TY - JOUR
T1 - Investigating microbial and environmental drivers of nitrification in alkaline forest soil
AU - Poghosyan, Lianna
AU - Lehtovirta-Morley, Laura E.
PY - 2024/7/11
Y1 - 2024/7/11
N2 - Ammonia oxidation is a key step in the biogeochemical cycling of nitrogen, and soils are important ecosystems for nitrogen flux globally. Approximately 25% of the world’s soils are alkaline. Whilst nitrification has been studied more extensively in agricultural alkaline soils, less is known about natural, unfertilized alkaline soils. In this study, microorganisms responsible for ammonia oxidation and several environmental factors (season, temperature, ammonia concentration and moisture content) known to affect nitrification were studied in an alkaline forest soil with a pH ranging from 8.36 to 8.77. AOB, AOA and comammox were present and AOB belonging to genera Nitrosospira and Nitrosomonas, originally comprising <0.01% of the total bacterial community, responded rapidly to ammonia addition to the soil. No significant difference was observed in nitrification rates between seasons, but there was a significant difference between in situ field nitrification rates and rates in laboratory microcosms. Surprisingly, nitrification took place under many of the tested conditions but there was no detectable increase in the abundance of any recognisable group of ammonia oxidisers. This study raises questions about the role of low-abundance microorganisms in microbial processes and of situations where zero or very-low microbial growth coincides with metabolic activity. In addition, this study provides insights into nitrification in unfertilized alkaline soil and supports previous studies which found that AOB play an important role in alkaline soils supplemented with ammonia, including agricultural ecosystems.
AB - Ammonia oxidation is a key step in the biogeochemical cycling of nitrogen, and soils are important ecosystems for nitrogen flux globally. Approximately 25% of the world’s soils are alkaline. Whilst nitrification has been studied more extensively in agricultural alkaline soils, less is known about natural, unfertilized alkaline soils. In this study, microorganisms responsible for ammonia oxidation and several environmental factors (season, temperature, ammonia concentration and moisture content) known to affect nitrification were studied in an alkaline forest soil with a pH ranging from 8.36 to 8.77. AOB, AOA and comammox were present and AOB belonging to genera Nitrosospira and Nitrosomonas, originally comprising <0.01% of the total bacterial community, responded rapidly to ammonia addition to the soil. No significant difference was observed in nitrification rates between seasons, but there was a significant difference between in situ field nitrification rates and rates in laboratory microcosms. Surprisingly, nitrification took place under many of the tested conditions but there was no detectable increase in the abundance of any recognisable group of ammonia oxidisers. This study raises questions about the role of low-abundance microorganisms in microbial processes and of situations where zero or very-low microbial growth coincides with metabolic activity. In addition, this study provides insights into nitrification in unfertilized alkaline soil and supports previous studies which found that AOB play an important role in alkaline soils supplemented with ammonia, including agricultural ecosystems.
U2 - 10.1093/ismeco/ycae093
DO - 10.1093/ismeco/ycae093
M3 - Article
VL - 4
JO - ISME Communications
JF - ISME Communications
SN - 2730-6151
IS - 1
M1 - ycae093
ER -