ABSTRACT Excessive phosphorus (P) applications can increase nutrient levels in the soil, facilitating its transference to aquatic environments and causing contamination. Thus, the environmental P threshold (P-threshold) is a tool to establish a sound level of P in the soil, in which P values below the threshold are harmless to the environment. This study aimed to establish a P-threshold equation for the soils of Mato Grosso State, Brazil. Twenty samples of representative soils from the main swine production regions of the State were collected. These samples were characterized chemically and in terms of P adsorption capacity, then incubated with P rates for 30 days. After incubation, the water-soluble P content (P-water) and the available P content were determined by Mehlich-1 method (P-Mehlich-1). The relationship between P-water and P-Mehlich-1 allowed the determination of the P-Mehlich-1 content from which the amount of nutrient in water increases abruptly, establishing this point as the limit P (P-limit). Subsequently, the P-limit values were plotted against the clay content of the soils, and the resulting equation was used to calculate the P-threshold by adding a safety margin of 20 % to the P-limit versus clay equation. The model was tested on 120 soil samples from Mato Grosso State, and it was able to separate them into two groups with low and high P-water, classified as below or above P-threshold, respectively. Based on that, the simplified equation “P-threshold (mg dm-3) = 13 + 0.5 * % clay” was proposed. (P contamination Thus Pthreshold (P-threshold environment Brazil collected capacity 3 days incubation watersoluble soluble Pwater (P-water Mehlich1 Mehlich 1 Mehlich- PMehlich1. PMehlich1 PMehlich . (P-Mehlich-1) P-Mehlich- abruptly Plimit. Plimit (P-limit) Subsequently 2 12 Pwater, water, Pthreshold, threshold, respectively that mg dm3 dm dm-3 05 0 5 0. proposed (P-Mehlich-1 P-Mehlich (P-limit dm- (P-Mehlich- (P-Mehlich

ABSTRACT Changes in soil management, for example by more vigorous crops, adoption of conservation tillage and optimization of fertilization, can increase soil organic carbon (SOC) and total nitrogen (TN) stocks. We hypothesized that corn - black oat rotation under no-tillage (NT) and adequate soil fertilization can increase these stocks, compared to conventional tillage (CT). This study compared these two tillage methods and organic with mineral fertilizers, regarding their effects on C and N cycling and SOC and TN stocks in a Rhodic Nitisol in southern Brazil. The study started in 2012, in a pasture area, which was converted into corn (Zea mays L.) - black oat (Avena strigosa Scherb.) rotation. The treatments were applied in a 2 × 5 factorial arrangement, consisting of two soil tillage methods (NT and CT) and five fertilizers (pig slurry (PS); biodigested PS (PS-B); composted PS (PS-C); mineral fertilizer; and a control). From 2019 onwards, treatment PS-B was replaced by injected PS (PS-I) and PS-C by poultry litter (PL). A randomized block design was used in a split-plot arrangement, where the plots corresponded to soil tillage and subplots to fertilization. In every year of the study, corn was fertilized with 140 kg N ha-1 and at least 115 kg P2O5 ha-1 and 77 kg K2O ha-1. Total SOC and TN stocks were determined in six soil layers (0.00-0.05, 0.05-0.10, 0.10-0.20, 0.20-0.30, 0.30-0.40 and 0.40-0.60 m) whereas the soil particulate (POC and PN) and mineral-associated (MAOC and MAN) fractions were evaluated in the four upper layers (0.00-0.05, 0.05-0.10, 0.10-0.20, 0.20-0.30m) at the beginning of the study (2012) and after nine years (2021). The cumulative values under NT showed that SOC stocks nearly doubled, compared to those under CT. These increases occurred in the most labile POC and PN fractions. However, no difference in response to the different fertilizers was observed in these stocks. The studied factors indicated a marked effect of soil tillage on alterations in C and N stocks. No-tillage increases SOC and TN stocks, mainly in the most labile fractions (POC and PN) of Rhodic Nitisols in southern Brazil, under corn - black oat rotation. management crops (SOC (TN notillage CT . (CT) Brazil 2012 area Zea L. L Avena Scherb. Scherb arrangement pig (PS) PSB B (PS-B) PSC (PS-C) fertilizer control. control control) 201 onwards PSI I (PS-I PL. PL (PL) splitplot split plot 14 ha1 ha 1 ha- 11 PO P O P2O 7 KO K ha1. 1. 0.000.05, 000005 0.00 0.05, 0 00 05 (0.00-0.05 0.050.10, 005010 0.05 0.10, 10 0.05-0.10 0.100.20, 010020 0.10 0.20, 20 0.10-0.20 0.200.30, 020030 0.20 0.30, 30 0.20-0.30 0.300.40 030040 0.30 0.40 40 0.30-0.4 0.400.60 040060 0.60 60 0.40-0.6 m mineralassociated associated MAOC MAN 0.200.30m 020030m 0.30m 30m 0.20-0.30m (2012 2021. 2021 (2021) doubled However Notillage No (CT (PS (PS-B (PS-C (PL 000 0.000.05 00000 0.0 005 (0.00-0.0 050 0.050.10 00501 010 0.05-0.1 100 0.100.20 01002 0.1 020 0.10-0.2 200 0.200.30 02003 0.2 030 3 0.20-0.3 300 0.300.4 03004 0.3 040 0.4 4 0.30-0. 400 0.400.6 04006 060 0.6 6 0.40-0. 030m (201 202 (2021 0.000.0 0000 0. (0.00-0. 0.050.1 0050 01 0.05-0. 0.100.2 0100 02 0.10-0. 0.200.3 0200 03 0.20-0. 0.300. 0300 04 0.30-0 0.400. 0400 06 0.40-0 (20 (202 0.000. (0.00-0 0.050. 0.05-0 0.100. 0.10-0 0.200. 0.20-0 0.300 0.30- 0.400 0.40- (2 0.000 (0.00- 0.050 0.05- 0.100 0.10- 0.200 0.20- ( (0.00 (0.0 (0. (0

ABSTRACT The overloading of soil with manure or mineral fertilizers enhances phosphorus (P) availability, promoting its loss to water bodies and increasing the risk of eutrophication. In this sense, the establishment of an environmental P threshold is a simple and useful tool to classify soils regards its risk of P losses. Here we propose a P-threshold for soils from the state of Rio Grande do Sul (RS) in Brazil, with the soil clay content as the principal variable of the model. Samples from 20 representative soils of Rio Grande do Sul State were collected in the 0.00-0.10 and 0.10-0.20 m layers. Samples were physically and chemically characterized and incubated with P rates varying from 0 to 100 % of its maximum adsorption capacity. After 20 days of incubation, the P availability was determined in water and Mehlich-1 extractant. We assessed trough segmented linear functions the value of P-Mehlich in which the levels of P water enhance abruptly (i.e., breaking point) to determine the P limit for each soil. Subsequently, the P limit values were linked to the clay content in the sample, adopting the linear equation arising from it as the P-threshold. Adding a safety margin of 20 % to the P-threshold equation, we propose a simplified one “P-threshold = 20 + clay”. Based on the current critical level of P adopted by the regional recommendation in RG, the equation proposed does not limit the production of the most crop species.

Resumo: O objetivo deste trabalho foi estabelecer uma linha de base do fator de emissão de metano para o manejo de dejetos suínos, ao se considerar a prática atual de armazenamento de dejetos sólidos em dois depósitos abertos paralelos, no Sul do Brasil. As emissões de metano (CH4) foram medidas continuamente em três tanques de PVC de 3 m3, durante 180 dias, no verão. Como o conteúdo de sólidos voláteis dos dejetos esgotou-se em aproximadamente 130 dias, calculou-se o fator de emissão de CH4 dos dejetos como B0 = 0,48 m3 kg-1 VS. Embora este valor seja superior ao B0 estimado pelo Painel Intergovernamental sobre Mudanças Climáticas para a América Latina (0,29 m3 kg-1 VS), ele está de acordo com o B0 estimado para países desenvolvidos (0,45 e 0,48 m3 kg-1 VS, para EUA e UE, respectivamente). O gráfico de emissão acumulada de C-CH4 x tempo ajustou-se a um modelo cinético sigmoidal (r2= 0,998), que apresentou boa correlação quando testado com dados coletados de um depósito de dejetos em condições de campo, no inverno. Isto sugere que o modelo reproduz a cinética de emissão do CH4 na região. Pela aplicação das regras revisadas da lei estadual (tempo de retenção de 50 dias, em substituição a 120 dias), as estimativas pela equação sigmoidal mostram que é possível reduzir em mais de 80% a emissão de gás metano.

Abstract: The objective of this work was to contribute to the establishment of a baseline for the methane emission factor for the management of swine manure, considering the current practice of raw manure storage in two open deposits in parallel, in Southern Brazil. Methane (CH4) emissions were continuously measured in three PVC tanks of 3 m3, during 180 days, in the summer. As the content of volatile solids of pig slurry ran out in approximately 130 days, the CH4 emission factor was calculated as B0= 0.48 m3kg-1VS. Although this value is higher than the B0 estimated by Intergovernmental Panel on Climate Change for Latin America (0.29 m3 kg-1 VS), it is in agreement with the B0 estimated for developed countries (0.45 and 0.48 m3 kg-1 VS, for the US and EU, respectively). The graphic of accumulated CH4-C emission x time fitted a sigmoidal, kinetic model (r2= 0.998) that showed a good correlation when tested with the emission data collected from a slurry deposit, under field conditions, in winter. This suggests that the model reproduces the CH4 emission kinetics in the region. By applying the reviewed state law rules (retention time of 50 instead of 120 days), estimates by the sigmoidal equation show that it is possible to reduce in more than 80% methane gas emission.

RESUMO Os ovos são um dos alimentos que oferecem nutrientes de grande valor biológico. Entretanto, no armazenamento, alguns componentes da clara e gema podem se alterar, deteriorando a qualidade dos ovos. Assim, este trabalho objetivou avaliar semanalmente parâmetros de qualidade como unidade Haugh, perda de peso, largura/comprimento do ovo, densidade específica, dimensões da clara/gema e pH durante 9 semanas de armazenamento. Foram coletados 270 ovos de duas linhagens de poedeiras e avaliados a temperatura ambiente (20 a 35 °C no verão; 11,2 a 29,7 °C no outono) e refrigerada (0 a 5 °C no verão; -3,1 a 6,5 ºC no outono). Para as condições de armazenamento, foi realizada uma análise de desdobramento por regressão por polinômios ortogonais. Ainda, análise de componentes principais (PCA), objetivou avaliar correlações entre parâmetros de qualidade em diferentes condições de armazenamento e linhagens de poedeira. Após 9 semanas de armazenamento, os ovos refrigerados apresentaram qualidade similar àqueles armazenados a temperatura ambiente por 3 semanas. Porém, sem refrigeração, os ovos apresentaram uma degradação mais rápida da semana 1 a 5. Não foram observadas diferenças nos parâmetros de qualidade dos ovos entre as diferentes colorações de casca (linhagens de poedeiras). PCA sugere que a melhor qualidade dos ovos (primeira semana) foi associada principalmente com valores elevados de peso e densidade específica do ovo, unidade Haugh e altura do albúmen. Ovos armazenados a temperatura ambiente devem ser consumidos até duas semanas ou mantidos sob refrigeração até 8 semanas, preservando a qualidade interna desde a granja até o armazenamento no varejo.

ABSTRACT Eggs are one of nearly perfect protein foods, offering nutrients of great biological value. However, during storage, egg albumen and yolk components may alter and deteriorate egg quality. Therefore, the aim of this work was to assess egg quality during 9-week storage. Parameters such as Haugh unit, weight loss, egg width and length, specific gravity, yolk and albumen dimensions and their pH were evaluated weekly. A total of 270 eggs (n=5) collected from two different hen strains were evaluated under room (20 to 35 °C in summer; 11.2 to 29.7 °C in autumn) and refrigerated (0 to 5 °C in summer; -3.1 to 6.5 °C in autumn) temperatures. For storage time, an unfolding analysis was accomplished by regression analysis using orthogonal polynomials. As a second approach, principal component analysis (PCA) was performed in order to assess correlations among quality parameters on storage conditions and laying hen strains. By the end of the 9-week storage period, eggs kept under refrigeration presented similar quality parameters to eggs stored at room temperature for only 3 weeks. In contrast, eggs kept at room temperature presented faster degradation from week 1 to 5. No differences on egg quality parameters were noticed between white and brown shells eggs. PCA suggests that better egg quality (first week) was associated mainly with higher egg weight and its specific gravity, Haugh unit and albumen height. Eggs stored at room temperature should be consumed in 2 weeks or refrigerated until 8 weeks, preserving internal quality from farm to retail.

ABSTRACT Improvement of soil chemical properties in dystrophic Oxisols managed under long-term no-tillage system (NTS) with surface broadcast lime has been, frequently, restricted to a shallow topsoil layer. As a consequence, a sharply-defined chemical quality gradient is created, with deterioration from the surface towards deeper layers in Oxisols in southern Brazil. The aim of this study was to assess the temporal effects of gypsum, applied alone or in combination with lime, on Ca2+ content and Al3+ saturation in the rooting zone (RZ) (0.00-0.40 m). Four experiments were conducted from 2009 to 2014 in Typic Hapludox soils with distinct chemical qualities in the RZ managed under a long-term NTS (over 20 years) in Rio Grande do Sul (subtropical region). A randomized block experimental design with three replications was used. Experiments I and II were implemented in 2009, with treatments consisting of gypsum rates ranging from 0.0 to 6.5 Mg ha-1. The other two experiments were implemented in 2011. In experiment III, a split-plot design was used, with plots received gypsum rates ranging from 0.0 to 5.0 Mg ha-1, and the subplots received two lime rates (0.0 and 2.0 Mg ha-1). A split-plot design was also used in experiment IV, with plots receiving gypsum rates ranging from 0.0 to 6.0 Mg ha-1, and subplots receiving four lime rates, ranging from 0.0 to 4.8 Mg ha-1. Soil samples were stratified in layers at depth from 0.00 to 0.60 m and taken during the period of the experiment. The use of gypsum increased the Ca2+ and SO42−-S contents, proportional to the rate applied, and lowered Al3+ saturation throughout the soil profile evaluated. However, an increase in base saturation of the subsoil (0.25-0.60 m layer) was only observed at high rates of gypsum (>5.0 Mg ha-1) in the medium-term and through accumulation of a high rainfall volume. A faster and more pronounced effect of subsoil improvement was observed when the chemical quality of the topsoil layer was already high and when gypsum and lime were applied in combination. Greater improvement in subsoil chemical quality induced by gypsum, alone or in combination with lime, was found in a period exceeding 30 months (Experiments III and IV), remaining for up to 54 months (Experiments I and II). The combination of gypsum with lime was an effective strategy to increase vertical movement of bases in the RZ, mitigating the gradient of chemical quality in dystrophic Oxisol, avoiding discontinuity in the NTS.

ABSTRACT Modern maize, wheat, and soybean cultivars are usually characterized by a short cycle, high shoot-root ratio, and high responsiveness to nutrient input. Continuous no-tillage management (NTS) frequently leads to a steep gradient in soil chemical quality with depth, thus decreasing yield under conditions of acid subsoil and water stress. This study aimed to evaluate the effect of gypsum, applied separately or in combination with lime, on the yield of cultivars used in the state of Rio Grande do Sul, Brazil. The study consisted of four experiments conducted on a typic Hapludox under NTS. The experiment was arranged in a randomized block design with three replications. Experiments I and II were carried out on soils with a satisfactory chemical soil quality and tested treatments of gypsum applications ranging from 0.0 to 6.5 Mg ha-1. The other experiments were carried out on acid soil (experiment III) and a soil with an abrupt drop in chemical quality (experiment IV). Experiment III was arranged in a split plot design, where plots corresponded to gypsum rates between 0.0 and 5.0 Mg ha-1, and subplots to two lime rates (0.0 and 2.0 Mg ha-1). Experiment IV was conducted in a split plot design, with plots consisting of gypsum rates from 0.0 to 6.0 Mg ha-1 and subplots of lime rates from 0.0 to 4.8 Mg ha-1. Of a set of 17 harvests investigated during the experimental period, 82 % responded with yield increases to gypsum and lime inputs. The gypsum rate that induced the highest grain yield was high (4.7 Mg ha-1) and similarly, the maximum technical efficiency of lime was higher than the currently recommended. Furthermore, the combined application of lime and gypsum increased yield. There was a correlation between grain yield with the chemical quality of the soil layer 0.25-0.40 m in experiment I, 0.00-0.40 m in experiment II, and the 0.00-0.25 m in experiment IV. Only in experiment III, where the surface layer was acidic, the diagnostic layer usually sampled (0.00-0.10 m) was correlated with grain yield. Therefore, the use of the 0.00-0.25 m soil layer with critical base saturation values of 65 % and maximum Al saturation of 5 % could improve the current recommendations for soil correction. To exploit the yield potential of modern grain cultivars on dystrophic Oxisol, the formation of a thicker layer with high chemical quality is an efficient strategy.

Resumo: O objetivo deste trabalho foi avaliar os atributos químicos do solo, o teor de nitrogênio foliar e a produtividade de milho e trigo, em sistema plantio direto, em resposta à aplicação de fertilizantes orgânicos, organominerais e minerais, com ou sem inibidores da urease e da nitrificação. O experimento foi realizado em campo, com um cultivo de trigo e dois de milho, em Nitossolo Vermelho distroférrico, em delineamento de blocos ao acaso, com seis repetições. Os tratamentos avaliados foram: controle, sem adubação; O, fertilizante orgânico de cama de aves; O+I, cama de aves e inibidores; OM, fertilizante organomineral; OM+I, fertilizante organomineral e inibidores; U, ureia como fertilizante mineral; e U+I, superureia com inibidor da urease apenas. O uso de fertilizantes orgânicos, organominerais e minerais, com ou sem inibidores, aumentou o teor de N disponível na camada de 0,00-0,05 m do solo. Nas camadas mais profundas, apenas OM+I, na camada de 0,05-0,10 m, e U+I, na de 0,10-0,20 m, proporcionaram maiores teores do que o tratamento-controle. Os teores foliares de N foram adequados, independentemente do fertilizante utilizado. Os tratamentos O, O+I, OM e OM+I aumentam o teor de P disponível e a saturação por bases, e reduzem H+Al na camada superficial do solo. Além disso, todos os fertilizantes aumentam a produtividade total de grãos das duas culturas estudadas, na seguinte ordem: OM+I > U+I ≥ U > OM ≥ O+I ≥ O.

Abstract: The objective of this work was to evaluate soil chemical attributes, leaf nitrogen content, and corn and wheat yields under a no-tillage system in response to the application of organic, organomineral, and mineral fertilizers with or without urease and nitrification inhibitors. The experiment was carried out on the field, with one wheat and two corn crops, on a Rhodic Kandiudox, in a randomized complete block design with six replicates. The evaluated treatments were: control, without fertilization; O, poultry litter as an organic fertilizer; O+I, poultry litter and inhibitors; OM, organomineral fertilizer; OM+I, organomineral fertilizer and inhibitors; U, urea as a mineral fertilizer; and U+I, super urea with the urease inhibitor alone. The use of organic, organomineral, and mineral fertilizers, with or without inhibitors, increased available N content in the 0.00-0.05-m soil layer. In deeper layers, only OM+I in the 0.05-0.10-m layer and U+I in the 0.10-0.20-m layer provided higher contents than the control treatment. Leaf N contents were adequate, regardless of the fertilizer used. The O, O+I, OM, and OM+I treatments increase available P content and base saturation, and decrease H+Al on soil surface. Moreover, all fertilizers increase total grain yield of the two studied crops, in the following order: OM+I > U+I ≥ U > OM ≥ O+I ≥ O.

ABSTRACT Organic fertilizers derived from poultry litter and pig slurry are alternatives to mineral fertilizers in increasing soil nutrient availability. The aim of this study was to evaluate soil response, through characterization of organic C and available N, P, and K contents, and corn yield response to increasing amounts of poultry litter, pig slurry, and mineral fertilizers in an integrated crop-livestock production system (ICL) from 2011 to 2013. The experimental design consisted of randomized blocks in a 4 × 3 + 1 factorial arrangement with four replicates. The treatments consisted of four types of fertilizer, two organic (poultry litter and pig slurry) and two mineral, balanced with the same amounts of N, P and K as the organic fertilizers, one of which corresponded to the levels in the pig slurry (M1) and the other to the levels in the poultry litter (M2) in combination with three .increasing application rates of N (100, 200, and 300 kg ha-1 N) and control without fertilizer. For two years after implementing the ICL system, the application of the different rates of N using organic (pig slurry and poultry litter) or mineral (M1 and M2) fertilizers increased corn yields and K and P availability in the soil; these results were accompanied by small changes in organic C and total N content. There are similar efficiencies between the treatments pairs (pig slurry/M1 and poultry litter/M2).

Erosão ainda causa degradação do solo em todo o mundo e é uma das mais importantes fontes de poluição ambiental. Para atenuar esse problema, a mudança de manejo do solo é indicada, e o sistema plantio direto é a principal ferramenta utilizada. Com o objetivo de avaliar as alterações temporais das taxas de escoamento da água e das perdas de solo provocadas pela transição do preparo convencional do solo para o sistema plantio direto (SPD), um experimento de longa duração foi conduzido em um Argissolo Vermelho distrófico, na Universidade Federal de Santa Maria, RS, Brasil. Os tratamentos testados foram: BS - solo descoberto; GL - campo nativo; WF - pousio invernal; M+VB - consórcio de milho e mucuna-preta; M+JB - consórcio de milho e feijão de porco; FR - nabo forrageiro como cultura de cobertura de inverno; e RG+CV - consórcio de culturas de cobertura de inverno, azevém e ervilhaca. Os resultados evidenciaram que o preparo do solo promoveu aumento da erosão e do escoamento da água; consequentemente, os efeitos desses permaneceram significativos pelo menos três anos após a adoção do SPD. Também apresentaram que o uso de culturas de cobertura de inverno ou de verão gerou estabilização mais rápida do solo, bem como menores perdas de solo e água do que o pousio invernal, nos primeiros anos após o preparo do solo. O SPD associado a plantas de cobertura do solo ocasionou a estabilização progressiva do solo; após três anos de sua implantação, a perda de solo foi semelhante e o escoamento de água foi menor, em comparação ao solo sob campo nativo. O uso de culturas de cobertura de inverno ou de verão reduziu a perda de solo, em 99,7 e 66,7 %, e do escoamento de água, em 96,8 e 71,8 %, em comparação ao solo descoberto e o pousio invernal, respectivamente.

Soil erosion is one of the chief causes of agricultural land degradation. Practices of conservation agriculture, such as no-tillage and cover crops, are the key strategies of soil erosion control. In a long-term experiment on a Typic Paleudalf, we evaluated the temporal changes of soil loss and water runoff rates promoted by the transition from conventional to no-tillage systems in the treatments: bare soil (BS); grassland (GL); winter fallow (WF); intercrop maize and velvet bean (M+VB); intercrop maize and jack bean (M+JB); forage radish as winter cover crop (FR); and winter cover crop consortium ryegrass - common vetch (RG+CV). Intensive soil tillage induced higher soil losses and water runoff rates; these effects persisted for up to three years after the adoption of no-tillage. The planting of cover crops resulted in a faster decrease of soil and water loss rates in the first years after conversion from conventional to no-tillage than to winter fallow. The association of no-tillage with cover crops promoted progressive soil stabilization; after three years, soil losses were similar and water runoff was lower than from grassland soil. In the treatments of cropping systems with cover crops, soil losses were reduced by 99.7 and 66.7 %, compared to bare soil and winter fallow, while the water losses were reduced by 96.8 and 71.8 % in relation to the same treatments, respectively.

A fertilização nitrogenada à dose variada (FDV) com base em sensores de espectrometria óptica é uma inovação tecnológica que pode incrementar a eficiência do uso do nitrogênio (NUE) e reduzir seu impacto ambiental. Porém, ainda são escassas as pesquisas sobre a utilização desses sensores na agricultura brasileira. Este estudo teve como objetivo avaliar a eficiência do sensor óptico de planta (N-Sensor® ALS) em estimar o estado nutricional do milho e comparar a eficiência da fertilização nitrogenada à dose variada prescrita com o sensor óptico com o método-padrão com dose uniforme. Este trabalho foi composto por três experimentos conduzidos nas safras agrícolas de 2008/09 e de 2010/11, em que se avaliou a resposta do milho à fertilização nitrogenada, comparando-se a dose variada prescrita pelo sensor óptico com a dose uniforme. Os atributos avaliados foram: produção de matéria seca, teor de nitrogênio (N) na matéria seca, absorção total de N, teor de clorofila relativo (SPAD) na folha e índice de vegetação determinado com o sensor óptico. As avaliações foram feitas em V4, V8, V10, V12 e florescimento. O experimento foi conduzido em delineamento inteiramente casualizado, com cada local sendo analisado isoladamente. O sensor foi eficiente em captar a variabilidade espacial na nutrição de N do milho, no estádio V8. O índice de vegetação do sensor óptico se relacionou diretamente com a produção de matéria seca (R² = 0,91; p<0,0001), absorção total de N (R² = 0,87; p<0,0001) e a leitura de SPAD na folha (R² = 0,63; p<0,0001), mas foi inversamente relacionado com o teor de N na matéria seca (R² = 0,53; p<0,0001). O efeito da fertilização nitrogenada foi influenciado pelas condições climáticas predominantes em cada local. A estratégia FDV apresentou similar eficiência ao sistema tradicional utilizado pelos agricultores nos locais 1 e 2. No entanto, no local 3, onde as condições climáticas foram favoráveis ao desenvolvimento do milho, o sensor óptico na prescrição da FDV proporcionou incremento de 12 % na quantidade de N absorvido pelo milho, em relação à dose uniforme de N tradicionalmente utilizada pelos agricultores, indicando o potencial desta tecnologia na melhoria do NUE.

Variable-rate nitrogen fertilization (VRF) based on optical spectrometry sensors of crops is a technological innovation capable of improving the nutrient use efficiency (NUE) and mitigate environmental impacts. However, studies addressing fertilization based on crop sensors are still scarce in Brazilian agriculture. This study aims to evaluate the efficiency of an optical crop sensor to assess the nutritional status of corn and compare VRF with the standard strategy of traditional single-rate N fertilization (TSF) used by farmers. With this purpose, three experiments were conducted at different locations in Southern Brazil, in the growing seasons 2008/09 and 2010/11. The following crop properties were evaluated: above-ground dry matter production, nitrogen (N) content, N uptake, relative chlorophyll content (SPAD) reading, and a vegetation index measured by the optical sensor N-Sensor® ALS. The plants were evaluated in the stages V4, V6, V8, V10, V12 and at corn flowering. The experiments had a completely randomized design at three different sites that were analyzed separately. The vegetation index was directly related to above-ground dry matter production (R² = 0.91; p<0.0001), total N uptake (R² = 0.87; p<0.0001) and SPAD reading (R² = 0.63; p<0.0001) and inversely related to plant N content (R² = 0.53; p<0.0001). The efficiency of VRF for plant nutrition was influenced by the specific climatic conditions of each site. Therefore, the efficiency of the VRF strategy was similar to that of the standard farmer fertilizer strategy at sites 1 and 2. However, at site 3 where the climatic conditions were favorable for corn growth, the use of optical sensors to determine VRF resulted in a 12 % increase in N plant uptake in relation to the standard fertilization, indicating the potential of this technology to improve NUE.

Geralmente, em agroecossistemas tropicais e subtropicais, a eficiência da fertilização nitrogenada para culturas agrícolas anuais é baixa, o que promove variabilidade temporal na produtividade das culturas, perdas econômicas e impacto ambiental. A fertilização à dose variada de nitrogênio (VRF) com base em sensores de culturas por espectrometria óptica pode aumentar a eficiência de uso do nitrogênio (NUE). Este estudo teve o objetivo de avaliar a produtividade do milho e a eficiência da VRF prescrita por um sensor óptico, em comparação com a fertilização à dose uniforme de nitrogênio (TSF). Com este propósito, três experimentos com milho sob sistema plantio direto foram conduzidos durante as safras agrícolas 2008/09 e 2010/11 sobre um Latossolo do sul do Brasil. O experimento foi conduzido em delineamento inteiramente casualizado, com cada local sendo analisado isoladamente. Os seguintes atributos foram avaliados: produção de matéria seca, acúmulo de N na biomassa no pleno florescimento do milho, produtividade de grãos de milho e índice de vegetação (VI) medido pelo sensor óptico N-Sensor® ALS. Independentemente do local investigado, a fertilização nitrogenada incrementou a quantidade de N absorvido pelas plantas, resultando em incremento da produção de matéria seca e da produtividade de milho. Os menores incrementos na produtividade de milho foram observados na área 2, que apresentou déficit hídrico em estádio fenológico crítico. A VRF aumentou a eficiência de recuperação aparente de N (NRE) e a eficiência agronômica do uso de NAE pelo milho. Nas áreas 1 e 3, que não foram interferidas pela restrição hídrica, verificaram-se aumentos de 28,0 e 41,3 % na NAE e NRE, respectivamente, promovido pela VRF, em relação à TSF. Apesar desses resultados, não foi verificado aumento de produtividade do milho pelo uso da VRF, em comparação a TSF.

Generally, in tropical and subtropical agroecosystems, the efficiency of nitrogen (N) fertilization is low, inducing a temporal variability of crop yield, economic losses, and environmental impacts. Variable-rate N fertilization (VRF), based on optical spectrometry crop sensors, could increase the N use efficiency (NUE). The objective of this study was to evaluate the corn grain yield and N fertilization efficiency under VRF determined by an optical sensor in comparison to the traditional single-application N fertilization (TSF). With this purpose, three experiments with no-tillage corn were carried out in the 2008/09 and 2010/11 growing seasons on a Hapludox in South Brazil, in a completely randomized design, at three different sites that were analyzed separately. The following crop properties were evaluated: aboveground dry matter production and quantity of N uptake at corn flowering, grain yield, and vegetation index determined by an N-Sensor® ALS optical sensor. Across the sites, the corn N fertilizer had a positive effect on corn N uptake, resulting in increased corn dry matter and grain yield. However, N fertilization induced lower increases of corn grain yield at site 2, where there was a severe drought during the growing period. The VRF defined by the optical crop sensor increased the apparent N recovery (NRE) and agronomic efficiency of N (NAE) compared to the traditional fertilizer strategy. In the average of sites 1 and 3, which were not affected by drought, VRF promoted an increase of 28.0 and 41.3 % in NAE and NRE, respectively. Despite these results, no increases in corn grain yield were observed by the use of VRF compared to TSF.

O feijoeiro é tradicionalmente cultivado em pequenas propriedades, onde é comum o uso de dejetos animais para adubação das culturas. Como é uma cultura de ciclo curto, os nutrientes precisam estar disponíveis logo após a germinação, o que nem sempre acontece quando a fertilização ocorre a partir de fertilizantes orgânicos. Neste trabalho, objetivou-se avaliar a eficiência de diferentes camas de aves em relação aos fertilizantes minerais na produção de matéria seca e na liberação de nutrientes para o feijoeiro, em casa de vegetação. O experimento foi conduzido em 2010, com amostras de um Latossolo Vermelho distroférrico com 16 g kg-1 de matéria orgânica, 1,9 e 84 mg dm-3 de P e K, respectivamente, e pH 6,0. Adotou-se delineamento experimental de blocos casualizados com 10 tratamentos e cinco repetições. As unidades experimentais foram constituídas por vasos com 14 dm³ de solo e cinco plantas de feijão, do cultivar BRS Requinte, durante 60 dias. Os tratamentos consistiram de cinco camas de aves compostas pelos seguintes materiais: palha de milho, bagaço de cana-de-açúcar, palha de pastagem natural, areia ou acícula de Pinus, formulações de nutrientes (NPK, NP, PK e NK) e um testemunha, sem nenhum fertilizante. Os fertilizantes minerais com P proporcionaram maior produção de matéria seca da parte aérea (MSPA) e de raízes (MSRA) do feijoeiro do que as camas de aves, por causa da maior liberação para o solo de N e P disponíveis. Dentre as camas estudadas, aquela constituída por areia foi a que proporcionou os maiores valores de MSPA e de MSRA. As plantas fertilizadas com as camas de aves acumularam, em média, 58,6 % do N e 59,0 % do P, em relação às fertilizadas com os tratamentos que continham N e P minerais. A taxa de recuperação pelas plantas de N e K foi maior para os nutrientes aplicados na forma mineral do que na orgânica. As camas de aves podem ser utilizadas como fertilizantes para a cultura do feijoeiro desde que sejam suplementadas com N e P minerais.

Common bean is traditionally grown on small farms in Brazil, where animal wastes are often used as soil fertilizer. Since this is a short-cycle species, nutrients must be available soon after seed germination, which is not always the case when supplied in the form of organic fertilizers. This study was carried out to evaluate the efficiency of different poultry litters in comparison with mineral fertilizers to increase dry matter yield and nutrient release to beans. The experiment was conducted in 2010, in a greenhouse, with Oxisol samples containing16 g kg-1 of organic matter, 1.9 and 84 mg dm-3 of P and K, respectively, and with a pH of 6.0. A randomized complete block design was used with 10 treatments and five replications. The experimental units consisted of 14 dm³ of soil (dry base) in plastic pots, where five seedlings (cultivar BRS Requinte) were grown for 60 days. Treatments consisted of five poultry litters on the materials maize straw, sugar cane bagasse, native grass straw, sand and pine needles, respectively, and four mineral nutrient combinations (NPK, NP, PK, and NK), plus one control without any fertilizer. Mineral fertilizers containing P induced higher dry matter yield of shoot and roots of bean than the poultry litters, due to the release of higher amounts of available N and P. Of the animal wastes, the poultry litter with sand substrate was the most efficient to promote bean yield. Plants fertilized with poultry litters accumulated, on average 58.6 and 59.0 %, respectively, of the N and P accumulated in plants treated with mineral fertilizers containing N and P. The N and K recovery rate by plants was always higher for nutrients applied in mineral than organic forms. Poultry litters may be used as soil fertilizer of common beans provided they are supplemented with mineral fertilizers containing N and P.

As avaliações das emissões de dióxido de carbono (CO2), metano (CH4) e óxido nitroso (N2O) do solo são fundamentais para a determinação do potencial de práticas agrícolas em mitigar o aquecimento global. Este estudo avaliou a espectroscopia fotoacústica (EFA) para a determinação dos fluxos de gases de efeito estufa (GEE) do solo em comparação com o método padrão de cromatografia gasosa (CG). Dois experimentos de longa duração com diferentes sistemas de preparo do solo e rotação de culturas sobre um Argissolo foram avaliados usando câmaras estáticas. As medidas das concentrações de CO2 e N2O realizadas por EFA mostraram boa correlação e linearidade (R2=0,98 e 0,94; respectivamente) com os resultados de CG. Entretanto, as medidas de CH4 foram significativamente afetadas pela umidade da amostra de ar que interferiu na detecção do CH4 por EFA. A superestimativa das concentrações de CO2 e N2O nas amostras analisadas por EFA (14,6 e 18,7%; respectivamente) também foram relacionadas com o conteúdo de umidade da amostra. Os fluxos de CO2 e N2O mostraram boa correlação entre os métodos (R2=0,96 e 0,95; respectivamente), apesar da superestimativa dos fluxos determinados por EFA ter sido de 18,6 e 13,6% em relação aos resultados obtidos por CG, respectivamente. A EFA mostrou boa sensibilidade e foi capaz de detectar fluxos de CO2 e N2O tão baixos quanto 332mg CO2 m-2 h-1 and 21µg N2O m-2 h-1. A calibração detalhada do analisador fotoacústico para reduzir a interferência da umidade das amostras nas medidas das concentrações de CO2, CH4 e N2O deve ser realizada a fim de evitar superestimativa ou erro na determinação dos fluxos de GEE do solo.

Assessments of soil carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) emissions are critical for determination of the agricultural practices' potential to mitigate global warming. This study evaluated the photoacoustic spectroscopy (PAS) for the assessment of soil greenhouse gases (GHG) fluxes in comparison to the standard gas chromatography (GC) method. Two long-term experiments with different tillage and cropping systems over a Paleudult were evaluated using static chambers. PAS measurements of CO2 and N2O concentrations showed good relationship and linearity (R2=0.98 and 0.94, respectively) with GC results. However, CH4 measurements were significantly affected by air sample moisture which interfered on CH4 detection by PAS. Overestimation of CO2 and N2O concentrations in air samples determined by PAS (14.6 and 18.7%, respectively) were also related to sampling moisture. CO2 and N2O fluxes showed good agreement between methods (R2=0.96 and 0.95, respectively), though PAS overestimated fluxes by 18.6 and 13.6% in relation to GC results, respectively. PAS showed good sensitivity and was able to detect CO2 and N2O fluxes as low as 332mg CO2 m-2 h-1 and 21µg N2O m-2 h-1. PAS analyzer should be detailed calibrated to reduce humidity interference on CO2, CH4 and N2O concentrations measurements avoiding overestimation or erroneous determination of soil GHG fluxes.

A compactação do solo, quando em níveis elevados, é um processo de difícil reversão sob sistema de plantio direto (SPD), especialmente em solos argilosos. Geralmente, a sua ocorrência em áreas comerciais de grãos é descontínua e restrita a áreas com histórico de pressões associadas ao trânsito intenso de máquinas agrícolas. O objetivo deste trabalho foi investigar as alterações nos atributos físicos de um Latossolo Vermelho distrófico de textura argilosa (450 g kg-1) promovidas por dois tipos de escarificações sítio-específico e uma convencional (aleatória), bem como seus efeitos sobre o rendimento da soja. Para isso, selecionou-se no município de Victor Graeff, na região do planalto do RS, uma lavoura de 50,6 ha manejada sob SPD por longo prazo e, recentemente, com agricultura de precisão. O clima local é subtropical Cfa, com precipitação pluvial anual oscilando entre 1.500 e 1.750 mm, temperatura média de 20 ºC e altitude de 490 m. Com base nos mapas de rendimento de três safras anteriores, a área foi subdividida em três zonas de potencial produtivo. Na zona de baixo rendimento (ZB) foram implantados os seguintes tratamentos: (a) escarificação convencional com profundidade fixa de 0,30 m (EC); (b) escarificação sítio-específico com equipamento Fox® com profundidade fixa de 0,30 m (ESEF); (c) escarificação sítio-específico com equipamento Fox® com profundidade de atuação variável (0,10 a 0,30 m), em função da resistência máxima do solo à penetração (ESEV); e (d) controle sem escarificação (SE). A zona de alto rendimento (ZA) foi usada como referência para avaliar o efeito dos tratamentos no rendimento de grãos. Os tratamentos foram implantados em faixas paralelas de 100 x 20 m, seguindo o delineamento de blocos casualizados. Avaliaram-se, em três épocas, a densidade do solo, macroporosidade, microporosidade e porosidade total nas profundidades de 0,0-0,05, 0,05-0,10, 0,10-0,15 e 0,15-0,20 m, bem como a infiltração de água no solo. Os resultados da caracterização inicial dos atributos do solo por zona de rendimento evidenciaram maior densidade do solo e menor porosidade total, na profundidade de 0,15-0,20 m, na ZB em relação à ZA. Em todos os tratamentos com escarificação mecânica, observou-se, logo após o preparo, incremento da infiltração de água em relação ao SE, que aumentou em torno de quatro vezes nos tratamentos EC e ESEV em comparação a esse controle. No entanto, o efeito da escarificação, independentemente do tipo de escarificador, foi efêmero; transcorridos sete meses, verificou-se decréscimo na infiltração de água no solo, que não diferiu do tratamento controle. Entre os escarificadores investigados, o ESEV destacou-se pela manutenção da cobertura do solo em relação ao EC e proporcionou maior rendimento de soja. Contudo, sob condições de elevada precipitação pluvial não foi observado incremento no rendimento da soja nos tratamentos com escarificação mecânica, em relação ao tratamento controle (SE).

Soil compaction at high intensity degrees is a hardly reversible process in the no-till system (NT), mainly in clayey soils. Generally, its occurrence in croplands is often irregular and restricted to areas with a previous history of pressures associated to intensive traffic of agricultural machineries. The purpose of this study was to investigate changes in soil physical properties of a red Oxisol with clayey texture (450 g kg-1) and soybean yield, caused by two site-specific chisels and conventional (random) chisel tillage. For this work, a 50.6 ha cropland area under long-term no-till and site-specific farming was selected in the Municipality of Victor Graeff, located in the plateau region of Rio Grande do Sul. The climate is a subtropical Cfa with annual rainfall ranging from 1500 to 1750 mm, average temperature of 20 °C, at 490 m asl. Based on three crop yield maps, the field was subdivided in three management zones with distinct yield potential where the soil physical properties were investigated. The following treatments were established in the low yield zone (LZ): (a) conventional chiseling at fixed soil depth (0.30 m) (CC); (b) site-specific chiseling with Fox® equipment at fixed soil depth (0.30 m) (SSCF); (c) site-specific chiseling with Fox® equipment at variable soil depth (0.10 to 0.30 m) based on maximum soil penetration resistance maps (SSCV); and (d) control without chiseling (CWC). The high yield zone (HZ) was used as a reference to evaluate treatment effects on soybean grain yield. Treatments were arranged in parallel strips of 100 x 20 m, in a randomized block design. In three evaluations, the soil water infiltration and bulk density, macro and microporosity and total porosity were evaluated in the layers 0.0-0.05, 0.05-0.10, 0.10-0.15 and 0.15-0.20 m. The results of the initial soil characterization showed higher bulk density and lower soil porosity in the 0.15-0.20 m layer, in the LZ in relation to HZ. Treatments showed an immediate increase of water infiltration after chiseling. The increase in water infiltration in treatments CC and SSCV was four times the water infiltration observed in the CWC. However, the chiseling effect, regardless of the chisel type, was ephemeral and after seven months there was a decrease of water infiltration in chiseled soil, similar to CWC. Of the chisel types, the SSCV was superior to CC by maintaining higher soil coverage and by increasing soybean yield. Although, in a crop season with high rainfall, no positive effects of chiseling on soybean yield were noticed, in relation to CWC.