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Alejandra Miranda Carrazco Yendi Navarro-Noya Bram Govaerts Nele Verhulst Luc Dendooven (2022, [Artículo])
Plant-associated microorganisms that affect plant development, their composition, and their functionality are determined by the host, soil conditions, and agricultural practices. How agricultural practices affect the rhizosphere microbiome has been well studied, but less is known about how they might affect plant endophytes. In this study, the metagenomic DNA from the rhizosphere and endophyte communities of root and stem of maize plants was extracted and sequenced with the “diversity arrays technology sequencing,” while the bacterial community and functionality (organized by subsystems from general to specific functions) were investigated in crops cultivated with or without tillage and with or without N fertilizer application. Tillage had a small significant effect on the bacterial community in the rhizosphere, but N fertilizer had a highly significant effect on the roots, but not on the rhizosphere or stem. The relative abundance of many bacterial species was significantly different in the roots and stem of fertilized maize plants, but not in the unfertilized ones. The abundance of N cycle genes was affected by N fertilization application, most accentuated in the roots. How these changes in bacterial composition and N genes composition might affect plant development or crop yields has still to be unraveled.
Bacterial Community Structure DArT-Seq Bacterial Community Functionality Genes Involved in N Cycling CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA AGRICULTURAL PRACTICES MAIZE RHIZOSPHERE STEMS NITROGEN FERTILIZERS
Mahesh Gathala ML JAT (2023, [Artículo])
A 3-year field experiment was setup to address the threat of underground water depletion and sustainability of agrifood systems. Subsurface drip irrigation (SDI) system combined with nitrogen management under conservation agriculture-based (CA) maize-wheat system (MWS) effects on crop yields, irrigation water productivity (WPi), nitrogen use efficiency (NUE) and profitability. Grain yields of maize, wheat, and MWS in the SDI with 100% recommended N were significantly higher by 15.8%, 5.2% and 11.2%, respectively, than conventional furrow/flood irrigation (CT-FI) system. System irrigation water savings (~ 55%) and the mean WPi were higher in maize, wheat, and MWS under the SDI than CT-FI system. There was saving of 25% of fertilizer N in maize and MWS whereas no saving of N was observed in wheat. Net returns from MWS were significantly higher (USD 265) under SDI with 100% N (with no subsidy) than CT-FI system despite with higher cost of production. The net returns were increased by 47% when considering a subsidy of 80% on laying SDI system. Our results showed a great potential of complementing CA with SDI and N management to maximize productivity, NUE, and WPi, which may be economically beneficial and environmentally sound in MWS in Trans-IGP of South Asia.
Subsurface Drip Irrigation Nitrogen Management Irrigation Water Productivity Water Savings CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA IRRIGATION WATER NITROGEN-USE EFFICIENCY CONSERVATION AGRICULTURE MAIZE WHEAT
Fighting food, fertilizer, and the climate crisis in Africa through targeted nitrogen management
Tek Sapkota Sieglinde Snapp (2022, [Objeto de congreso])
CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA FOOD INSECURITY NITROGEN FERTILIZERS RICE WHEAT MAIZE NUTRIENT MANAGEMENT
Enhancing maize's nitrogen-fixing potential through ZmSBT3, a gene suppressing mucilage secretion
jiafa chen XUECAI ZHANG Jianyu Wu (2023, [Artículo])
Aerial Roots ZmSBT3 Diazotroph CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA MAIZE ADVENTITIOUS ROOTS MUCILAGES NITROGEN FIXATION GENOME-WIDE ASSOCIATION STUDIES GENE CLONING NITROGEN FIXING BACTERIA
Manish Kakraliya madhu choudhary Mahesh Gathala Parbodh Chander Sharma ML JAT (2024, [Artículo])
The future of South Asia’s major production system (rice–wheat rotation) is at stake due to continuously aggravating pressure on groundwater aquifers and other natural resources which will further intensify with climate change. Traditional practices, conventional tillage (CT) residue burning, and indiscriminate use of groundwater with flood irrigation are the major drivers of the non-sustainability of rice–wheat (RW) system in northwest (NW) India. For designing sustainable practices in intensive cereal systems, we conducted a study on bundled practices (zero tillage, residue mulch, precise irrigation, and mung bean integration) based on multi-indicator (system productivity, profitability, and efficiency of water, nitrogen, and energy) analysis in RW system. The study showed that bundling conservation agriculture (CA) practices with subsurface drip irrigation (SDI) saved ~70 and 45% (3-year mean) of irrigation water in rice and wheat, respectively, compared to farmers’ practice/CT practice (pooled data of Sc1 and Sc2; 1,035 and 318 mm ha−1). On a 3-year system basis, CA with SDI scenarios (mean of Sc5–Sc8) saved 35.4% irrigation water under RW systems compared to their respective CA with flood irrigation (FI) scenarios (mean of Sc3 and Sc4) during the investigation irrespective of residue management. CA with FI system increased the water productivity (WPi) and its use efficiency (WUE) by ~52 and 12.3% (3-year mean), whereas SDI improved by 221.2 and 39.2% compared to farmers practice (Sc1; 0.69 kg grain m−3 and 21.39 kg grain ha−1 cm−1), respectively. Based on the 3-year mean, CA with SDI (mean of Sc5–Sc8) recorded −2.5% rice yield, whereas wheat yield was +25% compared to farmers practice (Sc1; 5.44 and 3.79 Mg ha−1) and rice and wheat yield under CA with flood irrigation were increased by +7 and + 11%, compared to their respective CT practices. Mung bean integration in Sc7 and Sc8 contributed to ~26% in crop productivity and profitability compared to farmers’ practice (Sc1) as SDI facilitated advancing the sowing time by 1 week. On a system basis, CA with SDI improved energy use efficiency (EUE) by ~70% and partial factor productivity of N by 18.4% compared to CT practices. In the RW system of NW India, CA with SDI for precise water and N management proved to be a profitable solution to address the problems of groundwater, residue burning, sustainable intensification, and input (water and energy) use with the potential for replication in large areas in NW India.
Direct Seeded Rice Subsurface Drip Irrigation Economic Profitability Energy and Nitrogen Efficiency CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CONSERVATION AGRICULTURE RICE SUBSURFACE IRRIGATION IRRIGATION SYSTEMS WATER PRODUCTIVITY ECONOMIC VIABILITY ENERGY EFFICIENCY NITROGEN-USE EFFICIENCY
João Vasco Silva Pytrik Reidsma (2024, [Artículo])
Nitrogen (N) management is essential to ensure crop growth and to balance production, economic, and environmental objectives from farm to regional levels. This study aimed to extend the WOFOST crop model with N limited production and use the model to explore options for sustainable N management for winter wheat in the Netherlands. The extensions consisted of the simulation of crop and soil N processes, stress responses to N deficiencies, and the maximum gross CO2 assimilation rate being computed from the leaf N concentration. A new soil N module, abbreviated as SNOMIN (Soil Nitrogen for Organic and Mineral Nitrogen module) was developed. The model was calibrated and evaluated against field data. The model reproduced the measured grain dry matter in all treatments in both the calibration and evaluation data sets with a RMSE of 1.2 Mg ha−1 and the measured aboveground N uptake with a RMSE of 39 kg N ha−1. Subsequently, the model was applied in a scenario analysis exploring different pathways for sustainable N use on farmers' wheat fields in the Netherlands. Farmers' reported yield and N fertilization management practices were obtained for 141 fields in Flevoland between 2015 and 2017, representing the baseline. Actual N input and N output (amount of N in grains at harvest) were estimated for each field from these data. Water and N-limited yields and N outputs were simulated for these fields to estimate the maximum attainable yield and N output under the reported N management. The investigated scenarios included (1) closing efficiency yield gaps, (2) adjusting N input to the minimum level possible without incurring yield losses, and (3) achieving 90% of the simulated water-limited yield. Scenarios 2 and 3 were devised to allow for soil N mining (2a and 3a) and to not allow for soil N mining (2b and 3b). The results of the scenario analysis show that the largest N surplus reductions without soil N mining, relative to the baseline, can be obtained in scenario 1, with an average of 75%. Accepting negative N surpluses (while maintaining yield) would allow maximum N input reductions of 84 kg N ha−1 (39%) on average (scenario 2a). However, the adjustment in N input for these pathways, and the resulting N surplus, varied strongly across fields, with some fields requiring greater N input than used by farmers.
Crop Growth Models WOFOST CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CROPS NITROGEN-USE EFFICIENCY WINTER WHEAT SOIL WATER
Tesfaye Geleta Aga Bekele Abeyo (2024, [Artículo])
Straw Nitrogen Uptake Nitrogen Harvest Index CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA NITROGEN-USE EFFICIENCY STRAW GENOTYPE ENVIRONMENT INTERACTION HARD WHEAT
Gatien Falconnier Marc Corbeels Frédéric Baudron Antoine Couëdel leonard rusinamhodzi bernard vanlauwe Ken Giller (2023, [Artículo])
Can farmers in sub-Saharan Africa (SSA) boost crop yields and improve food availability without using more mineral fertilizer? This question has been at the center of lively debates among the civil society, policy-makers, and in academic editorials. Proponents of the “yes” answer have put forward the “input reduction” principle of agroecology, i.e. by relying on agrobiodiversity, recycling and better efficiency, agroecological practices such as the use of legumes and manure can increase crop productivity without the need for more mineral fertilizer. We reviewed decades of scientific literature on nutrient balances in SSA, biological nitrogen fixation of tropical legumes, manure production and use in smallholder farming systems, and the environmental impact of mineral fertilizer. Our analyses show that more mineral fertilizer is needed in SSA for five reasons: (i) the starting point in SSA is that agricultural production is “agroecological” by default, that is, very low mineral fertilizer use, widespread mixed crop-livestock systems and large crop diversity including legumes, but leading to poor soil fertility as a result of widespread soil nutrient mining, (ii) the nitrogen needs of crops cannot be adequately met solely through biological nitrogen fixation by legumes and recycling of animal manure, (iii) other nutrients like phosphorus and potassium need to be replaced continuously, (iv) mineral fertilizers, if used appropriately, cause little harm to the environment, and (v) reducing the use of mineral fertilizers would hamper productivity gains and contribute indirectly to agricultural expansion and to deforestation. Yet, the agroecological principles directly related to soil fertility—recycling, efficiency, diversity—remain key in improving soil health and nutrient-use efficiency, and are critical to sustaining crop productivity in the long run. We argue for a nuanced position that acknowledges the critical need for more mineral fertilizers in SSA, in combination with the use of agroecological practices and adequate policy support.
Manure Crop Yields Smallholder Farming Systems Environmental Hazards CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA BIOLOGICAL NITROGEN FIXATION LEGUMES NUTRIENT BALANCE SOIL FERTILITY AGROECOLOGY YIELD INCREASES LITERATURE REVIEWS
Isotope analysis in feathers of the Least Tern (Sternula antillarum) to infer its trophic ecology
Andehui Danay Morales Flores (2024, [Tesis de maestría])
El análisis isotópico de plumas primarias utilizando las razones isotópicas δ13C y δ15N permitió estimar la amplitud y superposición del nicho trófico de los conjuntos de las colonias reproductivas de adultos y volantones del charrán mínimo. Se infirió la amplitud del nicho por medio del área de la elipse estándar estimada por métodos Bayesianos (SEAB), se encontró que existen diferencias entre el nicho trófico de adultos y volantones, pues los adultos tienen valores de la media SEAB de 16.3‰2 hasta 28.4‰2 y los volantones de 44.8‰2 hasta 75.5‰2, esto podría ser debido a diferencias en cuanto a las presas seleccionadas y la ubicación geográfica de los adultos durante la muda de las primarias. Por otro lado, la superposición del nicho indicó la similitud entre los adultos de diferentes colonias, por lo cual, se consideró que los adultos de algunas colonias podrían compartir un sitio de invernada o bien la temporalidad en la muda de las primarias. Además, se cumplió con el objetivo de caracterizar la variabilidad de las firmas isotópicas de carbono y nitrógeno durante el crecimiento secuencial de las plumas primarias por medio de los modelos aditivos generalizados y se observó la variabilidad entre las primarias utilizando las anomalías respecto a la media local de cada colonia, lo cual permitió diferenciar estrategias de alimentación específicas para ciertos conjuntos y la variabilidad en la dieta. La búsqueda bibliográfica de los sitios potenciales de migración en invierno más los mapas de gradientes isotópicos de δ13C permitió determinar que el Océano Pacífico Oriental Tropical es la región geográfica relacionada con la distribución δ13C en plumas primarias del charrán mínimo y es el sitio más probable de invernada.
The isotopic analysis of primary feathers using the isotopic ratios of δ13C and δ15N allowed the estimation of the breadth and overlap of the trophic niche of adult and fledgling least terns. Niche breadth was inferred through the standard ellipse area (SEAB) estimated by Bayesian methods. We found differences between the trophic niche of adults and fledglings, as adults presented mean SEAB values from 16.3‰2 to 28.4‰2 and fledglings from 44.8‰2 to 75.5‰2. This could be due to differences in the prey selected and the geographical location of the adults during the molt of the primaries. The overlap of these values among adults indicates similarity in prey selection and location between the adults of different colonies. Therefore, it was considered that the adults of some colonies could share a wintering site during the period of molt of the primary feathers. We characterized the variability of carbon and nitrogen isotopic signatures during the sequential growth of primary feathers through generalized additive models and the variability between primaries using the anomalies of these signatures and the local mean for each colony. This allowed us to differentiate specific feeding strategies of individual least terns and the variability in their diet. The bibliographic search for potential migration and wintering sites found published maps of δ13C isotopic gradients in the Tropical Eastern Pacific Ocean that correspond to the δ13C distribution in primary feathers of the least tern, indicating a potential wintering area for this species.
isótopos, carbono, nitrógeno, ave marina, ecología trófica isotopes, seabird, nitrogen, carbon, trophic ecology BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA VEGETAL (BOTÁNICA) ECOLOGÍA VEGETAL ECOLOGÍA VEGETAL
Juan Pablo Carmona Almazán (2023, [Tesis de maestría])
En el tratamiento de enfermedades, la administración de dosis múltiples es una estrategia común para mantener la concentración de los fármacos dentro de un margen terapéutico. Sin embargo, la adherencia de los pacientes a este tipo de tratamiento puede ser un desafío, llevando a una administración irregular de dosis. Una alternativa utilizada para abordar este reto son las nanopartículas híbridas polímero/lípido(NPPLs), las cuales, con menos administraciones, tienen el potencial de alcanzar la dosis necesaria en el tratamiento, posibilitando entonces el incremento del apego al tratamiento. En nuestro proyecto, se llevó a cabo la síntesis de nanopartículas de ácido poli láctico-co-glicólico (PLGA) recubiertas de lecitina de soya, por medio de técnicas de nanoprecipitación y autoensamblaje. Además, integramos estas nanopartículas en una matriz polimérica a base de aerogeles de gelatina de manera que estuvieran distribuidas de manera homogénea y concentrada. Nuestro enfoque central radica en entender la cinética de liberación de un compuesto hidrofílico (ácido gálico) y uno lipofílico (quercetina) a partir de este sistema. Logramos sintetizar nanopartículas con un diámetro hidrodinámico de 100 ± 15 nm, 153 ± 33 y149±21 nm, en el caso de las nanopartículas vacías y cargadas con ácido gálico y cargadas con quercetina, respectivamente. La eficiencia de encapsulación del ácido gálico fue del 90 ± 5 % y de la quercetina fue del 70 ± 10 %. Los resultados que obtuvimos muestran que el ácido gálico sigue una cinética del modelo de Korsmeyer-Peppas, con un valor de n = 1.01 y la quercetina una cinética de primer orden. Dado que los compuestos encapsulados tuvieron una liberación más lenta con respecto a los compuestos libres en los aerogeles de gelatina, nuestro trabajo indica que el encapsulamiento en NPPLs de un compuesto bioactivo, independientemente de su naturaleza química, puede ayudar a retrasar su liberación y reducir el número de dosis administradas, en consecuencia, esto pudiera contribuir a incrementar el apego de un paciente al tratamiento.
In the treatment of diseases, the administration of multiple doses is a common strategy to maintain drug concentrations within a therapeutic range. However, patient adherence to this type of treatment can be challenging, resulting in irregular dosing. An alternative approach used to address this challenge involves polymer/lipid hybrid nanoparticles (NPPLs), which have the potential to achieve the necessary drug dose with fewer administrations, thereby increasing treatment adherence. In our project, we synthesized poly(lactic-co-glycolic acid) (PLGA) nanoparticles coated with soy lecithin using nanoprecipitation and self-assembly techniques. These nanoparticles were then integrated into a polymer matrix based on gelatin aerogels to ensure homogeneous and concentrated distribution. Our main focus was to understand the release kinetics of a hydrophilic compound (gallic acid) and a lipophilic one (quercetin) from this system. We successfully synthesized nanoparticles with a hydrodynamic diameter of 100 ± 15 nm, 153 ± 33 nm, and 149 ± 21 nm for empty nanoparticles, gallic acid-loaded, and quercetin-loaded nanoparticles, respectively. The encapsulation efficiency was 90 ± 5 % for gallic acid and 70 ± 10 % for quercetin. The results we obtained indicate that gallic acid follows Korsmeyer-Peppas kinetics with a value of n = 1.01, while quercetin exhibits first-order kinetics. Since the encapsulated compounds showed slower release compared to free compounds in gelatin aerogels, our work suggests that encapsulation in NPPLs with a bioactive compound, regardless of its chemical nature, can help delay its release and reduce the number of doses administered. Consequently, this could contribute to improve patient treatment adherence.
nanopartículas híbridas, cinética de liberación, sistemas poliméricos, PLGA/lecitina, compuestos hidrofílicos y lipofílicos hybrid nanoparticles, release kinetics, polymeric systems, PLGA/lecithin, hydrophilic and lipophilic compounds INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS INGENIERÍA Y TECNOLOGÍA QUÍMICAS ANÁLISIS DE POLÍMEROS ANÁLISIS DE POLÍMEROS