Mulch application as the overarching factor explaining increase in soil organic carbon stocks under conservation agriculture in two 8-year-old experiments in Zimbabwe

Regis Chikowo Christian Thierfelder Marc Corbeels (2024, [Artículo])

Conservation agriculture (CA), combining reduced or no tillage, permanent soil cover, and improved rotations, is often promoted as a climate-smart practice. However, our understanding of the impact of CA and its respective three principles on top- and subsoil organic carbon stocks in the low-input cropping systems of sub-Saharan Africa is rather limited. This study was conducted at two long-term experimental sites established in Zimbabwe in 2013. The soil types were abruptic Lixisols at Domboshava Training Centre (DTC) and xanthic Ferralsol at the University of Zimbabwe farm (UZF). The following six treatments, which were replicated four times, were investigated: conventional tillage (CT), conventional tillage with rotation (CTR), no tillage (NT), no tillage with mulch (NTM), no tillage with rotation (NTR), and no tillage with mulch and rotation (NTMR). Maize (Zea mays L.) was the main crop, and treatments with rotation included cowpea (Vigna unguiculata L. Walp.). The soil organic carbon (SOC) concentration and soil bulk density were determined for samples taken from depths of 0–5, 5–10, 10–15, 15–20, 20–30, 30–40, 40–50, 50–75 and 75–100 cm. Cumulative organic inputs to the soil were also estimated for all treatments. SOC stocks at equivalent soil mass were significantly (p<0.05) higher in the NTM, NTR and NTMR treatments compared with the NT and CT treatments in the top 5 cm and top 10 cm layers at UZF, while SOC stocks were only significantly higher in the NTM and NTMR treatments compared with the NT and CT treatments in the top 5 cm at DTC. NT alone had a slightly negative impact on the top SOC stocks. Cumulative SOC stocks were not significantly different between treatments when considering the whole 100 cm soil profile. Our results show the overarching role of crop residue mulching in CA cropping systems with respect to enhancing SOC stocks but also that this effect is limited to the topsoil. The highest cumulative organic carbon inputs to the soil were observed in NTM treatments at the two sites, and this could probably explain the positive effect on SOC stocks. Moreover, our results show that the combination of at least two CA principles including mulch is required to increase SOC stocks in these low-nitrogen-input cropping systems.

CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA SOIL ORGANIC CARBON CONSERVATION AGRICULTURE EXPERIMENTATION CROP MANAGEMENT

Evaluación de indicadores de calidad y funcionalidad en islas de recursos, de mezquite (Prosopis articulata) y cardón (Pachycereus pringlei) en una zona restaurada de Baja California Sur

Geovanna Zárate Camargo (2024, [Tesis de maestría])

"Las temperaturas extremas, radiación solar intensa, vientos fuertes, humedad limitada y la baja fertilidad de los suelos desérticos dificultan la recuperación de zonas degradadas en zonas áridas. Uno de los fenómenos naturales más importantes de revegetación en zonas áridas son las islas de recursos, conformadas por algunos tipos de plantas que actúan como nodrizas, las cuales, bajo su dosel, desarrollan un microhábitat favorable para el establecimiento de otras especies que trabajan en conjunto con una larga comunidad de microorganismos que se encuentran en el suelo. Entre las plantas nodriza que se observan con más frecuencia en el Desierto de Sonora, se encuentran las especies del género Prosopis. Las islas de recursos conformadas por mezquites han demostrado tener un efecto positivo como planta nodriza en zonas áridas. Las contribuciones del mezquite son el aumento del contenido de N en el suelo, temperaturas moderadas en el suelo y la superficie, altos niveles de humedad, mayor actividad microbiana, entre otros aspectos que hacen posible los efectos de las islas de recursos. En este estudio se evaluaron diferentes indicadores de calidad de suelo en islas de recursos establecidas hace 19 años, como parte de un proyecto de revegetación de suelos degradados, distintivo del Desierto Sonorense. El objetivo de este estudio fue determinar si existe un gradiente con respecto a la distancia y profundidad, en la actividad microbiana y enzimática presente en suelos de islas de recursos, resultado de la interacción de mezquite amargo (Prosopis articulata), como planta nodriza y cardón (Pachycereus pringlei), como planta objetivo. Los resultados demostraron que existe un aumento la actividad enzimática y carbono asociado a biomasa microbiana del suelo perteneciente a estas islas, con mayores resultados en zonas próximas a la planta nodriza que en zonas sin su influencia, también se encontró un aumento en la capa superficial del suelo mostrando mayores valores en los indicadores de calidad y funcionalidad bajo el dosel de las islas de recursos. Lo anterior sugiere que el uso de estas islas de recursos es una potencial alternativa en la restauración de suelos degradados, favoreciendo el ciclaje de nutrientes en suelos degradados."

"At desert, the high temperatures, intense solar radiation, strong winds, limited water, and low fertility, determine how challenging will be the recovery of degraded soils in arid lands. One of the most important natural phenomena of revegetation in arid lands are the “resource islands”, that consist of some trees or bushes acting as nurse plants, which under their canopy, develop a beneficial microhabitat for the establishment of other plant species the work with an extensive community of microorganisms found in the soil. Among the most common nurse plants observed in the Sonoran Desert, is the genus Prosopis. The resource islands formed with mesquite have shown positive effects as nurse plant in arid lands. The principal contributions of mesquite are the increase of N in the soil, moderate temperatures on soil and topsoil, high moisture levels, increased microbial activity, among other aspects that make possible the effect of resource islands. In this study, different quality indicators were evaluated in resource islands established 19 years ago, as part of a project for revegetation in degraded soils, distinctive from the Sonoran Desert. The aim of this research was to explore whether there is a correlation between distance, depth, microbial activity, and enzymatic activity in the soil surrounding resource islands formed by the interaction between mesquite amargo (Prosopis articulata) as the nurse plant and cardon (Pachycereus pringlei) as the objective plant. The results demonstrated that there is an increase in the enzymatic activity and microbial biomass carbon from the soil under the canopy of the resource islands, with higher results in zones near the nurse plant than zones without its influence, furthermore, there was found an increase in the topsoil showing higher values in the soil quality and functionality indicators under the canopy of the resource islands. The above indicates that the use of these resource islands is a potential alternative in the degraded soil restoration, supporting the nutrient cycling in degraded soils."

suelo, ecología, revegetación, actividad enzimática, ciclaje de nutrientes soil, ecology, revegetation, enzymatic activity, nutrient cycling CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CIENCIAS AGRARIAS AGRONOMÍA FERTILIDAD DEL SUELO FERTILIDAD DEL SUELO

Fitorremediación asistida a través de bacterias, para suelos contaminados con metales pesados y plaguicidas

TANIA GÓMEZ MORALES (2023, [Otro, Trabajo terminal, especialidad])

El suelo es un recurso no renovable que nos proporciona diferentes beneficios, incluidos los servicios ecosistémicos. Sin embargo, actividades antropogénicas como la minería y la agricultura lo han contaminado. Las prácticas mineras y agrícolas liberan contaminantes como plaguicidas y metales pesados al suelo como contaminantes individuales o mezclas, generando importantes efectos adversos para el ambiente y la salud humana. Debido a esta problemática, se han desarrollado diferentes estrategias de remediación para sitios con presencia de estos co-contaminantes. Una de ellas es la fitorremediación asistida por bacterias, una técnica basada en la asociación de plantas y bacterias, donde ambos organismos se benefician y mejoran la eficiencia de la remediación.

Soil is a non-renewable resource that provides us with different benefits, including ecosystem services. However, anthropogenic activities such as mining and agriculture have contaminated it. Minery and agriculture practices release contaminants such as pesticides and heavy metals into the soil as individual pollutants or mixtures, generating important adverse environmental and human health effects. Due to this problem, different remediation strategies have been developed for sites with the presence of these co-contaminants; one of them is bacterial-assisted phytoremediation, a technique based on the association of plants and bacteria, where both organisms benefit and improve remediation efficiency.

BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA suelo, fitorremediación, bacterias, plaguicidas, metales pesados, co-contaminados. soil, phytoremediation, bacteria, pesticides, heavy metals, co-contaminated

Effect of Nitrogen, Phosphorus and Potassium on regional organic substrates in Agave salmiana production in Huichapan, Hidalgo, Mexico

EMILIO RAYMUNDO MORALES MALDONADO MONICA GUTIERREZ ROJAS RAMON JAIME HOLGUIN PEÑA Daniel Ruiz-Juárez Jorge Luis Vega Chávez Ana Cristina Reyes Godoy (2022, [Artículo])

"Mexico has 159 species of Agave spp. In the agri-food industry stand out are Agave tequilana, A. angustifolia, and A. salmiana. A limitation to producing maguey seedlings is the low availability of organic substrates that favor plant adaptation in the field. The objective was to evaluate the effect of nitrogen (N), phosphorus (P) and potassium (K) found in substrates in response to vegetative and root growth of A. salmiana in agricultural areas of Huichapan, Hidalgo, Mexico. The treatment consisted of earthworm humus (EH) and leaf compost (LC) substrates with materials from the region with different percentages of EH (100, 75, 50%), LC (5, 10%), and sand (20, 40%). The treatments were applied with 14 random replications in two phases in seeds and 40-day-seedlings. The variables evaluated were NPK amount and pH in substrates. The physiological variables measured were plant height, leaf number, stem diameter, root length, and volume. Significant differences (P≤0.05) were observed in seedling physiology due to the effect of the treatment. The best agronomic responses (plant growth and root length/weight) of Agave seedlings were T5 (75% earthworm humus + 20% sand + 5% leaf-soil) and T6 (50% earthworm humus + 40% sand + 10% leaf-soil); in both treatments, the NPK percentages were different from the control (Haplic Phaeozem soil) group. The final concentration of NPK in T6 was N = 0.04%, P = 398.13 mg Kg-1 and K = 11.88 meq 100g-1 . The results infer that NPK availability in soil and progressive acidification (initial pH = 8.6, final pH = 7.4) of the substrate can favorably influence the plant response. The interactions between NPK availability in the substrate and their use for a better response in maguey seedling adaptability open up new lines of research on the productive systems in the región of Huichapan, Hidalgo, Mexico."

maguey, nutritional quality, plant physiology, productive soils, seedling BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA VEGETAL (BOTÁNICA) FERTILIDAD DEL SUELO FERTILIDAD DEL SUELO