FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2074886631> ?p ?o ?g. }

• W2074886631 endingPage "16" @default.
• W2074886631 startingPage "1" @default.
• W2074886631 abstract "3-PG [Landsberg, J.J., Waring, R.H., 1997. A generalised model of forest productivity using simplified concepts of radiation-use efficiency, carbon balance and partitioning. Forest Ecol. Manage. 95, 209–228] is a process-based model using simplified physiological concepts such as light use efficiency, a constant ratio between net and gross primary production and a simple stand nutritional status parameter. This last parameter is commonly adjusted manually to fit observations, based on data from field surveys. It has been shown that nutritional status has a significant effect on estimated gross and net productivity and it has been suggested that the introduction of a soil sub-model could overcome such problems. This paper introduces a soil organic matter decomposition model within the routines of 3-PG. ICBM/2N (Introductory Carbon Balance Model [Andrén, O., Kätterer, T., 1997. ICBM: the introductory carbon balance model for exploration of soil carbon balance. Ecol. Appl. 7, 1226–1236]) was chosen because it operates at a level of complexity similar to 3-PG. The new model 3-PGN (3-PG Nitrogen) includes three soil carbon and three soil nitrogen pools with eleven additional parameters. This approach provides a new way to account for soil nutritional status within 3-PGN by introducing a fertility rating that varies over the life of a stand. We present the integrated model and describe the basic concepts of the integration. The model has been calibrated and tested for commercial plantations of Scots pine (Pinus sylvestris L.) in Scotland. An uncertainty analysis was performed based on a Bayesian framework using Monte Carlo simulations and a sensitivity analysis to understand the model’s feedbacks and interactions between parameters and outputs. The results show that the least uncertain parameters were the most sensitive, having the greatest effect on many of 3-PGN’s outputs, including quantum yield efficiency, specific leaf area and foliage:stem biomass partitioning ratio. Although the soil sub-model had no direct effect on productivity, strong non-linear relationships were found between many of the soil parameters and 3-PGN outputs. Root turnover rate was found to be the most uncertain parameter, whereas the ratio of net to gross primary production was the least. Finally, through the validation procedure it was shown that 3-PG’s self-thinning routine may cause problems when predicting the number of stems in stands with low fertility." @default.
• W2074886631 created "2016-06-24" @default.
• W2074886631 creator A5008002822 @default.
• W2074886631 creator A5074660606 @default.
• W2074886631 creator A5088437443 @default.
• W2074886631 date "2008-11-01" @default.
• W2074886631 modified "2023-09-25" @default.
• W2074886631 title "Sensitivity and uncertainty analysis from a coupled 3-PG and soil organic matter decomposition model" @default.
• W2074886631 cites W1491310250 @default.
• W2074886631 cites W1964712650 @default.
• W2074886631 cites W1965949516 @default.
• W2074886631 cites W1967471585 @default.
• W2074886631 cites W1968592777 @default.
• W2074886631 cites W1974384208 @default.
• W2074886631 cites W1975778832 @default.
• W2074886631 cites W1978420442 @default.
• W2074886631 cites W1979169411 @default.
• W2074886631 cites W1984261660 @default.
• W2074886631 cites W1991293931 @default.
• W2074886631 cites W1992981513 @default.
• W2074886631 cites W1994847616 @default.
• W2074886631 cites W1995268122 @default.
• W2074886631 cites W1995737178 @default.
• W2074886631 cites W1996554606 @default.
• W2074886631 cites W2000956428 @default.
• W2074886631 cites W2001952312 @default.
• W2074886631 cites W2007665948 @default.
• W2074886631 cites W2007830877 @default.
• W2074886631 cites W2010288361 @default.
• W2074886631 cites W2011248274 @default.
• W2074886631 cites W2014724138 @default.
• W2074886631 cites W2020245462 @default.
• W2074886631 cites W2029353551 @default.
• W2074886631 cites W2031925862 @default.
• W2074886631 cites W2039059650 @default.
• W2074886631 cites W2040682725 @default.
• W2074886631 cites W2048289753 @default.
• W2074886631 cites W2053481940 @default.
• W2074886631 cites W2054293705 @default.
• W2074886631 cites W2055933413 @default.
• W2074886631 cites W2056015657 @default.
• W2074886631 cites W2060864193 @default.
• W2074886631 cites W2063613693 @default.
• W2074886631 cites W2063920246 @default.
• W2074886631 cites W2070199501 @default.
• W2074886631 cites W2071272544 @default.
• W2074886631 cites W2073707640 @default.
• W2074886631 cites W2076343772 @default.
• W2074886631 cites W2078829925 @default.
• W2074886631 cites W2081649197 @default.
• W2074886631 cites W2086136673 @default.
• W2074886631 cites W2086315738 @default.
• W2074886631 cites W2088430758 @default.
• W2074886631 cites W2093451915 @default.
• W2074886631 cites W2102162342 @default.
• W2074886631 cites W2102846652 @default.
• W2074886631 cites W2106290374 @default.
• W2074886631 cites W2108643003 @default.
• W2074886631 cites W2110467872 @default.
• W2074886631 cites W2121768151 @default.
• W2074886631 cites W2137109668 @default.
• W2074886631 cites W2137532272 @default.
• W2074886631 cites W2138710913 @default.
• W2074886631 cites W2145053869 @default.
• W2074886631 cites W2157055265 @default.
• W2074886631 cites W2159357145 @default.
• W2074886631 cites W2160972615 @default.
• W2074886631 cites W2163904332 @default.
• W2074886631 cites W2163990714 @default.
• W2074886631 cites W2168329827 @default.
• W2074886631 cites W2169036712 @default.
• W2074886631 cites W2182572034 @default.
• W2074886631 cites W2209626904 @default.
• W2074886631 cites W2246174523 @default.
• W2074886631 cites W2321291706 @default.
• W2074886631 cites W2325532299 @default.
• W2074886631 cites W2333092408 @default.
• W2074886631 cites W2333332197 @default.
• W2074886631 doi "https://doi.org/10.1016/j.ecolmodel.2008.07.020" @default.
• W2074886631 hasPublicationYear "2008" @default.
• W2074886631 type Work @default.
• W2074886631 sameAs 2074886631 @default.
• W2074886631 citedByCount "79" @default.
• W2074886631 countsByYear W20748866312012 @default.
• W2074886631 countsByYear W20748866312013 @default.
• W2074886631 countsByYear W20748866312014 @default.
• W2074886631 countsByYear W20748866312015 @default.
• W2074886631 countsByYear W20748866312016 @default.
• W2074886631 countsByYear W20748866312017 @default.
• W2074886631 countsByYear W20748866312018 @default.
• W2074886631 countsByYear W20748866312019 @default.
• W2074886631 countsByYear W20748866312020 @default.
• W2074886631 countsByYear W20748866312021 @default.
• W2074886631 countsByYear W20748866312022 @default.
• W2074886631 countsByYear W20748866312023 @default.
• W2074886631 crossrefType "journal-article" @default.
• W2074886631 hasAuthorship W2074886631A5008002822 @default.
• W2074886631 hasAuthorship W2074886631A5074660606 @default.

• next