Your search keyword '"Valente, Gislayne Farias"' showing total 6 results

1. Influence of seeding speed and spacing between corn crop lines in the Amazon

Author

Valente, Gislayne Farias, Silva, Vicente Filho Alves, Okumura, Ricardo Shigueru, Mariano, Daiane de Cinque, da Silva, Jose Nilton, Anhe, Bruno Borella, de Carvalho, Lana Leticia Barbosa, de Oliveira, Danyllo Amaral, Damasceno, Leonardo Jose, and Galvao, Jessivaldo Rodrigues

Published

2021

2. Corn yield components in function of the regulation of the seeder-fertilizer in a conventional planting system in amazon biome

Author

Valente, Gislayne Farias, Silva, Vicente Filho Alves, Ferraz, Gabriel Araujo e Silva, da Silva Pinto, Daiane Rodrigues, da Silva, Jose Nilton, Santana, Lucas Santos, Anhe, Bruno Borella, de Souza Santiago, Tiago, de Cinque Mariano, Daiane, Okumura, Ricardo Shigueru, and Silva, Priscilla Andrade

Published

2022

3. Remotely Piloted Aircraft for Evaluating the Impact of Frost in Coffee Plants: Interactions between Plant Age and Topography.

Author

Valente, Gislayne Farias, Ferraz, Gabriel Araújo e Silva, Schwerz, Felipe, Faria, Rafael de Oliveira, Fernandes, Felipe Augusto, and Marin, Diego Bedin

Subjects

*EXTREME weather, *PEARSON correlation (Statistics), *DRONE aircraft, *COFFEE plantations, *MULTISPECTRAL imaging

Abstract

An accurate assessment of frost damage in coffee plantations can help develop effective agronomic practices to cope with extreme weather events. Remotely piloted aircrafts (RPA) have emerged as promising tools to evaluate the impacts caused by frost on coffee production. The objective was to evaluate the impact of frost on coffee plants, using vegetation indices, in plantations of different ages and areas of climatic risks. We evaluated two coffee plantations located in Brazil, aged one and two years on the date of frost occurrence. Multispectral images were collected by a remotely piloted aircraft, three days after the occurrence of frost in July 2021. The relationship between frost damage and these vegetation indices was estimated by Pearson's correlation using simple and multiple linear regression. The results showed that variations in frost damage were observed based on planting age and topography conditions. The use of PRA was efficient in evaluating frost damage in both young and adult plants, indicating its potential and application in different situations. The vegetation index MSR and MCARI2 indices were effective in assessing damage in one-year-old coffee plantations, whereas the SAVI, MCARI1, and MCARI2 indices were more suitable for visualizing frost damage in two-year-old coffee plantations. [ABSTRACT FROM AUTHOR]

Published

2024

4. Overcoming seed dormancy and evaluation of viability in leucaena leucocephala

Author

Bichoff, Regina Soares, Okumura, Ricardo Shigueru, Oliveira, Rudson Silva, Sodre, Diego Correia, and Valente, Gislayne Farias

Published

2018

5. Spatial Variability of Soil Resistance to Penetration in Fruit Cultivation in Eastern Amazonia.

Author

Lopes, Chayanne Costa, Valente, Gislayne Farias, de Cinque Mariano, Daiane, Okumura, Ricardo Shigueru, de Jesus Matos Viégas, Ismael, Ferraz, Gabriel Araújo e Silva, Ferraz, Patrícia Ferreira Ponciano, and Dos Santos, Sthéfany Airane

Subjects

*PAPAYA, *CACAO, *FRUIT, *SOILS, *SOIL depth, *PRECISION farming

Abstract

The application of precision agriculture in cocoa and papaya cultivation in Brazil is still incipient. This study aimed to evaluate the spatial variability of the physical attributes of soil cultivated with a consortium of papaya and cocoa. The study was conducted in two sampling grids of 50 points, in two areas cultivated with papaya and cocoa with different planting times (three and eleven months). The soil attributes soil resistance to penetration (RP) and soil gravimetric moisture (UG) were determined at soil depths of 0–20, 20–40 and 40–60 cm. The data were submitted to an exploratory and descriptive analysis. Subsequently, a geostatistical analysis was performed to quantify spatial dependence and then interpolation of the data through kriging. The maps showed weak spatial variability for the UG and RP. In the two areas, it was observed that the depth of 0–20 cm had a lower RP (1.7 Mpa) and a higher UG (40 g g−1), and as the depth was higher, had a higher RP (4.4 Mpa) and a lower UG (38 g g−1). Area 1 presented higher RP values in depth, showing greater susceptibility to compaction. The area characterized by the consortium of papaya and cocoa presented more susceptible to compaction. The mechanical resistance of the soil to penetration was more critical in the 40–60 cm layer for the two consortia evaluated, evidencing areas with possible restriction to plant growth. [ABSTRACT FROM AUTHOR]

Published

2023

6. Mapping Soil and Pasture Attributes for Buffalo Management through Remote Sensing and Geostatistics in Amazon Biome.

Author

Valente, Gislayne Farias, Ferraz, Gabriel Araújo e Silva, Santana, Lucas Santos, Ferraz, Patrícia Ferreira Ponciano, Mariano, Daiane de Cinque, dos Santos, Crissogno Mesquita, Okumura, Ricardo Shigueru, Simonini, Stefano, Barbari, Matteo, and Rossi, Giuseppe

Subjects

*REMOTE sensing, *SOIL mapping, *NORMALIZED difference vegetation index, *ROTATIONAL grazing, *GEOLOGICAL statistics, *SOIL sampling, *GRASSLAND soils

Abstract

Simple Summary: Buffalo breeding in the Amazon biome can contribute significantly to local community development and, thus, is considered an essential income source. However, in Amazon regions, the inadequate breeding of these animals can lead to considerable negative consequences for the environment. Therefore, it is crucial to develop methodologies to improve animal management and grass yield. One of these methodologies is related to Precision Agriculture (PA), adapted for pasture and animal monitoring. Along these lines, we seek to utilize geostatistical techniques and remote sensing applications to better understand Buffalo grazing under a rotating system. In particular, we analyze forage Dry and Green Matter, as well as pH in pasture soils, demonstrating the obstacles against and advantages of the implementation of precise techniques for decision making and increasing grass productivity. We describe ways in which geostatistical soil pH mapping can be conducted, as well as the premises necessary to include remote sensing data in the analysis of pasture variables. Implementing these results in buffalo management systems can contribute to greater productivity and increasingly sustainable livestock. The mapping of pastures can serve to increase productivity and reduce deforestation, especially in Amazon Biome regions. Therefore, in this study, we aimed to explore precision agriculture technologies for assessing the spatial variations of soil pH and biomass indicators (i.e., Dry Matter, DM; and Green Matter, GM). An experiment was conducted in an area cultivated with Panicum maximum (Jacq.) cv. Mombaça in a rotational grazing system for dairy buffaloes in the eastern Amazon. Biomass and soil samples were collected in a 10 m × 10 m grid, with a total of 196 georeferenced points. The data were analyzed by semivariogram and then mapped by Kriging interpolation. In addition, a variability analysis was performed, applying both the Normalized Difference Vegetation Index (NDVI) and Normalized Difference Water Index (NDWI) derived from satellite remote sensing data. The Kriging mapping between DM and pH at 0.30 m depth demonstrated the best correlation. The vegetative index mapping showed that the NDVI presented a better performance in pastures with DM production above 5.42 ton/ha−1. In contrast, DM and GM showed low correlations with the NDWI. The possibility of applying a variable rate within the paddocks was evidenced through geostatistical mapping of soil pH. With this study, we contribute to understanding the necessary premises for utilizing remote sensing data for pasture variable analysis. [ABSTRACT FROM AUTHOR]

Published

2022