Phytoremediation is a technique that uses plants to decontaminate soils containing harmful organic and inorganic elements. The aim of this study was to evaluate the potential of three species of forage green manure in phytoremediation of saline soil irrigated with treated effluent from dairy processing plant. The design used was randomized blocks (3x3) with four replicates. The treatments were three different water sources (anaerobic treated effluent, aerobic treated effluent, and tap water) applied to growing table beets combined with the post-cultivation of three forage green manure: Calopogonium mucunoides Desv (Calopo), Cajanus cajan (L.) Millsp (Pigeon pea), and Pennisetum glaucum (L.) R. Brown (Millet). The treatment with Millet had higher dry mass production with all water sources, although showing growth reduction after irrigation with anaerobic treated effluent. Millet presented higher sodium extraction efficiency (22.4 kg ha -1 ); however, it was not effective in soil phytoremediation because the exchangeable sodium percentage was not reduced to levels that allowed for new effluent input.
A Deus pelo dom da vida.Aos meus pais, Jair e Luisa, e irmãos, Joseslaine e Anderson, por todo amor, carinho, apoio, dedicação e por serem o alicerce da minha vida. Minha eterna gratidão e amor.A Profa. Dra. Tamara Maria Gomes pela orientação, constantes ensinamentos, dedicação, compreensão e confiança em meu trabalho. Sou imensamente grata pela oportunidade de trabalhar com você durante esses anos. O meu respeito, carinho e eterna gratidão.Aos meus amigos pelo companheirismo, apoio, partilha dos conhecimentos e momentos de alegria.A todos os professores que auxiliaram na minha formação acadêmica e profissional desde a graduação, em especial, Fabrício, Rogers, Claudinei, Edson e Giovana.
Lowland rice is traditionally irrigated by flood systems, demanding high water consumption. Localized irrigation by subsurface dripping is proposed as an alternative, in addition to the replacement of the source of water intended for human consumption with another of lower quality, such as saline water. However, plants can be affected by saline and/or water stress in both conditions, and the use of thermal imaging emerges as a tool to assess the plant status. In this context, this study aimed to identify the stress of subsurface drip-irrigated arborio rice under different salt concentrations and soil moisture by thermographic images. The design consisted of randomized blocks in a (2×4)+2 factorial with three replications, totaling 30 experimental plots. Soil solution salinity was assessed by electrical conductivity. The thermal images were processed by an algorithm to determine the normalized relative canopy temperature (NRCT) index at different crop development stages. Saline stress was identified by the NRCT index, with higher sensitivity of plants at the flowering stage with a rebalance over time, confirmed at grain filling and harvest stages.
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