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W2608276768 startingPage "560" @default.
W2608276768 abstract "Abstract Nitrogen (N) and sulfur (S) depositions are much mitigated over the conterminous U.S. ( CONUS ) but deposition exceedance still exists on forest soil. In addition, the empirical approach is usually used but only provides a spatially constant critical load ( CL ). Therefore, the CL derived from steady‐state mass balance equation is used to study the CL exceedance on forest soil over the CONUS . The multimodel mean ( MMM ) of global climate‐chemistry models in 2000s indicates that total (wet + dry) N deposition alone over 10.32% of forest soil exceeds the CL , but a higher percent (30.16%) is observed by the N + S deposition, which highlights the necessity of considering S deposition. In 2050s, less CL ‐exceeded forest soil is projected and the exceedance amount is lower as well, mainly attributed to the strong reduction of projected NO X and SO 2 emissions. By first projecting the future CL due to the climate change, the CL exceedance could further decrease as the air temperature is projected to increase rapidly and lead to higher CL in the future. The CL exceedance by N deposition alone is likely to be dominated by NO y in 2000s but NH X in 2050s because of the enhanced NH 3 emission. Moreover, both in 2000s and 2050s, using the CL generated by different aggregation methods can cause up to 33 times difference between the corresponding CL exceedance. This suggests that several regions are under the marginal threat of either N or N + S deposition and different CL can influence the results significantly." @default.
W2608276768 created "2017-05-05" @default.
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W2608276768 date "2017-06-01" @default.
W2608276768 modified "2023-10-06" @default.
W2608276768 title "Climate-driven exceedance of total (wet + dry) nitrogen (N) + sulfur (S) deposition to forest soil over the conterminous U.S" @default.
W2608276768 cites W1535648032 @default.
W2608276768 cites W160072819 @default.
W2608276768 cites W1841280953 @default.
W2608276768 cites W1943630578 @default.
W2608276768 cites W1969409372 @default.
W2608276768 cites W1974657123 @default.
W2608276768 cites W1976048373 @default.
W2608276768 cites W1978186098 @default.
W2608276768 cites W1984259234 @default.
W2608276768 cites W1986259363 @default.
W2608276768 cites W1989803890 @default.
W2608276768 cites W1990157509 @default.
W2608276768 cites W1991308688 @default.
W2608276768 cites W1995413311 @default.
W2608276768 cites W2003099721 @default.
W2608276768 cites W2006652009 @default.
W2608276768 cites W2011015998 @default.
W2608276768 cites W2012196264 @default.
W2608276768 cites W2012375906 @default.
W2608276768 cites W2015680849 @default.
W2608276768 cites W2018041230 @default.
W2608276768 cites W2024966118 @default.
W2608276768 cites W2025516817 @default.
W2608276768 cites W2032313045 @default.
W2608276768 cites W2033104610 @default.
W2608276768 cites W2041006361 @default.
W2608276768 cites W2066305270 @default.
W2608276768 cites W2068535695 @default.
W2608276768 cites W2071756666 @default.
W2608276768 cites W2083965923 @default.
W2608276768 cites W2084354167 @default.
W2608276768 cites W2084562739 @default.
W2608276768 cites W2097160124 @default.
W2608276768 cites W2100712170 @default.
W2608276768 cites W2106963750 @default.
W2608276768 cites W2115309006 @default.
W2608276768 cites W2116488107 @default.
W2608276768 cites W2123788505 @default.
W2608276768 cites W2127817933 @default.
W2608276768 cites W2128883699 @default.
W2608276768 cites W2130602797 @default.
W2608276768 cites W2133304304 @default.
W2608276768 cites W2136080546 @default.
W2608276768 cites W2136816516 @default.
W2608276768 cites W2139314206 @default.
W2608276768 cites W2141045626 @default.
W2608276768 cites W2142306678 @default.
W2608276768 cites W2144923127 @default.
W2608276768 cites W2147073553 @default.
W2608276768 cites W2149352713 @default.
W2608276768 cites W2149527649 @default.
W2608276768 cites W2151219339 @default.
W2608276768 cites W2153184054 @default.
W2608276768 cites W2155725298 @default.
W2608276768 cites W2157352958 @default.
W2608276768 cites W2158140310 @default.
W2608276768 cites W2164994170 @default.
W2608276768 cites W2171828886 @default.
W2608276768 cites W2322905197 @default.
W2608276768 cites W2480928911 @default.
W2608276768 cites W2497541889 @default.
W2608276768 cites W4249136615 @default.
W2608276768 doi "https://doi.org/10.1002/2017ef000588" @default.
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