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W3183185869 endingPage "100414" @default.
W3183185869 startingPage "100414" @default.
W3183185869 abstract "Although phosphorus (P) addition and arbuscular mycorrhizal fungal (AMF) colonization have potential for mitigating soil N2O emission, the effects and mechanisms remain unresolved. We conducted a pot experiment with ryegrass (Lolium perenne) growing in a growth chamber for 80 days with three factors: Plant and AMF presence (unplanted, with plants, with plants colonized by AMF), two nitrogen (N) addition levels (0 and 50 mg N kg−1 soil) and two P addition levels (0 and 20 mg P kg−1 soil). Our results showed that N addition and AMF colonization had insignificant effects on soil N2O emission. However, the presence of plants decreased soil N2O emission by 90%–99% (planted vs. unplanted) under P addition. Moreover, P addition increased (+134%) N2O emission from unplanted soil, but decreased (74%–98%) it from planted soil. Further analysis showed that soil N2O emission was controlled by soil available P, soil NO3−-N, plant biomass P and N across all treatments. The lower N2O emissions from planted soils were mainly due to the lower soil NO3−-N content which might be immobilized by plant biomass, while the higher N2O emissions from unplanted soils under P addition were attributed to the increased soil available P content. Furthermore, we found an antagonistic effect between AMF inoculation and P addition on soil N2O emission because sufficient soil P may inhibit AMF colonization and activity. Taken together, we conclude that plant presence combined with P addition can effectively reduce N2O emission from P-limited soils." @default.
W3183185869 created "2021-08-02" @default.
W3183185869 creator A5000377962 @default.
W3183185869 creator A5016083588 @default.
W3183185869 creator A5017172191 @default.
W3183185869 creator A5020840825 @default.
W3183185869 date "2021-09-01" @default.
W3183185869 modified "2023-10-17" @default.
W3183185869 title "Soil N2O emissions are more sensitive to phosphorus addition and plant presence than to nitrogen addition and arbuscular mycorrhizal fungal inoculation" @default.
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W3183185869 doi "https://doi.org/10.1016/j.rhisph.2021.100414" @default.
W3183185869 hasPublicationYear "2021" @default.
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