Christina Asanopoulos
YOU?
Author Swipe
View article: Uncovering Statistically Significant Changes in Soil Organic Carbon Stocks Across the Australian Agricultural Landscape
Uncovering Statistically Significant Changes in Soil Organic Carbon Stocks Across the Australian Agricultural Landscape Open
View article: Uncovering Statistically Significant Changes in Soil Organic Carbon Stocks Across the Australian Agricultural Landscape
Uncovering Statistically Significant Changes in Soil Organic Carbon Stocks Across the Australian Agricultural Landscape Open
View article: Comparison of pyrogenic carbon abundance in coarse-textured soil by hydrogen pyrolysis, NMR and dichromate oxidation and MIR-PLSR
Comparison of pyrogenic carbon abundance in coarse-textured soil by hydrogen pyrolysis, NMR and dichromate oxidation and MIR-PLSR Open
Soil pyrogenic carbon (PyC) is of considerable significance to the global carbon cycle as a carbon pool which is resistant to mineralization and thus offers opportunities to facilitate net carbon sequestration. Quantifying the size and dyn…
View article: Blue nitrogen follows the fate of tidal wetlands
Blue nitrogen follows the fate of tidal wetlands Open
Tidal wetlands are hotspots of soil accumulation due to high sedimentation rates and low soil oxygen concentrations that inhibit organic matter decomposition1. Accordingly, tidal wetlands can sequester “blue carbon” at much higher rates th…
View article: Estimating the attainable soil organic carbon deficit in the soil fine fraction to inform feasible storage targets and de-risk carbon farming decisions
Estimating the attainable soil organic carbon deficit in the soil fine fraction to inform feasible storage targets and de-risk carbon farming decisions Open
Context Defining soil organic carbon (SOC) ‘potential’ storage, underpins the economic feasibility of carbon sequestration; however, ‘potential’ storage is not quantifiable using historical and current empirical data. We propose a framewor…
View article: Interpreting ramped combustion thermograms using 13C NMR spectroscopy to characterize soil organic matter composition
Interpreting ramped combustion thermograms using 13C NMR spectroscopy to characterize soil organic matter composition Open
While many advanced analytical methods have been applied to soil organic matter (SOM), its highly complex and heterogeneous chemical composition still eludes complete characterization. Analytical thermal analysis has been proposed as a rel…
View article: Quantifying blue carbon and nitrogen stocks in surface soils of temperate coastal wetlands
Quantifying blue carbon and nitrogen stocks in surface soils of temperate coastal wetlands Open
Coastal wetlands are carbon and nutrient sinks that capture large amounts of atmospheric CO2 and runoff of nutrients. ‘Blue carbon’ refers to carbon stored within resident vegetation (e.g. mangroves, tidal marshes and seagrasses) and soil …
View article: Characterising blue carbon: An assessment of soil carbon in temperate coastal wetlands
Characterising blue carbon: An assessment of soil carbon in temperate coastal wetlands Open
Vegetated coastal wetlands (mangrove forests, tidal marshes and seagrass meadows) provide a suite of ecosystem services and are some of the most productive habitats in the world. As part of their ecosystem services, vegetated coastal wetla…