home    about    browse    search    latest    help 
Login | Create Account

Effects of long-term fertilization with contemporary Danish human urine, composted household waste and sewage sludge on soil nematode abundance and community structure

Johansen, J.L.; Magid, Jakob; Dam, Marie; Santos, Susane Silva; Kudjorjie, Enoch; Palmqvist, A. and Vestergård, Mette (2022) Effects of long-term fertilization with contemporary Danish human urine, composted household waste and sewage sludge on soil nematode abundance and community structure. Science of The Total Environment, NA, NA. [Submitted]

[thumbnail of Manuscript_Revision_NO_trackchanges.docx] Microsoft Word - Submitted Version - English
Limited to [Depositor and staff only]

1MB


Summary in the original language of the document

It is desirable to recycle the urban waste products human urine, composted household waste and sewage sludge as fertilizers to agricultural fields. This could minimize the use of NPK fertilizer, improve soil structure and store carbon. However, waste products may contain heavy metals, persistent organic pollutants (POP) and plastics, and there are concerns that long-term build-up of these substances will cause unwanted effects on soil health.
Nematodes are ubiquitous and numerous in soil ecosystems. Abundance and community structure of soil nematodes can be used as indicators of soil health, as some species are vulnerable to pollution. There are well-developed methods for detecting environmental changes based on nematode community structure.
At the long-term CRUCIAL field experiment, where alternative fertilizer products have been applied since 2003, we measured effects of long-term fertilization with human urine, composted household waste and sewage sludge on soil properties (pH, soil organic matter and nitrogen availability), abundance of soil microorganisms (bacteria, fungi, small protozoa and ciliates) and nematode trophic groups compared to plots with unfertilized, NPK and cattle manure treatment. Sampling and assessments were done three times during a growth season. Further, we assessed the composition of nematode communities using metabarcoding.
Treatments with a high input of organic matter (cattle manure, composted household waste and sewage sludge) had high abundances of bacteria and thus bacterial grazers (small protozoa, ciliates, and bacterial feeding nematodes). We found a significant correlation between nematode community structure and pH and organic matter. We calculated the nematode Maturity Index 2-5 (pollution indicator) based on metabarcoding data, which did not differ significantly between the treatments.
We conclude that long-term fertilization with different types of contemporary Danish urban waste products affects both soil properties and abundance of soil organisms, the latter largely reflecting the organic matter input of the fertilizer treatments. We found no adverse effect on nematode communities that could indicate pollution-induced stress on nematofauna or decreased soil fertility.


EPrint Type:Journal paper
Agrovoc keywords:
Language
Value
URI
English
sewage sludge
http://aims.fao.org/aos/agrovoc/c_7008
English
recycling
http://aims.fao.org/aos/agrovoc/c_6478
English
nematodes -> Nematoda
http://aims.fao.org/aos/agrovoc/c_5112
Subjects: Soil > Soil quality > Soil biology
Environmental aspects
Research affiliation: Denmark > Organic RDD 5 > RECONCILE
Deposited By: Johansen, Dr Jesper Liengaard
ID Code:44576
Deposited On:11 Nov 2022 12:52
Last Modified:11 Nov 2022 12:52
Document Language:English
Status:Submitted
Refereed:Submitted for peer-review but not yet accepted

Repository Staff Only: item control page

Downloads

Downloads per month over past year

View more statistics