PANGAEA_993574 Biochemical composition and phytoplankton community of the sea surface microlayer and underlying water during ELISABETH MANN BORGESE cruise EMB295 (CenBASE) in 2022 Karnatz, Josefine; Barthelmeß, Theresa; Sabbaghzadeh, Bita; Engel, Anja Biochemical composition and phytoplankton community of the sea surface microlayer and underlying water during ELISABETH MANN BORGESE cruise EMB295 (CenBASE) in 2022 2026-04-17 PANGAEA Dataset https://doi.pangaea.de/10.1594/PANGAEA.993574 Earth Science geoscientificInformation air-sea interface amino acids Aphanizomenon sp. Baltic Sea carbohydrates Cyanobacteria Nodularia spumigena Phytoplankton bloom sea surface microlayer Surfactants synechococcus 2022-07-06 2022-07-16 Complete 57.18723 57.450808 19.23765 20.176119 BASS Biogeochemical processes and Air-sea exchange in the Sea-Surface microlayer access rights needed CC-BY-4.0: Creative Commons Attribution 4.0 International (License comes into effect after moratorium ends) English PANGAEA Data Publisher for Earth & Environmental Science https://www.pangaea.de/ Data Center Contact Michael Diepenbroek info@pangaea.de

Leobener Str.

Bremen Bremen 28359 Germany online 3 datasets application/zip Karnatz, Josefine (in review): Biochemial Characteristics of the Sea Surface Microlayer in the Central Baltic Sea and Potential Signatures of Cyanobacterial Blooms.

This dataset comprises samples collected in the Eastern Gotland Basin (Central Baltic Sea) during the EMB295 CenBASE research cruise conducted from June 30th to July 19th 2022. Sea surface microlayer (SML) samples were collected using established methods, i.e. the glass plate and the Garrett screen. Reference samples from the underlying water (ULW) were collected at approximately 1 m depth using a manually deployed Niskin bottle. To characterize the biochemical composition of the SML and the ULW, water samples were collected twice daily for the analysis of total organic carbon (TOC), total amino acids (TAA), total combined carbohydrates (TCCHO), and surfactants (determined using phase-sensitive AC voltammetry). TOC was measured using a TOC analyser. High-performance anion-exchange chromatography coupled to pulsed amperometric detection (HPAEC-PAD) was performed for carbohydrate analysis. Amino acids were determined using a high-performance liquid chromatography (HPLC). Chlorophyll a samples were taken from the Niskin bottles at 1m depth (ULW) and analysed using a fluorometer from Turner Designs (Turner TD 10-AU005). Abundance and community composition of nano- and picophytoplankton (<=20µm) were determined by flow cytometry. Particulate samples from the sea surface were collected using a Neuston catamaran equipped with a 20 µm mesh net, sampling the upper 20 cm of the water column. Reference particulate samples from the ULW were collected using an ULW-net deployed at approximately 1 m depth. The biochemical composition of the particulate fraction was assessed through measurements of particulate organic carbon >20µm (POC>20µm), particulate amino acids >20µm (PAA>20µm), and particulate combined carbohydrates >20µm (PCCHO>20µm). POC was measured using an Euro EA elemental analyser. To determine the composition of the microphytoplankton community (>20 µm), samples were preserved with Lugol's solution and analyzed according to the Utermöhl method. Sampling stations were subsequently classified based on the abundance of microphytoplankton (>20 µm) and nano/picophytoplankton (≤20 µm). Hydrographic parameters, including salinity and temperature, were obtained from CTD measurements at a depth of 3 m to characterize the prevailing hydrological conditions. ** For all details see the full metadata description at "https://doi.pangaea.de/10.1594/PANGAEA.993574"!

https://uol.de/en/bass BASS DIF 9.4 2026-04-17 2026-04-30