ISHS Acta Horticulturae 659: VII International Symposium on Protected Cultivation in Mild Winter Climates: Production, Pest Management and Global Competition
EFFECTS OF NUTRIENT SOLUTION EC, PLANT MICROCLIMATE AND CULTIVARS ON FRUIT QUALITY AND YIELD OF HYDROPONIC TOMATOES (LYCOPERSICON ESCULENTUM) |
| Authors: | M. Wu, J.S. Buck, C. Kubota |
| Keywords: | lycopene, greenhouse, total soluble solid, gas exchange, vapor pressure deficit, fruit yield, cultivar, harvest |
| Abstract:
Four cultivars (Blitz, Mariachi, Quest and Rapsodie) of tomato were grown hydroponically on rockwool in two microclimates (east and west) inside the greenhouse (Tucson, AZ) under two nutrient solution electrical conductivity (EC) levels (2.6 or 4.5 dS m-1), adjusted by adding NaCl and CaCl2 after the setting of first fruit truss. In all cultivars, total soluble solid (TSS, %Brix at 20°C) and lycopene concentration of fruits increased by 12-23 % and 34-85 %, respectively, with increasing EC level. Fruits harvested from the east side of the greenhouse had higher TSS than those from the west side, due to the different plant microclimate varying by daily PPF (photosynthetic photon flux) and VPD (vapor pressure deficit). However, lycopene concentration in fruits was not significantly affected by plant microclimate regardless of cultivars or EC. The cultivar Mariachi had the strongest effect in response to nutrient solution EC levels regarding both TSS and lycopene concentration among the cultivars examined. The cumulative yield at 7 weeks had no significant differences between nutrient solution EC and locations, regardless of cultivars. The results indicated that value added tomato fruits could be produced by manipulating EC and plant microclimate in the greenhouse without causing yield reduction. | |
Download Adobe Acrobat Reader (free software to read PDF files) | |
