Marco Antonio Reynolds Chávez scite author profile

Marco Antonio Reynolds Chávez

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Materia orgánica en un cambisol vertico cultivado con milpa en laderas de los Tuxtlas, Veracruz

Lezama¹,

Chávez²,

Burel³

et al. 2022

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En áreas de laderas de regiones tropicales la erosión y quema de residuos orgánicos coadyuvan a reducir la materia orgánica del suelo (MOS) en la capa arable. Para contribuir al conocimiento del rol de la MOS en áreas laderas sometidas al sistema de Milpa Intercalada en Árboles Frutales (MIAF) en clima AWo, se propuso evaluar esta propiedad en un cambisol vértico sometido a cinco sistemas de manejo para la producción del patrón de cultivo maíz s maíz. En 2003 y 2011 se establecieron en San Andrés Tuxtla, Ver., cinco lotes con un diseño sistemático, sin repeticiones: tres versiones del MIAF y dos Sistemas Tradicionales (ST): (a) Rastreo, quema de residuos de cosecha y fertilización química y (b) Sin fertilización química. El contenido de MOS se midió en muestras colectadas a tres profundidades (0 a 5, 5 a 15 y 15 a 30 cm), en tres secciones de cada terraza ubicadas en la parte alta, media y baja de la ladera. En laboratorio, la MOS se cuantificó con el método AS-07 de Walkley y Black. Se encontró un proceso incipiente de pérdida de MOS en el Sistema tradicional y de acumulación en la sección receptora de los sistemas MIAF con filtro de escurrimientos. El filtro de escurrimientos permitió acumular en el estrado de 0 a 15 cm de la sección receptora de las terrazas cantidades importantes de MOS los cuales superaron en algunos casos por más de 100% al sistema Tradicional.

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Multipurpose technology for simultaneous preparation of primary and secondary tillage of the soil (first phase: prototype design)

Chávez¹,

Burela²,

López³

et al. 2022

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During the last decade in Mexico, the profitability of basic grain crops has decreased considerably due to low productivity caused by unfavorable soil and climatic conditions, which are aggravated by climate change. In addition, the variability of the international economic environment and the rise in fertilizer and fuel prices are factors that seriously affect the production of these food products. In this context, it is important to generate new practices and technological innovations that contribute to reducing these factors. There is an enormous technological lag in soil preparation. At present, the disk plow is still by far the most widely used implement for primary soil preparation in food production, causing high rates of soil loss due to erosion, hard layers, minimal use of moisture and, consequently, low productivity. On the other hand, it requires high power requirements, excessive operation times and high fuel consumption. The purpose of this research was to design a multipurpose prototype for the simultaneous preparation of primary and secondary tillage of the soil for crop establishment, with the objective of reducing operation times and fuel consumption, but without detracting from the quality of the labor soil and increasing yields. The results show the design of a Multipurpose prototype, as a mechanical equipment integrated by three sections (chisel plow + harrow + lump breaker), which are combined for the simultaneous preparation of primary and secondary tillage of the soil. This technology consists of a single step of soil conditioning (minimum tillage) for crop production, specifically basic grains.

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Multipurpose technology for simultaneous preparation of primary and secondary tillage of the soil (second phase: construction and evaluation of the prototype)

Chávez¹,

Burela²,

López³

et al. 2022

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In Mexico, the continuous increase in the prices of fossil fuels and agricultural fertilizers has led to a reduction in the area planted with crops, specifically basic grains. This situation has caused substantial ecological and economic losses and a national deficit in the production of basic grains, which has aggravated the economic and social situation of agricultural producers. Faced with these production growth limitations, it is important to generate new practices and innovations that contribute to reducing these factors. In soil preparation, which is considered one of the most costly activities in food production, there is an enormous technological lag. At present, the discs plow is still by far the most widely used implement for primary soil preparation in food production, causing high rates of soil loss due to erosion, hard layers, minimal use of moisture and, consequently, low productivity. Likewise, it requires high power requirements, excessive operation times and high fuel consumption. The purpose of this research was the construction and evaluation of a prototype for simultaneous preparation of primary and secondary tillage of the soil for crop establishment to reduce operation times and fuel consumption, without detriment to the quality of work and increase yields. The results show a mechanical equipment integrated by three sections (chisel plow + harrow + lump breaker), which are combined for the simultaneous preparation of primary and secondary tillage of the soil. This technology is responsible for performing in a single step, the soil conditioning for crop production, significantly surpassing the conventional system.

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Dynamic Proppant Settling: Viscoelastic Fluid Evaluation in Open Hole Gravel Packing in Extended Reach Wells

Chávez¹,

Williams²,

Russell³

2020

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Situacion actual del cultivo de maiz en localidades del municipio de San Andres Tuxtla, Veracruz

Burela¹,

Chávez²,

Lezama³

et al. 2022

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Durante el periodo de diciembre/19 a abril/20 fue realizado en la región de Los Tuxtlas, Veracruz, un proyecto denominado “Programa de Desarrollo Territorial (PRODETER) 18 Los Tuxtlas; el cual contempló la elaboración de un diagnóstico base, asistencia técnica personalizada a productores, y el establecimiento y seguimiento de dos parcelas demostrativas con maíz para grano. El objetivo de la investigación fue identificar la problemática que tienen los 100 productores beneficiados con el proyecto en las ocho diferentes localidades de los municipios de San Andrés Tuxtla y Catemaco Veracruz: Salto de eyipamtla con 11 productores, Los Meridas con 10 productores, Caleria con 2 productores, Catemaco con 2 productores, Atexalita con 1 productor, Ahuacapan con 21 productores, Abrevadero con 10 productores, y Comoapan con 43 productores. En base al muestreo aleatorio simple, se realzaron 28 encuestas previamente aleatorizadas en las siguientes localidades: a) Comoapan-10, Ahuacapan-6, Los Meridas-4, San Andres-4, Abrevadero -3, Salto de eyipamtla-1. Asimismo, se establecieron dos módulos demostrativos con maíz, uno en la localidad de Comoapan y otro en Ahuacapan, municipio de San Andrés Tuxtla con incorporación de las siguientes tecnologías: labranza vertical sola y combinada con doble paso de rastra; introducción de híbridos y variedades de maíz generadas por el INIFAP; dosis de fertilización química en base al método racional de fertilización; uso de micorrizas, zeolita y humos de lombriz. Con el diagnóstico base y el establecimiento de los dos módulos demostrativos, se logró identificar la problemática que tiene los productores de esa región con su cultivo; las cuales más del 90% fueron atendidas con el apoyo de extensionistas e investigadores del INIFAP-Campo Experimental Cotaxtla mediante la atención personalizada de asistencia técnica, cursos de capacitación y giras de intercambio. Se concluye que el diagnóstico y los módulos demostrativos, son una herramienta fundamental para identificar y atender personalmente la problemática a nivel productor y parcela con cualquier tipo de cultivo agrícola y/o perenne.

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