applied in a controlled release N (CRN) form prior to crown planting in October–November. The remainder of the seasonal N is fertigated through drip irrigation during the subsequent spring and summer. Because strawberry is usually grown in rotation with lettuce and other leafy greens, residual soil NO3-N at the time of crown planting often exceeds 15 mg·kg-1. Winter rainfall provides N leaching potential while cool temperatures limit crop growth until March. These circumstances call into question the value of a large preplant N application. To investigate the efficiency of pre-plant CRN application, trials were initiated in Fall 2010 in three commercial fields comparing the growers’ standard CRN application with a half rate (all fields) and no CRN application (field 3 only). Full rate CRN application was 121 (fields 1 and 2) and 86 kg·ha-1 (field 3). All treatments received all in-season N fertigation applied by the growers. Above-ground plant biomass, biomass N, and soil NO3-N were determined in monthly sampling. By early April, plant biomass N averaged < 20 kg·ha-1, with no significant effect of preplant CRN rate in any field. Biomass N in fields 1 and 3 averaged 177 kg·ha-1 by mid-August, again with no significant effect of preplant CRN rate. Seasonal marketable fruit yield in fields 1 and 3, which averaged 1.55 and 2.00 kg plant-1, respectively, were also unaffected by preplant CRN rate. In field 2, a transient but statistically significant reduction in biomass N was observed in the half rate CRN treatment in the June sampling, at which time soil NO3-N was < 1 mg·kg-1. Marketable fruit yield in the half rate CRN treatment, which until that time had been equivalent to the full CRN rate, fell progressively behind and finished the season 10% lower than the full rate treatment. We conclude that a large preplant CRN application is an inefficient practice in this production system. This study suggests that reducing preplant CRN rates while monitoring soil NO3-N to guide in-season N fertigation, could improve N fertilizer efficiency.
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