Thereafter, both techniques

showed good agreement Overal

Thereafter, both techniques

showed good agreement. Overall, the comparison proves that the newly developed NTD GC–MS method, applied for the first time on seawater samples, produced similar results for DMS to an established P&T GC–FPD method. This study details the development of a new NTD GC–MS method with focus on the effective sampling and analysis of the target atmospheric relevant VOCs: DMS, isoprene and α-pinenes, out of seawater samples. The method efficiency, accuracy, sensitivity, linearity and repeatability have been demonstrated. The ability of the NTD method to perform aqueous phase measurements was tested in the field during a CO2 enrichment study where the target compounds were identified and successfully quantified. A DMS ON-01910 clinical trial decrease was observed Tanespimycin in vivo at high CO2 levels while isoprene showed no clear CO2 correlation. Furthermore, an in-field method comparison proved that the first application of the NTD method on seawater samples provided similar results for DMS to an established P&T GC–FPD method. The NTD method delivers multiple VOC analysis, within 23 min with sensitivities comparable or even better to the conventional P&T and SPME methods. It has a fast sampling process and since it does not require a separate thermal

desorption system it is easier to handle and may be assembled at lower cost. On the basis of our results, we recommend the new NTD GC–MS method as an alternative to the established techniques for the analysis of VOCs in seawater samples. We wish to thank all participants of the Mesocosm CO2 Enrichment Study 2011 for their participation and valuable assistance. Prof. U. Riebesell is thanked for the opportunity to test the NTD GC–MS technique within the framework of a mesocosm experiment. Dr. H. W. Bange is thanked for his comments on the manuscript. A. Aadnesen and the staff at the Marine Biological Station, University of Bergen are thanked for their support in the field. Furthermore we thank R. Hoffman for his participation and assistance in the field. We acknowledge

the financial support of the BMBF Verbundprojekt SOPRAN (www.sopran.pangaea.de; SOPRAN grant 03F0611A and 03F0611K). Nintedanib (BIBF 1120)
“The authors regret that in the above article the following error occurred: Fig. 5a was wrong in data for Aug. 2002. The hypoxia area in Aug. 2002 should be <500 km2 , but in Fig. 5a it was incorrectly presented as >5000 km2. Fig. 5a was as follows (it is wrong): The right one (i.e., new Fig. 5a) should be as follows: “
“The authors regret the following corrections and wish to replace the below incorrect reference Nikolić, G.M., Promovic, P.I., Nikolić, R.S., 1988. Spectrophotometric study of catechol oxidation by aerial O2 in alkaline aqueous solutions containing Mg(II). Ions 31, 327–333. “
“Solution pH is a key variable used to describe the equilibrium and kinetics of chemical processes in oceanic and fresh waters (Stumm and Morgan, 1981 and Zeebe and Wolf-Gladrow, 2001).

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