4. DiscussionPlants grown on silt l

4. Discussion
Plants grown on silt loamy soil showed an early reduction in vegetative growth both at canopy and root level. Biomass allocation to root decreased more than proportionally compared to the reduction of the above-ground part, increasing the canopy/root ratio which is a typical response showed by plants exposed to root stress (Wilson, 1988). Regarding the proportional allocation of fine-root biomass to absorptive and transport roots, the values obtained are in line with those typical for a minimum-to-average absorptive root system, in accordance with the classification provided by McCormacketal. (2015). These findings are probably explained with the young age of the plants used in the test, which were still in their largely explorative stage of development. However on the silt loam treatment, a particularly low portion of fibrous root was found, coupled with a low renovation rate and the highest level of cell damage. The sum of those findings confirms a low root ability of the substrate and explains the generally poorer plant development. On the peat treatment, the same low renovation rate, paired with high total root biomass and low leakage level, might be interpreted instead as an indication of a long-lived and more efficient root system requiring a lower replacement rate of root structures.Influences due to soil characteristics on leaf specific mass has being reported (Witkowski and Lamont, 1991; Poorter et al., 2009)indicating an increase of leaf specific mass and especially of it sleaf density component, in response to a decrease of nutrientand/or moisture availability (Mooneyetal., 1978; Juriketal. , 1982;Shaver, 1983). Under water logging, frequently induced in silt loamy soils, the anaerobic environment around the roots mighth inderwater uptake, generating a LSM response rather similar to that of drought. Low water availability will decrease growth more than photosynthesis (Polverigiani et al., 2011) thus potentially leading to accumulation of total nonstructural carbohydrates. This in it selfmay increase the leaf specific mass (LSM) parameter (Poorter et al.,2009) but the overall effect of water on LSM would be moderate and would only be seen when plants are severely limited in growth, as was the case for the plants growing on the silt loam soil in this experiment. Leaves would also have lower expansionrates since the cells would be smaller and more tightly packed,with a lower fraction of air spaces (Maksimov and Yapp, 1929) thusincreasing LSM. A direct relationship was indicated among LSM and relative leaf photosynthetic capacity (Meir et al., 2002) thus justi-fying the average to higher rate of photosynthetic activity found during the experiment for the plants grown on the silt loam soil. A direct relationship of LSM with the SPAD index is also demonstrated(Upadhyaya, 2005; Marenco et al., 2009) and this can explain the high SPAD index recorded on the silt loam soil in 2014.