Produtividade e qualidade de sementes de soja em função de estádios de dessecação e herbicidas

O objetivo deste trabalho foi avaliar a melhor época de aplicação de dessecantes, de forma a permitir antecipação da colheita sem prejudicar a produtividade e qualidade de sementes de soja. O delineamento experimental foi de blocos ao acaso em esquema fatorial (3x3) + 1, com quatro repetições. Um dos fatores foi constituído pelos herbicidas dessecantes paraquat, glufosinato de amônio e glyphosate, nas doses de 400, 400 e 960 g i.a. ha-1, respectivamente. Outro fator constituiu-se de três estádios de aplicação dos herbicidas, via pulverização (R6, R7.2 e R8.1). Avaliaram-se a antecipação da colheita, massa de 100 sementes, produtividade, germinação e vigor das sementes. A utilização de herbicidas, aliada aos estádios fenológicos de aplicação, permitiu antecipar a colheita de um a seis dias. A dessecação de plantas de soja em pré-colheita com os herbicidas nos diferentes estádios fenológicos não afetou a produtividade. O herbicida glufosinato de amônio reduziu a germinação de sementes de soja quando aplicado no estádio R6. O herbicida glyphosate reduziu o vigor das sementes de soja quando aplicado nos estádios R6 e R7.2. O herbicida paraquat promoveu os melhores índices de germinação e vigor de sementes de soja quando utilizado nos estádios R6 e R7.2.

Épocas de la aplicación de desecantes en el cultivo de la soja: tenor de agua y productividad

Los herbicidas glifosato y paraquat son utilizados por los productores de soja con el objetivo de desecar las plantas, anticipar y uniformizar la cosecha. Sin embargo, el uso indiscriminado de herbicidas puede causar problemas eventualmente en las características agronómicas y fisiológicas del cultivo. El presente trabajo tuvo por objetivo evaluar la utilización de los herbicidas glifosato y paraquat como desecantes para el cultivo de la soja. El experimento fue llevado a cabo en el año agrícola 2005/06, en un delineamiento experimental de bloques al azar, con cuatro repeticiones. Los tratamientos fueron dispuestos en dos esquemas factoriales, 3x3x5x2 y 3x2x5x2: dos desecantes (glifosato y paraquat) y un testigo (sin desecación), aplicación de los desecantes en tres y dos estadios fenológicos de las plantas (R6, R7 y R8) y (R7 y R8), para las variedades MSOY 6101 de ciclo superprecoz, y MG/BR 46 (Conquista) de ciclo precoz, respectivamente, cinco épocas de muestreo (2; 4; 6; 8 y 10 días después de la aplicación) y evaluación en dos posiciones en la planta (ápice y base). Fue evaluada la producción de semillas, masa y tenor de agua de 100 semillas. Los desecantes evaluados fueron eficientes en la reducción del tenor de agua de las semillas, sin afectar la productividad y la masa de 100 semillas.

Aplicação de dessecantes na cultura de soja: antecipação da colheita e produção de sementes

Este trabalho foi conduzido no município de Selvíria-MS, semeando soja do cultivar IAC-15. O delineamento experimental utilizado foi o de blocos casualizados, estando os tratamentos dispostos em um esquema fatorial 3x3 e 4x4, sendo os fatores os produtos (dessecantes) e as épocas de aplicação, nos anos agrícolas 1996/97 e 1997/98, respectivamente. Os dessecantes utilizados foram: paraquat, diquat e mistura paraquat + diquat, nas dosagens de 0,4; 0,3 e 0,2+0,15 em 1996/97, respectivamente, e os mesmos tratamentos em 1997/98, além do glufosinato de amônio na dosagem de 0,4 kg i.a. ha-1 em 1997/98. Como épocas, foram realizadas três aplicações em 1996/97 e quatro em 1997/98, todas espaçadas de cinco dias a partir do estádio fenológico médio da cultura R6. Concluiu-se que os dessecantes utilizados mostraram-se eficientes na dessecação da soja; foi possível obter antecipação da colheita de sementes de soja, sem alterar a produção, por um período máximo de sete dias.

Efeitos da dessecação de plantas de soja no potencial fisiológico e sanitário das sementes

The objective of this paper was to verify the ideal moment of application of desiccants on the soybeans crop, to obtain seeds with maximum physiological and sanitary quality. The cultivar IAC-15 was sowed at the experimental area of FE/UNESP - Campus of Ilha Solteira, located in the district of Selvíria, State of Mato Grosso do Sul (20° 22′S, 51° 22′W at approximately 335 m of altitude). The experimental design was a randomized block, with treatments in a factorial scheme of 3×3 and 4×4 (dessicant x application time), in 1996/97 and 1997/98, respectively. The desiccants applied during the season agricultural year 1996/97 were: paraquat, diquat, paraquat+diquat mix at the doses 400; 300; 200+150 e 400 g a.i.ha -1, respectively. In 1997/98 the same desiccants were used, at the same doses, with additional treatment application of ammonium glufosinate at the dose of 400 g a.i.ha -1. The desiccants were applied three times in 1996/97 and four times in 1997/98 with 5 days intervals starting at the R 6 stage. According to the environmental conditions of this research the best desiccation time was when soybean plants had 80% to 90% of pods with yellow and brown coloration and seeds with 45% to 60% of water content. There were no effects of any of the desiccants tested in the physiological and sanitary potential required for commercialization of the seeds.

Teor de clorofila, danos oxidativos e qualidade de sementes de soja

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Épocas de aplicação de dessecantes na cultura da soja (Glycine max (L.) Merrill): teor de água, produtividade e qualidade fisiológica das sementes

Pós-graduação em Agronomia - FEIS

Semeadura conjugada à aplicação de herbicidas em plantio direto e convencional, na cultura do milho (Zea mays L.)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Seasons of desiccant application in the soybean crop: water content and productivity

The herbicides glyphosate and paraquat have been used by Brazilian soybean producers to obtain crop desiccation and to anticipate and uniformity at harvest. However, improper use of herbicides can to occasion problems in agronomic and physiologic characteristics of crop. This study aimed to evaluate the use of the glyphosate and paraquat herbicides as a desiccant for growing soybeans. The experiment was conducted in 2005/06 crop year, in an experimental design of randomized blocks with four replications. Treatments were arranged in two factorial design, 3x3x5x2 and 3x2x5x2: two desiccants (glyphosate and paraquat) and control (without drying), three and two growth stages (R6, R7 and R8) and (R7 and R8) for varieties MSOY 6101 of superprecocious cycle, and MG / BR 46 (Conquista) of precocious cycle, respectively, five sampling times (2, 4, 6, 8 and 10 days after application) and two positions in the plants on the ground assessment (apex and base). Was evaluated for seed Production, mass and water content of 100 seeds. Desiccants tested were effective in reducing the water content of seeds, without affecting productivity and mass of 100 seeds.

Synthetic zeolites and other microporous oxide molecular sieves

Use of synthetic zeolites and other microporous oxides since 1950 has improved insulated windows, automobile air-conditioning, refrigerators, air brakes on trucks, laundry detergents, etc. Their large internal pore volumes, molecular-size pores, regularity of crystal structures, and the diverse framework chemical compositions allow “tailoring” of structure and properties. Thus, highly active and selective catalysts as well as adsorbents and ion exchangers with high capacities and selectivities were developed. In the petroleum refining and petrochemical industries, zeolites have made possible cheaper and lead-free gasoline, higher performance and lower-cost synthetic fibers and plastics, and many improvements in process efficiency and quality and in performance. Zeolites also help protect the environment by improving energy efficiency, reducing automobile exhaust and other emissions, cleaning up hazardous wastes (including the Three Mile Island nuclear power plant and other radioactive wastes), and, as specially tailored desiccants, facilitating the substitution of new refrigerants for the ozone-depleting chlorofluorocarbons banned by the Montreal Protocol.

Properties of seawater bitterns with regard to liquid-desiccant cooling

This study concerns the properties of the concentrated bittern solutions occurring as by-product from solar salt works, in relation to their potential use as liquid desiccants in cooling systems. Solutions of compositions similar to those of bitterns have been made up in the laboratory, as have concentrated mixtures of MgCl2–MgSO4–H2O. Measurements of vapour pressure have been carried out using an isoteniscope and are reported together with measurements of density and viscosity. Several theoretical models representing these properties are reviewed and compared against the experimental results; the average agreement between theory and experiment is within 5% for vapour pressure and better for the preferred models of the other two properties. Based on these findings, an expression is provided for the equilibrium relative humidity of bitterns as a function of concentration relative to raw seawater. The vapour pressures of bittern solutions are found to be similar to those of solutions containing only magnesium chloride but having the same mass fraction of total salts. Therefore magnesium chloride solution is a reasonable model for bitterns for the purpose of developing the proposed cooling system.

A solar powered liquid-desiccant cooling system for greenhouses

Liquid desiccant systems are of potential interest as a means of cooling greenhouses to temperatures below those achieved by conventional means. However, only very little work has been done on this technology with previous workers focussing on the cooling of human dwellings using expensive desiccants such as lithium salts. In this study we are designing a system for greenhouse cooling based on magnesium chloride desiccant which is an abundant and non-toxic substance. Magnesium chloride is found in seawater, for example, and is a by-product from solar salt works. We have carried out a detailed experimental study of the relevant properties of magnesium rich solutions. In addition we have constructed a test rig that includes the main components of the cooling system, namely a dehumidifier and solar regenerator. The dehumidifier is a cross-flow device that consists of a structured packing made of corrugated cellulose paper sheets with different flute angles and embedded cooling tubes. The regenerator is of the open type with insulated backing and fabric covering to spread the flow of desiccant solution. Alongside these experiments we are developing a mathematical model in gPROMS® that combines and simulates the heat and mass transfer processes in these components. The model can be applied to various geographical locations. Here we report predictions for Havana (Cuba) and Manila (Philippines), where we find that average wet-bulb temperatures can be lowered by 2.2 and 3°C, respectively, during the month of May.

Sensor psychrometric approaches to mitigating aflatoxins in maize dried on farms in Kenya

Kenia liegt in den Äquatorialtropen von Ostafrika und ist als ein weltweiter Hot-Spot für Aflatoxinbelastung insbesondere bei Mais bekannt. Diese toxischen und karzinogenen Verbindungen sind Stoffwechselprodukte von Pilzen und so insbesondere von der Wasseraktivität abhängig. Diese beeinflusst sowohl die Trocknung als auch die Lagerfähigkeit von Nahrungsmitteln und ist somit ein wichtiger Faktor bei der Entwicklung von energieeffizienten und qualitätsorientierten Verarbeitungsprozessen. Die vorliegende Arbeit hat sich zum Ziel gesetzt, die Veränderung der Wasseraktivität während der konvektiven Trocknung von Mais zu untersuchen. Mittels einer Optimierungssoftware (MS Excel Solver) wurde basierend auf sensorerfassten thermo-hygrometrischen Daten der gravimetrische Feuchteverlust von Maiskolben bei 37°C, 43°C und 53°C vorausberechnet. Dieser Bereich stellt den Übergang zwischen Niedrig- und Hochtemperaturtrocknung dar. Die Ergebnisse zeigen deutliche Unterschiede im Verhalten der Körner und der Spindel. Die Trocknung im Bereich von 35°C bis 45°C kombiniert mit hohen Strömungsgeschwindigkeiten (> 1,5 m / s) begünstigte die Trocknung der Körner gegenüber der Spindel und kann daher für eine energieeffiziente Trocknung von Kolben mit hohem Anfangsfeuchtegehalt empfohlen werden. Weitere Untersuchungen wurden zum Verhalten unterschiedlicher Schüttungen bei der bei Mais üblichen Satztrocknung durchgeführt. Entlieschter und gedroschener Mais führte zu einem vergrößerten Luftwiderstand in der Schüttung und sowohl zu einem höheren Energiebedarf als auch zu ungleichmäßigerer Trocknung, was nur durch einen erhöhten technischen Aufwand etwa durch Mischeinrichtungen oder Luftumkehr behoben werden könnte. Aufgrund des geringeren Aufwandes für die Belüftung und die Kontrolle kann für kleine landwirtschaftliche Praxisbetriebe in Kenia daher insbesondere die Trocknung ganzer Kolben in ungestörten Schüttungen empfohlen werden. Weiterhin wurde in der Arbeit die Entfeuchtung mittels eines Trockenmittels (Silikagel) kombiniert mit einer Heizquelle und abgegrenztem Luftvolumen untersucht und der konventionellen Trocknung gegenüber gestellt. Die Ergebnisse zeigten vergleichbare Entfeuchtungsraten während der ersten 5 Stunden der Trocknung. Der jeweilige Luftzustand bei Verwendung von Silikagel wurde insbesondere durch das eingeschlossene Luftvolumen und die Temperatur beeinflusst. Granulierte Trockenmittel sind bei der Maistrocknung unter hygienischen Gesichtspunkten vorteilhaft und können beispielsweise mit einfachen Öfen regeneriert werden, so dass Qualitätsbeeinträchtigungen wie bei Hochtemperatur- oder auch Freilufttrocknung vermieden werden können. Eine hochwertige Maistrocknungstechnik ist sehr kapitalintensiv. Aus der vorliegenden Arbeit kann aber abgeleitet werden, dass einfache Verbesserungen wie eine sensorgestützte Belüftung von Satztrocknern, der Einsatz von Trockenmitteln und eine angepasste Schüttungshöhe praktikable Lösungen für Kleinbauern in Kenia sein können. Hierzu besteht, ggf. auch zum Aspekt der Verwendung regenerativer Energien, weiterer Forschungsbedarf.