Liomar Borges de Oliveira scite author profile

Liomar Borges de Oliveira

5Publications

7Citation Statements Received

40Citation Statements Given

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Affiliations

Federal University of Tocantins

Publications

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Ability of Citrus Root System to Overcome a Strong Wax Layer

Oliveira¹,

Filho²,

Arriero³

et al. 2018

JAS

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The present work aimed to investigate the effects of mechanical impedance of wax layer (wax discs were installed 0.1 m deep) on root system deepening of citrus seedlings growing in columns with sand and nutrient solution. Two planting systems were evaluated: direct seeding (DS) and planting of seedlings (PS) (plants obtained from seed germination in tubes). Two experiments were carried out in a sequence: first to investigate the wax layer resistance levels (0.14 to 2.7 MPa) on root system penetration and two planting systems (DS and PS). The second evaluated the root and plant development of the two planting systems and two resistance of wax layer to root penetration: control (0.14 MPa) and a strong wax layer (1.06 MPa). The experimental design was randomized blocks, the first experiment in a 2 × 4 factorial scheme with 4 replications and the second a 2 × 2 factorial scheme with 6 replications. Resistance level ≥ 1.52 MPa (60% hard wax and 40% soft wax) completely limited root penetration in the artificial strong layer. The presence of strong wax disc reduced the citrus root system in both planting systems. PS was associated with greater root and shoot vigor, indicating that, in soils with good physical structure and porosity or allowing root deepening beyond the cohesive layer, this planting system is fully adequate, despite the possible benefit of not cutting the pivoting root in direct sowing.

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Use of Different Artificial Lighting Spectra with Leds in Indoor Production of Arugula Microgreens (Euruca sativa)

Ribeiro

Gomes

Oliveira

et al. 2022

IJPSS

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Microgreens are forms of production and consumption of plant foods in their early growth phase that add maximum efficiency to the production process. The use of this crop has been used in large urban centers, in places with low luminosity, being the main problem was the choice of an adequate source of lighting for the production of microgreen in vertical urban farms. The objective of this work was to evaluate the use of different sources of artificial lighting with LED in the indoor production of arugula (Euruca sativa) microgreen. Six treatments were evaluated, namely: 1. Three 50w cold white Led boards (3BF), 2. Three 50w warm white Led boards (3BQ), 3. Three 50w full spectrum Led boards (3FS), 4 Two 50w full spectrum Led boards, and one 50w cold white Led board (2FS + 1BF), 5. One 50w full spectrum Led boards, one 50w cold white Led board and one 50w warm white Led board (FS + BF + BQ), 6. For ambient lighting (Control), the parameters analyzed were Fresh weight of shoot (FWS in g) and Dry weight of shoot (DWS in g). The use of different artificial lighting sources with LEDs increased the mass production of indoor cultivation of arugula microgreens, which demonstrates greater efficiency for plant growth, with the sources (3BQ), (3BF), and (1FS + 1BF + 1BQ), showing the best result in the development of arugula microgreens, thus generating greater aerial part mass in plants.

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Vigor and Viability of Cagaita (Eugenia dysenterica DC.) Seeds Subjected to Different Substrates

Nunes

Barros

Santos

et al. 2020

EJMP

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Cagaita originates from the Brazilian Cerrado and belongs to the Myrtaceae family. It is a fruit tree and widely disseminated in the Brazilian Cerrado, and can reach up to 10 meters high. To obtain quality seedlings it is necessary to use substrates that have physical and chemical properties suitable for plant development. Also, the quality of the substrate is directly related to the proportions and the material that makes up the mixture. The experiment was conducted in a greenhouse at the Federal Institute of Education (IFTO), Science and Technology of Tocantins, Gurupi/TO city, from November 1, 2017, to February 26, 2018. Cagaita (Eugenia dysenterica DC.) seeds taken directly from the fruit were used to perform the experiment, which was collected in the urban region of Peixe - To in October 2017. Six types of substrates were used for the installation of the experiment, which was: Washed Sand; Washed Sand + Coconut Shell + Black Soil + Poultry Manure; Black Soil; Pine Bark + Poultry Manure + 25% Commercial Substrate Plantmax®; Earthworm Humus + Black Soil + 25% Commercial Substrate Plantmax®; 25% Commercial Substrate Plantmax® + Poultry Manure + Black soil + washed sand. The substrates of earthworm humus + Black Soil + 25% commercial substrate Plantmax® and 25% Commercial Substrate Plantmax® + Poultry Manure + Black Soil + Washed Sand provided the highest values of viability and vigor in Cagaita seeds.

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Doses e fontes de zinco aplicado via foliar na qualidade de mudas de alface

Sousa¹,

Nascimento²,

Carline³

et al. 2022

Rev Agr Acad

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The objective was to evaluate the response of lettuce seedlings to foliar application of different sources and doses of zinc. The experiment was carried out in a greenhouse, and the design was completely randomized in a factorial scheme (3 x 5), consisting of 3 sources with 5 doses each: Zn sulfate (0, 50, 100, 150 and 200 g Zn ha-1), Zn oxide (0, 187, 375, 562 and 750 g Zn ha-1) and Zn chelate (0; 36.25; 72,50; 108,40; and 145 g Zn ha-1), with 4 repetitions. The highest levels of foliar Zn were obtained at doses of 200, 562 and 72,50 g Zn ha-1, from sulfate, oxide and chelate sources, respectively.

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Assessment of Different Substrates used for Seedling Production in Passion Fruit (Passiflora edulis var. flavicarpa)

Barros

Nunes

Quirino

et al. 2022

JEAI

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Research has been conducted with the yellow passion fruit crop, with emphasis on different formulations of substrates for seedling production, with good results. The appropriate substrate should present good physical, chemical, and biological characteristics, enabling, thus, the rapid growth of the seedling, a good dry matter content in the aerial and root parts, among other characteristics. This study aimed to evaluate the effect of different substrates on the viability and vigor of passion fruit seeds. Brs Giant yellow passion fruit seeds were used to this end (Passiflora edulis var. flavicarpa) directly from the fruits, which were collected in a property located in the municipality of Peixe in the southern region of the state of the Tocantins in Brazil. After the installation of the experiment, the process of evaluation and data collection was initiated. The highest values of root length and aerial part of seedlings were obtained when the seeds were sown in the moss substrate of Earthworm Humus, intermediate values in substrates 50% Wood Sawdust + 50% Washed Sand and 50% Black Soil + 50% Cattle Manure. It was also observed that the highest dry mass values of the root and shoot were obtained in the Earthworm Humus, intermediate values in substrates 50% Wood Sawdust + 50% Washed Sand, and 50% Black Soil + 50% Cattle Manure. The first emergency and emergence count of seedlings, due to the different substrates once again the substrate of Earthworm Humus stood out. Intermediate results were obtained in the substrates Washed Sand and 50% Black Soil + 50% Cattle Manure. The Earthworm Humus substrate of worm provided the highest values of viability and vigor in passion fruit seeds, followed by the mixture 50% Black Soil + 50% Cattle Manure. For the experiment, five types of substrates were evaluated: Washed Sand, Black soil, Wood Sawdust + Washed Sans + Black Soil + Cattle Manure, and substrate Earthworm Humus.

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