Pores distribution influences the soil microorganism's response to changes in temperature and moisture
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Visconti Moreno, Efrain Francisco | 2023-01-01
Microorganisms are an essential fraction of soil organic matter, which presence
and activity depend directly on soil physical conditions. This study aimed to
address the effect of soil temperature and moisture under contrasting
macroporosity conditions on soil biological properties. Soil physical-chemical
characterization implicated the collection of composite samples and
undisturbed surface soil samples (0 to 10 cm). Also, samples of undisturbed
surface soil were extracted in 40 polyvinyl chloride cylinders of 18 cm diameter
and 20 cm height for the arrangement of soil mesocosm as the experimental
units of a completely randomized experiment with a 2x2x3 factorial
arrangement. The experiment duration was 21 days, and the soil biological
properties measured were microbial biomass (MB) and soil respiration (SR).
Macroporosity showed a significant effect on MB, which indicates that aeration
pore influences the number of microorganisms in the soil; for the SR, the
macroporosity had a not significant effect. The temperature at the ranges
established in the experiment did not significantly affect MB, whereas a highly
significant effect of temperature over SR was observed. A highly significant
effect of soil moisture was observed on MB and SR. Macroporosity, moisture,
and temperature are determining factors in the presence of soil
microorganisms, both directly and through the interaction between them.
Herein the microorganisms have a wide range of thermal adaptation, and the
effect of soil temperature can boost soil microorganisms. In turn, it was
observed that the microorganisms present are significantly sensitive to the
moisture deficit in soil.
LEER