Inferências sobre o calendário agrícola a partir de perfis temporais de NDVI/MODIS

Fontana, Denise Cybis; Pinto, Daniele Gutterres; Junges, Amanda Heemann; Bremm, Carolina

doi:10.1590/1678-4499.0439

Cited by 17 publications

(16 citation statements)

References 11 publications

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“…Ground-based remote sensing has emerged as an important source of data collected in the field in real time. In Brazil, temporal NDVI profiles, obtained by orbital or ground-based remote sensing, have been widely used to monitor biomes (Kuplich;Moreira;Fontana, 2013, Wagner et al, 2013Junges et al, 2016) and characterize vegetation growth in annual crops Fontana, 2011, Bredemeier et al, 2013Fontana et al, 2015;Klering et al, 2016;Pinto et al, 2016). However, the use of precision agriculture technologies applied to perennial crops is incipient in the country (Bassoi et al, 2014), with few studies published on the monitoring of fruit crop cycle using remote sensing techniques.…”

Section: Junges a H Et Almentioning

confidence: 99%

Normalized difference vegetation index obtained by ground-based remote sensing to characterize vine cycle in Rio Grande do Sul, Brazil

et al. 2017

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The normalized difference vegetation index (NDVI) obtained by remote sensing is widely used to monitor annual crops but few studies have investigated its use in perennial fruit crops. The aim of this study was to determine the temporal NDVI profile during grapevine cycle in vineyards established in horizontal training systems. NDVI data were obtained by the ground-based remote sensing Greenseeker in Chardonnay and Cabernet Sauvignon vineyards located in the Serra Gaúcha region, Rio Grande do Sul, Brazil, from September to June in the 2014/2015 and 2015/2016 vegetative seasons. The grapevine canopies were managed in horizontal training systems (T-trellis and Y-trellis).The results indicated that the temporal NDVI values varied during the grapevine cycle (0.33 to 0.85), reflecting the changing in vigor and biomass accumulation that resulted from the phenological stages and management practices. The temporal NDVI profiles were similar to both horizontal training systems. The NDVI values were higher throughout the cycle for Cabernet Sauvignon compared to Chardonnay indicating Cabernet Sauvignon as the cultivar with greater vegetative vigor. The NDVI obtained by ground-based remote sensing is a fast and non-destructive tool to monitor and characterize the canopy in real time, compiling into a single data several parameters related to vine development, like meteorological conditions and management practices that are difficult to be quantified together.Index terms: Vitis vinifera; Greenseeker; precision viticulture. RESUMOO índice de vegetação por diferença normalizada (NDVI), obtido por sensoriamento remoto, tem sido amplamente empregado no monitoramento de culturas agrícolas produtoras de grãos, porém poucos são os estudos em fruticultura. O objetivo deste trabalho foi caracterizar a evolução temporal do NDVI obtido por sensor remoto de superfície ao longo do ciclo de videiras em sistemas horizontais de condução do dossel vegetativo. Dados de NDVI foram obtidos com sensor remoto Greenseeker em vinhedos na região da Serra Gaúcha, Rio Grande do Sul, Brasil, de setembro a junho nas safras 2014/2015 e 2015/2016. Os vinhedos das cultivares Chardonnay e Cabernet Sauvignon eram conduzidos em sistema horizontal (latada e lira). Os resultados indicaram que houve variabilidade temporal do NDVI ao longo do ciclo (de 0,33 a 0,85), a qual refletiu as alterações no acúmulo de biomassa e vigor vegetativo decorrentes das principais etapas fenológicas e práticas de manejo. A evolução temporal do NDVI foi semelhante nos sistemas latada e lira, ambos caracterizados pela condução horizontal do dossel vegetativo. Os valores de NDVI para 'Cabernet Sauvignon' foram superiores aos de 'Chardonnay' ao longo do ciclo, independe da safra avaliada e do sistema de condução, indicando 'Cabernet Sauvignon' como a cultivar de maior vigor vegetativo. O NDVI, obtido por sensor remoto de superfície, é uma forma rápida e não destrutiva de monitoramento e caracterização do dossel vegetativo em tempo real, compilando em uma única informação o dese...

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Section: Junges a H Et Almentioning

confidence: 99%

Normalized difference vegetation index obtained by ground-based remote sensing to characterize vine cycle in Rio Grande do Sul, Brazil

et al. 2017

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“…Previous studies with both sensors, MODIS and OLI, have shown that crop phenology can be assessed using vegetation indexes (Fontana, Pinto, Junges, & Bremm, 2015;Jayawardhana & Chathurange, 2016;Pan et al, 2015;Sakamoto et al, 2005;Zheng et al, 2016). Based on an accurate characterization of crop phenological stages for assertive decision making in the field and potential of satellite images to acquire surface space-time information, this study aimed to evaluate the potential use of the Normalized Difference Vegetation Index (NDVI), calculated from images from the OLI and MODIS sensors, to obtain phenological information from corn crops, and particularly to define the length of each phenological stage based on average NDVI values.…”

Section: Introductionmentioning

confidence: 99%

Mapping of corn phenological stages using NDVI from OLI and MODIS sensors

Venâncio

Filgueiras

Cunha

et al. 2020

Semina: Ciênc. Agrár.

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“…At blooming, soybeans reach maximum leaf area index, maximum capacity to intercept solar radiation, and photosynthesis, thus causing NDVI to peak. In the 2004 -2005 and 2009 -2010 crop seasons, the highest NDVI were 0.79 and 0.85, respectively, both in February, coinciding with blooming that usually occurs in February (Fontana et al 2015). (Figure 4) showed a similar temporal pattern for both crops seasons.…”

Section: Resultsmentioning

confidence: 74%

“…The dynamics of the soybean crop development in the study area can be evaluated looking at the pattern of NDVI over time (Figure 4) the region (Fontana et al 2015), allowing to track the differences regarding the temporal evolution of the green biomass of soybean over the 2 crop seasons. The analysis of crop development against the critical periods of the cycle allows interpreting the responses of soybean plants to environmental conditions.…”

Section: Resultsmentioning

confidence: 99%

TVDI spatiotemporal pattern of a soybean growing area in humid subtropical climate

2017

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ABSTRACT:The most southern Brazilian state, Rio Grande do Sul, is characterized by high crop yield and is, currently, the third leading soybean producer in the country. Therefore, agriculture is very important to the economy of the region. Because agriculture is highly dependent on variable weather parameters, the present study aimed to test the Vegetation Index (NDVI) images available from MODIS products, which were correlated to obtain a triangular scatter plot. Rainfall data from surface weather stations were also used. The results showed that the pattern of the TVDI is associated with rainfall variability. However, as the TVDI is based on normalization of the wet and dry edges of each image individually, the comparison of TVDI values across different images is challenging. This deficiency can be mitigated by analysis of the parameters used to derive the index. Therefore, both the TVDI and the "b" and T Smin parameters used to derive it can elucidate the patterns of crop response to water availability.

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Inferências sobre o calendário agrícola a partir de perfis temporais de NDVI/MODIS

Cited by 17 publications

References 11 publications

Normalized difference vegetation index obtained by ground-based remote sensing to characterize vine cycle in Rio Grande do Sul, Brazil

Normalized difference vegetation index obtained by ground-based remote sensing to characterize vine cycle in Rio Grande do Sul, Brazil

Mapping of corn phenological stages using NDVI from OLI and MODIS sensors

TVDI spatiotemporal pattern of a soybean growing area in humid subtropical climate

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