Evaluation of Requirements and Efficiency Parameters in the Use, Absorption, and Translocation of Nutrients in the Production of Hymenaea courbaril L. Seedlings, a Fruit Tree of Neotropical Importance

Layara Alexandre Bessa,Mateus Neri Oliveira Reis,Luciana Cristina Vitorino,Fabiano Guimarães Silva

doi:10.5296/jas.v9i2.18089

Abstract

The lack of sufficient knowledge on nutritional requirements, as well as efficiency parameters, in the use, absorption, and translocation of nutrients by seedlings in developmental stages may lead to the excessive use of chemical fertilizers, which end up contaminating the environment. Therefore, this research adopted the hydroponic system to elucidate the nutritional requirements of Hymenaea courbaril L. seedlings, a fruit tree of neotropical importance, throughout its development (30, 60, 90, 120, 150, and 180 days after transplantation). Consequently, biometric data on growth and mineral nutrition were obtained and utilized to determine efficiency parameters in the use, absorption, and translocation of nutrients. Although H. courbaril leaves functioned as efficient drains throughout the development, S and Fe accumulated in the roots, owing to their not very mobile nature. The macro and micronutrients that were accumulated the most in the tissues were N and Mn, which even suggested a tendency for H. courbaril to tolerate Mn concentrations that are naturally toxic. The most efficient adoption was observed for the S and Cu nutrients, whereas the most efficiently absorbed nutrients were N (the macro and micronutrient with the greatest accumulation) and Fe (the second micronutrient with the greatest accumulation). However, the seedlings efficiently translocated Ca-N and Mn, i.e., the most accumulated nutrients. Positive effects on growth were correlated with increases in P, Ca, and Mg levels, thus signaling the importance of an optimal supply of these nutrients in obtaining healthy seedlings of this species. This work suggests that to obtain seedlings of H. courbaril in practice, the availability of N, Mn, P, Ca and Mg should be reviewed.

Highlights

To supply a growing market, which aims to maintain the natural landscape and restoration of areas previously degraded, it is necessary to produce seedlings of native fruit species
The N content increased relative to the days after transplantation (DAT) of the leaves, stem, and roots, and the greatest accumulation of this nutrient occurred at 180 DAT, being 20.96, 14.84, and 6.801 g⋅plant-1, respectively, whereas the smallest accumulation of N was observed at 30 DAT for the leaves, stem, and roots, being 5.623, 0.843 and 1.431 g⋅plant-1, respectively (Figure 2a)
The P content in the leaves, stem, and roots increased gradually relative to the DAT, and the highest values were observed at 180 DAT, which were 7.86, 6.64, and 3.34 g⋅plant-1 for the leaves, stem, and roots, respectively

Summary

Introduction

To supply a growing market, which aims to maintain the natural landscape and restoration of areas previously degraded, it is necessary to produce seedlings of native fruit species. The current obtention of seedlings occurs via the application of agricultural fertilizers, under the "response rate" approach that links the fertilizer application rate to the yield (Briat et al, 2020). This approach may lead to the application of excessive amounts of these inputs, which, may prove to be toxic to plants, because they favor the decrease in soil pH, increasing the availability of heavy metals (Khan et al, 2018). Hydroponic cultivation is a technique that allows the isolation of external factors such as physics, soil

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Discussion

Conclusion