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“Carbon Isotope Systematics in Soil” -or- “Plant Poo and Microbe Farts”. Justin Yeakel, UCSC. Soil Pathway Summary. Organic matter finds it’s way to the forest floor and decomposes SOM (Soil Organic Matter) is further decomposed by microbes which emit CO 2 as a biproduct
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“Carbon Isotope Systematics in Soil”-or-“Plant Poo and Microbe Farts” Justin Yeakel, UCSC
Soil Pathway Summary • Organic matter finds it’s way to the forest floor and decomposes • SOM (Soil Organic Matter) is further decomposed by microbes which emit CO2 as a biproduct • Under certain conditions, water and this carbon dioxide can form carbonates
Each step in this sequence is met with a fractionation of the original carbon. • Diffusion of carbon dioxide and mixing with the atmosphere is responsible for the drop in δ13C values of CO2 and CaCO3 as you descend through the soil layers. • Cause of rise in δ13C values with depth in SOM is debated.
Since C3 and C4 plants are distributed based on specific environmental parameters… • And the carbon that is cycled through soils is from these plants… • values in the carbon found in soils will be representative of these respective photosynthetic pathways
What else could possibly contribute a significant amount of carbon to this process?
What else could possibly contribute a significant amount of carbon to this process? Parent material
Most carbon in soil carbonates is from soil gas (vegetation, respiration, atmosphere) and not from the parent material that soil is found on. Altitude (meters) 13C Soil Carbonates
Phase 1: Enrichment of SOM δ13C values -Trees respire -Roots respire -Litter on the forest floor gets eaten by bacteria This CO2 is representative of the particular photosynthetic pathway (C3 or C4), and is therefore about -27‰ or -13‰ respectively.
Initially, 13C values of the SOM look exactly like the plant. But with time and/or depth, SOM 13C values rise. CO2 CO2
Initially, 13C values of the SOM look exactly like the plant. But with time and/or depth, SOM 13C values rise. 0 Depth (cm) -100 -30 -20 0 13C
Why the SOM 13C values rise? Suess effect - recent drop in δ13C values of plants due to fossil fuel burning, etc. Differential loss of components (lipids, lignin, protein, etc.) with different δ13C values. Progressive 13C-enrichment of residual SOM due to respiratory loss of 12C-enriched CO2. Carboxylation in soils in the presence of soil gas that is 13C-enriched relative to typical plant matter!! Depth 13C
Although there is a rise in the 13C values of SOM material at greater depths, most carbon is digested by microbes and released into the soil as CO2, leaving little remaining carbon in deeper SOM. • This 13C-enrichment in deeper SOM does not have a great effect on the 13C values of soil CO2 because is occurs at such low concentration.
Phase 2: Soil CO2 Via decay of SOM and root respiration, soils are a huge source of CO2, which diffuses into the atmosphere.
Phase 2: Soil CO2 Via decay of SOM and root respiration, soils are a huge source of CO2, which diffuses into the atmosphere. The diffusion of CO2 has a direct impact on the 13Cvalues, and is a affected by properties of the soil. The pattern produced by diffusion can be modeled to estimate the 13Cvalues of the CO2 at differing depths.
There is an initial 4.4‰ enrichment due to diffusion of CO2 out of the soils • Based on soil properties, atmospheric CO2 plays a role at differing depths in a soil • 13C values at depth reflect the respiration, whereas values nearer the surface are more affected by the atmosphere Cerling et al. 1991
*Per mil value of CO2 in the soil as a function of depth Per mil value for atmospheric CO2 Ratio of 13C in diffused CO2 • Soil Properties: • Production rate of respired CO2 • Diffusion coefficient for CO2 in soil • Depth • Soil Tortuosity Concentration of CO2 in the atmosphere Per mil value for soil-respired CO2 Constructed to put number into delta format 13C/12C ratio of isotopic standard PDB
This equation is set by parameters that limit the function. • -The uppermost boundary condition is that soil CO2 concentration equals that of the atmosphere (z=0) • -CO2 production is modeled with depth and an impermeable lower boundary at some finite z.
In more productive soils (red), the effects of the atmosphere are only seen in the top few cm. Soil gas has a 13C value = respired CO2 + offset due to diffusion. In less productive soils, atmospheric affects gas isotope values deep in the soil (blue).
Phase 3: Carbonate Formation In the presence of water, the soil CO2 goes through a number of chemical reactions that can result in the formation of soil carbonates.
CO2 + water H2CO3 H+ + HCO3- Ca2+ + 2HCO3- CaCO3 + CO2 + H2O
CO2 + water H2CO3 H+ + HCO3- Ca2+ + 2HCO3- CaCO3 + CO2 + H2O Acid formed by hydration of soil CO2 dissolves minerals near the soil surface and is slowly buffered by this process. At deeper levels in the soil, either because of high Ca2+ concentration (due to mineral dissolution or seasonal evaporation) or simply due to the degassing of CO2 from soils, the reaction above is driven to the right, leading to soil carbonate precipitation.
Fractionations that occur along these reactions are temperature-sensitive. Between the 4.4‰ impact of diffusion and these equilibrium reactions, soil carbonate is 13C-enriched by 13.5 to 16.5‰ relative to soil organic matter. CO2 + water H2CO3 H+ + HCO3- Ca2+ + 2HCO3- CaCO3 + CO2 + H2O
CO2 + water H2CO3 H+ + HCO3- Ca2+ + 2HCO3- CaCO3 + CO2 + H2O In addition, the 13C is strongly correlated to that of the SOM and overlaying flora Cerling & Quade 93
The fractionations that occur during carbonate formation enrich the values from 13.5 and 16.5 per mil between 0ºC and 25ºC respectively. CO2 + water H2CO3 H+ + HCO3- Ca2+ + 2HCO3- CaCO3 + CO2 + H2O
How deep a carbonate is when it forms also has an impact on it’s carbon isotope value. This is directly correlated to the 13C value of soil CO2, which differs according to depth.
Cerling & Quade 93 The model described previously is used in the graph above, and shows a desertine C4 environment.
~14‰ enrichment in 13C Progression of 13C values in soil CO2 to soil carbonate
Overall Process: Soil Carbonates 13C-enrichment with depth Cause unclear, but no large effect overall on δ13C of soil CO2 SOM As soil CO2 reacts to form soil carbonate, C isotopes are fractionated differently according to temperature. Overall fractionations amount to 13.5 to 16.5 ‰ enrichment relative to plants or soil CO2. Microbial digestion of SOM and root respiration releases CO2 into soil. Diffusion leads to 13C enrichment of ~4.4‰ relative to respired CO2 . Soil CO2 With increasing depth, atmosphere affects 13C of soil CO2 less and less, and soil CO2 is more representative of vegetation
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