SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313197678> ?p ?o ?g. }

Showing items 1 to 100 of ±173 with 100 items per page.

W4313197678 endingPage "121" @default.
W4313197678 startingPage "109" @default.
W4313197678 abstract "The internal soil nitrogen (N) cycle supplies N to plants and microorganisms but may induce N pollution in the environment. Understanding the variability of gross N cycling rates resulting from the global spatial heterogeneity of climatic and edaphic variables is essential for estimating the potential risk of N loss. Here we compiled 4,032 observations from 398 published 15N pool dilution and tracing studies to analyse the interactions between soil internal potential N cycling and environmental effects. We observed that the global potential N cycle changes from a conservative cycle in forests to a less conservative one in grasslands and a leaky one in croplands. Structural equation modelling revealed that soil properties (soil pH, total N and carbon-to-N ratio) were more important than the climate factors in shaping the internal potential N cycle, but different patterns in the potential N cycle of terrestrial ecosystems across climatic zones were also determined. The high spatial variations in the global soil potential N cycle suggest that shifting cropland systems towards agroforestry systems can be a solution to improve N conservation." @default.
W4313197678 created "2023-01-06" @default.
W4313197678 creator A5002481249 @default.
W4313197678 creator A5013111597 @default.
W4313197678 creator A5013664177 @default.
W4313197678 creator A5029436410 @default.
W4313197678 creator A5037677450 @default.
W4313197678 creator A5039084091 @default.
W4313197678 creator A5039771142 @default.
W4313197678 creator A5041119007 @default.
W4313197678 creator A5041156375 @default.
W4313197678 creator A5063415414 @default.
W4313197678 creator A5069030931 @default.
W4313197678 creator A5070602783 @default.
W4313197678 creator A5074648825 @default.
W4313197678 creator A5087645836 @default.
W4313197678 date "2022-12-28" @default.
W4313197678 modified "2023-10-16" @default.
W4313197678 title "Expanding agroforestry can increase nitrate retention and mitigate the global impact of a leaky nitrogen cycle in croplands" @default.
W4313197678 cites W1544354930 @default.
W4313197678 cites W1831050183 @default.
W4313197678 cites W1876291902 @default.
W4313197678 cites W1913957972 @default.
W4313197678 cites W1966993963 @default.
W4313197678 cites W1974004335 @default.
W4313197678 cites W1979037150 @default.
W4313197678 cites W1979173658 @default.
W4313197678 cites W1983728617 @default.
W4313197678 cites W1986005069 @default.
W4313197678 cites W1986263876 @default.
W4313197678 cites W1990698901 @default.
W4313197678 cites W1997507798 @default.
W4313197678 cites W1998112697 @default.
W4313197678 cites W2000137148 @default.
W4313197678 cites W2003977258 @default.
W4313197678 cites W2011400198 @default.
W4313197678 cites W2014457868 @default.
W4313197678 cites W2021695026 @default.
W4313197678 cites W2031041055 @default.
W4313197678 cites W2040682725 @default.
W4313197678 cites W2091183522 @default.
W4313197678 cites W2108356966 @default.
W4313197678 cites W2111429702 @default.
W4313197678 cites W2116466955 @default.
W4313197678 cites W2117424366 @default.
W4313197678 cites W2118463604 @default.
W4313197678 cites W2124331465 @default.
W4313197678 cites W2130381736 @default.
W4313197678 cites W2133096477 @default.
W4313197678 cites W2136620900 @default.
W4313197678 cites W2149537945 @default.
W4313197678 cites W2149817684 @default.
W4313197678 cites W2152721701 @default.
W4313197678 cites W2161550924 @default.
W4313197678 cites W2165633649 @default.
W4313197678 cites W2175277448 @default.
W4313197678 cites W2272633438 @default.
W4313197678 cites W2398589445 @default.
W4313197678 cites W2555998936 @default.
W4313197678 cites W2560335651 @default.
W4313197678 cites W2587177916 @default.
W4313197678 cites W2588003345 @default.
W4313197678 cites W2601758562 @default.
W4313197678 cites W2614464134 @default.
W4313197678 cites W2768245670 @default.
W4313197678 cites W2773105561 @default.
W4313197678 cites W2793656403 @default.
W4313197678 cites W2897996224 @default.
W4313197678 cites W2898132299 @default.
W4313197678 cites W2904772082 @default.
W4313197678 cites W2906191251 @default.
W4313197678 cites W2955316307 @default.
W4313197678 cites W3012138550 @default.
W4313197678 cites W3033503109 @default.
W4313197678 cites W3040610013 @default.
W4313197678 cites W3098080777 @default.
W4313197678 cites W3126275837 @default.
W4313197678 cites W3126283134 @default.
W4313197678 cites W3169855463 @default.
W4313197678 cites W3181111230 @default.
W4313197678 cites W3182740548 @default.
W4313197678 cites W3193399689 @default.
W4313197678 cites W4200486479 @default.
W4313197678 cites W4212926022 @default.
W4313197678 cites W4220840206 @default.
W4313197678 cites W4285161834 @default.
W4313197678 cites W92141931 @default.
W4313197678 cites W979574313 @default.
W4313197678 doi "https://doi.org/10.1038/s43016-022-00657-x" @default.
W4313197678 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37118576" @default.
W4313197678 hasPublicationYear "2022" @default.
W4313197678 type Work @default.
W4313197678 citedByCount "16" @default.
W4313197678 countsByYear W43131976782023 @default.
W4313197678 crossrefType "journal-article" @default.
W4313197678 hasAuthorship W4313197678A5002481249 @default.
W4313197678 hasAuthorship W4313197678A5013111597 @default.
W4313197678 hasAuthorship W4313197678A5013664177 @default.