TY - JOUR
T1 - Are dominant microbial sub-surface communities affected by water quality and soil characteristics?
AU - Barba Ferrer, Maria del Carme
AU - Folch Sancho, Albert
AU - Sanchez Vila, Xavier
AU - Martínez-Alonso, Maira
AU - Gaju, Núria
N1 - Copyright © 2019 Elsevier Ltd. All rights reserved.
PY - 2019/5/1
Y1 - 2019/5/1
N2 - © 2019 Elsevier Ltd Subsurface microorganisms must deal with quite extreme environmental conditions. The lack of light, oxygen, and potentially nutrients are the main environmental stresses faced by subsurface microbial communities. Likewise, environmental disruptions providing an unbalanced positive input of nutrients force microorganisms to adapt to varying conditions, visible in the changes in microbial community diversity. In order to test microbial community adaptation to environmental changes, we performed a study in a surface Managed Aquifer Recharge facility, consisting of a settlement basin (two-day residence time) and an infiltration pond. Data on groundwater hydrochemistry, soil texture, and microbial characterization was compiled from surface water, groundwater, and soil samples at two distinct recharge operation conditions. Multivariate statistics by means of Principal Component Analysis (PCA) was the technique used to map the relevant dimensionality reduced combinations of input variables that properly describe the system behavior. The methodology selected allows including variables of different nature and displaying very different range values. Strong differences in the microbial assemblage under recharge conditions were found, coupled to hydrochemistry and grain-size distribution variables. Also, some microbial groups displayed correlations with either carbon or nitrogen cycles, especially showing abundant populations of denitrifying bacteria in groundwater. A significant correlation was found between Methylotenera mobilis and the concentrations of NO 3 and SO 4 , and also between Vogesella indigofera and the presence of DOC in the infiltrating water. Also, microbial communities present at the bottom of the pond correlated with representative descriptors of soil grain size distribution.
AB - © 2019 Elsevier Ltd Subsurface microorganisms must deal with quite extreme environmental conditions. The lack of light, oxygen, and potentially nutrients are the main environmental stresses faced by subsurface microbial communities. Likewise, environmental disruptions providing an unbalanced positive input of nutrients force microorganisms to adapt to varying conditions, visible in the changes in microbial community diversity. In order to test microbial community adaptation to environmental changes, we performed a study in a surface Managed Aquifer Recharge facility, consisting of a settlement basin (two-day residence time) and an infiltration pond. Data on groundwater hydrochemistry, soil texture, and microbial characterization was compiled from surface water, groundwater, and soil samples at two distinct recharge operation conditions. Multivariate statistics by means of Principal Component Analysis (PCA) was the technique used to map the relevant dimensionality reduced combinations of input variables that properly describe the system behavior. The methodology selected allows including variables of different nature and displaying very different range values. Strong differences in the microbial assemblage under recharge conditions were found, coupled to hydrochemistry and grain-size distribution variables. Also, some microbial groups displayed correlations with either carbon or nitrogen cycles, especially showing abundant populations of denitrifying bacteria in groundwater. A significant correlation was found between Methylotenera mobilis and the concentrations of NO 3 and SO 4 , and also between Vogesella indigofera and the presence of DOC in the infiltrating water. Also, microbial communities present at the bottom of the pond correlated with representative descriptors of soil grain size distribution.
KW - Grain-size distribution
KW - Groundwater
KW - Managed aquifer recharge
KW - Principal component analysis
KW - Soil aquifer treatment
KW - Microbiota
KW - Soil
KW - Bacteria
KW - Water Quality
KW - BACTERIAL COMMUNITY
KW - ARTIFICIAL RECHARGE
KW - TEMPORAL-CHANGES
KW - GROUNDWATER RECHARGE
KW - INFILTRATION
KW - IMPACT
KW - MANAGED AQUIFER RECHARGE
KW - REDOX CONDITIONS
KW - TRACE ORGANIC-CHEMICALS
KW - DIVERSITY
UR - http://www.mendeley.com/research/dominant-microbial-subsurface-communities-affected-water-quality-soil-characteristics
U2 - 10.1016/j.jenvman.2019.02.079
DO - 10.1016/j.jenvman.2019.02.079
M3 - Article
C2 - 30818236
SN - 0301-4797
VL - 237
SP - 332
EP - 343
JO - Journal of Environmental Management
JF - Journal of Environmental Management
ER -