Soil moisture under no-tillage and tillage systems in maize long-term experiment

Król, Aleksandra; Żyłowski, Tomasz; Kozyra, Jerzy; Księżak, J.

doi:10.17951/pjss.2018.51.1.103

Cited by 3 publications

(1 citation statement)

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“…According to Doorenbos and Pruitt (1977) and Alvarez and Steinbach (2009), the water layers available under NT can cover a loss by evapotranspiration ranging from 1 to 3 days of the crop during flowering stage, especially in dry areas with high atmospheric demands. Król et al (2018) also confirmed, in a longterm experiment on maize crop established in central Poland where the average rainfall is 436 mm that NT system increased SWC compared to CT system. Up to 60 cm depth of a loamy sand soil, SWC under NT system was greater than CT system from 6% in…”

Section: Soil Water Dynamicssupporting

confidence: 56%

Effect of tillage systems on soil properties, water dynamics and greenhouse gas emissions in a continuous irrigated maize crop in semi-arid conditions

Dachraoui¹

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ITACyL) por poner a mi disposición sus instalaciones y medios técnicos para la realización del trabajado.Un especial agradecimiento a mi directora de tesis Dra. Aurora Sombrero Sacristán, con quien he trabajado cada día y de la cual he aprendido tanto. Aurora, te agradezco mucho mi acogida, tus consejos, tu contribución en mi progreso a nivel tanto profesional como personal.De igual manera, gracias a Dra. Mercedes Sánchez Bascones, Dr. Salvador Hernández Navarro y Dr. Luis Manuel Navas Gracia por sus apoyos y ayudas cada vez que lo necesitaba.Mis más sinceros agradecimientos a mis compañeros de trabajo Arturo, Alicia, Berta, Rodrigo, Yolanda, Bea, Ismael, Lidio, Carmelo, Yesica, etc.… y a todos aquellos quien han estado presentes a lo largo de estos cuatro años. Ya no os considero como mis compañeros, pero como la familia que me faltaba aquí. Me habéis enseñado mucho y habéis aguantado mis caprichos con una sonrisa, os doy las gracias. Sin olvidar a Marie Carmen quien me dio el último empujón para acabar este trabajo y María Ángeles para aguantar mi ignorancia administrativa.A Mila y Pablo, me habéis salvado el pellejo con tanto papeleo.A toda mi familia, con especial mención a mi abuela, mi madre y mi hermano a quien debo todo el éxito que he realizado, por su continuo apoyo y por su paciencia, os echo de menos. A Kaouther y Fatma por creer en mí.A Mario, por todo el cariño y el amor que me ofrece cada día sin pedir nada a cambio, sabes cuánto te quiero, sino no estarás en este apartado."El que se porta gentil y cortésmente con los extranjeros, demuestra ser ciudadano del mundo." SIR FRANCIS BACONGracias a todos por hacerme sentir como en casa. TABLE OF CONTENTSINDEX OF TABLES .

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Section: Soil Water Dynamicssupporting

confidence: 56%

Effect of tillage systems on soil properties, water dynamics and greenhouse gas emissions in a continuous irrigated maize crop in semi-arid conditions

Dachraoui¹

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Relay-cropping enhances the availability of low iLUC risk lignocellulosic feedstock for advanced biofuels

Parenti,

Zegada-Lizarazu,

Monti

2024

Industrial Crops and Products

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Influence of Reduced Tillage, Fertilizer Placement, and Soil Afforestation on CO2 Emission from Arable Sandy Soils

et al. 2022

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Extreme meteorological phenomena resulting from climate change caused by anthropogenic emissions of greenhouse gases (GHG) require the implementation of CO2 mitigation practices from various industries, including agriculture. Owing to varying soil, climatic, and agrotechnical characteristics, they may have different efficiencies in mitigating soil CO2 emissions. The aim of this study was to evaluate the impact of three mitigation practices (reduced tillage, deep fertilizer placement, and soil afforestation) on CO2 emissions from sandy soils in Central and Eastern Europe allowing the prediction of the mitigation effectiveness of these methods. The average soil CO2-C flux under a moldboard plow system ranged from 218.4 ± 108.4 to 263.7 ± 176.6 mg CO2-C m−2 h−1 and under a reduced tillage system ranged from 169.7 ± 118.7 to 163.6 ± 115.2 mg CO2-C m−2 h−1 in a year with normal meteorological conditions and under extreme drought conditions, respectively. In the dry growing season, similar amounts of CO2-C were released from the soil fertilized to the soil surface and after mineral fertilizers application at a depth of 10 cm and 20 cm (133.7 ± 155.8, 132.0 ± 147.5 and 131.0 ± 148.1 mg CO2-C m−2 h−1, respectively). Meanwhile, from the forest soil, the average CO2-C emission in the dry growing season was 123.3 ± 79 mg CO2-C m−2 h−1. The obtained results revealed that reduced tillage on sandy soil allowed for reduced CO2 emissions from the soil by 28.7–61.2% in normal and drought weather, respectively. Under drought conditions, deep fertilizer placement did not reduce CO2 emissions from sandy soil, and CO2 emissions from forest soils were even higher than from arable soils.

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Soil moisture under no-tillage and tillage systems in maize long-term experiment

Cited by 3 publications

References 24 publications

Effect of tillage systems on soil properties, water dynamics and greenhouse gas emissions in a continuous irrigated maize crop in semi-arid conditions

Effect of tillage systems on soil properties, water dynamics and greenhouse gas emissions in a continuous irrigated maize crop in semi-arid conditions

Relay-cropping enhances the availability of low iLUC risk lignocellulosic feedstock for advanced biofuels

Influence of Reduced Tillage, Fertilizer Placement, and Soil Afforestation on CO2 Emission from Arable Sandy Soils

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