Publication detail
Effect of biodegradable poly-3-hydroxybutyrate amendment on the soil biochemical properties and fertility under varying sand loads
BRTNICKÝ, M. PECINA, V. HOLÁTKO, J. HAMMERSCHMIEDT, T. MUSTAFA, A. FOJT, J. KINTL, A. BALTAZÁR, T. KUČERÍK, J.
Original Title
Effect of biodegradable poly-3-hydroxybutyrate amendment on the soil biochemical properties and fertility under varying sand loads
Type
journal article in Web of Science
Language
English
Original Abstract
Background: Poly-3-hydroxybutyrate (P3HB) is a bacterial intracellular carbon and energy storage polymer, used as a thermoplastic polyester in a wide array of industrial and agricultural applications. However, how the soil microbiome and fertility are altered by exogenously applied P3HB has been relatively unexplored. This study aimed to assess the effects of P3HB addition to nutrient restricted soil: its biological properties and lettuce (Lactuca sativa L. var. capitata L.) biomass production. The experiment was designed to evaluate impacts of spatial arrangement of the relatively organic-rich (soil organic matter, P3HB particles) versus poor fractions of the matrix with confounding factors such as variable microbial biomass, inherent nutrient/energy status, different water relations (due to variable hydrophysical properties of soil augmented by sand at different ratios). Results: The results revealed that P3HB in soils induced inconsistent to contradictory changes in the microbial abundance as well as in most enzymatic activities. The differences were conditioned by the sand content both under P3HB presence or absence. On the other hand, dehydrogenase, urease activities, basal and substrate-induced soil respirations were mostly enhanced by P3HB addition, directly with increasing sand content (several respiration types). Nevertheless, P3HB significantly inhibited lettuce biomass production. Conclusions: P3HB introduction to soil boosts the microbial activity owing to the preferential utilization of P3HB as C source, which depletes soil N and strongly inhibits the plant growth. Enhanced microbial activity in P3HB-amended soils with high sand content (60-80%) suggested that in nutrient-impoverished soil P3HB can temporarily replace SOM as a C source for microbial communities due to the shift of their structure to preferentially P3HB-degrading microbiome.
Keywords
Soil quality deterioration; Microbial community; Respiration; Biodegradation; Lettuce; P3HB
Authors
BRTNICKÝ, M.; PECINA, V.; HOLÁTKO, J.; HAMMERSCHMIEDT, T.; MUSTAFA, A.; FOJT, J.; KINTL, A.; BALTAZÁR, T.; KUČERÍK, J.
Released
28. 10. 2022
Publisher
Springer Nature
Location
NEW YORK
ISBN
2196-5641
Periodical
Chemical and Biological Technologies in Agriculture
Year of study
9
Number
75
State
United Kingdom of Great Britain and Northern Ireland
Pages count
13
URL
Full text in the Digital Library
BibTex
@article{BUT180016,
author="Martin {Brtnický} and Václav {Pecina} and Jiří {Holátko} and Tereza {Hammerschmiedt} and Adnan {Mustafa} and Jakub {Fojt} and Antonín {Kintl} and Tivadar {Baltazár} and Jiří {Kučerík}",
title="Effect of biodegradable poly-3-hydroxybutyrate amendment on the soil biochemical properties and fertility under varying sand loads",
journal="Chemical and Biological Technologies in Agriculture",
year="2022",
volume="9",
number="75",
pages="13",
doi="10.1186/s40538-022-00345-9",
issn="2196-5641",
url="https://link.springer.com/article/10.1186/s40538-022-00345-9"
}