SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2146712337> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2146712337 endingPage "174" @default.
W2146712337 startingPage "159" @default.
W2146712337 abstract "Abstract. Extreme sensitivity of soil organic carbon (SOC) to climate and land use change warrants further research in different terrestrial ecosystems. The aim of this study was to investigate the link between aggregate and SOC dynamics in a chronosequence of three different land uses of a south Chilean Andisol: a second growth Nothofagus obliqua forest (SGFOR), a grassland (GRASS) and a Pinus radiata plantation (PINUS). Total carbon content of the 0-10cm soil layer was higher for GRASS (6.7 kg C m-2) than for PINUS (4.3 kg C m-2, while TC content of SGFOR (5.8 kg C m-2) was not significantly different from either one. High extractable oxalate and pyrophosphate Al concentrations (varying from 20.3-24.4 g kg-1, and 3.9-11.1 g kg-1, respectively) were found in all sites. In this study, SOC and aggregate dynamics were studied using size and density fractionation experiments of the SOC, δ13C and total carbon analysis of the different SOC fractions, and C mineralization experiments. The results showed that electrostatic sorption between and among amorphous Al components and clay minerals is mainly responsible for the formation of metal-humus-clay complexes and the stabilization of soil aggregates. The process of ligand exchange between SOC and Al would be of minor importance resulting in the absence of aggregate hierarchy in this soil type. Whole soil C mineralization rate constants were highest for SGFOR and PINUS, followed by GRASS (respectively 0.495, 0.266 and 0.196 g CO2-Cm-2d-1 for the top soil layer). In contrast, incubation experiments of isolated macro organic matter fractions gave opposite results, showing that the recalcitrance of the SOC decreased in another order: PINUS>SGFOR>GRASS. We deduced that electrostatic sorption processes and physical protection of SOC in soil aggregates were the main processes determining SOC stabilization. As a result, high aggregate carbon concentrations, varying from 148 till 48 g kg-1, were encountered for all land use sites. Al availability and electrostatic charges are dependent on pH, resulting in an important influence of soil pH on aggregate stability. Recalcitrance of the SOC did not appear to largely affect SOC stabilization. Statistical correlations between extractable amorphous Al contents, aggregate stability and C mineralization rate constants were encountered, supporting this hypothesis. Land use changes affected SOC dynamics and aggregate stability by modifying soil pH (and thus electrostatic charges and available Al content), root SOC input and management practices (such as ploughing and accompanying drying of the soil)." @default.
W2146712337 created "2016-06-24" @default.
W2146712337 creator A5012160633 @default.
W2146712337 creator A5012789902 @default.
W2146712337 creator A5031648453 @default.
W2146712337 creator A5049482051 @default.
W2146712337 creator A5051401733 @default.
W2146712337 date "2005-06-24" @default.
W2146712337 modified "2023-10-13" @default.
W2146712337 title "Aggregate and soil organic carbon dynamics in South Chilean Andisols" @default.
W2146712337 cites W1120451216 @default.
W2146712337 cites W1519244282 @default.
W2146712337 cites W1857591892 @default.
W2146712337 cites W1880078023 @default.
W2146712337 cites W1967808559 @default.
W2146712337 cites W1972254023 @default.
W2146712337 cites W1973279175 @default.
W2146712337 cites W1973502440 @default.
W2146712337 cites W1976747019 @default.
W2146712337 cites W1977658568 @default.
W2146712337 cites W1979724232 @default.
W2146712337 cites W1980907230 @default.
W2146712337 cites W1990505667 @default.
W2146712337 cites W1996440470 @default.
W2146712337 cites W1997469764 @default.
W2146712337 cites W2001044752 @default.
W2146712337 cites W2004237248 @default.
W2146712337 cites W2004977609 @default.
W2146712337 cites W2008474570 @default.
W2146712337 cites W2011241334 @default.
W2146712337 cites W2014060726 @default.
W2146712337 cites W2017437552 @default.
W2146712337 cites W2022935059 @default.
W2146712337 cites W2028344330 @default.
W2146712337 cites W2039797905 @default.
W2146712337 cites W2041483208 @default.
W2146712337 cites W2041837133 @default.
W2146712337 cites W2045689427 @default.
W2146712337 cites W2053467509 @default.
W2146712337 cites W2058220374 @default.
W2146712337 cites W2061697915 @default.
W2146712337 cites W2067602387 @default.
W2146712337 cites W2071918617 @default.
W2146712337 cites W2072627116 @default.
W2146712337 cites W2075997490 @default.
W2146712337 cites W2079725226 @default.
W2146712337 cites W2081369590 @default.
W2146712337 cites W2087445988 @default.
W2146712337 cites W2088272255 @default.
W2146712337 cites W2099176431 @default.
W2146712337 cites W2107325428 @default.
W2146712337 cites W2108744281 @default.
W2146712337 cites W2123567531 @default.
W2146712337 cites W2123981120 @default.
W2146712337 cites W2124466580 @default.
W2146712337 cites W2132827474 @default.
W2146712337 cites W2134461348 @default.
W2146712337 cites W2139405554 @default.
W2146712337 cites W2143386838 @default.
W2146712337 cites W2162694587 @default.
W2146712337 cites W2174069807 @default.
W2146712337 cites W2237939624 @default.
W2146712337 cites W2316462306 @default.
W2146712337 cites W3006140569 @default.
W2146712337 cites W318143065 @default.
W2146712337 cites W391249760 @default.
W2146712337 cites W95285130 @default.
W2146712337 cites W97273727 @default.
W2146712337 doi "https://doi.org/10.5194/bg-2-159-2005" @default.
W2146712337 hasPublicationYear "2005" @default.
W2146712337 type Work @default.
W2146712337 sameAs 2146712337 @default.
W2146712337 citedByCount "95" @default.
W2146712337 countsByYear W21467123372012 @default.
W2146712337 countsByYear W21467123372013 @default.
W2146712337 countsByYear W21467123372014 @default.
W2146712337 countsByYear W21467123372015 @default.
W2146712337 countsByYear W21467123372016 @default.
W2146712337 countsByYear W21467123372017 @default.
W2146712337 countsByYear W21467123372018 @default.
W2146712337 countsByYear W21467123372019 @default.
W2146712337 countsByYear W21467123372020 @default.
W2146712337 countsByYear W21467123372021 @default.
W2146712337 countsByYear W21467123372022 @default.
W2146712337 countsByYear W21467123372023 @default.
W2146712337 crossrefType "journal-article" @default.
W2146712337 hasAuthorship W2146712337A5012160633 @default.
W2146712337 hasAuthorship W2146712337A5012789902 @default.
W2146712337 hasAuthorship W2146712337A5031648453 @default.
W2146712337 hasAuthorship W2146712337A5049482051 @default.
W2146712337 hasAuthorship W2146712337A5051401733 @default.
W2146712337 hasBestOaLocation W21467123371 @default.
W2146712337 hasConcept C107872376 @default.
W2146712337 hasConcept C111696902 @default.
W2146712337 hasConcept C158787203 @default.
W2146712337 hasConcept C159390177 @default.
W2146712337 hasConcept C159750122 @default.
W2146712337 hasConcept C182124840 @default.