Zobrazit v EDS

Novel, laboratory-independent device to measure extracellular enzymatic activity in soils

Uloženo v:

Podrobná bibliografie
Název:	Novel, laboratory-independent device to measure extracellular enzymatic activity in soils
Autoři:	Jasmin Fetzer, Sonia Meller, Hélène Iven, Denise Baur, Paula García Rivera, Alan Meller, Jörg Luster
Zdroj:	Frontiers in Environmental Science, Vol 13 (2025)
Informace o vydavateli:	Frontiers Media S.A., 2025.
Rok vydání:	2025
Sbírka:	LCC:Environmental sciences
Témata:	soil enzymatic activity, biological soil function indicator, method validation, mineralization, soil organic matter, nutrient cycling, Environmental sciences, GE1-350
Popis:	Here we introduce a novel laboratory-independent Soil Enzymatic Activity Reader (SEAR). The assessment of extracellular enzymatic activity is based on the reaction of enzymes in a reactive layer of homogenized soil with fluorogenic substrates upon contact with an agarose gel in which they are dissolved. The reaction products are detected on the opposite side of the transparent gel by their fluorescence. Reaction plates with multiple gel compartments allow for the simultaneous assessment of several enzymes, including analytical replicates and suitable controls. We validated the new method by using sand, spiked with solutions of increasing concentrations of different enzymes. We further constrained the boundary conditions of operation, including limits of rate detection, precision, and the ranges of substrate concentrations, soil properties, and environmental conditions. We found our method to operate well for a wide range of different soils, comprising textures from sand to silty clay loam, acid forest soils with pH < 4 to carbonate containing agricultural soils, and soil organic carbon contents up to 18%. Furthermore, by successfully testing soil moistures from 2% to 173% of the respective water holding capacity and temperatures from 6 °C to 50 °C, we could show that measurements are possible under most conditions encountered in the field. We conclude that with SEAR, a novel device is available that allows fast, easy, and standardized measurements of extracellular enzymatic activity close to field conditions without laboratory access and thus without the need for storage and related sample pretreatments that may affect the results.
Druh dokumentu:	article
Popis souboru:	electronic resource
Jazyk:	English
ISSN:	2296-665X
Relation:	https://www.frontiersin.org/articles/10.3389/fenvs.2025.1663635/full; https://doaj.org/toc/2296-665X
DOI:	10.3389/fenvs.2025.1663635
Přístupová URL adresa:	https://doaj.org/article/fedcda13e3d2430a8d40e8e4cc6f36c9
Přístupové číslo:	edsdoj.fedcda13e3d2430a8d40e8e4cc6f36c9
Databáze:	Directory of Open Access Journals

View record in DOAJ

Full Text Finder

Nájsť tento článok vo Web of Science

Popis
Abstrakt:	Here we introduce a novel laboratory-independent Soil Enzymatic Activity Reader (SEAR). The assessment of extracellular enzymatic activity is based on the reaction of enzymes in a reactive layer of homogenized soil with fluorogenic substrates upon contact with an agarose gel in which they are dissolved. The reaction products are detected on the opposite side of the transparent gel by their fluorescence. Reaction plates with multiple gel compartments allow for the simultaneous assessment of several enzymes, including analytical replicates and suitable controls. We validated the new method by using sand, spiked with solutions of increasing concentrations of different enzymes. We further constrained the boundary conditions of operation, including limits of rate detection, precision, and the ranges of substrate concentrations, soil properties, and environmental conditions. We found our method to operate well for a wide range of different soils, comprising textures from sand to silty clay loam, acid forest soils with pH < 4 to carbonate containing agricultural soils, and soil organic carbon contents up to 18%. Furthermore, by successfully testing soil moistures from 2% to 173% of the respective water holding capacity and temperatures from 6 °C to 50 °C, we could show that measurements are possible under most conditions encountered in the field. We conclude that with SEAR, a novel device is available that allows fast, easy, and standardized measurements of extracellular enzymatic activity close to field conditions without laboratory access and thus without the need for storage and related sample pretreatments that may affect the results.
ISSN:	2296665X
DOI:	10.3389/fenvs.2025.1663635