SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2144109712> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W2144109712 endingPage "4744" @default.
W2144109712 startingPage "4725" @default.
W2144109712 abstract "We examined relationships between the pore structure of microaggregates and the protection of organic matter (OM) within that structure. By using ultra-small angle X-ray scattering (USAXS) before and after combustion of microaggregates at 350 °C, we took advantage of differences in X-ray scattering contrast among soil minerals, OM, and air to evaluate the distribution of the total- and OM-filled porosity within microaggregates (53–250 μm in diameter). Systematic changes in microaggregate structure were observed for long-term field manipulations of land use (a chronosequence of tallgrass prairie restorations) and agricultural management (conventional tillage versus no-till at two levels of nitrogen fertilization). Our results imply that OM preservation arose from the evolution of the architectural system of microaggregates during their formation and stabilization. Soils and treatments with increasing OM in microaggregates were associated with encapsulation of colloidal OM by minerals, thereby creating protected OM-filled pores at the submicron scale within the microaggregate structure. For example, in the prairie chronosequence, microaggregates from the cultivated soil had the lowest concentration of OM, but 75% of the OM that had survived cultivation was in OM-filled pores. Following restoration, the concentration of OM in microaggregates increased rapidly, but the proportion of OM in OM-filled pores declined initially and then increased over time until 90% of the OM was in OM-filled pores. OM totally encapsulated within the pore structure can create spatial and kinetic constraints on microbial access to and degradation of OM. Encapsulation of OM increases the capacity for its protection relative to sorption on mineral surfaces, and comparison of its extent among treatments suggests important feedback loops. The use of USAXS, which has not previously been applied to the study of soil aggregate structures and the distribution of OM within those structures, provided new information on the mechanisms of OM protection in soil microaggregates, and insights relevant to strategies for enhancing carbon-sequestration in soil through changes in agricultural management practices and land use." @default.
W2144109712 created "2016-06-24" @default.
W2144109712 creator A5006302282 @default.
W2144109712 creator A5028836317 @default.
W2144109712 creator A5068749208 @default.
W2144109712 creator A5074151270 @default.
W2144109712 creator A5074875268 @default.
W2144109712 creator A5089796746 @default.
W2144109712 date "2008-10-01" @default.
W2144109712 modified "2023-10-16" @default.
W2144109712 title "Protection of organic carbon in soil microaggregates via restructuring of aggregate porosity and filling of pores with accumulating organic matter" @default.
W2144109712 cites W1232018196 @default.
W2144109712 cites W1838679777 @default.
W2144109712 cites W1857591892 @default.
W2144109712 cites W1964165614 @default.
W2144109712 cites W1964539371 @default.
W2144109712 cites W1964713699 @default.
W2144109712 cites W1966151777 @default.
W2144109712 cites W1968239947 @default.
W2144109712 cites W1970800786 @default.
W2144109712 cites W1971746713 @default.
W2144109712 cites W1974716464 @default.
W2144109712 cites W1975062306 @default.
W2144109712 cites W1975348539 @default.
W2144109712 cites W1976306069 @default.
W2144109712 cites W1977469383 @default.
W2144109712 cites W1978166588 @default.
W2144109712 cites W1989844432 @default.
W2144109712 cites W1996601324 @default.
W2144109712 cites W2001983715 @default.
W2144109712 cites W2005791005 @default.
W2144109712 cites W2006644656 @default.
W2144109712 cites W2006933583 @default.
W2144109712 cites W2007452817 @default.
W2144109712 cites W2011254969 @default.
W2144109712 cites W2020352481 @default.
W2144109712 cites W2021134532 @default.
W2144109712 cites W2021254328 @default.
W2144109712 cites W2038222364 @default.
W2144109712 cites W2038261209 @default.
W2144109712 cites W2038485694 @default.
W2144109712 cites W2038930161 @default.
W2144109712 cites W2041483208 @default.
W2144109712 cites W2043906171 @default.
W2144109712 cites W2045346339 @default.
W2144109712 cites W2045760167 @default.
W2144109712 cites W2046532370 @default.
W2144109712 cites W2049049639 @default.
W2144109712 cites W2050109729 @default.
W2144109712 cites W2051685700 @default.
W2144109712 cites W2052695121 @default.
W2144109712 cites W2053467509 @default.
W2144109712 cites W2055394787 @default.
W2144109712 cites W2055681067 @default.
W2144109712 cites W2064352180 @default.
W2144109712 cites W2065091521 @default.
W2144109712 cites W2066459710 @default.
W2144109712 cites W2066721135 @default.
W2144109712 cites W2071792515 @default.
W2144109712 cites W2076126545 @default.
W2144109712 cites W2079385155 @default.
W2144109712 cites W2080595861 @default.
W2144109712 cites W2082032284 @default.
W2144109712 cites W2083355713 @default.
W2144109712 cites W2083411163 @default.
W2144109712 cites W2084474840 @default.
W2144109712 cites W2085413005 @default.
W2144109712 cites W2090491564 @default.
W2144109712 cites W2091851047 @default.
W2144109712 cites W2095439456 @default.
W2144109712 cites W2108329565 @default.
W2144109712 cites W2108894388 @default.
W2144109712 cites W2110406941 @default.
W2144109712 cites W2112520156 @default.
W2144109712 cites W2114399833 @default.
W2144109712 cites W2121349836 @default.
W2144109712 cites W2123567531 @default.
W2144109712 cites W2123685920 @default.
W2144109712 cites W2123981120 @default.
W2144109712 cites W2132615315 @default.
W2144109712 cites W2134304095 @default.
W2144109712 cites W2136820276 @default.
W2144109712 cites W2138540827 @default.
W2144109712 cites W2139405554 @default.
W2144109712 cites W2158060143 @default.
W2144109712 cites W2169073836 @default.
W2144109712 cites W2169682163 @default.
W2144109712 cites W2312199777 @default.
W2144109712 cites W4236805637 @default.
W2144109712 cites W4237607561 @default.
W2144109712 cites W4254530486 @default.
W2144109712 cites W74749860 @default.
W2144109712 cites W95285130 @default.
W2144109712 doi "https://doi.org/10.1016/j.gca.2008.06.015" @default.
W2144109712 hasPublicationYear "2008" @default.
W2144109712 type Work @default.
W2144109712 sameAs 2144109712 @default.
W2144109712 citedByCount "156" @default.