FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2124846883> ?p ?o ?g. }

• W2124846883 endingPage "146" @default.
• W2124846883 startingPage "125" @default.
• W2124846883 abstract "Abstract. The carbon dioxide (CO2) exchange of five different peatland systems across Europe with a wide gradient in land use intensity, water table depth, soil fertility and climate was simulated with the process oriented CoupModel. The aim of the study was to find out whether CO2 fluxes, measured at different sites, can be explained by common processes and parameters or to what extend a site specific configuration is needed. The model was calibrated to fit measured CO2 fluxes, soil temperature, snow depth and leaf area index (LAI) and resulting differences in model parameters were analyzed. Finding site independent model parameters would mean that differences in the measured fluxes could be explained solely by model input data: water table, meteorological data, management and soil inventory data. Seasonal variability in the major fluxes was well captured, when a site independent configuration was utilized for most of the parameters. Parameters that differed between sites included the rate of soil organic decomposition, photosynthetic efficiency, and regulation of the mobile carbon (C) pool from senescence to shooting in the next year. The largest difference between sites was the rate coefficient for heterotrophic respiration. Setting it to a common value would lead to underestimation of mean total respiration by a factor of 2.8 up to an overestimation by a factor of 4. Despite testing a wide range of different responses to soil water and temperature, rate coefficients for heterotrophic respiration were consistently the lowest on formerly drained sites and the highest on the managed sites. Substrate decomposability, pH and vegetation characteristics are possible explanations for the differences in decomposition rates. Specific parameter values for the timing of plant shooting and senescence, the photosynthesis response to temperature, litter fall and plant respiration rates, leaf morphology and allocation fractions of new assimilates, were not needed, even though the gradient in site latitude ranged from 48° N (southern Germany) to 68° N (northern Finland) differed largely in their vegetation. This was also true for common parameters defining the moisture and temperature response for decomposition, leading to the conclusion that a site specific interpretation of these processes is not necessary. In contrast, the rate of soil organic decomposition, photosynthetic efficiency, and the regulation of the mobile carbon pool need to be estimated from available information on specific soil conditions, vegetation and management of the ecosystems, to be able to describe CO2 fluxes under different conditions." @default.
• W2124846883 created "2016-06-24" @default.
• W2124846883 creator A5023333232 @default.
• W2124846883 creator A5031651964 @default.
• W2124846883 creator A5035048689 @default.
• W2124846883 creator A5048216734 @default.
• W2124846883 creator A5049913221 @default.
• W2124846883 creator A5051231036 @default.
• W2124846883 creator A5054992934 @default.
• W2124846883 creator A5064125680 @default.
• W2124846883 creator A5067216869 @default.
• W2124846883 creator A5079606099 @default.
• W2124846883 date "2015-01-09" @default.
• W2124846883 modified "2023-10-07" @default.
• W2124846883 title "CO&lt;sub&gt;2&lt;/sub&gt; fluxes and ecosystem dynamics at five European treeless peatlands – merging data and process oriented modeling" @default.
• W2124846883 cites W1006492857 @default.
• W2124846883 cites W1580389970 @default.
• W2124846883 cites W1634036610 @default.
• W2124846883 cites W169563758 @default.
• W2124846883 cites W1729949491 @default.
• W2124846883 cites W1764663024 @default.
• W2124846883 cites W1816393679 @default.
• W2124846883 cites W1886568167 @default.
• W2124846883 cites W192694849 @default.
• W2124846883 cites W1949175914 @default.
• W2124846883 cites W1963530500 @default.
• W2124846883 cites W1964848212 @default.
• W2124846883 cites W1968308376 @default.
• W2124846883 cites W1968767226 @default.
• W2124846883 cites W1974430151 @default.
• W2124846883 cites W1975944301 @default.
• W2124846883 cites W1979399305 @default.
• W2124846883 cites W1980782300 @default.
• W2124846883 cites W1980853261 @default.
• W2124846883 cites W1982795779 @default.
• W2124846883 cites W1984673449 @default.
• W2124846883 cites W1985450515 @default.
• W2124846883 cites W1991921673 @default.
• W2124846883 cites W1994228237 @default.
• W2124846883 cites W1995174243 @default.
• W2124846883 cites W1996189619 @default.
• W2124846883 cites W1996222696 @default.
• W2124846883 cites W2004387153 @default.
• W2124846883 cites W2005200390 @default.
• W2124846883 cites W2007953650 @default.
• W2124846883 cites W2015431698 @default.
• W2124846883 cites W2019082239 @default.
• W2124846883 cites W2019989918 @default.
• W2124846883 cites W2020303694 @default.
• W2124846883 cites W2021885731 @default.
• W2124846883 cites W2023430690 @default.
• W2124846883 cites W2026836154 @default.
• W2124846883 cites W2028162143 @default.
• W2124846883 cites W2032600630 @default.
• W2124846883 cites W2033657643 @default.
• W2124846883 cites W2033904036 @default.
• W2124846883 cites W2034558874 @default.
• W2124846883 cites W2034745711 @default.
• W2124846883 cites W2038314666 @default.
• W2124846883 cites W2038759268 @default.
• W2124846883 cites W2041808035 @default.
• W2124846883 cites W2043397185 @default.
• W2124846883 cites W2046844233 @default.
• W2124846883 cites W2046857879 @default.
• W2124846883 cites W2048568378 @default.
• W2124846883 cites W2049866359 @default.
• W2124846883 cites W2050161052 @default.
• W2124846883 cites W2051844881 @default.
• W2124846883 cites W2052453639 @default.
• W2124846883 cites W2055412019 @default.
• W2124846883 cites W2057040031 @default.
• W2124846883 cites W2058781594 @default.
• W2124846883 cites W2058998445 @default.
• W2124846883 cites W2060783632 @default.
• W2124846883 cites W2061685166 @default.
• W2124846883 cites W2063442894 @default.
• W2124846883 cites W2065061260 @default.
• W2124846883 cites W2065920533 @default.
• W2124846883 cites W2068365366 @default.
• W2124846883 cites W2068559602 @default.
• W2124846883 cites W2069425521 @default.
• W2124846883 cites W2069522992 @default.
• W2124846883 cites W2070340751 @default.
• W2124846883 cites W2073162319 @default.
• W2124846883 cites W2073555669 @default.
• W2124846883 cites W2074444609 @default.
• W2124846883 cites W2076240252 @default.
• W2124846883 cites W2077603999 @default.
• W2124846883 cites W2080344679 @default.
• W2124846883 cites W2081346522 @default.
• W2124846883 cites W2083630386 @default.
• W2124846883 cites W2085393432 @default.
• W2124846883 cites W2085688980 @default.
• W2124846883 cites W2088316803 @default.
• W2124846883 cites W2088529320 @default.
• W2124846883 cites W2089599121 @default.
• W2124846883 cites W2089940084 @default.
• W2124846883 cites W2090399133 @default.

• next