SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2789909874> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2789909874 endingPage "246" @default.
W2789909874 startingPage "231" @default.
W2789909874 abstract "Seasonal soil freeze-thaw events may enhance soil nitrogen transformation and thus stimulate nitrous oxide (N2O) emissions in cold regions. However, the mechanisms of soil N2O emission during the freeze-thaw cycling in the field remain unclear. We evaluated N2O emissions and soil biotic and abiotic factors in maize and paddy fields over 20 months in Northeast China, and the structural equation model (SEM) was used to determine which factors affected N2O production during non-growing season. Our results verified that the seasonal freeze-thaw cycles mitigated the available soil nitrogen and carbon limitation during spring thawing period, but simultaneously increased the gaseous N2O-N losses at the annual time scale under field condition. The N2O-N cumulative losses during the non-growing season amounted to 0.71 and 0.55 kg N ha−1 for the paddy and maize fields, respectively, and contributed to 66 and 18% of the annual total. The highest emission rates (199.2–257.4 µg m−2 h−1) were observed during soil thawing for both fields, but we did not observe an emission peak during soil freezing in early winter. Although the pulses of N2O emission in spring were short-lived (18 d), it resulted in approximately 80% of the non-growing season N2O-N loss. The N2O burst during the spring thawing was triggered by the combined impact of high soil moisture, flush available nitrogen and carbon, and rapid recovery of microbial biomass. SEM analysis indicated that the soil moisture, available substrates including NH4+ and dissolved organic carbon (DOC), and microbial biomass nitrogen (MBN) explained 32, 36, 16 and 51% of the N2O flux variation, respectively, during the non-growing season. Our results suggested that N2O emission during the spring thawing make a vital contribution of the annual nitrogen budget, and the vast seasonally frozen and snow-covered croplands will have high potential to exert a positive feedback on climate change considering the sensitive response of nitrogen biogeochemical cycling to the freeze-thaw disturbance." @default.
W2789909874 created "2018-03-29" @default.
W2789909874 creator A5005904627 @default.
W2789909874 creator A5008717103 @default.
W2789909874 creator A5009817195 @default.
W2789909874 creator A5023257111 @default.
W2789909874 creator A5062253236 @default.
W2789909874 creator A5082443250 @default.
W2789909874 creator A5086982301 @default.
W2789909874 creator A5087631945 @default.
W2789909874 creator A5088703939 @default.
W2789909874 date "2018-01-01" @default.
W2789909874 modified "2023-10-12" @default.
W2789909874 title "Nitrous oxide emissions following seasonal freeze-thaw events from arable soils in Northeast China" @default.
W2789909874 cites W1822789980 @default.
W2789909874 cites W1825166394 @default.
W2789909874 cites W1968317338 @default.
W2789909874 cites W1969056482 @default.
W2789909874 cites W1969231397 @default.
W2789909874 cites W1969294922 @default.
W2789909874 cites W1973674017 @default.
W2789909874 cites W1975321671 @default.
W2789909874 cites W1975391315 @default.
W2789909874 cites W1977856249 @default.
W2789909874 cites W1978922574 @default.
W2789909874 cites W1984097950 @default.
W2789909874 cites W1985553137 @default.
W2789909874 cites W1987183134 @default.
W2789909874 cites W1994879144 @default.
W2789909874 cites W1996994642 @default.
W2789909874 cites W2001692484 @default.
W2789909874 cites W2002901229 @default.
W2789909874 cites W2005507895 @default.
W2789909874 cites W2009225674 @default.
W2789909874 cites W2014292653 @default.
W2789909874 cites W2015789373 @default.
W2789909874 cites W2018548418 @default.
W2789909874 cites W2019774637 @default.
W2789909874 cites W2024807951 @default.
W2789909874 cites W2025921183 @default.
W2789909874 cites W2036052388 @default.
W2789909874 cites W2036292528 @default.
W2789909874 cites W2040740707 @default.
W2789909874 cites W2041230234 @default.
W2789909874 cites W2041559901 @default.
W2789909874 cites W2041854232 @default.
W2789909874 cites W2045936858 @default.
W2789909874 cites W2050932334 @default.
W2789909874 cites W2052356677 @default.
W2789909874 cites W2057406469 @default.
W2789909874 cites W2061580641 @default.
W2789909874 cites W2063669074 @default.
W2789909874 cites W2065479547 @default.
W2789909874 cites W2066677771 @default.
W2789909874 cites W2068269825 @default.
W2789909874 cites W2077723871 @default.
W2789909874 cites W2079030388 @default.
W2789909874 cites W2082339111 @default.
W2789909874 cites W2083173842 @default.
W2789909874 cites W2084571644 @default.
W2789909874 cites W2086599780 @default.
W2789909874 cites W2088628729 @default.
W2789909874 cites W2091127440 @default.
W2789909874 cites W2096941721 @default.
W2789909874 cites W2098432852 @default.
W2789909874 cites W2104706381 @default.
W2789909874 cites W2105172241 @default.
W2789909874 cites W2115202180 @default.
W2789909874 cites W2126346280 @default.
W2789909874 cites W2139610873 @default.
W2789909874 cites W2155397635 @default.
W2789909874 cites W2156913135 @default.
W2789909874 cites W2157994386 @default.
W2789909874 cites W2159504526 @default.
W2789909874 cites W2161038005 @default.
W2789909874 cites W2165150881 @default.
W2789909874 cites W2174964376 @default.
W2789909874 cites W2288828370 @default.
W2789909874 cites W4234162668 @default.
W2789909874 cites W4247650231 @default.
W2789909874 cites W4248068614 @default.
W2789909874 doi "https://doi.org/10.1016/s2095-3119(17)61738-6" @default.
W2789909874 hasPublicationYear "2018" @default.
W2789909874 type Work @default.
W2789909874 sameAs 2789909874 @default.
W2789909874 citedByCount "19" @default.
W2789909874 countsByYear W27899098742019 @default.
W2789909874 countsByYear W27899098742020 @default.
W2789909874 countsByYear W27899098742021 @default.
W2789909874 countsByYear W27899098742022 @default.
W2789909874 countsByYear W27899098742023 @default.
W2789909874 crossrefType "journal-article" @default.
W2789909874 hasAuthorship W2789909874A5005904627 @default.
W2789909874 hasAuthorship W2789909874A5008717103 @default.
W2789909874 hasAuthorship W2789909874A5009817195 @default.
W2789909874 hasAuthorship W2789909874A5023257111 @default.
W2789909874 hasAuthorship W2789909874A5062253236 @default.
W2789909874 hasAuthorship W2789909874A5082443250 @default.