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

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers. / Gomez-Munoz, Beatriz; Muller-Stover, Dorette; Hansen, Veronika; Jensen, Lars Stoumann; Magid, Jakob.

In: Geoderma, Vol. 422, 115939, 2022.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Gomez-Munoz, B, Muller-Stover, D, Hansen, V, Jensen, LS & Magid, J 2022, 'Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers', Geoderma, vol. 422, 115939. https://doi.org/10.1016/j.geoderma.2022.115939

APA

Gomez-Munoz, B., Muller-Stover, D., Hansen, V., Jensen, L. S., & Magid, J. (2022). Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers. Geoderma, 422, [115939]. https://doi.org/10.1016/j.geoderma.2022.115939

Vancouver

Gomez-Munoz B, Muller-Stover D, Hansen V, Jensen LS, Magid J. Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers. Geoderma. 2022;422. 115939. https://doi.org/10.1016/j.geoderma.2022.115939

Author

Gomez-Munoz, Beatriz ; Muller-Stover, Dorette ; Hansen, Veronika ; Jensen, Lars Stoumann ; Magid, Jakob. / Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers. In: Geoderma. 2022 ; Vol. 422.

Bibtex

@article{4220fb70a49d4de5958842396a74f856,
title = "Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers",
abstract = "Many organically managed farms in Europe have low levels of soil phosphorus (P). Arable farms that rely strongly on biological nitrogen fixation (BNF) have been shown to have rather low outputs and a tendency to deplete soil P and potassium (K) compared with arable farms that have a lower reliance on BNF and higher external inputs. Therefore, research focusing on providing a balanced input of nitrogen (N), P, K and sulphur (S) from alternative sources is of interest to organically managed farms in Europe. The aim of this study was to quantify P availability from different organic wastes applied alone or in combination to improve the mixtures' N:P:K:S ratio. P availability was measured by P uptake and recovery in ryegrass grown in pots. The isotope dilution approach was used in which a non-labelled fertiliser is added to a soil that has been pre-incubated and equilibrated with labelled P-33. The P recovery of the different organic wastes varied significantly (10-20 %). Manure and anaerobically digested manure mixed with ash from straw had the lowest P recovery. All the organic waste treatments had higher plant growth and P uptake compared with the negative control, but none of them reached the values observed after application of mineral P. Mixing digested manure with ash increased soil pH at the end of the experiment, which may explain the lower P availability. The highest P recovery was found in digested products, either manure alone or mixed with municipal waste or the industrial waste product Fertigro (R). However, the mixture of digested manure and Fertigro (R) led to lower dry matter production, whereas Fertigro (R) used alone resulted in high leaf P concentrations but depressed shoot and root growth, presumably due to salinity effects and a decrease in soil pH. Anaerobic digestion increased the availability of P, which may be explained by the lower immobilisation potential of the remaining organic matter in the digestate. This study highlights the potential challenges when attempting to improve the N:P:K:S ratios of waste-based fertilisers through mixing due to material interactions. However, such effects are likely to be overexpressed in pot trials that have a limited soil volume. Field trials are therefore needed to quantify such effects in practice.",
keywords = "Anaerobic digestion, P availability, P-33-labelling technique, Nutrient interactions, Isotope dilution, ANAEROBIC-DIGESTION, MYCORRHIZAL FUNGI, FIELD EXPERIMENT, DAIRY MANURE, P-UPTAKE, SOIL, AVAILABILITY, PHOSPHATE, AMENDMENTS, DIVERSITY",
author = "Beatriz Gomez-Munoz and Dorette Muller-Stover and Veronika Hansen and Jensen, {Lars Stoumann} and Jakob Magid",
year = "2022",
doi = "10.1016/j.geoderma.2022.115939",
language = "English",
volume = "422",
journal = "Geoderma",
issn = "0016-7061",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Nutrient interactions and salinity effects on plant uptake of phosphorus from waste-based fertilisers

AU - Gomez-Munoz, Beatriz

AU - Muller-Stover, Dorette

AU - Hansen, Veronika

AU - Jensen, Lars Stoumann

AU - Magid, Jakob

PY - 2022

Y1 - 2022

N2 - Many organically managed farms in Europe have low levels of soil phosphorus (P). Arable farms that rely strongly on biological nitrogen fixation (BNF) have been shown to have rather low outputs and a tendency to deplete soil P and potassium (K) compared with arable farms that have a lower reliance on BNF and higher external inputs. Therefore, research focusing on providing a balanced input of nitrogen (N), P, K and sulphur (S) from alternative sources is of interest to organically managed farms in Europe. The aim of this study was to quantify P availability from different organic wastes applied alone or in combination to improve the mixtures' N:P:K:S ratio. P availability was measured by P uptake and recovery in ryegrass grown in pots. The isotope dilution approach was used in which a non-labelled fertiliser is added to a soil that has been pre-incubated and equilibrated with labelled P-33. The P recovery of the different organic wastes varied significantly (10-20 %). Manure and anaerobically digested manure mixed with ash from straw had the lowest P recovery. All the organic waste treatments had higher plant growth and P uptake compared with the negative control, but none of them reached the values observed after application of mineral P. Mixing digested manure with ash increased soil pH at the end of the experiment, which may explain the lower P availability. The highest P recovery was found in digested products, either manure alone or mixed with municipal waste or the industrial waste product Fertigro (R). However, the mixture of digested manure and Fertigro (R) led to lower dry matter production, whereas Fertigro (R) used alone resulted in high leaf P concentrations but depressed shoot and root growth, presumably due to salinity effects and a decrease in soil pH. Anaerobic digestion increased the availability of P, which may be explained by the lower immobilisation potential of the remaining organic matter in the digestate. This study highlights the potential challenges when attempting to improve the N:P:K:S ratios of waste-based fertilisers through mixing due to material interactions. However, such effects are likely to be overexpressed in pot trials that have a limited soil volume. Field trials are therefore needed to quantify such effects in practice.

AB - Many organically managed farms in Europe have low levels of soil phosphorus (P). Arable farms that rely strongly on biological nitrogen fixation (BNF) have been shown to have rather low outputs and a tendency to deplete soil P and potassium (K) compared with arable farms that have a lower reliance on BNF and higher external inputs. Therefore, research focusing on providing a balanced input of nitrogen (N), P, K and sulphur (S) from alternative sources is of interest to organically managed farms in Europe. The aim of this study was to quantify P availability from different organic wastes applied alone or in combination to improve the mixtures' N:P:K:S ratio. P availability was measured by P uptake and recovery in ryegrass grown in pots. The isotope dilution approach was used in which a non-labelled fertiliser is added to a soil that has been pre-incubated and equilibrated with labelled P-33. The P recovery of the different organic wastes varied significantly (10-20 %). Manure and anaerobically digested manure mixed with ash from straw had the lowest P recovery. All the organic waste treatments had higher plant growth and P uptake compared with the negative control, but none of them reached the values observed after application of mineral P. Mixing digested manure with ash increased soil pH at the end of the experiment, which may explain the lower P availability. The highest P recovery was found in digested products, either manure alone or mixed with municipal waste or the industrial waste product Fertigro (R). However, the mixture of digested manure and Fertigro (R) led to lower dry matter production, whereas Fertigro (R) used alone resulted in high leaf P concentrations but depressed shoot and root growth, presumably due to salinity effects and a decrease in soil pH. Anaerobic digestion increased the availability of P, which may be explained by the lower immobilisation potential of the remaining organic matter in the digestate. This study highlights the potential challenges when attempting to improve the N:P:K:S ratios of waste-based fertilisers through mixing due to material interactions. However, such effects are likely to be overexpressed in pot trials that have a limited soil volume. Field trials are therefore needed to quantify such effects in practice.

KW - Anaerobic digestion

KW - P availability

KW - P-33-labelling technique

KW - Nutrient interactions

KW - Isotope dilution

KW - ANAEROBIC-DIGESTION

KW - MYCORRHIZAL FUNGI

KW - FIELD EXPERIMENT

KW - DAIRY MANURE

KW - P-UPTAKE

KW - SOIL

KW - AVAILABILITY

KW - PHOSPHATE

KW - AMENDMENTS

KW - DIVERSITY

U2 - 10.1016/j.geoderma.2022.115939

DO - 10.1016/j.geoderma.2022.115939

M3 - Journal article

VL - 422

JO - Geoderma

JF - Geoderma

SN - 0016-7061

M1 - 115939

ER -

ID: 312635883