SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2310006512> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2310006512 endingPage "1130" @default.
W2310006512 startingPage "1118" @default.
W2310006512 abstract "Abstract We measured soil respiration across a soil moisture gradient ranging from dry to wet snow‐scoured alpine tundra soils throughout three winters and two summers. In the absence of snow accumulation, soil moisture variability was principally determined by the combination of mesotopographical hydrological focusing and shallow subsurface permeability, which resulted in a patchwork of comingled ecosystem types along a single alpine ridge. To constrain the subsequent carbon cycling variability, we compared three measures of effective diffusivity and three methods to calculate gradient method soil respiration from four typical vegetation communities. Overwinter soil respiration was primarily restricted to wet meadow locations, and a conservative estimate of the rate of overwinter soil respiration from snow‐scoured wet meadow tundra was 69–90% of the maximum carbon dioxide (CO 2 ) respired by seasonally snow‐covered soils within this same catchment. This was attributed to higher overwinter soil temperatures at wet meadow locations relative to fellfield, dry meadow, and moist meadow communities, which supported liquid water and heterotrophic respiration throughout the winter. These results were corroborated by eddy covariance‐based measurements that demonstrated an average of 272 g C m −2 overwinter carbon loss during the study period. As a result, we updated a conceptual model of soil respiration versus snow cover to express the potential for soil respiration variability from snow‐scoured alpine tundra." @default.
W2310006512 created "2016-06-24" @default.
W2310006512 creator A5020901116 @default.
W2310006512 creator A5046496287 @default.
W2310006512 creator A5064412993 @default.
W2310006512 date "2016-04-01" @default.
W2310006512 modified "2023-09-28" @default.
W2310006512 title "Wet meadow ecosystems contribute the majority of overwinter soil respiration from snow‐scoured alpine tundra" @default.
W2310006512 cites W1548298781 @default.
W2310006512 cites W1553196558 @default.
W2310006512 cites W1608212791 @default.
W2310006512 cites W186374832 @default.
W2310006512 cites W1956932062 @default.
W2310006512 cites W1964589705 @default.
W2310006512 cites W1966723802 @default.
W2310006512 cites W1969628505 @default.
W2310006512 cites W1972486375 @default.
W2310006512 cites W1973998243 @default.
W2310006512 cites W1978614965 @default.
W2310006512 cites W1982518595 @default.
W2310006512 cites W1984836060 @default.
W2310006512 cites W1988429087 @default.
W2310006512 cites W1988645116 @default.
W2310006512 cites W1994836455 @default.
W2310006512 cites W1996680975 @default.
W2310006512 cites W1998502566 @default.
W2310006512 cites W2001147321 @default.
W2310006512 cites W2001253404 @default.
W2310006512 cites W2011317716 @default.
W2310006512 cites W2014292653 @default.
W2310006512 cites W2015744536 @default.
W2310006512 cites W2017642101 @default.
W2310006512 cites W2025780491 @default.
W2310006512 cites W2033781209 @default.
W2310006512 cites W2034672914 @default.
W2310006512 cites W2039205883 @default.
W2310006512 cites W2039571901 @default.
W2310006512 cites W2045145743 @default.
W2310006512 cites W2052049998 @default.
W2310006512 cites W2053957981 @default.
W2310006512 cites W2054588113 @default.
W2310006512 cites W2057323998 @default.
W2310006512 cites W2063713584 @default.
W2310006512 cites W2067339912 @default.
W2310006512 cites W2069999757 @default.
W2310006512 cites W2074769503 @default.
W2310006512 cites W2083857556 @default.
W2310006512 cites W2084883495 @default.
W2310006512 cites W2094734189 @default.
W2310006512 cites W2096668295 @default.
W2310006512 cites W2098063133 @default.
W2310006512 cites W2103414794 @default.
W2310006512 cites W2104428171 @default.
W2310006512 cites W2104706381 @default.
W2310006512 cites W2104823477 @default.
W2310006512 cites W2106027175 @default.
W2310006512 cites W2106354542 @default.
W2310006512 cites W2109489508 @default.
W2310006512 cites W2109730769 @default.
W2310006512 cites W2110552836 @default.
W2310006512 cites W2115202180 @default.
W2310006512 cites W2115205695 @default.
W2310006512 cites W2119338229 @default.
W2310006512 cites W2124685322 @default.
W2310006512 cites W2126150423 @default.
W2310006512 cites W2126411788 @default.
W2310006512 cites W2128317583 @default.
W2310006512 cites W2130710644 @default.
W2310006512 cites W2132033894 @default.
W2310006512 cites W2138178637 @default.
W2310006512 cites W2140014421 @default.
W2310006512 cites W2141453534 @default.
W2310006512 cites W2148979610 @default.
W2310006512 cites W2151328940 @default.
W2310006512 cites W2162148354 @default.
W2310006512 cites W2166771157 @default.
W2310006512 cites W2170740637 @default.
W2310006512 cites W2171241350 @default.
W2310006512 cites W2171812215 @default.
W2310006512 cites W2173312355 @default.
W2310006512 cites W2173494882 @default.
W2310006512 cites W2173820956 @default.
W2310006512 cites W2237186299 @default.
W2310006512 cites W2312458292 @default.
W2310006512 cites W4250068274 @default.
W2310006512 cites W61553171 @default.
W2310006512 cites W794015432 @default.
W2310006512 cites W2235552342 @default.
W2310006512 doi "https://doi.org/10.1002/2015jg003081" @default.
W2310006512 hasPublicationYear "2016" @default.
W2310006512 type Work @default.
W2310006512 sameAs 2310006512 @default.
W2310006512 citedByCount "12" @default.
W2310006512 countsByYear W23100065122016 @default.
W2310006512 countsByYear W23100065122017 @default.
W2310006512 countsByYear W23100065122018 @default.
W2310006512 countsByYear W23100065122019 @default.
W2310006512 countsByYear W23100065122020 @default.