Biocompósitos de liberação controlada/lenta de fertilizantes: avaliação em solo pela técnica Reflectometria no Domínio do Tempo
Abstract
The use of fertilizer in agriculture is a widely used practice in the agricultural scenery.
Over the years, the need to rise productivity in the growing areas will be inevitable in
the face of population growth, reflecting the increased use of fertilizers and water. In
this scenario, new technologies have emerged as a way of optimizing the amount of
fertilizers used. One of the alternatives is the use of materials that release the nutrient in
a controlled or slowly way, denominated fertireleasers. In this work, fertilizer materials
based on a natural and biodegradable polymer, chitosan, were evaluated for their
efficiency in the release of fertilizers in water and soil. The chitosan was used both with
KNO3 fertilizer and montmorillonite clay, producing microspheres, microcapsules and
macrospheres. The materials were inserted in the soil and the release of ions was
analyzed by the Time Domain Reflectometry (TDR) technique. The measurements were
made from probes inserted in containers containing sandy soil, with and without field
capacity monitoring, getting results of humidity and electrical conductivity. The
microcapsules present a slower release behavior in both water and soil, attributed to
core-shell encapsulation. In spite of the rapid release in water (2h) the materials (QF2F,
QAF2F, QRF2F, QRAF2F, QF3F, QAF3F, QRF3F e QRAF3F) presented continuous
release in soil during the period of analysis (~100 days). Additionally, the release is
dependent on water and since some materials retained water (QF3F, QAF3F), similar to
hydrogels behavior. We concluded that the microspheres, microcapsules and
macrospheres have different release in water and soil and this is characteristic of the
composition of each material. It is worth noting that TDR, besides determining the ionic
mobility in the soil, also allowed to evaluate other characteristics of the material such as
the dependence of the release with the water, the hydrogel behavior, and the degradation
of the material as a function of the lifespan.