Sulfur nutrition of canola

Non-Peer Reviewe

Use of ion-exchange resins in soil and plant testing for micronutrient availability

Non-Peer Reviewe

Early supplies of available nitrogen to the seed-row as affected by fertilizer placement

Non-Peer ReviewedA field experiment was conducted at Star City, (legal location SW6-45-16-W2); Saskatchewan, Canada from May to June 2000, to measure N and P supply rates from fertilizer band to canola seed row. Ion exchange resin membrane probes (PRS™-probes) were used to measure nutrient supply rates in four treatments (80 kg/ha of urea side-band, 80 kg/ha of urea mid-row band, check/no N (side-row)/P side-banded, check/no N (mid-row)/P seed placed. The treatments were arranged in a randomized complete block design with four replications. Two anion and cation exchange resin probes (PRS™-probes) were placed in each plot in the seed-row immediately after seeding and fertilizing. The probes were allowed to remain in the field for 2 days and replaced with another set of probes every 4 days for a total of 14 days until canola emerged. Ammonium-N, nitrate-N and P supply rates were calculated based on the ion accumulated on the probes. Grain and straw yield were measured in each plot. Urea side-row band treatments had significantly higher cumulative available N supply rates than mid-row banded placement. No significant differences were observed in P supply rates. The higher N rates (120 kg N/ha) showed lower grain yield in side banding than mid-row banding treatment possibly due to seedling damage, however the earlier fluxes of N into the seed-row observed with side-banding may be an advantage at lower N rates in N deficient soils

Calculation of organic matter and nutrients stored in soils under contrasting management regimes

Ellert, B. H. and Bettany, J. R. 1995. Calculation of organic matter and nutrients stored in soils under contrasting manage- ment regimes. Can. J. Soit Sci. 75: 529-538 Assessments of managemenrinduced changes in soil organic matter depend on the methods used to calculate the quantities of organic C and N stored in soils. Chemical analyses in the laboratory indicate the con- centrations of elements in soils, but the thickniss and bulk density of the soil layers in the fieid must be considered to estimate the quantities of elements per unit area. Conventional methods that calculate organic matter storage as the product of concentration, bulk density and thickness do not fully account for variations in soil mass. Comparisons between the quantities of organic C, N, P and S in bray Luviscl soils under nitive aspen forest and various cropping systems were hampered by differences in the mass of soil under consideraiion. The influence of these differences was eliminated by calculating the masses of C, N, P and S in an equivalent soil mass (i.e. the mass of soil in a standard or reference surface layer). Reassessment of previously published data also indicated that estimates of organic matter storage depended on soil mass. Appraisals of organic matter depletion or accumr- lation usually were different for cimparisonr u-ong element masses in an equivalent soil mass than for comparisons among ele- ment massei in genetic horizons or in frxed sampling depths. Unless soil erosion or deposition had altered the mass of topsoil per unit area, comparisons among unequal soil massei were unjustified and erroneous. For management-induced changes in soil organic matter and nutrient storage to be assessed reliably, the masses of soil being compared must be equivalent

Sulfur and nitrogen mineralization in soils compared using two incubation techniques

Net mineralization of sulfur and nitrogen was studied in three Canadian Prairie soils using two commonly used incubation methods. In the open system technique, where the soils were leached periodically II.3&ndash;11.8 &mu; g SO2&minus;4&nbsp;-S g&minus;1&nbsp;soil was mineralized in 17 weeks. Little mineralization or a net immobilization of sulfur (from 1.4 to 1.3 &mu; g SO2&minus;4-S g&minus;1&nbsp;soil) was observed in a closed system where the soils were left undisturbed throughout incubation. Changes in the specific activity of&nbsp;35S-labelled soil solution sulfate during the closed incubation indicated that mineralization-immobilization processes were occurring simultaneously resulting in minimal net changes in CaCl2-extractable SO2&minus;4&nbsp;concentrations. The amounts of mineralized nitrogen (32.6&ndash;57.8 &mu;g N g&minus;1&nbsp;soil) were found to be independent of the incubation method employed.</span

Delineating COVID-19 subgroups using routine clinical data identifies distinct in-hospital outcomes

The COVID-19 pandemic has been a great challenge to healthcare systems worldwide. It highlighted the need for robust predictive models which can be readily deployed to uncover heterogeneities in disease course, aid decision-making and prioritise treatment. We adapted an unsupervised data-driven model—SuStaIn, to be utilised for short-term infectious disease like COVID-19, based on 11 commonly recorded clinical measures. We used 1344 patients from the National COVID-19 Chest Imaging Database (NCCID), hospitalised for RT-PCR confirmed COVID-19 disease, splitting them equally into a training and an independent validation cohort. We discovered three COVID-19 subtypes (General Haemodynamic, Renal and Immunological) and introduced disease severity stages, both of which were predictive of distinct risks of in-hospital mortality or escalation of treatment, when analysed using Cox Proportional Hazards models. A low-risk Normal-appearing subtype was also discovered. The model and our full pipeline are available online and can be adapted for future outbreaks of COVID-19 or other infectious disease

Impacto do manejo de resíduos orgânicos durante a reforma de plantios de eucalipto sobre indicadores de qualidade do solo Impact of organic residue management on soil quality indicators during replanting of eucalypt stands

O uso agrícola do solo causa alterações em suas características físicas, químicas e microbiológicas. A conseqüência dessas alterações pode ser a perda da qualidade do solo, o que compromete a sustentabilidade do uso desse recurso. A análise de indicadores bioquímicos e microbiológicos de qualidade do solo é relevante para monitorar mudanças na qualidade do solo e no desempenho de suas funções-chave, como a capacidade de ciclar e armazenar nutrientes. Neste estudo, avaliaram-se indicadores químicos, físicos e microbiológicos do solo em plantios de eucalipto 5,5 anos após terem sido submetidos a diferentes métodos de manejo durante a fase de reforma do povoamento. A avaliação baseou-se na determinação de 18 atributos físicos e químicos, além de 12 outros de caráter bioquímico ou microbiológico, os quais foram adotados como indicadores da qualidade do solo. Os indicadores bioquímicos e microbiológicos mostraram-se mais sensíveis para avaliar mudanças qualitativas no solo devidas ao manejo, quando comparados com os químicos ou físicos. O maior distúrbio causado pelos tratamentos em que houve remoção ou queima do material orgânico da superfície do solo foi evidenciado pelos maiores valores de qCO2 e menores valores de qMIC na camada superior do solo (0 a 5 cm). A análise de componentes principais permitiu visualizar as semelhanças entre as áreas com base em todas as variáveis analisadas. A área de vegetação natural de mata secundária, usada como referência de qualidade do solo, foi a que apresentou a maior distância gráfica das demais áreas, demonstrando que a introdução da monocultura do eucalipto modifica a qualidade do solo estudado. A qualidade do solo da área de eucalipto onde não se efetuou o corte das árvores no primeiro ciclo (povoamento com 11 anos de idade) obteve a maior aproximação da área de vegetação natural, seguindo-se os solos sob eucalipto submetido a manejos que priorizaram a conservação dos resíduos orgânicos por ocasião da reforma do povoamento. Contrariamente, as áreas onde ocorreu a remoção ou a queima do material orgânico da superfície do solo foram as que mais se distanciaram da área de referência. Esses resultados demonstram que o sistema de manejo adotado na reforma dos povoamentos de eucalipto analisados influencia, em médio prazo, o potencial dos solos de estocar e ciclar nutrientes por meio da biomassa microbiana e das atividades bioquímicas ligadas a ela. A maior aproximação entre a área com vegetação nativa e a de eucalipto com 11 anos leva a supor que ciclos mais longos nas florestas de eucalipto, contrastando com o padrão atualmente em uso no Brasil (cerca de sete anos), pode ser relevante para se manter a sustentabilidade da atividade florestal em longo prazo, a despeito de uma menor produtividade média anual. Nesse caso, a opção pela produtividade de curto ou médio prazo, ou pela sustentabilidade do uso do solo, com a conseqüente manutenção da sua qualidade para as gerações futuras, poderá ser repensada a partir dos dados aqui apresentados.<br>Agricultural soil use induces changes in soil physical, chemical, and microbiological characteristics. These changes can eventually lead to a loss of soil quality and a consequent reduction in plant growth and productivity. The analysis of biochemical and microbiological soil quality indicators is relevant to monitor changes in soil quality and in the performance of key soil functions, such as the capacity of nutrient cycling and storage. This study reports on physical, chemical, and biochemical/microbiological quality indicators of soil under eucalyptus plantation, evaluated 5.5 years after the site had undergone different management practices during stand replanting. Evaluations were based on the determination of 18 physical or chemical besides 12 biochemical or microbiological attributes that are considered soil quality indicators. The microbiological and biochemical attributes proved more adequate than the chemical or physical indicators to detect soil quality changes due to management. The greatest disturbance caused by the removal or burning of organic material on the soil surface was evidenced by the higher qCO2 and lower qMIC in the upper soil layer (0 to 5 cm). The principal component analysis underlying the graphical representation demonstrated that soil under secondary forest, taken as reference for soil quality, was very distant from that under eucalyptus, demonstrating that the introduction of eucalyptus monoculture causes significant changes in soil quality. The soil quality of a eucalyptus stand left unharvested after the first normal seven years cycle (11 year-old stand) was the closest to the area with native forest, followed by the soils under eucalyptus subjected to management systems that prioritized organic residue conservation during stand replanting. Contrarily, areas from which the organic material at the soil surface was removed or burned appeared very distant from the reference area. Our results show that the management system adopted during eucalyptus stand replanting influenced, in the medium term, the potential of soils to store and cycle nutrients via microbial biomass and associated biochemical activities. The fact that the 11 years old eucalyptus stand was closest to the reference area may suggest that the adoption of longer cycles for eucalyptus plantations, contrasting with the actual model of short rotation eucalyptus forests in Brazil (about seven years), is relevant to maintain soil sustainability for eucalyptus production in the long run, in spite of the lower mean annual productivity. In this case, the option for a higher productivity in the short and medium term, or for the sustainability of soil use, with the consequent maintenance of its quality for the future generations, should be reevaluated from the data presented here