SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4378473611> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4378473611 endingPage "1461" @default.
W4378473611 startingPage "1461" @default.
W4378473611 abstract "Soil nitrogen (N) is a common limiting factor where soil N-cycling is a key component of agroecosystems. Soil N transformation processes are largely mediated by microbes, and understanding bacteria involvement in soil N-cycling in agricultural systems has both agronomic and environmental importance. This 2 yr field-scale study examined the abundances and spatial distributions of the total bacterial community (16S rRNA), bacteria involved in nitrification (amoA) and denitrification (narG, nirK, and nosZ), and soil physicochemical properties of winter wheat (Triticum aestivum L.)–soybean (Glycine max L.) double-crop with 2–3 weeks of spring grazing (WGS) and without grazing (WS) and tall fescue (Festuca arundinacea (L.) Schreb.) pasture (TF) managed to near-natural conditions with similar grazing. The TF soil had a significantly higher abundance of 16S rRNA, amoA, narG, nirK, and nosZ genes than the WS and WGS soils, which had similar levels between themselves. Soil organic matter (OM) and soil pH had stronger effects on the N-cycling bacteria gene abundance. All bacterial gene concentrations and soil pH showed nonrandom distribution patterns with a 141–186 m range autocorrelation. These results indicate that biological N transformation processes are more important in natural agricultural systems and the abundance of N-cycling bacteria can be manipulated by field-scale management strategies." @default.
W4378473611 created "2023-05-27" @default.
W4378473611 creator A5015305312 @default.
W4378473611 creator A5028237879 @default.
W4378473611 creator A5047356099 @default.
W4378473611 creator A5067898570 @default.
W4378473611 creator A5090541524 @default.
W4378473611 date "2023-05-25" @default.
W4378473611 modified "2023-10-18" @default.
W4378473611 title "Effects of Cropping Systems on Soil Physicochemical Properties and Abundances and Spatial Distributions of Nitrogen-Cycling Bacteria" @default.
W4378473611 cites W1605287193 @default.
W4378473611 cites W1878020421 @default.
W4378473611 cites W1893798359 @default.
W4378473611 cites W1970341101 @default.
W4378473611 cites W1973263615 @default.
W4378473611 cites W1975275356 @default.
W4378473611 cites W1986655175 @default.
W4378473611 cites W1991808736 @default.
W4378473611 cites W1991908792 @default.
W4378473611 cites W1995647569 @default.
W4378473611 cites W1997280480 @default.
W4378473611 cites W1998610462 @default.
W4378473611 cites W2003350987 @default.
W4378473611 cites W2003573943 @default.
W4378473611 cites W2004107049 @default.
W4378473611 cites W2007029938 @default.
W4378473611 cites W2013079134 @default.
W4378473611 cites W2014457868 @default.
W4378473611 cites W2014906238 @default.
W4378473611 cites W2016647139 @default.
W4378473611 cites W2017973394 @default.
W4378473611 cites W2018919105 @default.
W4378473611 cites W2022813109 @default.
W4378473611 cites W2023738422 @default.
W4378473611 cites W2027160236 @default.
W4378473611 cites W2031707856 @default.
W4378473611 cites W2033594403 @default.
W4378473611 cites W2036965158 @default.
W4378473611 cites W2038036959 @default.
W4378473611 cites W2038239334 @default.
W4378473611 cites W2039019401 @default.
W4378473611 cites W2042136279 @default.
W4378473611 cites W2049104909 @default.
W4378473611 cites W2052082268 @default.
W4378473611 cites W2052611179 @default.
W4378473611 cites W2055151521 @default.
W4378473611 cites W2055235343 @default.
W4378473611 cites W2058319766 @default.
W4378473611 cites W2062127705 @default.
W4378473611 cites W2066543976 @default.
W4378473611 cites W2069084892 @default.
W4378473611 cites W2070323124 @default.
W4378473611 cites W2076268350 @default.
W4378473611 cites W2086527514 @default.
W4378473611 cites W2089175197 @default.
W4378473611 cites W2092818583 @default.
W4378473611 cites W2098612608 @default.
W4378473611 cites W2098935951 @default.
W4378473611 cites W2103232060 @default.
W4378473611 cites W2109872613 @default.
W4378473611 cites W2110046114 @default.
W4378473611 cites W2132454110 @default.
W4378473611 cites W2134539878 @default.
W4378473611 cites W2139156166 @default.
W4378473611 cites W2154736508 @default.
W4378473611 cites W2154936985 @default.
W4378473611 cites W2160601111 @default.
W4378473611 cites W2165137364 @default.
W4378473611 cites W2169192768 @default.
W4378473611 cites W2179716611 @default.
W4378473611 cites W2183880527 @default.
W4378473611 cites W2741097025 @default.
W4378473611 cites W3092504970 @default.
W4378473611 cites W3113109911 @default.
W4378473611 cites W3122612173 @default.
W4378473611 cites W4211150307 @default.
W4378473611 cites W4243812754 @default.
W4378473611 cites W893496476 @default.
W4378473611 doi "https://doi.org/10.3390/agronomy13061461" @default.
W4378473611 hasPublicationYear "2023" @default.
W4378473611 type Work @default.
W4378473611 citedByCount "0" @default.
W4378473611 crossrefType "journal-article" @default.
W4378473611 hasAuthorship W4378473611A5015305312 @default.
W4378473611 hasAuthorship W4378473611A5028237879 @default.
W4378473611 hasAuthorship W4378473611A5047356099 @default.
W4378473611 hasAuthorship W4378473611A5067898570 @default.
W4378473611 hasAuthorship W4378473611A5090541524 @default.
W4378473611 hasBestOaLocation W43784736111 @default.
W4378473611 hasConcept C159750122 @default.
W4378473611 hasConcept C164752452 @default.
W4378473611 hasConcept C166957645 @default.
W4378473611 hasConcept C178790620 @default.
W4378473611 hasConcept C182124840 @default.
W4378473611 hasConcept C185592680 @default.
W4378473611 hasConcept C18903297 @default.
W4378473611 hasConcept C2777904157 @default.
W4378473611 hasConcept C33411773 @default.