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Effect of repeated soil heating at different temperatures on microbial activity in two burned soils

Alba Lombao, Ana Barreiro, María Teresa Fontúrbel, A. Martín, T. Carballas, Montserrat Díaz-Raviña

2021The Science of The Total Environment23 citationsDOIOpen Access PDF

Abstract

The effect of fire severity and recurrence on the recovery of enzymatic activities (β-glucosidase, urease, acid phosphatase) and bacterial activity was monitored. Unburned and burned soil samples from soil affected by a high severity wildfire and by a low severity experimental fire were subjected in laboratory to a temperature gradient to simulate different fire severities. These samples were subjected to a second laboratory heat treatment to simulate the effect of recurrence. Soil temperature was measured and used to calculate the degree-hours reached by the soil. The results showed: a) a strong effect of repeated soil heating at different temperatures on soil microbial activity; b) a different sensitivity of enzymatic activities and bacterial activity to fire, c) the magnitude of changes in these biochemical properties was related to the extent of heat supplied to samples and the previous fire/heat history, and d) degree-hours are adequate to quantify the severity of heat treatments and to examine their effects on soil microbial activity. The relationships between degree-hours and the different biochemical properties analyzed clearly demonstrate that the usefulness of these biochemical properties to detect the soil microbial community response to the heat stress followed the order: urease activity > acid phosphatase activity > β-glucosidase activity ≫ bacterial activity.

Topics & Concepts

UreaseSoil waterAcid phosphataseMicrobial population biologyEnzyme assayEnvironmental scienceChemistrySoil enzymeDegree (music)Environmental chemistrySoil scienceEnzymeBacteriaBiologyBiochemistryPhysicsAcousticsGeneticsFire effects on ecosystemsSoil Carbon and Nitrogen DynamicsCoal Properties and Utilization
Effect of repeated soil heating at different temperatures on microbial activity in two burned soils | Litcius