SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220921875> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W4220921875 endingPage "1057" @default.
W4220921875 startingPage "1043" @default.
W4220921875 abstract "Abstract Accurate estimation of field‐scale nitrous oxide (N 2 O) fluxes is hindered by their considerable variability and the fact that soils can be both sources and sinks for N 2 O. This is particularly challenging for organic systems that have complex rotations and inputs. This study used digital soil mapping and survey datasets to explore spatial controls of N 2 O “hot moments” induced by precipitation with strategic sampling designed to identify covariates that influence N 2 O emission patterns. Soil N 2 O fluxes after rain events were measured within three management zones (MZs, “High,” “Medium,” “Low”) delineated by crop productivity, soil fertility, and hydrological features in eight organic fields during the 2018 and 2019 corn ( Zea mays L.) growing seasons. Hot moments typically occurring 1 d after rain events included both positive and negative N 2 O fluxes. The MZ‐based design identified regions with different patterns in positive and negative flux, with hotspots for both being co‐located with areas of poorer drainage and higher soil fertility. Covariates that best explained hot moments included corn growth stage, soil moisture, slope, texture, and soil organic matter. Negative fluxes were large enough to offset positive fluxes so that averaged net N 2 O fluxes were only significantly different between the “High” and “Low” MZs. Had negative fluxes been omitted, averaged N 2 O fluxes would have increased estimates by 37%. Processes that lead to N 2 O consumptions must be better quantified to improve the estimation of management‐associated net N 2 O flux. Use of strategic sampling can efficiently capture needed information, but spatial and temporal weighting is needed to scale up results." @default.
W4220921875 created "2022-04-03" @default.
W4220921875 creator A5058279136 @default.
W4220921875 creator A5063418144 @default.
W4220921875 date "2022-06-08" @default.
W4220921875 modified "2023-10-03" @default.
W4220921875 title "Management zone‐based estimation of positive and negative nitrous oxide flux in organic corn fields" @default.
W4220921875 cites W114368392 @default.
W4220921875 cites W117473814 @default.
W4220921875 cites W1525322564 @default.
W4220921875 cites W1615875926 @default.
W4220921875 cites W1965408989 @default.
W4220921875 cites W1971406865 @default.
W4220921875 cites W1974852309 @default.
W4220921875 cites W1976578386 @default.
W4220921875 cites W1977886366 @default.
W4220921875 cites W1984183099 @default.
W4220921875 cites W1985388258 @default.
W4220921875 cites W1990519943 @default.
W4220921875 cites W1993995685 @default.
W4220921875 cites W1994144095 @default.
W4220921875 cites W1999273040 @default.
W4220921875 cites W2007170430 @default.
W4220921875 cites W2008984396 @default.
W4220921875 cites W2010634334 @default.
W4220921875 cites W2011487739 @default.
W4220921875 cites W2013480950 @default.
W4220921875 cites W2015898643 @default.
W4220921875 cites W2020103149 @default.
W4220921875 cites W2022558297 @default.
W4220921875 cites W2024339093 @default.
W4220921875 cites W2025294204 @default.
W4220921875 cites W2028715918 @default.
W4220921875 cites W2030113875 @default.
W4220921875 cites W2030129039 @default.
W4220921875 cites W2031298155 @default.
W4220921875 cites W2034988289 @default.
W4220921875 cites W2035012971 @default.
W4220921875 cites W2037695967 @default.
W4220921875 cites W2039114009 @default.
W4220921875 cites W2048546797 @default.
W4220921875 cites W2049576122 @default.
W4220921875 cites W2050849212 @default.
W4220921875 cites W2050951885 @default.
W4220921875 cites W2057966317 @default.
W4220921875 cites W2059210052 @default.
W4220921875 cites W2059310744 @default.
W4220921875 cites W2059591801 @default.
W4220921875 cites W2063405905 @default.
W4220921875 cites W2063478482 @default.
W4220921875 cites W2067332202 @default.
W4220921875 cites W2073328412 @default.
W4220921875 cites W2074444609 @default.
W4220921875 cites W2075844317 @default.
W4220921875 cites W2078255071 @default.
W4220921875 cites W2079285085 @default.
W4220921875 cites W2080965694 @default.
W4220921875 cites W2083577986 @default.
W4220921875 cites W2084354167 @default.
W4220921875 cites W2085632645 @default.
W4220921875 cites W2085946946 @default.
W4220921875 cites W2086427838 @default.
W4220921875 cites W2098317128 @default.
W4220921875 cites W2113809048 @default.
W4220921875 cites W2119036966 @default.
W4220921875 cites W2122003193 @default.
W4220921875 cites W2122750577 @default.
W4220921875 cites W2139709933 @default.
W4220921875 cites W2149971561 @default.
W4220921875 cites W2150565587 @default.
W4220921875 cites W2155315279 @default.
W4220921875 cites W2157319615 @default.
W4220921875 cites W2160249582 @default.
W4220921875 cites W2164672226 @default.
W4220921875 cites W2190504458 @default.
W4220921875 cites W2214679177 @default.
W4220921875 cites W2301846096 @default.
W4220921875 cites W2427883871 @default.
W4220921875 cites W2471093865 @default.
W4220921875 cites W2510490788 @default.
W4220921875 cites W2569341847 @default.
W4220921875 cites W2575802108 @default.
W4220921875 cites W2584649914 @default.
W4220921875 cites W2596936141 @default.
W4220921875 cites W2731451157 @default.
W4220921875 cites W2743153264 @default.
W4220921875 cites W2890061548 @default.
W4220921875 cites W2895334373 @default.
W4220921875 cites W2901327480 @default.
W4220921875 cites W2902366906 @default.
W4220921875 cites W2945106660 @default.
W4220921875 cites W2953064599 @default.
W4220921875 cites W2955569711 @default.
W4220921875 cites W3042909653 @default.
W4220921875 cites W3084549644 @default.
W4220921875 cites W600199390 @default.
W4220921875 cites W79444159 @default.
W4220921875 doi "https://doi.org/10.1002/saj2.20416" @default.