F. Rothfuss et al., COMBINATION OF PHOTOACOUSTIC DETECTOR WITH GAS-DIFFUSION PROBES FOR THE MEASUREMENT OF METHANE CONCENTRATION GRADIENTS IN SUBMERGED PADDY SOIL, Chemosphere, 33(12), 1996, pp. 2487-2504
Dissolved methane was monitored by means of a diffusion probe in combi
nation with a photoacoustic (PA) detector cell placed in the cavity of
a liquid nitrogen-cooled CO laser. The detection limit of the photoac
oustic detector was 1 ppbv methane (approximate to 2 mu M in aqueous s
olution), the time response was 60 s, the spatial resolution was 1.36
mm. These limits were determined by the acoustic noise and the configu
ration of the diffusion probe. The combination of PA detector with gas
diffusion probes was found to be useful for monitoring gaseous compou
nds. However, the membrane material of the diffusion probe was critica
l. Silicone as membrane material was useful only for measurement of CH
4. Goretex as membrane material was applicable to measurement of dimet
hylsulfide (DMS), but did not give a stable signal for trimethylamine
(TMA). Vertical concentration profiles of CH4 in anoxic paddy soil agr
eed well with earlier results obtained with a gas chromatograph as det
ector. Methane was produced in anoxic soil layers below 8-10 mm depth
and diffused upwards to the surface through a layer of CH4-consuming b
acteria situated at about 2 mm depth. In the oxic upper 2 mm soil laye
r the concentration of CH4 decreased below the detection limit of our
system. Methane-containing gas bubbles that were embedded in the soil
were detected by a steep increase of the CH4 signal. The combination o
f PA detector and gas diffusion probe was found to be a useful tool to
measure CH4 gradients in submerged soil or sediment with high tempora
l and spatial resolution, thus allowing the localization and quantific
ation of CH4 production and CH4 oxidation rates within the soil profil
e. Copyright (C) 1996 Elsevier Science Ltd