SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4366283054> ?p ?o ?g. }

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

W4366283054 endingPage "119758" @default.
W4366283054 startingPage "119758" @default.
W4366283054 abstract "Mountain ecosystems are particularly sensitive to the effects of climate change and require a detailed understanding of how their components respond to the varying environmental conditions. However, the knowledge of crucial biogeochemical variables, such as carbon dioxide (CO2) fluxes in the Critical Zone of high-altitude grassland and Alpine tundra, is still patchy. In this framework, two methods are typically adopted to measure CO2 exchanges between the atmosphere and the underlying ecosystem: eddy covariance and accumulation chambers. Potential drawbacks affect both approaches, also depending on the scale at which studies are performed. On the one hand, eddy covariance method provides large spatial coverage, despite requiring specific statistical assumptions that are not always valid in remote environments. In addition, the eddy covariance method allows measuring only the CO2 net ecosystem exchange (NEE), while the separation of CO2 emission (ecosystem respiration, ER) and uptake (gross primary production, GPP), needed for understanding ecosystem functioning and its possible future changes, requires partitioning procedures based on regressive models. On the other hand, accumulation chambers allow for direct measurements of both NEE and ER but are usually limited to sampling small areas and the chambers themselves could potentially disturb plant-soil dynamics. The present study investigates such issues by combining three complementary methods (i.e., eddy covariance, portable and automated accumulation chambers) to measure summer CO2 fluxes at the soil-vegetation-atmosphere interface in a heavily instrumented high-altitude Alpine tundra site. While eddy covariance and portable chamber measurements provide consistent estimates of the NEE, a significant discrepancy between the results of the different methodologies was found for daytime ER. In particular, the eddy covariance daytime and nighttime partitioning methods failed in representing ER at the ecosystem scale. The discrepancy between modelled and measured ER suggests that different processes are involved during day and night, which are not fully represented in models. These aspects would require further explorations to achieve site-specific assessments of daytime ER." @default.
W4366283054 created "2023-04-20" @default.
W4366283054 creator A5005731587 @default.
W4366283054 creator A5015320596 @default.
W4366283054 creator A5018358038 @default.
W4366283054 creator A5047354419 @default.
W4366283054 creator A5058745787 @default.
W4366283054 creator A5071123067 @default.
W4366283054 creator A5075725098 @default.
W4366283054 creator A5091834089 @default.
W4366283054 creator A5091864130 @default.
W4366283054 date "2023-07-01" @default.
W4366283054 modified "2023-10-15" @default.
W4366283054 title "Carbon dioxide exchanges in an alpine tundra ecosystem (Gran Paradiso National Park, Italy): A comparison of results from different measurement and modelling approaches" @default.
W4366283054 cites W1170869847 @default.
W4366283054 cites W1489331011 @default.
W4366283054 cites W1495861450 @default.
W4366283054 cites W1495935281 @default.
W4366283054 cites W1594394486 @default.
W4366283054 cites W1838347895 @default.
W4366283054 cites W1974281082 @default.
W4366283054 cites W1977018620 @default.
W4366283054 cites W1982518595 @default.
W4366283054 cites W1983039731 @default.
W4366283054 cites W1992237432 @default.
W4366283054 cites W1992951757 @default.
W4366283054 cites W1997669475 @default.
W4366283054 cites W2002413090 @default.
W4366283054 cites W2004177958 @default.
W4366283054 cites W2009952998 @default.
W4366283054 cites W2015218468 @default.
W4366283054 cites W2017935290 @default.
W4366283054 cites W2033991808 @default.
W4366283054 cites W2035800981 @default.
W4366283054 cites W2036828213 @default.
W4366283054 cites W2047594307 @default.
W4366283054 cites W2048836483 @default.
W4366283054 cites W2050728582 @default.
W4366283054 cites W2051825471 @default.
W4366283054 cites W2058473571 @default.
W4366283054 cites W2060629327 @default.
W4366283054 cites W2061619823 @default.
W4366283054 cites W2063229479 @default.
W4366283054 cites W2064373874 @default.
W4366283054 cites W2069937280 @default.
W4366283054 cites W2080394556 @default.
W4366283054 cites W2086129733 @default.
W4366283054 cites W2089743635 @default.
W4366283054 cites W2089940084 @default.
W4366283054 cites W2101535815 @default.
W4366283054 cites W2103170539 @default.
W4366283054 cites W2104618325 @default.
W4366283054 cites W2105926746 @default.
W4366283054 cites W2108614290 @default.
W4366283054 cites W2109382956 @default.
W4366283054 cites W2117324426 @default.
W4366283054 cites W2119280015 @default.
W4366283054 cites W2123033677 @default.
W4366283054 cites W2123095840 @default.
W4366283054 cites W2124437404 @default.
W4366283054 cites W2125208602 @default.
W4366283054 cites W2125690256 @default.
W4366283054 cites W2128342866 @default.
W4366283054 cites W2134872513 @default.
W4366283054 cites W2136275943 @default.
W4366283054 cites W2136343563 @default.
W4366283054 cites W2137825246 @default.
W4366283054 cites W2141138783 @default.
W4366283054 cites W2144653885 @default.
W4366283054 cites W2145047243 @default.
W4366283054 cites W2149541905 @default.
W4366283054 cites W2150897594 @default.
W4366283054 cites W2151277668 @default.
W4366283054 cites W2152078335 @default.
W4366283054 cites W2153731430 @default.
W4366283054 cites W2154047482 @default.
W4366283054 cites W2156748700 @default.
W4366283054 cites W2159661490 @default.
W4366283054 cites W2161134866 @default.
W4366283054 cites W2163838566 @default.
W4366283054 cites W2166537412 @default.
W4366283054 cites W2166981751 @default.
W4366283054 cites W2168437445 @default.
W4366283054 cites W2171038748 @default.
W4366283054 cites W2172267151 @default.
W4366283054 cites W2277360983 @default.
W4366283054 cites W2317614243 @default.
W4366283054 cites W2338049369 @default.
W4366283054 cites W2471520604 @default.
W4366283054 cites W2550772755 @default.
W4366283054 cites W2565190302 @default.
W4366283054 cites W2587890738 @default.
W4366283054 cites W2588655708 @default.
W4366283054 cites W2593911307 @default.
W4366283054 cites W2785822431 @default.
W4366283054 cites W2795519352 @default.
W4366283054 cites W2892846357 @default.
W4366283054 cites W2893077119 @default.