Cloreto de amônio como fonte de nitrogênio em cana-de-açúcar colhida sem queima

The great difficulty of incorporation of N fertilizers into the "green sugarcane" system causes concern and since urea is the most commonly used source, there is the risk of loosing NH3 through volatilization. For this reason, a field experiment was undertaken (in a Hapludox Typic) with the objective of evaluating the agronomic efficiency of ammonium chloride on stubble of the second ratoon (SP89 1115), as well as its residual effect on the subsequent cycle (third ratoon). The experimental design was randomized blocks with four replications. Treatments consisted of three N rates (60, 120 and 180 kg ha-1 N) in the form of NH4Cl, in addition to a control treatment without the addition of N fertilizer. The ratoon cane of the second cutting was harvested in November 2006 and the treatments were applied in December 2006. The second ratoon was harvested mechanically in November 2007 and in December 2007, 450 kg ha-1 of the NPK mixture 20-05-19 was applied, providing 90, 22 and 86 kg ha-1 N, P2O5 and K2O, respectively, for the purpose of evaluating the effect of residual-N from the treatments implanted in December 2006. An increase in the rates of N-NH4Cl had a positive effect on the leaf concentrations of P, Mg and S. Stalk yield (MSS - Mg ha-1 of sugarcane stalks) and sugar (MSH - Mg ha-1 of sucrose) in the November 2006 harvest responded linearly to the increase of N doses in the form of NH4Cl. In relation to the effect of residual-N in the 2007/2008 harvest, it was observed, in general, that the concentrations of macronutrients in the sugarcane leaf +1 were within the range considered adequate in the state of São Paulo, Brazil. The residual-N of the NH4Cl doses resulted in a significant reduction in stalk (MSS) and sugar (MSH) production. It may be concluded that the NH4Cl source at a dose of 120 kg ha-1 N in ratoon fertilization of the second cutting was agronomically efficient, presenting, however, less efficiency of residual-N in the subsequent cycle.A maior dificuldade de incorporação dos fertilizantes nitrogenados no sistema de "cana-crua" é preocupante e, uma vez que a ureia é a fonte mais usada, pode-se incorrer em riscos de perdas de NH3 por volatilização. Nesse sentido, foi realizado experimento em campo (Latossolo Vermelho-Escuro distrófico argiloso), com o objetivo de avaliar a eficiência agronômica do NH4Cl em soqueira de segunda rebrota (SP89 1115), bem como o seu efeito residual no ciclo subsequente (terceira rebrota). O delineamento experimental foi o de blocos casualizados, com quatro repetições. Os tratamentos constaram de três doses de N (60, 120 e 180 kg ha-1 N) na forma de NH4Cl, além do tratamento testemunha sem adição de N-fertilizante. A cana soca de segundo corte foi colhida em novembro de 2006 e, em dezembro de 2006, foram aplicados os tratamentos. A colheita mecanizada da segunda rebrota foi realizada em novembro de 2007 e, em dezembro de 2007, foram aplicados 450 kg ha-1 do formulado 20-05-19, fornecendo 90, 22 e 86 kg ha-1 de N, P2O5 e K2O, respectivamente, visando avaliar o efeito do N-residual dos tratamentos implantados em dezembro de 2006. O aumento nas doses de N- NH4Cl promoveu efeito positivo nas concentrações foliares de P, Mg e S. A produtividade de colmos por hectare (TCH) e açúcar (TPH) na colheita de novembro de 2006 respondeu de forma linear ao incremento das doses de N na forma de NH4Cl. Com relação ao efeito do N-residual na safra 2007/2008, verificou-se, em geral, que as concentrações de macronutrientes na folha +1 de cana-de-açúcar estavam dentro da faixa considerada adequada para o Estado de São Paulo, Brasil. O N-residual das doses de NH4Cl resultou em significativa redução na produção de colmos (TCH) e açúcar (TPH). Concluiu-se que a fonte NH4Cl na dose de 120 kg ha-1 de N, em adubação de soqueira de segundo corte, mostrou-se agronomicamente eficiente, apresentando, porém, menor eficiência do N-residual no ciclo subsequente.(CNPq) National Council of Scientific and Technological Developmen

Phosphorus sources residual effects on tifton 85 production and nutritive value cultivated in a tropical weathered soil

Acid reactions and low available phosphorus in tropical soils limit forage yield. The aim was to evaluate soil chemical characteristics pH, P and Mg, forage nutritive values, critical soil and plant P levels and the residual effect of each source. The experiment was in a greenhouse with a Rhodic Haplustox, loam texture. Experimental design was a 5 x 4 factorial with five replicates which phosphate fertilizers were triple superphosphate, reactive rock phosphates Gafsa and Arad, and fused magnesium phosphate powder and coarse, applied at rates of 30, 60, 90 and 120 mg kg-1 P and a control treatment without P. The effectiveness of rock phosphates increased due to their residual effect. The coarse fused magnesium phosphate resulted in the lowest efficiency. The P critical level in soil and plant were 18 mg kg-1 and 2.4 g kg-1, respectively. The increase of phosphorus rates provided an increase in crude protein content

Agronomic efficiency of nitrogen fertilizers on green harvesting sugarcane ratoon

O objetivo deste trabalho foi avaliar a eficiência agronômica das fontes nitrogenadas ureia (U), nitrato de amônio (NA), sulfato de amônio (SA) e cloreto de amônio (CA) em soqueira de cana-de-açúcar colhida sem queima, bem como determinar o efeito residual dessas fontes sobre a produtividade da cultura no ano agrícola subsequente. Utilizou-se o delineamento experimental de blocos ao acaso, com quatro repetições. Os tratamentos consistiram da aplicação de 120 kg ha-1 de N a um Latossolo Vermelho distrófico, coberto por palhada resultante da colheita sem queima da primeira soqueira. Incluiu-se um tratamento de controle sem adição de N fertilizante. Para avaliar o efeito residual dos adubos nitrogenados, aplicaram-se 450 kg ha-1 do formulado 20-5-19 após o corte da cana-soca. A maior produção de colmos e de açúcar na safra 2006/2007 foi obtida com a fonte SA. Na safra 2007/2008, não foi verificado efeito residual da adubação nitrogenada e houve queda de produtividade do tratamento CA em comparação ao controle. A fonte CA, à dose de 120 kg ha-1 de N em adubação de soqueira de segundo corte, é agronomicamente tão eficiente quanto as demais fontes de N utilizadas, mas tem menor eficiência no ano agrícola subsequente

Eficiência agronômica de adubos nitrogenados em soqueira de cana‑de‑açúcar colhida sem queima

The objective of this work was to evaluate the agronomic efficiency of the nitrogen sources urea (U), ammonium nitrate (AN), ammonium sulfate (AS), and ammonium chloride (AC) on green harvesting sugarcane ratoon, as well as the residual effect of these sources on crop productivity in the subsequent crop year. A randomized block design was used with four replicates. Treatments consisted of applying 120 kg ha-1 of N fertilizer on a Typic Hapludox covered by straw residues resulting from the harvest without burning of the first ratoon. A control treatment was included with no N fertilizer. To evaluate the residual effect of the nitrogen fertilizers, 450 kg ha-1 of a 20‑5‑19 formulation was applied to soil after sugarcane ratoon harvest. The highest production of stalks and sugar, in the 2006/2007 season, was obtained with the source AS. In the 2007/2008 harvest season, no residual effect of N fertilization was observed and there was a productivity decrease in the AC treatment in comparison to the control. The AC source, at a dose of 120 kg ha-1 N in the fertilization of the second ratoon, is agronomically as efficient as the other N sources used, but shows less efficiency in the subsequent crop year.O objetivo deste trabalho foi avaliar a eficiência agronômica das fontes nitrogenadas ureia (U), nitrato de amônio (NA), sulfato de amônio (SA) e cloreto de amônio (CA) em soqueira de cana‑de‑açúcar colhida sem queima, bem como determinar o efeito residual dessas fontes sobre a produtividade da cultura no ano agrícola subsequente. Utilizou-se o delineamento experimental de blocos ao acaso, com quatro repetições. Os tratamentos consistiram da aplicação de 120 kg ha-1 de N a um Latossolo Vermelho distrófico, coberto por palhada resultante da colheita sem queima da primeira soqueira. Incluiu-se um tratamento de controle sem adição de N fertilizante. Para avaliar o efeito residual dos adubos nitrogenados, aplicaram-se 450 kg ha-1 do formulado 20‑5‑19 após o corte da cana‑soca. A maior produção de colmos e de açúcar na safra 2006/2007 foi obtida com a fonte SA. Na safra 2007/2008, não foi verificado efeito residual da adubação nitrogenada e houve queda de produtividade do tratamento CA em comparação ao controle. A fonte CA, à dose de 120 kg ha-1 de N em adubação de soqueira de segundo corte, é agronomicamente tão eficiente quanto as demais fontes de N utilizadas, mas tem menor eficiência no ano agrícola subsequente

Perdas de amônia estimadas por um coletor aberto a partir de ureia aplicada sobre palhada de cana-de-açúcar

The quantification of ammonia (NH3) losses from sugarcane straw fertilized with urea can be performed with collectors that recover the NH3 in acid-treated absorbers. Thus, the use of an open NH3 collector with a polytetrafluoroethylene (PTFE)-wrapped absorber is an interesting option since its cost is low, handling easy and microclimatic conditions irrelevant. The aim of this study was to evaluate the efficiency of an open collector for quantifying NH3-N volatilized from urea applied over the sugarcane straw. The experiment was carried out in a sugarcane field located near Piracicaba, São Paulo, Brazil. The NH3-N losses were estimated using a semi-open static collector calibrated with 15N (reference method) and an open collector with an absorber wrapped in PTFE film. Urea was applied to the soil surface in treatments corresponding to rates of 50, 100, 150 and 200 kg ha-1 N. Applying urea-N fertilizer on sugarcane straw resulted in losses NH3-N up to 24 % of the applied rate. The amount of volatile NH3-N measured in the open and the semi-open static collector did not differ. The effectiveness of the collection system varied non-linearly, with an average value of 58.4 % for the range of 100 to 200 kg ha-1 of urea-N. The open collector showed significant potential for use; however, further research is needed to verify the suitability of the proposed method.We would like to thank the Research Support Foundation of the State of São Paulo (FAPESP) for the scholarship awarded to the first author (Process 2009/ 04691-2) and the National Council of Scientific and Technological Development (CNPq) for the financial support of the research project, of which the work presented in this article is a part (Process 574982/2008-6).

Biochar as a soil conditioner for common bean plants

Biochar is a carbon-rich material produced during organic waste pyrolysis. In this context, two experiments were performed to evaluate the effect of biochar produced from rice husks and cattle manure on soil fertility and common bean production, as well as to identify the optimal dose of cattle manure biochar to be applied. The first experiment (Experiment I) was conducted according to a completely randomized design (factorial scheme 2 × 2 × 2 + 1) with six replicates: two types of biochar (cattle manure biochar and rice husk biochar), with and without acidity correction [addition of calcium carbonate and magnesium carbonate (PA) in a proportion of 4:1 (Ca:Mg) to raise the soil base saturation to 60%], with or without the addition of 120 mg dm-3 of phosphorus (P) as ammonium phosphate, and a control treatment (without biochar, acidity correction, and P). Based on the results of Experiment I, a second experiment was conducted according to a completely randomized design, with five treatments (doses of biochar from cattle manure) and four replications. Rice husk biochar, as a conditioner of soil chemical properties, had less prominent effects than cattle manure biochar. Cattle manure biochar functioned as a corrective for soil acidity and a source of nutrients (mainly phosphorus). The dose corresponding to 5.46% of the soil volume led to the maximum grain production by common bean plants

Observing the Evolution of the Universe

How did the universe evolve? The fine angular scale (l>1000) temperature and polarization anisotropies in the CMB are a Rosetta stone for understanding the evolution of the universe. Through detailed measurements one may address everything from the physics of the birth of the universe to the history of star formation and the process by which galaxies formed. One may in addition track the evolution of the dark energy and discover the net neutrino mass. We are at the dawn of a new era in which hundreds of square degrees of sky can be mapped with arcminute resolution and sensitivities measured in microKelvin. Acquiring these data requires the use of special purpose telescopes such as the Atacama Cosmology Telescope (ACT), located in Chile, and the South Pole Telescope (SPT). These new telescopes are outfitted with a new generation of custom mm-wave kilo-pixel arrays. Additional instruments are in the planning stages.Comment: Science White Paper submitted to the US Astro2010 Decadal Survey. Full list of 177 author available at http://cmbpol.uchicago.ed