SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382542571> ?p ?o ?g. }

Showing items 1 to 100 of ±171 with 100 items per page.

W4382542571 endingPage "131974" @default.
W4382542571 startingPage "131974" @default.
W4382542571 abstract "Early evidence has elucidated that the spread of antibiotic (ARGs) and metal resistance genes (MRGs) are mainly attributed to the selection pressure in human-influenced environments. However, whether and how biotic and abiotic factors mediate the distribution of ARGs and MRGs in mangrove sediments under natural sedimentation is largely unclear. Here, we profiled the abundance and diversity of ARGs and MRGs and their relationships with sedimental microbiomes in 0-100 cm mangrove sediments. Our results identified multidrug-resistance and multimetal-resistance as the most abundant ARG and MRG classes, and their abundances generally decreased with the sediment depth. Instead of abiotic factors such as nutrients and antibiotics, the bacterial diversity was significantly negatively correlated with the abundance and diversity of resistomes. Also, the majority of resistance classes (e.g., multidrug and arsenic) were carried by more diverse bacterial hosts in deep layers with low abundances of resistance genes. Together, our results indicated that bacterial diversity was the most important biotic factor driving the vertical profile of ARGs and MRGs in the mangrove sediment. Given that there is a foreseeable increasing human impact on natural environments, this study emphasizes the important role of biodiversity in driving the abundance and diversity of ARGs and MRGs." @default.
W4382542571 created "2023-06-30" @default.
W4382542571 creator A5022181850 @default.
W4382542571 creator A5027463811 @default.
W4382542571 creator A5033455957 @default.
W4382542571 creator A5044150300 @default.
W4382542571 creator A5044240597 @default.
W4382542571 creator A5047663633 @default.
W4382542571 creator A5048279362 @default.
W4382542571 creator A5061973931 @default.
W4382542571 creator A5068819007 @default.
W4382542571 creator A5070188363 @default.
W4382542571 creator A5072019962 @default.
W4382542571 creator A5074241199 @default.
W4382542571 creator A5078650604 @default.
W4382542571 creator A5080665586 @default.
W4382542571 creator A5081622671 @default.
W4382542571 creator A5083546197 @default.
W4382542571 creator A5091638404 @default.
W4382542571 date "2023-09-01" @default.
W4382542571 modified "2023-10-14" @default.
W4382542571 title "The vertically-stratified resistomes in mangrove sediments was driven by the bacterial diversity" @default.
W4382542571 cites W1153662360 @default.
W4382542571 cites W1971757487 @default.
W4382542571 cites W2009933778 @default.
W4382542571 cites W2012365024 @default.
W4382542571 cites W2027184506 @default.
W4382542571 cites W2037900484 @default.
W4382542571 cites W2045204781 @default.
W4382542571 cites W2045817362 @default.
W4382542571 cites W2049550628 @default.
W4382542571 cites W2050334727 @default.
W4382542571 cites W2053789575 @default.
W4382542571 cites W2056106377 @default.
W4382542571 cites W2058729834 @default.
W4382542571 cites W2074191899 @default.
W4382542571 cites W2075258130 @default.
W4382542571 cites W2087113228 @default.
W4382542571 cites W2090448961 @default.
W4382542571 cites W2095713067 @default.
W4382542571 cites W2109818300 @default.
W4382542571 cites W2118554039 @default.
W4382542571 cites W2120316710 @default.
W4382542571 cites W2130426665 @default.
W4382542571 cites W2131271579 @default.
W4382542571 cites W2138949886 @default.
W4382542571 cites W2143485490 @default.
W4382542571 cites W2143842034 @default.
W4382542571 cites W2150097751 @default.
W4382542571 cites W2159869703 @default.
W4382542571 cites W2167419903 @default.
W4382542571 cites W2180695509 @default.
W4382542571 cites W2207760002 @default.
W4382542571 cites W2227972161 @default.
W4382542571 cites W2300480104 @default.
W4382542571 cites W2303656007 @default.
W4382542571 cites W2315521535 @default.
W4382542571 cites W2415444124 @default.
W4382542571 cites W2563315795 @default.
W4382542571 cites W2592811885 @default.
W4382542571 cites W2621959421 @default.
W4382542571 cites W2759159973 @default.
W4382542571 cites W2768753541 @default.
W4382542571 cites W2770878437 @default.
W4382542571 cites W2771209793 @default.
W4382542571 cites W2805398678 @default.
W4382542571 cites W2887001423 @default.
W4382542571 cites W2889713700 @default.
W4382542571 cites W2890924527 @default.
W4382542571 cites W2902478650 @default.
W4382542571 cites W2919028449 @default.
W4382542571 cites W2951274106 @default.
W4382542571 cites W2962615948 @default.
W4382542571 cites W2964771029 @default.
W4382542571 cites W2971094633 @default.
W4382542571 cites W2990618091 @default.
W4382542571 cites W3005177197 @default.
W4382542571 cites W3022704487 @default.
W4382542571 cites W3027974862 @default.
W4382542571 cites W3034835385 @default.
W4382542571 cites W3081197848 @default.
W4382542571 cites W3086590667 @default.
W4382542571 cites W3091803267 @default.
W4382542571 cites W3109659479 @default.
W4382542571 cites W3121744581 @default.
W4382542571 cites W3127367360 @default.
W4382542571 cites W3128039816 @default.
W4382542571 cites W3135002088 @default.
W4382542571 cites W3200895441 @default.
W4382542571 cites W3210002685 @default.
W4382542571 cites W4200405976 @default.
W4382542571 cites W4214816172 @default.
W4382542571 cites W4221004067 @default.
W4382542571 cites W4281762786 @default.
W4382542571 cites W4283792057 @default.
W4382542571 cites W4322632045 @default.
W4382542571 cites W4362611966 @default.
W4382542571 doi "https://doi.org/10.1016/j.jhazmat.2023.131974" @default.