Evaluación del potencial forrajero de diez cultivares de soya (&lt;i&gt;Glycine max&lt;/i&gt; (L) Merr) en  Venezuela

Hernández, Alexander; Guerra, Robert; Tobía, Carlos; Villalobos, Enrique

doi:10.15517/rac.v37i2.12761

Cited by 3 publications

(5 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Resultados similares fueron observados por Gan et al (2002), quienes reportaron que la producción de forraje aumentó en 72 % al incrementar al doble la densidad de plantas. En otra investigación, al evaluar 10 genotipos de soya en el trópico seco venezolano, en estado de desarrollo R6 y densidad de 15 plantas por metro lineal, Hernández et al (2013) reportaron una producción promedio de 10,888 kg MS ha -1 . La diferencia entre el rendimiento y densidades puede ser atribuida a la competencia inter-específica por nutrientes y luz, principalmente (Mattera et al, 2013), mientras que la menor producción forrajera obtenida, en comparación con otras investigaciones, posiblemente depende de la distancia entre surcos (Acikgoz et al, 2007;Sheaffer et al, 2001), además del genotipo utilizado (Gan et al, 2002;Reta et al, 2013), aunado a las condiciones de clima y suelo (Tobía et al, 2006).…”

Section: Resultados Y Discusiónunclassified

“…Los valores reportados en este estudio para la altura de planta fueron menores que los reportaron en estudios previos (Acikgoz et al, 2007;Hernández et al, 2013), quienes reportaron alturas de 67 a 88 cm para diversos cultivares de soya. Board (2000) encontró un efecto positivo en la altura de planta de soya Delta Pine 3606 conforme incrementó la densidad de población, desde 77 cm en la densidad de 80,000 plantas ha -1 hasta 103 cm cuando la densidad fue de 390,000 plantas ha -1 .…”

Section: Resultados Y Discusiónunclassified

See 1 more Smart Citation

Comportamiento Productivo Del Cultivo De Soya Variedad Salcer a Diferentes Densidades De Población Y Momentos De Cosecha

et al. 2023

View full text Add to dashboard Cite

La soya [Glycine max (L.) Merr.] es un recurso forrajero de alta calidad, por sus características nutricionales y producción de biomasa, pero la adopción y establecimiento en praderas es limitado debido al poco conocimiento sobre el manejo agronómico. El objetivo del presente estudio fue evaluar el potencial productivo y las características morfológicas de soya variedad Salcer a diferentes densidades de población y edad al corte en condiciones de trópico seco. Se evaluaron cuatro densidades de población 250,000, 125,000, 62,500 y 41,250 plantas ha-1 cada ocho días a partir de los 30 días hasta los 75 posteriores a la germinación, bajo un diseño de bloques completos al azar con tres repeticiones. La producción de forraje, tasa de crecimiento, altura de planta, relación hoja:tallo, radiación interceptada y composición morfológica fueron evaluadas. El rendimiento de forraje fue mayor cuando la población fue a altas densidades que a bajas con 4462 y 2958 kg MS ha-1, respectivamente (P ≤ 0.05) con 250,000 y 41,250 plantas ha-1. No hubo diferencias entre densidades para la relación hoja:tallo (P > 0.05); con respecto a la edad de corte, se obtuvieron los mayores valores con un promedio superior a la unidad en los días 30 a 52 (1.93 y 1.20). La soya interceptó mayor radiación duranteel día 60 (82 %). La densidad de población y la edad al corte son factores determinantes en el rendimiento de materia seca en soya forrajera, donde las densidades de 250,000 y 125,000 plantas ha-1 se comportaron mejor y se recomienda cortar entre los 52 y 60 días.

show abstract

Section: Resultados Y Discusiónunclassified

Comportamiento Productivo Del Cultivo De Soya Variedad Salcer a Diferentes Densidades De Población Y Momentos De Cosecha

et al. 2023

View full text Add to dashboard Cite

show abstract

“…According to Ortiz [19], soy contains high concentrations of nitrogen (N) in the grains and in the plant. Biological nitrogen fixation (BNF) increases as the crop develops, in this way the root nodules transfer between 30 and 50% of the fixed N to the vegetative stages, 80-90% between flowering and the formation of the fruit, reaching the maximum contribution during the filling of the grains [20].…”

Section: Soybean Cultivation Characteristicsmentioning

confidence: 99%

Soybean Seed Compounds as Natural Health Protectors

Boldrini¹,

Molinero²,

Chaca³

et al. 2022

Legumes Research - Volume 2

View full text Add to dashboard Cite

Glycine max (L) Merrill, better known as soy or soybean, is a legume of asian origin considered an excellent biotype, given the fact that it contains almost everything the human being needs for the diet. Its cultivation worldwide is one of the most important, and soy itself and its derivatives are highly on demand. The health effects of soy derived foods have been investigated for more than 25 years, and some of them remain controversial. On the other hand, we wondered if soy could be used to ameliorate the toxic effects of heavy metals. Therefore, in this chapter we review general characteristics of soy as well as its nutritional potential, and we compiled the newest information about the health effects of soy. In order to test our hypothesis, we developed a model of animals exposed to cadmium, and we gave them a soy based diet, comparing it with a casein-based diet as control. This allowed us to collect information about its effect on the respiratory and nervous system. Among the results of this review, we show that it reduces the cholesterol level and obesity while also having antidiabetic effects. We enumerate the benefits of soy-based diets on the respiratory system, such as protection against lung cancer and radiotherapy, better lung function in asthma patients and protection against cadmium intoxication. In the cardiovascular system it reduces the risk of coronary heart disease, improves blood pressure, glycemic control, and inflammation while it reduces not all but some of the alterations induced by cadmium exposure on the aorta and heart. It apparently promotes neurogenesis, improves cognitive functions, and reduces the oxidative stress and apoptosis induced by cadmium exposure in the cerebellum. Taken all together, this information let us conclude that soy consumption would exhibit numerous benefits for human health, although future studies should try to elucidate the best outcome considering variables such as gender, age, treatment duration and dosage of soy products consumption in the diet.

show abstract

“…Soybean (Glycine max) climatic requirements vary between 0 and 800 masl; although, in some places, it can grow up to 3000 [32]. The temperature for the development of the crop varies between 20 and 35 • C, with 30 • C being ideal for its production [33], but other authors propose that the optimal range is between 22 • and 30 • C [34]. Soybean needs at least 300 mm of water during its production cycle, which can be supplied through irrigation systems.…”

mentioning

confidence: 99%

“…Soybean needs at least 300 mm of water during its production cycle, which can be supplied through irrigation systems. However, an average of 3.3 mm/day, equivalent to 530 mm per cycle, is better in humid and bimodal climates, guaranteeing high rainfall in its growth stage and a decrease of these during maturation [33]. 4.…”

mentioning

confidence: 99%

Zoning of Potential Areas for the Production of Oleaginous Species in Colombia under Agroforestry Systems

Lozano-Castellanos

Méndez-Vanegas²,

Tomatis

et al. 2023

Agriculture

View full text Add to dashboard Cite

Due to the need to develop more agroforestry systems, the Moringa oleifera, Olea Europea, Glycine max, Brassica napus, Helianthus annuus, and Jatropha curcas are identified as unconventional species for their expansion under these systems in Colombia. With the Colombian Environmental Information System (SIAC) database, zoning was carried out according to the agroclimatic species requirements and optimal coverage for their production. As a result, a total area of 212,977.2 km2 was identified, mainly including the departments of Casanare, Arauca, Vichada, Guajira, Córdoba, Meta, Magdalena, Cesar, Tolima, and Cundinamarca. The species and associations species with the most options for productive expansion are Moringa (75,758 km2), Moringa, Jatropha, and Sunflower (42,515.1 km2), Moringa and Jatropha (37,180.4 km2), Jatropha (20,840 km2), Jatropha and Sunflower (17,692.1 km2), Olive (7332.1 km2), and Soybean (3586.3 km2). Of the potential agroforestry areas to their establishment, 36% correspond to herbaceous and/or shrubby vegetation, 34% to grasses, and 22% to heterogeneous agricultural areas. This research is the first step to representing the agronomic versatility of these promising species and their potential contribution to the diversification of the agri-food and agroforestry sectors.

show abstract

Evaluación del potencial forrajero de diez cultivares de soya (<i>Glycine max</i> (L) Merr) en Venezuela

Cited by 3 publications

References 0 publications

Comportamiento Productivo Del Cultivo De Soya Variedad Salcer a Diferentes Densidades De Población Y Momentos De Cosecha

Comportamiento Productivo Del Cultivo De Soya Variedad Salcer a Diferentes Densidades De Población Y Momentos De Cosecha

Soybean Seed Compounds as Natural Health Protectors

Zoning of Potential Areas for the Production of Oleaginous Species in Colombia under Agroforestry Systems

Contact Info

Product

Resources

About