SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3133750854> ?p ?o ?g. }

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

W3133750854 endingPage "103971" @default.
W3133750854 startingPage "103971" @default.
W3133750854 abstract "Long-term fertilization has been recognized as a key factor controlling soil organic carbon (SOC) and crop yields at various scales. Therefore, the impact of long-term nutrient management on SOC contents, fractional distribution, C-mineralization, and crop productivity under maize mono-cropping was investigated in the present work. For this, a typical black soil in northeast China was collected and analysed to measure the organic carbon (OC) content in the bulk soil, the distribution and OC contents of the different SOC fractions including, coarse particulate organic carbon (cPOC) and free particulate organic carbon (fPOC), intra-aggregate particulate organic carbon (iPOC), free silt plus clay (s + c_f) and micro-aggregate derived silt plus clay (s + c_m), and the SOC mineralization dynamics under different fertilizer treatments. Treatments included: 1) unfertilized control (CK), 2) balanced mineral fertilization (NPK), 3) NPK combined with manure (MNPK), 4) NPK combined with high dose (1.5 times) of manure (1.5MNPK), and 5) NPK combined with crop straw (NPKS). Manure treatments (1.5MNPK and MNPK) led to the largest increase in the SOC content of bulk soil (97% for 1.5MNPK and 41% for MNPK respect to CK). In addition, the long-term fertilization improved the proportions of the cPOC, fPOC and iPOC, especially in the case of manure treatments. In this same way, in comparison to CK, manure treatments (1.5MNPK and MNPK) significantly increased the SOC contents in cPOC (by 96 and 57%, respectively), fPOC (by 146 and 91%, respectively), iPOC (by 160 and 113%, respectively), s + c_f (by 51 and 39%, respectively) and s + c_m (by 56 and 50%, respectively) fractions. Similarly, higher values of SOC mineralization were associated with the 1.5MNPK and MNPK treatments as compared to CK, NPKS, and NPK alone. Finally, the application of 1.5MNPK and MNPK resulted in the highest increase in maize grain yield and in straw biomass yield. Therefore, the results obtained clearly indicate that long-term fertilization using manure combined with mineral fertilizer is the best choice to improve the SOC sequestration and mineralization, as well as the crop yields. All these facts can be considered relevant from points of view related to environmental management, soil fertility, and cleaner crop production." @default.
W3133750854 created "2021-03-15" @default.
W3133750854 creator A5002831727 @default.
W3133750854 creator A5024286385 @default.
W3133750854 creator A5027888245 @default.
W3133750854 creator A5031833623 @default.
W3133750854 creator A5037031927 @default.
W3133750854 creator A5039910424 @default.
W3133750854 creator A5043342388 @default.
W3133750854 creator A5044380299 @default.
W3133750854 creator A5048493414 @default.
W3133750854 creator A5065216572 @default.
W3133750854 creator A5073760760 @default.
W3133750854 creator A5091741482 @default.
W3133750854 date "2021-09-01" @default.
W3133750854 modified "2023-10-18" @default.
W3133750854 title "Long-term fertilization enhanced carbon mineralization and maize biomass through physical protection of organic carbon in fractions under continuous maize cropping" @default.
W3133750854 cites W1970705836 @default.
W3133750854 cites W1980310181 @default.
W3133750854 cites W1982578410 @default.
W3133750854 cites W1984105672 @default.
W3133750854 cites W1991560169 @default.
W3133750854 cites W1993625714 @default.
W3133750854 cites W1994228237 @default.
W3133750854 cites W1997018201 @default.
W3133750854 cites W1998661178 @default.
W3133750854 cites W2007679272 @default.
W3133750854 cites W2015806530 @default.
W3133750854 cites W2025799576 @default.
W3133750854 cites W2026214785 @default.
W3133750854 cites W2026782542 @default.
W3133750854 cites W2030676847 @default.
W3133750854 cites W2039692574 @default.
W3133750854 cites W2041480548 @default.
W3133750854 cites W2044157761 @default.
W3133750854 cites W2057010012 @default.
W3133750854 cites W2058240375 @default.
W3133750854 cites W2066459710 @default.
W3133750854 cites W2071318944 @default.
W3133750854 cites W2071496932 @default.
W3133750854 cites W2088480569 @default.
W3133750854 cites W2088934918 @default.
W3133750854 cites W2092344749 @default.
W3133750854 cites W2094449570 @default.
W3133750854 cites W2100695498 @default.
W3133750854 cites W2105694708 @default.
W3133750854 cites W2110406941 @default.
W3133750854 cites W2123677366 @default.
W3133750854 cites W2129172403 @default.
W3133750854 cites W2132978013 @default.
W3133750854 cites W2139250267 @default.
W3133750854 cites W2139405554 @default.
W3133750854 cites W2140409693 @default.
W3133750854 cites W2147035709 @default.
W3133750854 cites W2148333466 @default.
W3133750854 cites W2155236826 @default.
W3133750854 cites W2159345969 @default.
W3133750854 cites W2226941555 @default.
W3133750854 cites W2293601804 @default.
W3133750854 cites W2314164566 @default.
W3133750854 cites W2516619087 @default.
W3133750854 cites W2520766113 @default.
W3133750854 cites W2554202116 @default.
W3133750854 cites W2589425829 @default.
W3133750854 cites W2602921893 @default.
W3133750854 cites W2607131306 @default.
W3133750854 cites W2727753504 @default.
W3133750854 cites W2766795230 @default.
W3133750854 cites W2792827541 @default.
W3133750854 cites W2798205098 @default.
W3133750854 cites W2883033343 @default.
W3133750854 cites W2900616963 @default.
W3133750854 cites W2903507926 @default.
W3133750854 cites W2909958266 @default.
W3133750854 cites W2912974994 @default.
W3133750854 cites W2936470833 @default.
W3133750854 cites W2945799254 @default.
W3133750854 cites W2966336292 @default.
W3133750854 cites W2991559539 @default.
W3133750854 cites W2994839191 @default.
W3133750854 cites W2998372841 @default.
W3133750854 cites W3013388676 @default.
W3133750854 cites W3023000788 @default.
W3133750854 cites W3035711033 @default.
W3133750854 cites W3048062813 @default.
W3133750854 doi "https://doi.org/10.1016/j.apsoil.2021.103971" @default.
W3133750854 hasPublicationYear "2021" @default.
W3133750854 type Work @default.
W3133750854 sameAs 3133750854 @default.
W3133750854 citedByCount "42" @default.
W3133750854 countsByYear W31337508542021 @default.
W3133750854 countsByYear W31337508542022 @default.
W3133750854 countsByYear W31337508542023 @default.
W3133750854 crossrefType "journal-article" @default.
W3133750854 hasAuthorship W3133750854A5002831727 @default.
W3133750854 hasAuthorship W3133750854A5024286385 @default.
W3133750854 hasAuthorship W3133750854A5027888245 @default.
W3133750854 hasAuthorship W3133750854A5031833623 @default.