DISCUSSION Applying fertigation in

DISCUSSION
Applying fertigation in growing tomato in greenhouse allows for using various materials for preparing the substratum. The materials can be organic, mineral and synthetic. Thanks to the fact that the nutrient solution can be supplied to the plants in 10, 15 or 20 single doses a day, the sorption complex of substrata seems to be less important. In studies on evaluation of particular substrata rockwool is used as the comparative substratum. In spite of precise dosing of nutrient solution in the grown plants by means of fertigation the nutrients contents in various substrata (peat, perlite, coco coir, foamed glass, pine bark, rockwool) were not equal. The differences concern the pH values, contents of potassium, calcium, magnesium, iron and manganese [Choi et al. 2007, Lopez et al. 2008, Hanna 2009, Blok et al. 2011]. In the studies with tomato grown in wood fiber [Domeno et al. 2009, Komosa et al. 2009, Komosa et al. 2010] the importance of substratum density was emphasized. The increase of wood fiber density from 60 to 100 g·dm-3 caused significant decrease the contents of N-NO3, P, K, Ca, and Fe in root environment solution and the increase of N-NH4 and Mg contents. Besides, in spite of the broad ratio of carbon to nitrogen in wood fiber and the possibility of biological sorption, no significant decrease of mineral nitrogen content in the substratum was demonstrated. In the presented studies in cut triticale straw substrata, as well as in these of triticale with addition of peat and bark, the least of mineral nitrogen (N-NH4, N-NO3) there was at the beginning of growing, in March. This was caused by high demand for this nutrient in tomatoes, as well as by the increased biological sorption, because of broad C:N ratio in the straw. In spite of the fact that straw during vegetation of tomato decomposes, in the last month only 30% of it was left, the contents of nitrogen, as well as of the remaining nutrients was in the optimal interval. Straw contains certain amounts of organic compounds, which, in result of transformations, may be taken up by plants and positively affect the uptake of nutrients. This is emphasized by Olfati et al. [2010], who, adding synthetic humic acid to the nutrient solution, obtained the advantageous effect upon the yield and nutrient uptake. Also the effect of aminoacids (alanine, serine, phenylalanine, tyrosine) was examined, as they were added to the medium in tomato growing [Garcia et al. 2010] demonstrating changes in the contents of Ca, K, Mg, Fe, Cu, Mn in plant leaves. Also the advantageous effect of various kinds of organic waste composted in oxygen conditions is emphasized [Raviv 2011a, b], as they are added to peat for substratum preparation. The advantages of such substratum are: cost decrease, contributing nutrients, as well as restricting the development of certain pathogenic microorganisms.