Integração de sensores geofísicos e geoestatística para mapear atributos do solo

O conhecimento da variação espacial dos atributos do solo é primordial para o gerenciamento do sistema agrícola. O objetivo do trabalho foi mapear, em uma área de 3,4 ha em Seropédica, RJ, a condutividade elétrica aparente, susceptibilidade magnética e os teores dos elementos radioativos tório e urânio do solo, medidos por sensores geofísicos in situ, e os teores de argila, ferro, carbono orgânico e umidade, e capacidade de troca catiônica do solo, medidos em laboratório, em 130 pontos amostrais. Comparou-se krigagem ordinária com krigagem universal utilizando as coordenadas geográficas x e y e a elevação como covariáveis. Os dois métodos de krigagem produziram mapas com padrão de distribuição espacial e índices de incerteza semelhantes. Outrossim, os padrões de dependência e distribuição espacial foram similares entre os atributos geofísicos e os de laboratório, evidenciando o potencial da geofísica para o mapeamento de atributos do solo.

Quantification of soil organic matter using mathematical models based on colorimetry in the Munsell color system

O presente estudo teve como objetivo desenvolver modelos matemáticos para a quantificação do teor de matéria orgânica, a partir da cor do solo, obtida por aparelho colorímetro no sistema Munsell de cores. Para esse fim, 912 amostras de solo foram coletadas na região de Porto Grande (Amapá) e enviadas para análises química, granulométrica e determinação da cor em amostras secas e úmidas. Os componentes valor e croma da cor do solo no sistema Munsell, obtidos por colorímetro, foram utilizados para quantificar através de regressão múltipla passo a passo (stepwise) o teor de matéria orgânica do solo. O modelo de predição com base em todas as amostras apresentou R² de 0,66 para amostras úmidas e 0,56 para amostras secas, ao serem validados utilizando amostras independentes. Foi possível ainda melhorar os modelos quando as amostras foram separadas por classe de solo ou textura, e os modelos gerados com base em cores de amostras úmidas foram sistematicamente superiores àqueles utilizando amostras secas. Em relação às classes de solo, os melhores resultados foram obtidos para Argissolos e Latossolos, ambos gerando um R² de validação independente de 0,73 (amostra úmida). Para textura, os melhores resultados foram obtidos para solos de textura muito argilosa, com R² de validação de 0,81 (amostra úmida). Os modelos de predição de matéria orgânica em função da cor do solo possuem simplicidade e potencial para serem utilizados no laboratório e no campo, especialmente para Argissolos e Latossolos de textura argilosa, de maneira automática e sem necessidade de uso de produtos ou reagentes.This study aimed to derive mathematical models to predict the soil organic matter content based on soil color obtained by a colorimeter in the Munsell color system. A total of 907 soil samples were collected in the region of Porto Grande (Amapá, Brazil) and analyzed in the laboratory for chemical properties, particle size distribution and color of dry and wet samples. The Munsell color components value and croma obtained using a colorimeter were used to predict soil organic matter content based on stepwise multiple linear regression. Models derived using all samples had R² of 0.66 for wet samples and 0.56 for dry samples, respectively, when validated using independent samples. It was possible to improve the models by separating the samples by soil class or texture. The models derived using colors obtained from wet samples were systematically better than those based on dry samples. Among soil classes, best results were obtained for Argissolos (Ultisols) and Latossolos (Oxisols), both having an R² of independent validation of 0.73 (wet sample). For texture, best results were obtained for very clayey soils, with an R² of validation of 0.81 (wet sample). The soil organic matter prediction models based on soil color have simplicity and potential to be used in the laboratory and in the field with quick and unnecessary chemical products, especially for Ultisols and Oxisols of clayey texture.CNPq/PQ e CNPq/PIBI

Climate change : strategies for mitigation and adaptation

The sustainability of life on Earth is under increasing threat due to humaninduced climate change. This perilous change in the Earth's climate is caused by increases in carbon dioxide and other greenhouse gases in the atmosphere, primarily due to emissions associated with burning fossil fuels. Over the next two to three decades, the effects of climate change, such as heatwaves, wildfires, droughts, storms, and floods, are expected to worsen, posing greater risks to human health and global stability. These trends call for the implementation of mitigation and adaptation strategies. Pollution and environmental degradation exacerbate existing problems and make people and nature more susceptible to the effects of climate change. In this review, we examine the current state of global climate change from different perspectives. We summarize evidence of climate change in Earth’s spheres, discuss emission pathways and drivers of climate change, and analyze the impact of climate change on environmental and human health. We also explore strategies for climate change mitigation and adaptation and highlight key challenges for reversing and adapting to global climate change

Time course and mechanisms of left ventricular systolic and diastolic dysfunction in monocrotaline-induced pulmonary hypertension

Although pulmonary hypertension (PH) selectively overloads the right ventricle (RV), neuroendocrine activation and intrinsic myocardial dysfunction have been described in the left ventricle (LV). In order to establish the timing of LV dysfunction development in PH and to clarify underlying molecular changes, Wistar rats were studied 4 and 6 weeks after subcutaneous injection of monocrotaline (MCT) 60 mg/kg (MCT-4, n = 11; MCT-6, n = 11) or vehicle (Ctrl-4, n = 11; Ctrl-6, n = 11). Acute single beat stepwise increases of systolic pressure were performed from baseline to isovolumetric (LVPiso). This hemodynamic stress was used to detect early changes in LV performance. Neurohumoral activation was evaluated by measuring angiotensin-converting enzyme (ACE) and endothelin-1 (ET-1) LV mRNA levels. Cardiomyocyte apoptosis was evaluated by TUNEL assay. Extracellular matrix composition was evaluated by tenascin-C mRNA levels and interstitial collagen content. Myosin heavy chain (MHC) composition of the LV was studied by protein quantification. MCT treatment increased RV pressures and RV/LV weight ratio, without changing LV end-diastolic pressures or dimensions. Baseline LV dysfunction were present only in MCT-6 rats. Afterload elevations prolonged tau and upward-shifted end-diastolic pressure dimension relations in MCT-4 and even more in MCT-6. MHC-isoform switch, ACE upregulation and cardiomyocyte apoptosis were present in both MCT groups. Rats with severe PH develop LV dysfunction associated with ET-1 and tenascin-C overexpression. Diastolic dysfunction, however, could be elicited at earlier stages in response to hemodynamic stress, when only LV molecular changes, such as MHC isoform switch, ACE upregulation, and myocardial apoptosis were present.Supported by Portuguese grants from FCT (POCI/SAU-FCF/60803/2004 and POCI/SAU-MMO/61547/2004) through Cardiovascular R&D Unit (FCT No. 51/94)

Worldwide trends in underweight and obesity from 1990 to 2022: a pooled analysis of 3663 population-representative studies with 222 million children, adolescents, and adults

Background Underweight and obesity are associated with adverse health outcomes throughout the life course. We estimated the individual and combined prevalence of underweight or thinness and obesity, and their changes, from 1990 to 2022 for adults and school-aged children and adolescents in 200 countries and territories. Methods We used data from 3663 population-based studies with 222 million participants that measured height and weight in representative samples of the general population. We used a Bayesian hierarchical model to estimate trends in the prevalence of different BMI categories, separately for adults (age ≥20 years) and school-aged children and adolescents (age 5–19 years), from 1990 to 2022 for 200 countries and territories. For adults, we report the individual and combined prevalence of underweight (BMI <18·5 kg/m2) and obesity (BMI ≥30 kg/m2). For schoolaged children and adolescents, we report thinness (BMI <2 SD below the median of the WHO growth reference) and obesity (BMI >2 SD above the median). Findings From 1990 to 2022, the combined prevalence of underweight and obesity in adults decreased in 11 countries (6%) for women and 17 (9%) for men with a posterior probability of at least 0·80 that the observed changes were true decreases. The combined prevalence increased in 162 countries (81%) for women and 140 countries (70%) for men with a posterior probability of at least 0·80. In 2022, the combined prevalence of underweight and obesity was highest in island nations in the Caribbean and Polynesia and Micronesia, and countries in the Middle East and north Africa. Obesity prevalence was higher than underweight with posterior probability of at least 0·80 in 177 countries (89%) for women and 145 (73%) for men in 2022, whereas the converse was true in 16 countries (8%) for women, and 39 (20%) for men. From 1990 to 2022, the combined prevalence of thinness and obesity decreased among girls in five countries (3%) and among boys in 15 countries (8%) with a posterior probability of at least 0·80, and increased among girls in 140 countries (70%) and boys in 137 countries (69%) with a posterior probability of at least 0·80. The countries with highest combined prevalence of thinness and obesity in school-aged children and adolescents in 2022 were in Polynesia and Micronesia and the Caribbean for both sexes, and Chile and Qatar for boys. Combined prevalence was also high in some countries in south Asia, such as India and Pakistan, where thinness remained prevalent despite having declined. In 2022, obesity in school-aged children and adolescents was more prevalent than thinness with a posterior probability of at least 0·80 among girls in 133 countries (67%) and boys in 125 countries (63%), whereas the converse was true in 35 countries (18%) and 42 countries (21%), respectively. In almost all countries for both adults and school-aged children and adolescents, the increases in double burden were driven by increases in obesity, and decreases in double burden by declining underweight or thinness. Interpretation The combined burden of underweight and obesity has increased in most countries, driven by an increase in obesity, while underweight and thinness remain prevalent in south Asia and parts of Africa. A healthy nutrition transition that enhances access to nutritious foods is needed to address the remaining burden of underweight while curbing and reversing the increase in obesit

Soil Phosphorus Landscape Models for Precision Soil Conservation

Phosphorus (P) enrichment in soils has been documented in the Santa Fe River watershed (SFRW, 3585 km2) in north-central Florida. Yet the environmental factors that control P distribution in soils across the landscape, with potential contribution to water quality impairment, are not well understood. The main goal of this study was to develop soil-landscape P models to support a precision soil conservation approach combining finescale (i.e., site-specific) and coarse-scale (i.e., watershed-extent) assessment of soil P. The specific objectives were to: (i) identify those environmental properties that impart the most control on the spatial distribution of soil Mehlich-1 extracted P (MP) in the SFRW; (ii) model the spatial patterns of soil MP using geostatistical methods; and (iii) assess model quality using independent validation samples. Soil MP data at 137 sites were fused with spatially explicit environmental covariates to develop soil MP prediction models using univariate (lognormal kriging, LNK) and multivariate methods (regression kriging, RK, and cokriging, CK). Incorporation of exhaustive environmental data into multivariate models (RK and CK) improved the prediction of soil MP in the SFRW compared with the univariate model (LNK), which relies solely on soil measurements. Among all tested environmental covariates, land use and vegetation related properties (topsoil) and geologic data (subsoil) showed the largest predictive power to build inferential models for soil MP. Findings from this study contribute to a better understanding of spatially explicit interactions between soil P and other environmental variables, facilitating improved land resource management while minimizing adverse risks to the environment

Soil Carbon Stock and Particle Size Fractions in the Central Amazon Predicted from Remotely Sensed Relief, Multispectral and Radar Data

Soils from the remote areas of the Amazon Rainforest in Brazil are poorly mapped due to the presence of dense forest and lack of access routes. The use of covariates derived from multispectral and radar remote sensors allows mapping large areas and has the potential to improve the accuracy of soil attribute maps. The objectives of this study were to: (a) evaluate the addition of relief, and vegetation covariates derived from multispectral images with distinct spatial and spectral resolutions (Landsat 8 and RapidEye) and L-band radar (ALOS PALSAR) for the prediction of soil organic carbon stock (CS) and particle size fractions; and (b) evaluate the performance of four geostatistical methods to map these soil properties. Overall, the results show that, even under forest coverage, the Normalized Difference Vegetation Index (NDVI) and ALOS PALSAR backscattering coefficient improved the accuracy of CS and subsurface clay content predictions. The NDVI derived from RapidEye sensor improved the prediction of CS using isotopic cokriging, while the NDVI derived from Landsat 8 and backscattering coefficient were selected to predict clay content at the subsurface using regression kriging (RK). The relative improvement of applying cokriging and RK over ordinary kriging were lower than 10%, indicating that further analyses are necessary to connect soil proxies (vegetation and relief types) with soil attributes

Quantificação de matéria orgânica do solo através de modelos matemáticos utilizando colorimetria no sistema Munsell de cores

O presente estudo teve como objetivo desenvolver modelos matemáticos para a quantificação do teor de matéria orgânica, a partir da cor do solo, obtida por aparelho colorímetro no sistema Munsell de cores. Para esse fim, 912 amostras de solo foram coletadas na região de Porto Grande (Amapá) e enviadas para análises química, granulométrica e determinação da cor em amostras secas e úmidas. Os componentes valor e croma da cor do solo no sistema Munsell, obtidos por colorímetro, foram utilizados para quantificar através de regressão múltipla passo a passo (stepwise) o teor de matéria orgânica do solo. O modelo de predição com base em todas as amostras apresentou R² de 0,66 para amostras úmidas e 0,56 para amostras secas, ao serem validados utilizando amostras independentes. Foi possível ainda melhorar os modelos quando as amostras foram separadas por classe de solo ou textura, e os modelos gerados com base em cores de amostras úmidas foram sistematicamente superiores àqueles utilizando amostras secas. Em relação às classes de solo, os melhores resultados foram obtidos para Argissolos e Latossolos, ambos gerando um R² de validação independente de 0,73 (amostra úmida). Para textura, os melhores resultados foram obtidos para solos de textura muito argilosa, com R² de validação de 0,81 (amostra úmida). Os modelos de predição de matéria orgânica em função da cor do solo possuem simplicidade e potencial para serem utilizados no laboratório e no campo, especialmente para Argissolos e Latossolos de textura argilosa, de maneira automática e sem necessidade de uso de produtos ou reagentes