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2014 ASHS Annual Conference

19760:
Compost for High Tunnel Tomato Production

Tuesday, July 29, 2014
Ballroom A/B/C (Rosen Plaza Hotel)
Kate Marshall, Univ. of Maine, Orono, ME
Susan Erich, Univ. of Maine, Orono, ME
Mark Hutton, Highmoor Farm, Univ. of Maine, Monmouth, ME
Mark Hutchinson, Univ. of Maine, Waldoboro, ME
Ellen Mallory, Univ. of Maine, Orono, ME
High tunnel use for tomato cultivation is on the rise in the northeastern U.S. Use of high tunnels both extends the growing season and increases yield.  Compost is frequently used in high tunnel tomato production to supply nutrients and improve soil quality.  While various studies have looked at the use of compost in field soils, fewer studies have assessed the effectiveness of compost in high tunnels, where both temperature and soil moisture may be relatively high.  In this experiment, four finished composts from commercial producers in Maine were analyzed for nutrient content, pH, conductivity, lignin, and soluble C.  A randomized complete block design with four replications was used to compare the four compost treatments with an unamended control and a control receiving inorganic nutrient in a field study.  Composts were all added at the rate of 270 lb. of total N acre-1, while inorganic fertilizer was added at the rate of 100 lb. N acre-1.  Tomatoes were grown in these treatments in caterpillar tunnels at the Maine Agricultural and Forest Experiment Station in Monmouth, ME during the summer of 2013.  Soil nitrate (NO3- ), ammonium (NH4+), and moisture were measured throughout the growing season, along with total marketable tomato yield and tomato N uptake at the end of the season.  Composts had significantly different properties.  Compost treatments affected early season soil NO3- and NH4+, and total marketable yield.  Composts with high levels of inorganic N produced higher total marketable yields.