Your search keyword '"Quílez, Dolores"' showing total 13 results

1. Reducing the environmental impact of maize by fertigation with digestate using pivot and drip systems

Author

Bacenetti, Jacopo, Costantini, Michele, Finzi, Alberto, Guido, Viviana, Ferrari, Omar, Riva, Elisabetta, Quílez, Dolores, Herrero, Eva, and Provolo, Giorgio

Published

2023

2. Towards robust on-site ammonia emission measuring techniques based on inverse dispersion modeling

Author

Herrero, Eva, Sanz-Cobena, Alberto, Guido, Viviana, Guillén, Mónica, Dauden, Arturo, Rodríguez, Rocío, Provolo, Giorgio, and Quílez, Dolores

Published

2021

3. Effects of irrigation with HCH-contaminated water on crop performance and HCH accumulation in plant and soil

Author

Mirás-Avalos, José Manuel, Salvador, Raquel, Guillén, Mónica, Dechmi, Farida, and Quílez, Dolores

Published

2023

4. Utility of stabilized nitrogen fertilizers to reduce nitrate leaching under optimal management practices.

Author

Mateo-Marín, Noemí, Quílez, Dolores, and Isla, Ramón

Subjects

*NITROGEN fertilizers, *FERTILIZER application, *IRRIGATION management, *FERTILIZERS, *GROUNDWATER, *SOIL classification, *SOIL mineralogy

Abstract

Background: The inadequate application of nitrogen (N) to crops has increased the reactive N in the atmosphere and in the surface and ground waters. Stabilized N‐fertilizers with nitrification (NI) and urease (UI) inhibitors have been proposed to reduce these environmental problems without affecting or even increasing crop productivity. Aim: The objective of this study was to evaluate, in a maize–maize–wheat rotation, if the use of the NI 3,4‐dimethylpyrazole phosphate (DMPP) and the UIs N‐(n‐butyl) thiophosphoric triamide (NBPT) and monocarbamide dihydrogen sulfate (MCDHS) reduces N leaching without compromising yield under optimal management of N and water. Methods: The experiment was conducted in 24 drainage lysimeters with two soil types with contrasting water holding capacity under Mediterranean irrigated conditions. The fertilizer treatments were urea, urea with DMPP, urea with NBPT, and urea with MCDHS. For the maize crop, conventional fertilizer application was split into 6‐ and 13‐leaf stages, whereas stabilized fertilizers were applied as a single application at the 6‐leaf stage. All fertilizer treatments were applied at late tillering in the wheat crop. Results: The soil mineral N was measured at the beginning and the end of each crop season, but no differences were found among fertilizer treatments. Differences in the volume of water drained or the cumulative mass of nitrate depending on the fertilizer were not significant (three‐year treatment average of 200 L m−2 and 22 kg N ha−1 in the Deep soil, and 334 L m−2 and 40 kg N ha−1 in the Shallow type, respectively). No consistent significant differences were found in agronomic parameters (chlorophyll measurements, yield, and total N uptake) between the fertilizer treatments. Conclusion: Based on the results, the use of stabilized N‐fertilizer could be recommended to reduce the number of N applications in maize without compromising grain yield but with no advantages to reduce nitrate‐leaching losses if N rates are managed properly under efficient irrigation management practices. [ABSTRACT FROM AUTHOR]

Published

2020

5. A simple methodology to estimate plant volume in nitrous oxide emission studies.

Author

Mateo‐Marín, Noemí, Isla, Ramón, and Quílez, Dolores

Subjects

PLANT canopies, WHEAT, NITROUS oxide, GREENHOUSE gases, PLANTS, CHEMICAL plants

Abstract

Closed‐chamber methodology is widely used for the estimation of greenhouse gas (GHG) emissions in agricultural systems. The volume displaced by plants inside chambers influences GHG flux estimation, although generally it is not discounted from chamber headspace in the calculation. A novel image analysis–based procedure is proposed to estimate plant volume and to assess its impact on nitrous oxide (N2O) flux estimations in a wheat (Triticum aestivum L. 'Rimbaud') crop. A maximum of 2.2% of the 13‐L chambers was displaced by plants, leading to a systematic 0.9% overestimation in cumulative N2O emissions if plant volume was not considered. Thus, plant canopy volume should be taken into account for improving the accuracy of emissions. [ABSTRACT FROM AUTHOR]

Published

2020

6. Fertilization Scenarios in Sprinkler-Irrigated Corn under Mediterranean Conditions: Effects on Greenhouse Gas Emissions.

Author

Álvaro-Fuentes, Jorge, Arrúe, José Luis, Cantero-Martínez, Carlos, Isla, Ramón, Plaza-Bonilla, Daniel, and Quílez, Dolores

Subjects

CORN farming, GREENHOUSE gases & the environment, NITROGEN in soils

Abstract

Agricultural soils emit greenhouse gases (GHG). Excessive application of N fertilizer may lead to the accumulation of mineral N in the soil, which is susceptible to loss to the environment. The objective of this study was to quantify the effect of two levels of available mineral N before planting (L, low; H, high) and two rates of NH4NO3 fertilizer (0 and 300 kg N ha-1) on soil CH4, CO2, and N2O emissions in a sprinkler-irrigated corn (Zea mays L.) field located in northeastern Spain during two growing seasons (2011 and 2012). For both soil N levels at planting, several sampling dates showed higher N2O emissions in the 300 kg N ha-1 treatment than the 0 kg N ha-1 treatment. Applications of N fertilizer resulted in a short-lived increase of N2O emitted. Differences among fertilization treatments were found for soil CO2 emissions in 2011 and for soil N2O emissions in 2011 and 2012. No differences were found between treatments for CH4. In the 2012 season, the application of 300 kg N ha-1 in the L scenario reduced N2O yield-scaled emissions (g N2O-N kg-1 aboveground N uptake) by 30% due to a significant increase in corn yield (7.6 Mg grain ha-1) compared with the treatment without N. Conversely, under the H scenario, N application doubled yield-scaled N2O emissions. Results of this study demonstrate that fertilization strategies need to take into account mineral N levels in the soil before sowing to reduce GHG emissions during the growing season. [ABSTRACT FROM AUTHOR]

Published

2016

7. Winter Cover Crops Affect Monoculture Maize Yield and Nitrogen Leaching under Irrigated Mediterranean Conditions.

Author

Salmerón, Montserrat, Cavero, José, Quílez, Dolores, and Isla, Ramón

Published

2010

8. Response of Maize Yield, Nitrate Leaching, and Soil Nitrogen to Pig Slurry Combined with Mineral Nitrogen.

Author

Yagüe, María R. and Quílez, Dolores

Subjects

NITROGEN in soils, SOIL leaching, CROP yields, SOIL productivity, CORN yields, FERTILIZER application, SOIL amendments, ENVIRONMENTAL quality, ENVIRONMENTAL management

Abstract

The article presents a study on the effect of pig slurry (PS) application to agricultural areas. The study aims to compare four different fertilization strategies adding fresh PS applied prior to sowing with mineral nitrogen. It mentions that PS application is a frequent fertilization practice that could affect nitrate concentrations and loads in drainage and water bodies. It stresses the need for a scientific data with objectives in minimizing nitrate exports through maximizing nitrogen fertilization strategies. Moreover, it details the materials and methods used in the study and explore the implications of the results.

Published

2010

9. Agronomic and Environmental Implications of Substituting Pig Slurry for Synthetic Nitrogen in Mediterranean Wheat Systems.

Author

Mateo-Marín, Noemí, Isla, Ramón, Guillén, Mónica, and Quílez, Dolores

Subjects

EMMER wheat, SLURRY, SYNTHETIC fertilizers, SWINE, NITROUS oxide, WHEAT farming, UREA as fertilizer, SPRINKLER irrigation

Abstract

Using slurries as fertilizers is a promising strategy for the reuse of nutrients and striving towards a circular economy. This study aims to assess the agronomic productivity and the environmental effects on Mediterranean sprinkler-irrigated wheat during three consecutive years of (1) the use of pig slurry (PS) as a substitute for a synthetic fertilizer (urea, U) and (2) the addition of a urease inhibitor (monocarbamide dihydrogen sulfate, MCDHS) to pig slurry (PSI). A nitrogen (N) target rate of 120 kg NH4+-N ha−1 as U, PS, or PSI (main factor) was applied at tillering, and it was supplemented with N application at stem elongation (secondary factor). Grain yield, nitrogen use efficiency indexes, and nitrous oxide emissions were not significantly affected by the N source, U, or PS; in contrast to grain protein that was affected by the N source (lower protein content in PS). The higher unaccounted N from soil balance in PS compared to U fertilization could be associated with higher ammonia volatilization, although additional studies should confirm this hypothesis. Our study suggests that, under the considered cropping conditions, PS does not affect productivity or N2O losses compared to U. The addition of MCDHS to pig slurry did not display agronomic or environmental benefits under the evaluated agro-environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2020

10. Fertigation of Maize with Digestate Using Drip Irrigation and Pivot Systems.

Author

Guido, Viviana, Finzi, Alberto, Ferrari, Omar, Riva, Elisabetta, Quílez, Dolores, Herrero, Eva, and Provolo, Giorgio

Subjects

MICROIRRIGATION, FERTIGATION, NITROGEN content of plants, NITROGEN in soils, CORN, GROWING season

Abstract

Digestate is a nutrient-rich fertilizer and appropriate techniques are required for its application during the maize season to reduce losses and increase the nitrogen use efficiency (NUE). The performance of two different fertigation techniques (drip irrigation and pivot) were assessed using the digestate liquid fraction. A two-year field test was carried out at two different sites in Lombardy, northern Italy. At each site, fertigation with pivot (P-F, site 1) or drip (D-F, site 2) systems was compared to reference fields where the same irrigation techniques without addition of digestate were used. During the two seasons, the performance of the fertigation systems, amount of fertilizers used, soil nitrogen content, yields, and nitrogen content of the harvested plants were monitored. The digestate application averaged 5 m3/ha per fertigation event with P-F and 4.9 m3/ha with D-F corresponding, respectively, to 28 and 23 kg N/ha. Both irrigation systems were suitable for fertigation provided that the digestate was adequately filtrated. Our results suggest that fertigation with digestate, if properly managed, can be applied during the growing season up to the full amount of nitrogen required by the crop. [ABSTRACT FROM AUTHOR]

Published

2020

11. Greenhouse Gas Emissions as Affected by Fertilization Type (Pig Slurry vs. Mineral) and Soil Management in Mediterranean Rice Systems.

Author

Moreno-García, Beatriz, Guillén, Mónica, and Quílez, Dolores

Subjects

SOIL management, NITROGEN fertilizers, GREENHOUSE gases, SYNTHETIC fertilizers, HUMUS, RICE

Abstract

The great increase in livestock production in some European areas makes it necessary to recycle organic slurries and manures and to integrate them in crop production. In Northeast Spain, the application of pig slurry (PS) is being extended to alternative crops such as rice due to the great increase in pig production. However, there is a lack of information of the effect of substitution of synthetic fertilizers with pig slurry on greenhouse gas (GHG) emissions in rice crop, and this information is key for the sustainability of these agricultural systems. The aim of this study was to evaluate the effect of the substitution of mineral fertilizers by PS on GHG emissions in Mediterranean flooded rice cultivation conditions under optimal nitrogen (N) fertilization. Two field experiments were carried out in two different (contrasting) soil types with different land management. Site 1 had been cultivated for rice in the previous three years with no puddling practices. Site 2 had been cultivated for rice for more than 15 years with puddling tillage practices and had higher organic matter content than site 1. The cumulative nitrous oxide emissions during the crop season were negative at both sites, corroborating that under flooded conditions, methane is the main contributor to global warming potential rather than nitrous oxide. The substitution of mineral fertilizer with PS before seeding at the same N rate did not increase emissions in both sites. However, at site 1 (soil with lower organic matter content), the higher PS rate applied before seeding (170 kg N ha−1) increased methane emissions compared to the treatments with lower PS rate and mineral fertilizer before seeding (120 kg N ha−1) and complemented with topdressing mineral N. Thus, a sustainable strategy for inclusion of PS in rice fertilization is the application of moderate PS rates before seeding (≈120 kg N ha−1) complemented with mineral N topdressing. [ABSTRACT FROM AUTHOR]

Published

2020

12. Feasibility of stabilised nitrogen fertilisers decreasing greenhouse gas emissions under optimal management in sprinkler irrigated conditions.

Author

Mateo-Marín, Noemí, Quílez, Dolores, Guillén, Mónica, and Isla, Ramón

Subjects

*SPRINKLER irrigation, *FERTILIZERS, *NITRIFICATION inhibitors, *GREENHOUSE gases, *SPRINKLERS, *SOIL classification

Abstract

• A single application of urea with DMPP abated direct N 2 O emissions. • Urease inhibitors were not able to abate N 2 O emissions. • Yield-scaled N 2 O emissions were reduced by N-stabilised fertilisers in deep soils. • Indirect N 2 O emissions were low (<13% of direct) and not affected by treatments. Stabilised nitrogen (N) fertilisers with nitrification and urease inhibitors have been proposed to abate greenhouse gas (GHG) emissions in agrosystems. Nevertheless, differences in their application and in the management of water and nitrogen rates make it difficult to evaluate their actual utility. The aim of this study was to analyse the possibility for GHG emissions reduction in a 3-year rotation (maize-maize-wheat) by substituting the traditional split-urea application to maize by a single side-dress application of stabilised urea fertiliser. The experiment was performed in 24 drainage lysimeters in two contrasting soil types (Shallow and Deep) under efficient irrigation practices and adjusted N rates under Mediterranean conditions. Nitrous oxide (N 2 O) and methane (CH 4) were measured using static closed unvented chambers, and the soil mineral N was monitored through periodic soil samplings. CH 4 emissions were generally negligible with occasional tendency the soil acting as a sink more than as a net source. Direct N 2 O emissions during the whole rotation showed lower values when a nitrification inhibitor (3,4-dimethylpyrazole phosphate) was added than with conventional urea (Deep soil: 73% lower, p < 0.05; Shallow soil: 60% lower, ns). Urease inhibitors (N-(n-butyl) thiophosphoric triamide and monocarbamide dihydrogen sulphate) could not abate direct N 2 O emissions, and their effect depended on the soil type. However, all stabilised fertilisers mitigated N 2 O emissions in Deep soil when scaled by grain yield (average 54%). Indirect N 2 O emissions associated with nitrate leaching were not affected by the treatments but contributed more to total N 2 O emissions in Shallow soil (12%) than in Deep soil (6%). These results suggest that adequate use of nitrification inhibitors could have environmental benefits without lessening agronomic production. [ABSTRACT FROM AUTHOR]

Published

2020

13. Agronomic and Economic Potential of Vegetation Indices for Rice N Recommendations under Organic and Mineral Fertilization in Mediterranean Regions.

Author

Moreno-García, Beatriz, Casterad, Mª Auxiliadora, Guillén, Mónica, and Quílez, Dolores

Subjects

AGRONOMY, ORGANIC fertilizers, RICE, RICE farming, RICE farmers

Abstract

Rice (Oryza sativa L.) farmers in Mediterranean regions usually apply organic or mineral fertilizers before seeding that are supplemented with mineral nitrogen (N) later in the season. In general, the midseason N is applied without consideration of the actual crop N status, which may lead to over-fertilization and associated environmental problems. Thus, the purpose of this study was to design and evaluate a N recommendation approach using aerial images for Mediterranean paddy rice systems. A two-year rice field experiment was established in northeastern Spain, with different rates of pig slurry (PS) and mineral N fertilizer. Multispectral aerial images were taken at the rice booting stage, and several vegetation indices (VIs) were calculated. The VIs showed strong relationships with yield and the relations significantly differed between the PS and mineral fertilization treatments. The strongest relations with yield were obtained with gMCARINIR, proposed in this study, (R2 = 0.67), GNDVI (R2 = 0.64) and MCARINIR (R2 = 0.64), indicating the importance of including the green band information. The N recommendation approach generated using the VIs information showed a high success (87.5%) in the preliminary evaluation. The economic and environmental analysis showed that this approach provides a useful tool when compared to the usual farmer practices. [ABSTRACT FROM AUTHOR]

Published

2018