2012
DOI: 10.1128/aem.01476-12
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Archaeal Abundance across a pH Gradient in an Arable Soil and Its Relationship to Bacterial and Fungal Growth Rates

Abstract: ABSTRACTSoil pH is one of the most influential factors for the composition of bacterial and fungal communities, but the influence of soil pH on the distribution and composition of soil archaeal communities has yet to be systematically addressed. The primary aim of this study was to determine how total archaeal abundance (quantitative PCR [qPCR]-based estimates of 16S rRNA gene copy numbers) is related to soil pH across a pH gradient (pH 4.0 to 8.3). Secondarily, we wanted to as… Show more

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Cited by 61 publications
(35 citation statements)
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“…Li et al, 2014). Crenarchaeota may be the dominant group of microorganisms governing NH 4 þ oxidation (Leininger et al, 2006) and a massive decline at pH 4.7e5.2 was previously observed (Bengtson et al, 2012). We observed that the N 1 treatment had the highest relative abundance of Crenarchaeota, which indicated that the higher soil NH 4 þ concentration and lower pH resulting from other more concentrated fertilizer treatments (N 1 P 1 , N 2 and N 2 P 2 ) may inhibit their growth.…”
Section: Long-term Fertilizer Application Changed Bacterial Communitysupporting
confidence: 58%
“…Li et al, 2014). Crenarchaeota may be the dominant group of microorganisms governing NH 4 þ oxidation (Leininger et al, 2006) and a massive decline at pH 4.7e5.2 was previously observed (Bengtson et al, 2012). We observed that the N 1 treatment had the highest relative abundance of Crenarchaeota, which indicated that the higher soil NH 4 þ concentration and lower pH resulting from other more concentrated fertilizer treatments (N 1 P 1 , N 2 and N 2 P 2 ) may inhibit their growth.…”
Section: Long-term Fertilizer Application Changed Bacterial Communitysupporting
confidence: 58%
“…Previous studies have reported negative effects of pH on group 1.1c Crenarchaeota [50] in acid forest soils and negative relationships between nitrate and archaeal abundance [21]. The positive correlations between archaeal abundance and soil pH observed here suggest that our soils might be dominated by crenarchaeal species that are adapted to conditions of higher soil pH (7.0–7.5) [51], which may be linked to the long agricultural history of the plots studied here.…”
Section: Discussionsupporting
confidence: 46%
“…() studied the dominant archaeal populations in 146 soils covering different biomes such as forest, grasslands, deserts, and agricultural soil across North and South America and Antarctica. These global surveys, together with other local‐ and regional‐scale studies, have revealed a number of factors that may affect archaeal communities, including salinity (Auguet et al ., ), pH (Nicol et al ., ; Bengtson et al ., ; Cao et al ., ), elevation (Zhang et al ., ), climate and vegetation cover (Angel et al ., ), and C/N ratio (Bates et al ., ).…”
Section: Introductionmentioning
confidence: 99%