SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2903671509> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2903671509 endingPage "173" @default.
W2903671509 startingPage "167" @default.
W2903671509 abstract "Forest conversion may affect the soil microbial community through impacts on soil properties. However, our understanding of the effects on the soil bacterial community remains limited. The objective of this study was to understand the impacts of forest conversion of native broad-leaved species on soil bacterial structure and diversity. The phylogeny structure and diversity of the soil bacterial communities were compared among four forest types. We found that the soil total nitrogen (TN) and C:N ratios were significantly different between a mixed forest and other forest types. The native forest and mixed forest contained a higher relative abundance of Actinobacteria, Gammaproteobacteria, and Acidimicrobiia compared with the Chinese fir and Bamboo forests, but more unique operational taxonomic units (OTUs) were found in the Chinese fir and Bamboo forests. Soil bacteria in bamboo forest and Chinese fir forest showing a higher diversity but a lower total sequencing number than native forest and mixed forest. Among the soil properties, pH was an important variable that contributing to both soil bacterial communities and soil alpha diversities. Our work suggests that after a long-tern forest conversion, both land-use history and vegetation species strongly influence soil bacteria communities, and soil pH is a main factor that influences soil bacterial structure." @default.
W2903671509 created "2018-12-22" @default.
W2903671509 creator A5001339334 @default.
W2903671509 creator A5008280430 @default.
W2903671509 creator A5030517737 @default.
W2903671509 creator A5064310614 @default.
W2903671509 creator A5068688704 @default.
W2903671509 creator A5074180779 @default.
W2903671509 creator A5082899814 @default.
W2903671509 date "2019-04-01" @default.
W2903671509 modified "2023-10-15" @default.
W2903671509 title "Impacts of forest conversion on soil bacterial community composition and diversity in subtropical forests" @default.
W2903671509 cites W1501369862 @default.
W2903671509 cites W1553926933 @default.
W2903671509 cites W1584942607 @default.
W2903671509 cites W1585088736 @default.
W2903671509 cites W1604735821 @default.
W2903671509 cites W1964868024 @default.
W2903671509 cites W1966328156 @default.
W2903671509 cites W1967999686 @default.
W2903671509 cites W1968227668 @default.
W2903671509 cites W1977979099 @default.
W2903671509 cites W1979279669 @default.
W2903671509 cites W1980971093 @default.
W2903671509 cites W1992760827 @default.
W2903671509 cites W2000387814 @default.
W2903671509 cites W2005891049 @default.
W2903671509 cites W2014255000 @default.
W2903671509 cites W2022423925 @default.
W2903671509 cites W2022813109 @default.
W2903671509 cites W2023289133 @default.
W2903671509 cites W2025392911 @default.
W2903671509 cites W2029105871 @default.
W2903671509 cites W2055249459 @default.
W2903671509 cites W2058923225 @default.
W2903671509 cites W2059075856 @default.
W2903671509 cites W2064649594 @default.
W2903671509 cites W2065105007 @default.
W2903671509 cites W2075020409 @default.
W2903671509 cites W2077339871 @default.
W2903671509 cites W2080760793 @default.
W2903671509 cites W2089143769 @default.
W2903671509 cites W2094327342 @default.
W2903671509 cites W2096158567 @default.
W2903671509 cites W2102471114 @default.
W2903671509 cites W2109850611 @default.
W2903671509 cites W2115803014 @default.
W2903671509 cites W2116191106 @default.
W2903671509 cites W2124351063 @default.
W2903671509 cites W2126809954 @default.
W2903671509 cites W2127602818 @default.
W2903671509 cites W2128206560 @default.
W2903671509 cites W2128456652 @default.
W2903671509 cites W2128711701 @default.
W2903671509 cites W2128790290 @default.
W2903671509 cites W2131927212 @default.
W2903671509 cites W2137322185 @default.
W2903671509 cites W2139710790 @default.
W2903671509 cites W2139774691 @default.
W2903671509 cites W2145521287 @default.
W2903671509 cites W2149554986 @default.
W2903671509 cites W2153820558 @default.
W2903671509 cites W2154736508 @default.
W2903671509 cites W2156471237 @default.
W2903671509 cites W2159593578 @default.
W2903671509 cites W2168733391 @default.
W2903671509 cites W2193609960 @default.
W2903671509 cites W2197123817 @default.
W2903671509 cites W2237531247 @default.
W2903671509 cites W2262132031 @default.
W2903671509 cites W2275323712 @default.
W2903671509 cites W2291180365 @default.
W2903671509 cites W2344935209 @default.
W2903671509 cites W2408655165 @default.
W2903671509 cites W2530479650 @default.
W2903671509 cites W2560772778 @default.
W2903671509 cites W2561508218 @default.
W2903671509 cites W2569075688 @default.
W2903671509 cites W2569733731 @default.
W2903671509 cites W2591344151 @default.
W2903671509 cites W2593276489 @default.
W2903671509 cites W2609496860 @default.
W2903671509 cites W2616913732 @default.
W2903671509 cites W2627775165 @default.
W2903671509 cites W2735327957 @default.
W2903671509 cites W2759047164 @default.
W2903671509 doi "https://doi.org/10.1016/j.catena.2018.12.017" @default.
W2903671509 hasPublicationYear "2019" @default.
W2903671509 type Work @default.
W2903671509 sameAs 2903671509 @default.
W2903671509 citedByCount "40" @default.
W2903671509 countsByYear W29036715092019 @default.
W2903671509 countsByYear W29036715092020 @default.
W2903671509 countsByYear W29036715092021 @default.
W2903671509 countsByYear W29036715092022 @default.
W2903671509 countsByYear W29036715092023 @default.
W2903671509 crossrefType "journal-article" @default.
W2903671509 hasAuthorship W2903671509A5001339334 @default.