Pedro Henrique de Almeida Souza scite author profile

Brazilian biomes are home to a significant portion of the world's biodiversity, with a total of 14% of existing species and still concentrate 20% of the world's water resources. However, changes in biomes have a direct impact on rainfall patterns and water recycling. Based on this, the objective was to evaluate the variability of rainfall in the four existing biomes in the Northeast Brazil (NEB) and their interaction with the ENSO climate variability mode and regional scale meteorological systems via CHELSA product. For this, monthly rainfall data were used from 1979 to 2013, with a spatial resolution of 1 km × 1 km of the CHELSA product, and seasonal and annual rainfall patterns were extracted via boxplot. It was found that the rainy season in the Amazon, Caatinga and Cerrado biomes occurred between January and April, with varying intensities, except for the Atlantic Forest. Such seasonality patterns are associated with the NEB meteorological systems, with emphasis on ITCZ (all Biomes), UTCV (Amazon, Caatinga and Cerrado), Frontal Systems (extreme south of Caatinga, Cerrado and Atlantic Forest) and EWD/ TWD in the (Atlantic Forest). In the inter-annual scale, the remarkable influence of ENSO was verified,

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Investigating the Characteristics and Predictability of Measured Wind Speed Data Over Rio de Janeiro, Brazil

Filho

Souza

Oliveira‐Júnior

et al. 2021

Pure Appl. Geophys.

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Climatologia da Chuva em Maceió: Aspectos Climáticos e Ambientais

Júnior

Souza

et al. 2021

Rev. Bras. Geog. Fis.

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The objectives of the study are: i) to evaluate the climatology of rain in Maceió based on observed data, with emphasis on climatic and environmental aspects and ii) to validate the precipitation product for the municipality. Data from 1979 to 2013 of the precipitation product CHELSA (Climatologies at High Resolution for the Earth's Land Surface Areas) were validated by rainfall data from the National Water Agency (NWA) from 1960 to 2016. Statistical indicators showed a high coefficient of determination and linear correlation between CHELSA and observed data (R2 = 0.80; r = 0.89) and the smallest errors (SEE = 6.58 mm and RMSE = 18.76 mm), therefore the CHELSA product can be applied in the region. The time series presented a period 1 (P1) - (1960 to 1989) with rainfall above the historical average and a period 2 (P2) - (1990 to 2016) with a significant reduction in rainfall. Observed data versus climatological normals showed a significant decrease in normal 1 (1961-1990) in the rainy season, while in relation to normal 2 (1981-2010) there was an increase in the months of February, March and April (between 10 to 20%) and October and December (between 5 to 15%). The spatial distribution of monthly rainfall via the CHELSA product showed the formation of a pluviometric gradient between the coast and the upper part of Maceió. The topography influences the rainfall regime in neighborhoods belonging to the administrative regions (AR) - (R4, R5 and R6) with the highest rainfall records. The ENOS phases are directly responsible for the variability of interannual rain, while the decadal variability corresponded to the PDO phase change and changes in land use and occupation in Maceió.

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The wind regime over the Brazilian Southeast: Spatial and temporal characterization using multivariate analysis

Filho

Souza

Júnior

et al. 2021

Intl Journal of Climatology

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The characterization of spatial and temporal patterns of wind is essential to several sectors, including energy, urban climate, and applied meteorology. However, few studies describe the regional characteristics of the wind regime over the Brazilian Southeast (SEB), the most developed and populated part of the country. The objectives of the current work were (a) to assess the spatial patterns of the wind regime using cluster analysis (CA) and (b) to apply principal components analysis (PCA) to investigate which meteorological systems influence the spatial and temporal patterns of the wind regime. The dataset consisted of wind speed and direction from 70 automatic weather stations with records from 2008 to 2019. According to the CA method, four groups of homogeneous wind speed (G1–G4) were identified; G4 presented the highest magnitudes of wind speed (wind speed >5 m·s−1, with maxima of 7.2 m·s−1). Seasonal well‐defined minima (March–June) and maxima (July–October) were observed only for G2 and G3. The systems South Atlantic Subtropical Anticyclone (SASA), Frontal Systems (FS), and the South Atlantic Convergence Zone (SACZ) influenced these groups. In addition, the mesoscale meteorological systems likely influence other groups such as breezes from land/sea (G1, G3, and G4), lakes (G2 and G3), and valley/mountain (G2 and G3). The topography had a strong influence on G3, mainly due to the mountain ranges of Mantiqueira and Serra do Mar and Paraíba River valley. Dominant wind directions were E, N/NE, and NW, associated with SASA, in addition to S and SE/SW, influenced by FS and SACZ. The wind speed range of 1.4–3.9 m·s−1 was dominant in all groups, except for G4 (range of 2.4–5.5 m·s−1). According to PCA analysis, two PCs are enough to explain the wind pattern in the SEB with 69.9% of the total variance explained. The surface roughness accounted for 29% of the total variance explained in PC1. The latitude (37.6%) and distance to the coast (30.8%) are the most important variables for PC2. Region's physiography and meteorological systems strongly influenced the wind regime over the Brazilian Southeast. The assessment of wind regime variability presented in this work is expected to support public policies on renewable energy applications, air pollution, and climate change mitigation.

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Dinâmica dos Focos de Calor nas Mesorregiões Climáticas do Estado de Alagoas

Filho

Júnior

Gomes

et al. 2022

Rev. bras. meteorol.

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Resumo Os incêndios ocorrem devido às ações antrópicas e causam problemas socioambientais no Nordeste do Brasil (NEB). Portanto, este estudo avaliou a variabilidade espaço-temporal dos focos de calor (FC) nas três mesorregiões climáticas de Alagoas: Sertão, Leste e Agreste Alagoano. Os dados de FC foram obtidos do Banco de Dados de Queimadas (BDQueimadas) entre 1998-2020. A série temporal de FC foi submetida às análises estatísticas descritiva, exploratória e multivariada aplicada aos 102 municípios alagoanos. Com base no agrupamento hierárquico identificaram-se três grupos homogêneos (G1, G2 e G3) no Sertão e dois grupos homogêneos de FC no Agreste e Leste Alagoano (G1 e G2). Alguns municípios não formaram grupos (NA), tais como: Belo Monte (26,83 ± 25,87 focos), Limoeiro de Anadia (54,48 ± 38,65 focos), Penedo (262,83 ± 183,80 focos) e Coruripe (553 ± 369,40 focos). A variabilidade interanual dos FC em Alagoas está associada com atividades agrícolas, desmatamento, novas áreas para a criação de animais e colheita da cana-de-açúcar. Na avaliação espacial via densidade de FC por município utilizou-se o período total (1998-2020) e os anos de destaque na série temporal (2012 e 2019). O maior registro de densidade de FC no período total encontra-se na mesorregião do Leste Alagoano e não se descarta que os anos em destaque sejam influenciados pela ocorrência de seca e períodos de estiagens em Alagoas.

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