Your search keyword '"Gómez-Muñoz, Beatriz"' showing total 7 results

1. Differences in cover crop contributions to phosphorus uptake by ryegrass in two soils with low and moderate P status

Author

Hansen, Veronika, Müller-Stöver, Dorette, Gómez-Muñoz, Beatriz, Oberson, Astrid, and Magid, Jakob

Published

2022

2. Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers

Author

Gómez-Muñoz, Beatriz, Müller-Stöver, Dorette, Hansen, Veronika, Stoumann Jensen, Lars, and Magid, Jakob

Published

2022

3. Cellulose amendment promotes P solubilization by Penicillium aculeatum in non-sterilized soil.

Author

Gómez-Muñoz, Beatriz, Efthymiou, Aikaterini, Dubey, Mukesh, Sølve, Jonathan, Nicolaisen, Mette, Jensen, Dan F., Nybroe, Ole, and Larsen, John

Subjects

*SEWAGE sludge ash, *SOIL amendments, *CELLULOSE, *SOLUBILIZATION, *SOILS, *BIOFERTILIZERS

Abstract

Successful application of microbial biofertilizers, such as phosphorus (P) solubilizing fungi to agroecosystems, is constrained from the lack of knowledge about their ecology; for example in terms of how they respond to an external input of carbon (C) to get established in the soil. In two soil incubation experiments we examined the performance of the P solubilizing fungus Penicillium aculeatum in non-sterile and semi-sterile (γ-irradiated) soil with different C and P sources. Results from the first experiment with C sources showed that starch and cellulose generally improved P solubilization by P. aculeatum measured as water extractable P (P wep), though only significantly in non-sterile soil. This coincided with an increased population density of P. aculeatum measured with a hygromycin B resistant strain of this fungus. Soil respiration used to measure soil microbial activity was overall much higher in treatments with C compounds than without C in both non-sterile and semi-sterile soil. However, soil respiration was highest with cellulose in semi-sterile soil, especially in combination with P. aculeatum. Hence, for the second experiment with P sources (tricalcium phosphate (TCP) and sewage sludge ash) cellulose was used as a C source for P. aculeatum growth in all treatments. Main results showed that P. aculeatum in combination with cellulose soil amendment increased soil P wep independent of soil sterilization and P source treatments. Soil resin P (P res) and microbial P (P mic), which represents stocks of potentially plant available P, were also affected from P. aculeatum inoculation. Increased soil P res from TCP and sewage sludge ash was observed with P. aculeatum independent of soil type. On the other hand soil P mic was higher after P. aculeatum inoculation only in semi-sterile soil. Population density of P. aculeatum measured with qPCR was maintained or increased in non-sterile and semi-sterile soil, respectively, compared to the original inoculum load of P. aculeatum. In conclusion, our results underline the importance of C source addition for P. aculeatum if used as a biofertilizer. For this, cellulose seems to be a promising option promoting P. aculeatum growth and P solubilization also in non-sterilized soil. [ABSTRACT FROM AUTHOR]

Published

2022

4. Nitrogen turnover, crop use efficiency and soil fertility in a long-term field experiment amended with different qualities of urban and agricultural waste.

Author

Gómez-Muñoz, Beatriz, Magid, Jakob, and Jensen, Lars Stoumann

Subjects

*SOIL fertility, *NITROGEN in soils, *AGRICULTURAL wastes, *ORGANIC wastes, *CROP ecology

Abstract

Organic wastes contain significant amounts of organic matter and nutrients and their recycling into agriculture can potentially contribute to closing the natural ecological cycle. The aim of this study was to evaluate the improvement in overall soil fertility and soil nitrogen (N) supply capacity in a long-term field experiment with repeated application of different urban and agricultural organic waste amendments. Soils from the CRUCIAL field experiment in Denmark, in which diverse types of urban (human urine, sewage sludge, composted household waste) and agricultural wastes (cattle slurry, farmyard manure and deep litter) have been applied annually for 11 years (at normal and accelerated rates), were used to estimate the effects of the different qualities of organic wastes on soil fertility, N turnover and crop N availability. Soil physical fertility parameters, such as water retention and total carbon, improved with the application of organic wastes. Cattle manure, sewage sludge and composted household waste in single or accelerated rates of application increased soil total N by 13–131% compared to the mineral fertiliser NPK treatment. The highest net N mineralisation capacity was observed for the accelerated rate of composted household waste, followed by all the other organic waste amendments and with the lowest net N mineralisation in the NPK-only and the unfertilised treatments. In soils amended for 11 years with NPK, human urine, cattle slurry, sewage sludge, cattle farmyard manure, cattle deep litter and composted household waste, the apparent crop N-use efficiencies (NUE, compared to unfertilised control) were 88, 73, 55, 51, 21, 16 and 11%, respectively. The continuous application of organic wastes generally increased NUE in the last year in comparison with the first year, except for composted household waste where N-use efficiency declined from 27 to 11%. The corresponding long-term mineral fertiliser N-equivalent (MFE) value ranged between 82% (human urine) and 13% (compost). Overall, continuous application of organic wastes improved soil fertility, with low C:N waste improving soil N availability, crop uptake and NUE the most, while the most C-rich and high C:N organic wastes (cattle deep litter and household waste compost) had a negative effect on crop NUE over time. [ABSTRACT FROM AUTHOR]

Published

2017

5. Carbon mineralization and distribution of nutrients within different particle-size fractions of commercially produced olive mill pomace

Author

Gómez-Muñoz, Beatriz, Bol, Roland, Hatch, David, and García-Ruiz, Roberto

Subjects

*OLIVE, *WASTE products, *CARBON, *BIOMINERALIZATION, *SOIL amendments, *PARTICLE size distribution, *ORGANIC compounds, *SOIL conditioners

Abstract

Abstract: Composting is a realistic option for disposal of olive mill pomace (OMP) by making it suitable as a soil amendment for organic farming. The chemical and physical characteristics and contribution of particle-size fractions to total nutrients and carbon mineralization of seven commercial composts of OMP (COMP) were investigated. Higher proportions of manure, co-composted with OMP, reduced the organic matter (OM), total carbon and C:N ratio of the product, but increased the content of nutrients and fine particles. The fine particles had higher nutrient contents, but less OM and carbon and, unlike larger particles, did not exhibit any phytotoxicity. Less than 1.5% of added carbon was mineralized in whole compost, but a lower rate was found with larger particles. Separation of COMP by particle size fractionation and application as a soil conditioner is recommended for better optimization of COMP with the <1mm fraction providing the higher quality compost. [Copyright &y& Elsevier]

Published

2011

6. Agrochemical characterization of vermicomposts produced from residues of Palo Santo (Bursera graveolens) essential oil extraction.

Author

Carrión-Paladines, Vinicio, Fries, Andreas, Gómez-Muñoz, Beatriz, and García-Ruiz, Roberto

Subjects

*VERMICOMPOSTING, *AGRICULTURAL chemicals, *BULNESIA sarmienti, *ESSENTIAL oils, *EXTRACTION (Chemistry), *AGROFORESTRY

Abstract

Fruits of Palo Santo ( Bursera graveolens ) are used for essential oil extraction. The extraction process is very efficient, because up to 3% of the fresh fruits can be transformed into essential oil; however, a considerable amount of waste is concurrently produced (>97% of the fresh biomass). Recent developments in Ecuadorian policies to foster environmentally friendly agroforestry and industrial practices have led to widespread interest in reusing the waste. This study evaluated the application of four vermicomposts (VMs), which are produced from the waste of the Palo Santo fruit distillation in combination with other raw materials (kitchen leftovers, pig manure, goat manure, and King Grass), for agrochemical use and for carbon (C) and nitrogen (N) decomposition in two soils with different textures. The results showed that the vermicompost mixtures (VMM) were valuable for agricultural utilisation, because total N (min. 2.63%) was relatively high and the C/N ratio (max. 13.3), as well as the lignin (max. 3.8%) and polyphenol (max. 1.6%) contents were low. In addition, N availability increased for both soil types after the application of the VMM. In contrast, N became immobile during decomposition if the VM of the pure waste was added. This likely occurred because of the relatively low total N (1.16%) content and high C/N ratio (35.0). However, the comparatively low C decomposition of this VM type makes its application highly recommendable as a strategy to increase the levels of organic matter and C, as well as for soil reclamation. Overall, these results suggest that the residues of the Palo Santo essential oil extraction are a potential source for vermicompost production and sustainable agriculture. [ABSTRACT FROM AUTHOR]

Published

2016

7. High fire frequency reduces soil fertility underneath woody plant canopies of Mediterranean ecosystems.

Author

Hinojosa, M. Belén, Albert-Belda, Enrique, Gómez-Muñoz, Beatriz, and Moreno, José M.

Abstract

Spatial heterogeneity of soil properties plays a major role in regulating ecosystem structure and functioning. In general, soil resources accumulate beneath woody plant-covered patches more than in the open interspace, making them function as fertility islands. Whilst wildfire is a common disturbance, little information is available on the role of particular plant species in maintaining soil fertility underneath in areas that are subjected to recurrent fires. This is an important issue given that land abandonment, together with a warmer and drier climate, is increasing fire danger in regions such as the Mediterranean. We determined whether increasing fire frequency, producing changes from a Quercus ilex L., woodland to a shrubland, modifies the effect of woody plant canopy on soil fertility. Additionally, the effect of fire history on species-specific leaf and litter nutrient concentration was assessed. Areas affected by none, one, two or three fires were selected. Within each area, soil fertility was measured underneath Cistus ladanifer L., Retama sphaerocarpa L., Phillyrea angustifolia L. and Quercus ilex canopies and in open interspace. Unburned soils located underneath P. angustifolia and Q. ilex canopies were significantly more fertile than in open interspaces. The microsite effect on soil fertility was fire frequency dependent. As fire frequency increased, the plant canopy microsite effect decreased for soil organic matter (SOM), cation exchange capacity (CEC), total C, P, Ca, K and Mg, labile phosphate, arylsulfatase and acid phosphatase activities. Total N, ammonium, nitrate and β-glucosidase activity decreased with increasing fire frequency, but their spatial variability was maintained along all fire frequency scenarios. Fire frequency decreased foliar N concentration but increased P concentration in some species, leading to a decrease in their N:P ratio. Our findings suggest that soil fertility heterogeneity will be reduced with increasing fire frequency. This could compromise the recovery of soil and ecosystem functioning. Unlabelled Image • Knowledge about interaction between plants and soil under recurrent fires is limited. • Fire frequency effect on soil fertility is tested in different microsites. • Soil microsite fertility is species-dependent and is affected by fire frequency. • High fire frequency decreases the positive effect of woody plants on soil fertility. • Decreased N:P ratio with increasing fire frequency is species dependent. [ABSTRACT FROM AUTHOR]

Published

2021