Kutáková, Eliška
- Institutionen för skogens ekologi och skötsel, Sveriges lantbruksuniversitet
- Institute of Experimental Botany of the Czech Academy of Sciences
- Univerzita Karlova
Forskningsartikel2024Vetenskapligt granskad
Dostalek, Tomas; Rydlova, Jana; Kohout, Petr; Kutakova, Eliska; Kolarikova, Zuzana; Frouz, Jan; Muenzbergova, Zuzana
Although the effects of plants on soil properties are well known, the effects of distance from plant roots to root- free soil on soil properties and associated soil organisms are much less studied. Previous research on the effects of distance from a plant explored specific soil organisms and properties, however, comparative studies across a wide range of plant-associated organisms and multiple model systems are lacking. We conducted a controlled greenhouse experiment using soil from two contrasting habitats. Within each soil type, we cultivated two plant species, individually and in combination, studying soil organisms and properties in the root centre, the root periphery, and the root-free zones. We showed that the distance from the cultivated plant (representing decreasing amount of plant roots) had a significant impact on the abiotic properties of the soil (pH and available P and N) and also on the composition of the fungal, bacterial, and nematode communities. The specific patterns, however, did not always match our expectations. For example, there was no significant relationship between the abundance of fungal pathogens and the distance from the cultivated plant compared to a strong decrease in the abundance of arbuscular mycorrhizal fungi. Changes in soil chemistry along the distance from the cultivated plant were probably one of the important drivers that affected bacterial communities. The abundance of nematodes also decreased with distance from the cultivated plant, and the rate of their responses reflected the distribution of their food sources. The patterns of soil changes along the gradient from plant to root-free soil were largely similar in two contrasting soil types and four plant species or their mixtures. This suggests that our results can be generalised to other systems and contribute to a better understanding of the mechanisms of soil legacy formation.
Plant-soil (below-ground) interactions; PLFA/NLFA; Illumina sequencing; AMF; Microbial activity
Science of the Total Environment
2024, Volym: 949, artikelnummer: 175032Utgivare: ELSEVIER
Markvetenskap
DOI: https://doi.org/10.1016/j.scitotenv.2024.175032
https://res.slu.se/id/publ/131664