Rates of DMSO reduction to DMS

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DMSO reduction rate
Approach: deuterium-labelled DMSO tracer; D₆-DMS formation measured by GC-MS
Context: in situ incubations, lab
Spatial scale: point sample
Temporal scale: 4–12 h
Units: nM d^-1; rate constants h^-1 or d^-1
Community captured: all
Co-measurements: (none specified in inventory)

Method Overview

The reduction of dimethylsulfoxide (DMSO) to dimethylsulfide (DMS) is measured by adding fully deuterium-labelled D₆,¹³C₂-DMSO (or D₆-DMSO) to seawater samples. Bacteria possessing DMSO reductase enzymes reduce the deuterated DMSO to D₆-DMS, which is distinguishable from natural DMS (mass 62 vs. 62+6=68) by GC-MS analysis. The rate of D₆-DMS accumulation, corrected for the fractional labelling of the DMSO pool, gives the gross DMSO reduction rate^[1]. DMSO reduction is a significant biological DMS production pathway that is often overlooked relative to DMSP cleavage.

Scale of measurement

Point samples from sealed serum vials to prevent DMS volatilization during the 4–12 h incubation.

Data generated

Gross DMSO reduction rate (nM d^-1) and first-order rate constant (d^-1). Relative to total DMS production, this reveals the contribution of DMSO reduction vs. DMSP cleavage.

Units & currency

Units are nM d^-1 or h^-1/d^-1 (rate constants). The currency is sulfur metabolite (DMS).

Sample size

Typical samples are < 200 mL in volume.

Repositories & databases

Limitations

Steady-state intracellular and dissolved DMSO pool dynamics are assumed. Bottle artifacts can alter community composition and DMSO availability. The labelled DMSO must equilibrate rapidly with the endogenous DMSO pool for accurate rate estimation.

Example Applications & Protocols

Classic examples

McNabb & Tortell (2025) A potential photo-protective, antioxidant function for DMSO in marine phytoplankton ^[1]

Recent applications

Herr et al. (2020) Potential roles of dimethylsulfoxide in regional sulfur cycling in the NE subarctic Pacific ^[2]

Common calculations/conversions

DMSO reduction rate = d[D₆-DMS]/dt × ([DMSO]_total / [D₆-DMSO]_added).

References

↑ ^1.0 ^1.1 McNabb, M. L., & Tortell, P. D. (2025). A potential photo-protective, antioxidant function for DMSO in marine phytoplankton. PLOS ONE, 20(2), e0317951. https://doi.org/10.1371/journal.pone.0317951
↑ Herr, A. E., Bass, M., Granger, J., & Tortell, P. D. (2020). Potential roles of dimethylsulfoxide in regional sulfur cycling and phytoplankton physiological ecology in the NE subarctic Pacific. Limnology and Oceanography, 66(1), 76–94. https://doi.org/10.1002/lno.11589

[McNabb2025-1] 1.0 ^1.1 McNabb, M. L., & Tortell, P. D. (2025). A potential photo-protective, antioxidant function for DMSO in marine phytoplankton. PLOS ONE, 20(2), e0317951. https://doi.org/10.1371/journal.pone.0317951

[Herr2020-2] Herr, A. E., Bass, M., Granger, J., & Tortell, P. D. (2020). Potential roles of dimethylsulfoxide in regional sulfur cycling and phytoplankton physiological ecology in the NE subarctic Pacific. Limnology and Oceanography, 66(1), 76–94. https://doi.org/10.1002/lno.11589

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