SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4303946188> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4303946188 endingPage "12919" @default.
W4303946188 startingPage "12919" @default.
W4303946188 abstract "Carbon dioxide (CO2) is the most important greenhouse gas in the atmosphere, which is mainly derived from microbial respiration in soil. Soil bacteria are an important part of the soil ecosystem and play an important role in the process of plant growth, mineralization, and decomposition of organic matter. In this paper, we discuss a laboratory incubation experiment that we conducted to investigate the CO2 emissions and the underlying bacterial communities under the natural succession of halophyte vegetation in the Yellow River Delta by using high-throughput sequencing technology and PICRUSt functional prediction. The results showed that the bacterial abundance and diversity increased significantly along with the succession of halophyte vegetation. Metabolic function is the dominant function of soil bacteria in the study area. With the succession of halophyte vegetation, the rate of CO2 emissions gradually increased, and were significantly higher in soil covered with vegetation than that of the bare land without vegetation coverage. These results helped to better understand the relationships of soil bacterial communities under the background of halophyte vegetation succession, which can help to make efficient strategies to mitigate CO2 emissions and enhance carbon sequestration." @default.
W4303946188 created "2022-10-10" @default.
W4303946188 creator A5026912612 @default.
W4303946188 creator A5036990231 @default.
W4303946188 creator A5044105005 @default.
W4303946188 creator A5058812597 @default.
W4303946188 creator A5059081976 @default.
W4303946188 creator A5091472924 @default.
W4303946188 date "2022-10-09" @default.
W4303946188 modified "2023-10-18" @default.
W4303946188 title "Functional Diversity and CO2 Emission Characteristics of Soil Bacteria during the Succession of Halophyte Vegetation in the Yellow River Delta" @default.
W4303946188 cites W1075730075 @default.
W4303946188 cites W1264360482 @default.
W4303946188 cites W13084450 @default.
W4303946188 cites W1455188860 @default.
W4303946188 cites W1569216933 @default.
W4303946188 cites W1978503775 @default.
W4303946188 cites W1980871898 @default.
W4303946188 cites W1982134632 @default.
W4303946188 cites W1989125908 @default.
W4303946188 cites W1994862356 @default.
W4303946188 cites W2012502645 @default.
W4303946188 cites W2012821433 @default.
W4303946188 cites W2014503720 @default.
W4303946188 cites W2033378871 @default.
W4303946188 cites W2034957918 @default.
W4303946188 cites W2045185035 @default.
W4303946188 cites W2046273286 @default.
W4303946188 cites W2076145182 @default.
W4303946188 cites W2078078394 @default.
W4303946188 cites W2107704110 @default.
W4303946188 cites W2110448167 @default.
W4303946188 cites W2114182371 @default.
W4303946188 cites W2119472607 @default.
W4303946188 cites W2134219769 @default.
W4303946188 cites W2192208332 @default.
W4303946188 cites W2354064285 @default.
W4303946188 cites W2416637276 @default.
W4303946188 cites W2513854760 @default.
W4303946188 cites W2554403554 @default.
W4303946188 cites W2559975385 @default.
W4303946188 cites W2583226786 @default.
W4303946188 cites W2743882741 @default.
W4303946188 cites W2767650669 @default.
W4303946188 cites W2774864351 @default.
W4303946188 cites W2789630303 @default.
W4303946188 cites W2790055667 @default.
W4303946188 cites W2800983809 @default.
W4303946188 cites W2809613633 @default.
W4303946188 cites W2886861276 @default.
W4303946188 cites W2895358420 @default.
W4303946188 cites W2898350520 @default.
W4303946188 cites W2901222283 @default.
W4303946188 cites W2914223830 @default.
W4303946188 cites W2918806787 @default.
W4303946188 cites W2936136117 @default.
W4303946188 cites W2969833184 @default.
W4303946188 cites W2972291772 @default.
W4303946188 cites W2972626166 @default.
W4303946188 cites W2982399267 @default.
W4303946188 cites W2985735123 @default.
W4303946188 cites W2987235299 @default.
W4303946188 cites W2991287841 @default.
W4303946188 cites W2997330786 @default.
W4303946188 cites W3008064419 @default.
W4303946188 cites W3010299238 @default.
W4303946188 cites W3034695813 @default.
W4303946188 cites W3048799955 @default.
W4303946188 cites W3091926312 @default.
W4303946188 cites W3092148089 @default.
W4303946188 cites W3093422181 @default.
W4303946188 cites W3095724438 @default.
W4303946188 cites W3096466348 @default.
W4303946188 cites W3121284112 @default.
W4303946188 cites W3128816625 @default.
W4303946188 cites W3173492651 @default.
W4303946188 cites W3180000876 @default.
W4303946188 cites W4206592383 @default.
W4303946188 cites W4220928321 @default.
W4303946188 cites W4221044601 @default.
W4303946188 cites W4221123386 @default.
W4303946188 cites W4281570651 @default.
W4303946188 doi "https://doi.org/10.3390/ijerph191912919" @default.
W4303946188 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36232219" @default.
W4303946188 hasPublicationYear "2022" @default.
W4303946188 type Work @default.
W4303946188 citedByCount "4" @default.
W4303946188 countsByYear W43039461882023 @default.
W4303946188 crossrefType "journal-article" @default.
W4303946188 hasAuthorship W4303946188A5026912612 @default.
W4303946188 hasAuthorship W4303946188A5036990231 @default.
W4303946188 hasAuthorship W4303946188A5044105005 @default.
W4303946188 hasAuthorship W4303946188A5058812597 @default.
W4303946188 hasAuthorship W4303946188A5059081976 @default.
W4303946188 hasAuthorship W4303946188A5091472924 @default.
W4303946188 hasBestOaLocation W43039461881 @default.
W4303946188 hasConcept C110872660 @default.
W4303946188 hasConcept C129513315 @default.