Nutrient solution and substrates for ‘ cedro doce ’ ( Pochota fendleri ) seedling production

Solução nutritiva e substratos para produção de mudas de cedro doce (Pochota fendleri) R E S U M O Objetivou-se, neste trabalho, verificar o efeito da adição de solução nutritiva em diferentes substratos na produção de mudas de Pochota fendleri, e seu efeito nos teores de macro e micronutrientes e de clorofilas a e b nas folhas. O delineamento experimental utilizado foi inteiramente casualizado em esquema fatorial 3 x 2, com quatro repetições. Os fatores foram três substratos e adição ou não de solução nutritiva, compondo seis tratamentos: (T1) = areia; (T2) = solo; (T3) = solo + areia (1:1); (T4) = areia + solução nutritiva; (T5) = solo + solução nutritiva; (T6) = solo + areia + solução nutritiva. Foram avaliadas características de crescimento (altura, diâmetro do colo e massa seca da parte aérea e radicular, relação raiz/ parte aérea e massa seca total), além dos teores de macro e micronutrientes e de clorofilas a e b. A utilização de solução nutritiva reduz o tempo para obtenção de mudas de Pochota fendleri e é importante para o crescimento e qualidade das mudas. A sequência de exigência nutricional das mudas nos três substratos com adição de solução nutritiva segue em ordem decrescente: macronutrientes (N > Ca > K > Mg > P > S ) e micronutrientes (Fe > Mn > B > Zn > Cu).

With regard to the production of forest seedlings, they must have high quality standard to be successfully established in the definitive planting site (Reis et al., 2016).Morphological or nutritional characteristics can be used as measurements of the quality standard of the seedlings and the former are, in general, easily obtained, because they do not require sophisticated equipment (Duarte et al., 2015).
For forest species, especially those native to Brazil, the knowledge on their nutritional requirements during the initial growth is still incipient (Cruz et al., 2016).Different species can exhibit different behavior for the same substrate.Therefore, it is necessary to verify which substrates, or even the addition of nutrient solution, allow to obtain seedlings with higher quality and in reduced time (Uliana et al., 2014).
Although managements with addition of nutrient solution, in general, are more efficient (Souza et al., 2015), there are not yet sufficient scientific studies on the production of Pochota fendleri seedlings intended for commercial plantations, which leads to the necessity of basic research on the production of the species as a function of the fertilization management.
Thus, this study aimed to evaluate the effect of addition of nutrient solution in different substrates on the production of Pochota fendleri seedlings and its effect on the leaf contents of macro-and micronutrients and chlorophylls a and b.
Two seeds were planted in each polyethylene container (height of 17 cm and diameter of 12 cm), containing approximately 2 L of each one of the three substrates.When plants were 5 cm high, on average, thinning was performed, leaving only the most vigorous one.The addition of nutrient solution started one week after the thinning of the seedlings, with two waterings of 30 mL week -1 , proposed by Souza et al. (2011), performed after the last daily irrigation to reduce the leaching of nutrients.
Plants were conveniently spaced and maintained in nursery with 50% of shading, irrigated four times a day, for five minutes in every time.Until 60 days after thinning (DAT), the following variables were biweekly evaluated: seedling height, measured with a millimetric ruler, from the soil surface to the apical meristem, and collar diameter, measured with a digital caliper at the height of 1 cm from the soil.The values of height and diameter obtained in four measurements (15, 30, 45 and 60 d), were statistically analyzed through polynomial regression, in the three substrates with and without fertilization (addition of nutrient solution), with four replicates of 10 plants.
The contents of chlorophyll a and b were determined at 60 DAT, with Dualex chlorophyll meter and the measurements were taken in the apical third fully expanded leaf between 9 and 11 a.m., avoiding readings on the leaf midrib.
To obtain the dry matter at 60 DAT, each seedling was divided into shoots and roots, and each plant part was washed in running water, placed in paper bag and dried in forced-air oven at 70 ºC until constant weight (72 h).After dried, they were weighed on an analytical scale with precision of 0.01 g to determine shoot dry matter (SDM), root dry matter (RDM) and, through their sum, the total dry matter (TDM), thus obtaining the root/shoot ratio (R/S).Then, the dry leaves were ground in a Wiley-type mill with 20-mesh screen, and sampled for the quantification of the contents of macro-(N, P, K, Ca, Mg and S) and micronutrients (B, Cu, Fe, Mn and Zn), according to the methodologies described by Malavolta et al. (1997).These data were used to establish the decreasing order of nutrients extracted by the sweet cedar seedlings until 60 DAT.
The obtained data of the different variables were subjected to tests of normality (Kolmogorov-Smirnov) and homogeneity of variances (Hartley) at 0.05 probability level, and the means obtained at 60 d were compared by Tukey test at 0.05 probability level using the statistical program Sisvar (Ferreira, 2011).The biweekly values of plant height and diameter were analyzed through polynomial regression.

Results and Discussion
The factors studied individually, substrates and fertilization (with and without addition of nutrient solution), showed significant effect, as observed in the monitoring of the interaction Fertilization x Time for the variables height and collar diameter.There was reduced growth in the seedlings of sweet cedar (Pochota fendleri) in the treatments without addition of nutrient solution, and the highest values, for both height and diameter, were obtained with the addition of nutrient solution (fertilization).
After the evaluated period (60 DAT) in the substrates soil and sand + soil, both with addition of nutrient solution, there Nutrient solution and substrates for 'cedro doce' (Pochota fendleri) seedling production R. Bras.Eng.Agríc.Ambiental, v.21, n.4, p.227-231, 2017.were higher values of height (80.0 cm) and collar diameter (14.4 cm), respectively (Figures 1B and 2B).The substrates sand, soil and sand + soil (Sa+So), without addition of nutrient solution, led to the lowest values of height (Figure 1A) and collar diameter (Figure 2A), evidencing the importance of adding nutrients via nutrient solution for an early production of sweet cedar (Pochota fendleri) seedlings.
According to Mason (2001), morphometric attributes of seedlings, such as collar diameter and shoot height, have been constantly reported as important indicators of survival and post-planting growth potential.In study conducted with seedlings of sweet cedar (Bombacopsis quinata) under nursery conditions, Silva et al. (2013) observed mean growth of 10.9 cm of height and diameter of 3.73 mm in treatment with liming at 57 days after planting.These values obtained for these variables are below the ideal limit proposed by Gomes et al. (2002), for native forest species, which is 20 to 35 cm of height and 5 to 10 mm of root collar diameter.
The superiority of morphological parameters of Pochota fendleri seedlings is due to the use of a substrate adequate for the species and the application of the nutrient solution.According to Souza et al. (2015), the substrate must be the first item to be planned in the process of production of goodquality seedlings, together with the association of the adequate supply of nutrients.This contributes to uniform development and speed in the growth of the seedlings, thus reducing their time of permanence in the nursery.Thus, the nutrient solution used in the present study can be considered as an effective strategy to favor the production of Pochota fendleri seedlings with good quality and in a short time.According to Caldeira et al. (2008), the shoot dry matter and root/shoot ratio of the seedlings are parameters that indicate their quality and the balance between the distribution of plant biomass.In this study, the shoot dry matter production and root/shoot ratio of the seedlings in the treatments T4, T5 and T6 did not differ significantly (Table 1).The lowest mean values of SDM, RDM and TDM were obtained in seedlings without the addition of nutrient solution.
Regarding the production of total dry matter (SDM+RDM), Pochota fendleri seedlings cultivated with addition of nutrient solution were superior to those that did not receive nutrient solution.Cruz (2006), in a study with seedlings of Samanea inopinata, observed that the higher the value of total dry matter, the better the quality of the produced seedlings.
Therefore, it can be inferred that the treatments with addition of nutrient solution led to seedlings with higher quality and higher probability of survival at the field, indicating that the addition of nutrient solutions in the substrates (T4) = sand + nutrient solution; (T5) = soil + nutrient solution; (T6) = sand + soil + nutrient solution produces more-adequate Pochota fendleri seedlings (Table 1), which showed mean values eight times higher in comparison to those obtained without addition of nutrient solution.
In addition to that, there were higher contents of nitrogen and sulfur in the leaves of Pochota fendleri seedlings.It is known that nitrogen is one of the mineral elements most required by plants, participating in proteins, nucleic acids and many other vegetal constituents, including membranes and various hormones, while its sufficient supply is fundamental to stimulate and maintain vegetative growth (Smiderle & Souza, 2016).
In the substrates (T4) = sand + nutrient solution; (T5) = soil + nutrient solution; (T6) = sand + soil + nutrient solution, the leaf contents reached the ideal range, being similar to those reported by Moretti et al. (2011), in which nitrogen was the main nutrient responsible for the vegetative development of Australian cedar (Toona ciliata).These results corroborate those obtained by Renó et al. (1997), who also found that the nitrogen was highly required by cedar (Cedrela fissilis Vell.) in the beginning of its development, since the omission of this nutrient led to reductions of 40% in height.
For phosphorus, which is a mobile nutrient in the plants, there were no significant differences between the leaf contents of the treatments T4, T5 and T6 with addition of nutrient solution, while there were higher leaf contents of potassium with addition of nutrient solution (Table 2).With regard to magnesium, the leaf contents observed in these same treatments (with addition of nutrient solution) were within the adequate range for the crop, according to Freiberger et al. (2013).Likewise, the highest contents of iron were observed in the leaves of the seedlings in T4, T5 and T6 (Table 3), due to the fact that it activates enzymes and participates in the photosynthetic process, as the leghemoglobin (Taiz & Zeiger, 2013).
For the values of chlorophyll a and b, the fertilization was significant and the interaction Fertilization x Substrates was not significant.Table 4 shows the contents of chlorophyll a and b obtained in the substrates (T1) = sand; (T2) = soil; (T3) = sand + soil, which are indications of low nutritional status in nitrogen, magnesium and iron (Table 3) and the symptoms became clearly visible during the experiment, showing acute      4), due to the increase in the

Figure 1 .
Figure 1.Height of Pochota fendleri seedlings without addition of nutrient solution (A) and with addition of nutrient solution (B) in different substrates monitored until 60 days after thinning

Figure 2 .
Collar diameter in Pochota fendleri seedlings without addition of nutrient solution (A) and with addition of nutrient solution (B) in different substrates monitored until

Table 1 .
In the column, means followed by different letters, lowercase between substrates and uppercase between fertilizations, differ at 0.05 probability level by Tukey test.CV% = Coefficient of variation Mean values of shoot dry matter (SDM, g), root dry matter (RDM, g), root/shoot ratio (R/S), total dry matter (TDM, g) obtained in Pochota fendleri seedlings with and without the addition of nutrient solution at 60 days after thinning *

Table 2 .
Mean values of leaf contents of macronutrients (g kg -1 ) determined in Pochota fendleri seedlings, at 60 days after thinning, with and without addition of nutrient solution, in different substrates

Table 3 .
Mean values of leaf contents of micronutrients (mg kg -1 ) determined in Pochota fendleri seedlings, obtained at 60 days after thinning, with and without addition of nutrient solution, in different substrates

Table 4 .
Leaf contents of chlorophyll a and b in the production of Pochota fendleri seedlings with and without addition of nutrient solution in different substrates, evaluated at 60 days after thinning, maintained under 50% of luminosity