SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4293032621> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4293032621 endingPage "158216" @default.
W4293032621 startingPage "158216" @default.
W4293032621 abstract "Rapid land use change has significantly increased nitrate (NO3−) loading to rivers, leading to eutrophication, and posing water security problems. Determining the sources of NO3− to waters and the underlying influential factors is critical for effectively reducing pollution and better managing water resources. Here, we identified the sources and influencing mechanisms of NO3− in a mixed land-use watershed by integrating stable isotopes (δ15N-NO3− and δ18O-NO3−), molecular biology, water chemistry, and landscape metrics measurements. Weak transformation processes of NO3− were identified in the river, as evinced by water chemistry, isotopes, species compositions, and predicted microbial genes related to nitrogen metabolism. NO3− concentrations were primarily influenced by exogenous inputs (i.e., from soil nitrogen (NS), nitrogen fertilizer (NF), and manure & sewage (MS)). The proportions of NO3− sources seasonally varied. In the wet season, the source contributions followed the order of NS (38.6 %) > NF (31.4 %) > atmospheric deposition (ND, 16.2 %) > MS (13.8 %). In the dry season, the contributions were in the order of MS (39.2 %) > NS (29.2 %) > NF (29 %) > ND (2.6 %). Farmland and construction land were the original factors influencing the spatial distribution of NO3− in the wet and dry seasons, respectively, while slope, basin relief (HD), hypsometric integral (HI), and COHESION, HD were the primary indicators associated with NO3− transport in the wet and dry seasons, respectively. Additionally, spatial scale differences were observed for the effects of landscape structure on NO3− concentrations, with the greatest effect at the 1000-m buffer zone scale in the wet season and at the sub-basin scale in the dry season. This study overcomes the limitation of isotopes in identifying nitrate sources by combining multiple approaches and provides new research perspectives for the determination of nitrate sources and migration in other watersheds." @default.
W4293032621 created "2022-08-25" @default.
W4293032621 creator A5009491344 @default.
W4293032621 creator A5047554403 @default.
W4293032621 creator A5049078993 @default.
W4293032621 creator A5056450584 @default.
W4293032621 creator A5062774825 @default.
W4293032621 creator A5068959434 @default.
W4293032621 creator A5083559506 @default.
W4293032621 date "2022-12-01" @default.
W4293032621 modified "2023-10-17" @default.
W4293032621 title "Sources and migration similarly determine nitrate concentrations: Integrating isotopic, landscape, and biological approaches" @default.
W4293032621 cites W1008267083 @default.
W4293032621 cites W1914381787 @default.
W4293032621 cites W1967048892 @default.
W4293032621 cites W1981921533 @default.
W4293032621 cites W1984257790 @default.
W4293032621 cites W2032292978 @default.
W4293032621 cites W2036559319 @default.
W4293032621 cites W2038023694 @default.
W4293032621 cites W2045507079 @default.
W4293032621 cites W2058238925 @default.
W4293032621 cites W2079648396 @default.
W4293032621 cites W2098606504 @default.
W4293032621 cites W2104415129 @default.
W4293032621 cites W2104807280 @default.
W4293032621 cites W2105850249 @default.
W4293032621 cites W2106507111 @default.
W4293032621 cites W2113141996 @default.
W4293032621 cites W2120187175 @default.
W4293032621 cites W2129163149 @default.
W4293032621 cites W2401404581 @default.
W4293032621 cites W2557190658 @default.
W4293032621 cites W2564303052 @default.
W4293032621 cites W2589059093 @default.
W4293032621 cites W2592367925 @default.
W4293032621 cites W2619539351 @default.
W4293032621 cites W2729727354 @default.
W4293032621 cites W2737383162 @default.
W4293032621 cites W2746374575 @default.
W4293032621 cites W2757087086 @default.
W4293032621 cites W2765617621 @default.
W4293032621 cites W2773663752 @default.
W4293032621 cites W2782445071 @default.
W4293032621 cites W2785402486 @default.
W4293032621 cites W2786671949 @default.
W4293032621 cites W2807235500 @default.
W4293032621 cites W2894983079 @default.
W4293032621 cites W2942067822 @default.
W4293032621 cites W2963276645 @default.
W4293032621 cites W2998828480 @default.
W4293032621 cites W3001153730 @default.
W4293032621 cites W3004464401 @default.
W4293032621 cites W3005408137 @default.
W4293032621 cites W3005606038 @default.
W4293032621 cites W3010709549 @default.
W4293032621 cites W3015727435 @default.
W4293032621 cites W3030441098 @default.
W4293032621 cites W3080316213 @default.
W4293032621 cites W3082659428 @default.
W4293032621 cites W3088222451 @default.
W4293032621 cites W3111458592 @default.
W4293032621 cites W3119776520 @default.
W4293032621 cites W3120074694 @default.
W4293032621 cites W3138118804 @default.
W4293032621 cites W3160086361 @default.
W4293032621 cites W3177086158 @default.
W4293032621 cites W3185865431 @default.
W4293032621 cites W3197350106 @default.
W4293032621 cites W3201315067 @default.
W4293032621 cites W3206574210 @default.
W4293032621 cites W3211303040 @default.
W4293032621 cites W3217071572 @default.
W4293032621 cites W4206003186 @default.
W4293032621 cites W4206162904 @default.
W4293032621 cites W4211078249 @default.
W4293032621 cites W4214649962 @default.
W4293032621 cites W4220756107 @default.
W4293032621 cites W4220756499 @default.
W4293032621 cites W4220970964 @default.
W4293032621 cites W4225502353 @default.
W4293032621 cites W4282972395 @default.
W4293032621 doi "https://doi.org/10.1016/j.scitotenv.2022.158216" @default.
W4293032621 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36028031" @default.
W4293032621 hasPublicationYear "2022" @default.
W4293032621 type Work @default.
W4293032621 citedByCount "3" @default.
W4293032621 countsByYear W42930326212023 @default.
W4293032621 crossrefType "journal-article" @default.
W4293032621 hasAuthorship W4293032621A5009491344 @default.
W4293032621 hasAuthorship W4293032621A5047554403 @default.
W4293032621 hasAuthorship W4293032621A5049078993 @default.
W4293032621 hasAuthorship W4293032621A5056450584 @default.
W4293032621 hasAuthorship W4293032621A5062774825 @default.
W4293032621 hasAuthorship W4293032621A5068959434 @default.
W4293032621 hasAuthorship W4293032621A5083559506 @default.
W4293032621 hasConcept C107872376 @default.
W4293032621 hasConcept C119857082 @default.