3.3. Vegetative growthVegetative gr

3.3. Vegetative growth
Vegetative growth of tomato in hydroponics and aquaponics treatments is represented in Table 3. There was a significant difference(P < 0.05) between two systems in terms of biomass gain.Although tomato leaf fresh mass (LFM), stem fresh mass (SFM),root fresh mass (RFM), leaf dry mass (LDM), stem dry mass (STM),leaf number (LN), node number (NN) and shoot length (SL) were higher in hydroponics as compared to aquaponics, tomato growth in aquaponics was normal during the experiment with no visible signs of any severe nutrient-deficiencies. Pereira (2002) reported that irrigation of lettuce by fish effluent increased shoot fresh matter in comparison with plants irrigated with well water. However,when lettuce was fertilized with chemical fertilizer, no significant
difference on fresh matter was observed between plants irrigated with fish effluent and well water. Foliar application of K, Mg, Fe,Mn, and B increased vegetative growth of plants in the aquaponics(Table 3). As potassium is not needed by fish, it is not added to fishand thus to the system in adequate amounts (Graber and Junge,2009). Thus, due to low level of K in aquaponic system (Table 2),foliar spray of K increased the tomato growth in aquaponics, significantly(Table 3). This is in agreement with the results of Kaya et al. (2001), who reported foliar application of supplementary K increased dry matter of tomato plants in salinity stress condition.Tisdale et al. (1985) also observed similar behavior after foliar application of K. In the hydroponics, only Fe and B had positive effects on plant growth (Table 3). Higher effect of foliar application of these
elements in the aquaponics may be due to lower concentration of them in nutrient solutions. However, it should be noted that nutrients are removed without replacement for one week in hydroponic systems, while, they are produced in aquaponics by the fish excretion or by the microbial breakdown of organic wastes continuously (Nelson, 2008).