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Soil pH and electrical conductivity are key edaphic factors shaping bacterial communities of greenhouse soils in Korea.
J Microbiol. 2016 Dec; 54(12):838-845.JM

Abstract

Soil microorganisms play an essential role in soil ecosystem processes such as organic matter decomposition, nutrient cycling, and plant nutrient availability. The land use for greenhouse cultivation has been increasing continuously, which involves an intensive input of agricultural materials to enhance productivity; however, relatively little is known about bacterial communities in greenhouse soils. To assess the effects of environmental factors on the soil bacterial diversity and community composition, a total of 187 greenhouse soil samples collected across Korea were subjected to bacterial 16S rRNA gene pyrosequencing analysis. A total of 11,865 operational taxonomic units at a 97% similarity cutoff level were detected from 847,560 sequences. Among nine soil factors evaluated; pH, electrical conductivity (EC), exchangeable cations (Ca2+, Mg2+, Na+, and K+), available P2O5, organic matter, and NO3-N, soil pH was most strongly correlated with bacterial richness (polynomial regression, pH: R2 = 0.1683, P < 0.001) and diversity (pH: R2 = 0.1765, P < 0.001). Community dissimilarities (Bray-Curtis distance) were positively correlated with Euclidean distance for pH and EC (Mantel test, pH: r = 0.2672, P < 0.001; EC: r = 0.1473, P < 0.001). Among dominant phyla (> 1%), the relative abundances of Proteobacteria, Gemmatimonadetes, Acidobacteria, Bacteroidetes, Chloroflexi, and Planctomycetes were also more strongly correlated with pH and EC values, compared with other soil cation contents, such as Ca2+, Mg2+, Na+, and K+. Our results suggest that, despite the heterogeneity of various environmental variables, the bacterial communities of the intensively cultivated greenhouse soils were particularly influenced by soil pH and EC. These findings therefore shed light on the soil microbial ecology of greenhouse cultivation, which should be helpful for devising effective management strategies to enhance soil microbial diversity and improving crop productivity.

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Authors+Show Affiliations

Kim JM
National Institutes of Agricultural Sciences (NIAS), Rural Development Administration (RDA), Wanju, 55365, Republic of Korea.
Roh AS
Gyeonggi-do Agricultural Research and Extension Service (ARES), Hwaseong, 18388, Republic of Korea.
Choi SC
Gangwon-do ARES, Chuncheon, 24226, Republic of Korea.
Kim EJ
Chungcheongbuk-do ARES, Cheongju, 28130, Republic of Korea.
Choi MT
Chungcheongnam-do ARES, Yesan, 32418, Republic of Korea.
Ahn BK
Jeollabuk-do ARES, Iksan, 54591, Republic of Korea.
Kim SK
Jeollanam-do ARES, Naju, 58213, Republic of Korea.
Lee YH
Gyeongsangnam-do ARES, Jinju, 52733, Republic of Korea.
Joa JH
Research Institute of Climate Change and Agriculture, National Institute of Horticultural and Herbal Science, RDA, Jeju, 63240, Republic of Korea.
Kang SS
Soil & Fertilization Division, NIAS, RDA, Wanju, 55365, Republic of Korea.
Lee SA
National Institutes of Agricultural Sciences (NIAS), Rural Development Administration (RDA), Wanju, 55365, Republic of Korea.
Ahn JH
National Institutes of Agricultural Sciences (NIAS), Rural Development Administration (RDA), Wanju, 55365, Republic of Korea.
Song J
National Institutes of Agricultural Sciences (NIAS), Rural Development Administration (RDA), Wanju, 55365, Republic of Korea.
Weon HY
National Institutes of Agricultural Sciences (NIAS), Rural Development Administration (RDA), Wanju, 55365, Republic of Korea. why@korea.kr.

MeSH

AcidobacteriaAgricultureBacteriaCrop ProductionEcosystemElectric ConductivityHigh-Throughput Nucleotide SequencingHydrogen-Ion ConcentrationMicrobial ConsortiaPlantsProteobacteriaRNA, Ribosomal, 16SRepublic of KoreaSoilSoil Microbiology

Pub Type(s)

Journal Article

Language

eng

PubMed ID

27888456

Citation

Kim, Jeong Myeong, et al. "Soil pH and Electrical Conductivity Are Key Edaphic Factors Shaping Bacterial Communities of Greenhouse Soils in Korea." Journal of Microbiology (Seoul, Korea), vol. 54, no. 12, 2016, pp. 838-845.
Kim JM, Roh AS, Choi SC, et al. Soil pH and electrical conductivity are key edaphic factors shaping bacterial communities of greenhouse soils in Korea. J Microbiol. 2016;54(12):838-845.
Kim, J. M., Roh, A. S., Choi, S. C., Kim, E. J., Choi, M. T., Ahn, B. K., Kim, S. K., Lee, Y. H., Joa, J. H., Kang, S. S., Lee, S. A., Ahn, J. H., Song, J., & Weon, H. Y. (2016). Soil pH and electrical conductivity are key edaphic factors shaping bacterial communities of greenhouse soils in Korea. Journal of Microbiology (Seoul, Korea), 54(12), 838-845. https://doi.org/10.1007/s12275-016-6526-5
Kim JM, et al. Soil pH and Electrical Conductivity Are Key Edaphic Factors Shaping Bacterial Communities of Greenhouse Soils in Korea. J Microbiol. 2016;54(12):838-845. PubMed PMID: 27888456.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Soil pH and electrical conductivity are key edaphic factors shaping bacterial communities of greenhouse soils in Korea. AU - Kim,Jeong Myeong, AU - Roh,An-Sung, AU - Choi,Seung-Chul, AU - Kim,Eun-Jeong, AU - Choi,Moon-Tae, AU - Ahn,Byung-Koo, AU - Kim,Sun-Kuk, AU - Lee,Young-Han, AU - Joa,Jae-Ho, AU - Kang,Seong-Soo, AU - Lee,Shin Ae, AU - Ahn,Jae-Hyung, AU - Song,Jaekyeong, AU - Weon,Hang-Yeon, Y1 - 2016/11/26/ PY - 2016/10/12/received PY - 2016/10/31/accepted PY - 2016/11/27/entrez PY - 2016/11/27/pubmed PY - 2017/2/10/medline KW - bacterial community KW - electrical conductivity KW - greenhouse KW - pH KW - soil SP - 838 EP - 845 JF - Journal of microbiology (Seoul, Korea) JO - J Microbiol VL - 54 IS - 12 N2 - Soil microorganisms play an essential role in soil ecosystem processes such as organic matter decomposition, nutrient cycling, and plant nutrient availability. The land use for greenhouse cultivation has been increasing continuously, which involves an intensive input of agricultural materials to enhance productivity; however, relatively little is known about bacterial communities in greenhouse soils. To assess the effects of environmental factors on the soil bacterial diversity and community composition, a total of 187 greenhouse soil samples collected across Korea were subjected to bacterial 16S rRNA gene pyrosequencing analysis. A total of 11,865 operational taxonomic units at a 97% similarity cutoff level were detected from 847,560 sequences. Among nine soil factors evaluated; pH, electrical conductivity (EC), exchangeable cations (Ca2+, Mg2+, Na+, and K+), available P2O5, organic matter, and NO3-N, soil pH was most strongly correlated with bacterial richness (polynomial regression, pH: R2 = 0.1683, P < 0.001) and diversity (pH: R2 = 0.1765, P < 0.001). Community dissimilarities (Bray-Curtis distance) were positively correlated with Euclidean distance for pH and EC (Mantel test, pH: r = 0.2672, P < 0.001; EC: r = 0.1473, P < 0.001). Among dominant phyla (> 1%), the relative abundances of Proteobacteria, Gemmatimonadetes, Acidobacteria, Bacteroidetes, Chloroflexi, and Planctomycetes were also more strongly correlated with pH and EC values, compared with other soil cation contents, such as Ca2+, Mg2+, Na+, and K+. Our results suggest that, despite the heterogeneity of various environmental variables, the bacterial communities of the intensively cultivated greenhouse soils were particularly influenced by soil pH and EC. These findings therefore shed light on the soil microbial ecology of greenhouse cultivation, which should be helpful for devising effective management strategies to enhance soil microbial diversity and improving crop productivity. SN - 1976-3794 UR - https://www.unboundmedicine.com/medline/citation/27888456/Soil_pH_and_electrical_conductivity_are_key_edaphic_factors_shaping_bacterial_communities_of_greenhouse_soils_in_Korea_ DB - PRIME DP - Unbound Medicine ER -