Citation:

elementa.278

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Abstract:

Samples from surface microlayer (SML) and undelying water (ULW) were collected in selected stations in the Southern of the North Sea. Samples were stored in cool container (< 10°C via freezer packs) and transported to the lab in the same day. Excitation Emission matrix (EEM) measurements were perfomed with a Perkin Elmer Fluorometer L55.

Excitation wavelength was fixed in a spectral range of 200 nm to 400 nm, with steps of 5 nm. EEMs were recorded over a wavelength range of 220 nm to 600 nm, with 5-nm steps.

Related to:

Mustaffa, Nur Ili Hamizah; Ribas-Ribas, Mariana; Wurl, Oliver (2017): Multiparameter measurement of biochemical properties of the sea surface microlayer with RV Senckenberg in the North sea, Germany (June 2016) [dataset]. Carl von Ossietzky Universität Oldenburg, Germany, PANGAEA, https://doi.org/10.1594/PANGAEA.870879

Coverage:

Median Latitude: 53.850212 * Median Longitude: 7.963811 * South-bound Latitude: 53.717900 * West-bound Longitude: 7.860700 * North-bound Latitude: 53.916400 * East-bound Longitude: 8.076150

Date/Time Start: 2016-06-01T00:00:00 * Date/Time End: 2016-06-01T00:00:00

Event(s):

Senck0616_Leg1 * Latitude Start: 53.873200 * Longitude Start: 8.000200 * Latitude End: 53.916400 * Longitude End: 7.905100 * Date/Time Start: 2016-06-01T00:00:00 * Date/Time End: 2016-06-30T00:00:00 * Location: North Sea * Campaign: * Basis: Senckenberg * Method/Device: Multiple investigations (MULT)

Senck0616_Leg2 * Latitude Start: 53.898700 * Longitude Start: 7.890500 * Latitude End: 53.908800 * Longitude End: 7.886900 * Date/Time Start: 2016-06-01T00:00:00 * Date/Time End: 2016-06-30T00:00:00 * Location: North Sea * Campaign: * Basis: Senckenberg * Method/Device: Multiple investigations (MULT)

Senck0616_Leg3 * Latitude Start: 53.744000 * Longitude Start: 8.074500 * Latitude End: 53.717900 * Longitude End: 8.076150 * Date/Time Start: 2016-06-01T00:00:00 * Date/Time End: 2016-06-30T00:00:00 * Location: North Sea * Campaign: * Basis: Senckenberg * Method/Device: Multiple investigations (MULT)

Comment:

NoStds = Number of standards

NoSamples = Number of samples

NoScanDims = Number of scan dimensions

NoScanPoints(1) = Number of scan points (1)

NoScanPoints(2) = Number of scan points (2)

CalibType = calibration type

ScanType1 = Scan type (1)

WLStart1 = Wavelength start (1)

WLEnd1 = Wavelength end (1)

ScanType2 = Scan type (2)

WLStart2 = Wavelength start (2)

WLEnd2 = Wavelength end (2)

WLSpeed1 = wavelength speed (1)

WLStep2 = wavelength step (2)

LumMode = Luminiscense mode

PhosDelay = Phosphorescense delay

PhosGate = Phosphorescense gate

PhosCycle = Phosphorescense cycle

PhosFlash = Phosphorescense flash

ExCorr = Excitation correction

ExWl = Excitation wavelength (nm)

EmWl = Emission wavelength (nm)

ExSlit = Excitation slit

EmSlit = Emmision slit

EmCutFilter = Emmision cutting filter

EmMirror = emission mirror

ExFilter = Excitation filter

EmFilter = Emision filter

IntTime = Integration time

Int [200] = Intensity of signal at the excitation wavelength (counts).

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Comment
1	Event label	Event		Miranda Montenegro, Mario Luis
2	DATE/TIME	Date/Time		Miranda Montenegro, Mario Luis	Geocode
3	Layer description	Layer		Miranda Montenegro, Mario Luis
4	LATITUDE	Latitude		Miranda Montenegro, Mario Luis	Geocode
5	LONGITUDE	Longitude		Miranda Montenegro, Mario Luis	Geocode
6	Sample ID	Sample ID		Miranda Montenegro, Mario Luis
7	File content	Content		Miranda Montenegro, Mario Luis
8	File format	File format		Miranda Montenegro, Mario Luis
9	File name	File name		Miranda Montenegro, Mario Luis
10	File size	File size	kByte	Miranda Montenegro, Mario Luis
11	Uniform resource locator/link to file	URL file		Miranda Montenegro, Mario Luis

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

399 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Event	2 Date/Time	3 Layer	4 Latitude	5 Longitude	6 Sample ID	7 Content	8 File format	9 File name	10 File size [kByte]	11 URL file
Senck0616_Leg1	2016-06	SML	53.8732	8.00020	S1B5	EMM	XLSX	S1B5_EMM	325.911	S1B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8732	7.99950	S2B5	EMM	XLSX	S2B5_EMM	325.779	S2B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.8739	7.99840	S3B5	EMM	XLSX	S3B5_EMM	326.435	S3B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8735	7.99720	S4B5	EMM	XLSX	S4B5_EMM	326.072	S4B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.8761	7.99350	S5B5	EMM	XLSX	S5B5_EMM	328.698	S5B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8759	7.99280	S6B5	EMM	XLSX	S6B5_EMM	327.532	S6B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.8794	7.98470	S7B5	EMM	XLSX	S7B5_EMM	327.181	S7B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8802	7.98400	S8B5	EMM	XLSX	S8B5_EMM	327.342	S8B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.8860	7.97530	S9B5	EMM	XLSX	S9B5_EMM	330.112	S9B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8865	7.97400	S10B5	EMM	XLSX	S10B5_EMM	327.685	S10B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.8907	7.96730	S11B5	EMM	XLSX	S11B5_EMM	326.169	S11B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8912	7.96540	S12B5	EMM	XLSX	S12B5_EMM	326.608	S12B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.8959	7.95500	S13B5	EMM	XLSX	S13B5_EMM	326.441	S13B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.8975	7.95320	S14B5	EMM	XLSX	S14B5_EMM	324.909	S14B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.9024	7.94250	S15B5	EMM	XLSX	S15B5_EMM	325.279	S15B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.9041	7.94000	S16B5	EMM	XLSX	S16B5_EMM	325.656	S16B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.9100	7.92250	S17B5	EMM	XLSX	S17B5_EMM	326.827	S17B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.9109	7.92060	S18B5	EMM	XLSX	S18B5_EMM	325.199	S18B5_EMM.xlsx
Senck0616_Leg1	2016-06	ULW	53.9153	7.90680	S19B5	EMM	XLSX	S19B5_EMM	328.367	S19B5_EMM.xlsx
Senck0616_Leg1	2016-06	SML	53.9164	7.90510	S20B5	EMM	XLSX	S20B5_EMM	325.844	S20B5_EMM.xlsx
Senck0616_Leg2	2016-06	ULW	53.8987	7.89050	S2B6	EEMs	XLSX	S2B6_EEMs	362.481	S2B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9032	7.88650	S3B6	EEMs	XLSX	S3B6_EEMs	365.063	S3B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9038	7.88530	S4B6	EEMs	XLSX	S4B6_EEMs	360.612	S4B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9050	7.88280	S5B6	EEMs	XLSX	S5B6_EEMs	366.162	S5B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9052	7.88170	S6B6	EEMs	XLSX	S6B6_EEMs	358.533	S6B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9083	7.87730	S7B6	EEMs	XLSX	S7B6_EEMs	365.178	S7B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.8994	7.88600	S8B6	EEMs	XLSX	S8B6_EEMs	364.978	S8B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.8991	7.88390	S9B6	EEMs	XLSX	S9B6_EEMs	362.878	S9B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.8987	7.88490	S10B6	EEMs	XLSX	S10B6_EEMs	362.792	S10B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.8999	7.88030	S11B6	EEMs	XLSX	S11B6_EEMs	361.265	S11B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9002	7.87930	S12B6	EEMs	XLSX	S12B6_EEMs	364.031	S12B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9033	7.87320	S13B6	EEMs	XLSX	S13B6_EEMs	363.813	S13B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9033	7.87220	S14B6	EEMs	XLSX	S14B6_EEMs	359.697	S14B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9062	7.86720	S15B6	EEMs	XLSX	S15B6_EEMs	362.914	S15B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9061	7.86670	S16B6	EEMs	XLSX	S16B6_EEMs	363.853	S16B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9074	7.86140	S17B6	EEMs	XLSX	S17B6_EEMs	363.725	S17B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9076	7.86070	S18B6	EEMs	XLSX	S18B6_EEMs	364.403	S18B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9086	7.88390	S19B6	EEMs	XLSX	S19B6_EEMs	363.876	S19B6_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9084	7.88320	S20B6	05n4_EEMs	XLSX	S20B6_05n4_EEMs	363.387	S20B6_05n4_EEMs.xlsx
Senck0616_Leg2	2016-06	ULW	53.9084	7.88320	S20B6	EEMs	XLSX	S20B6_EEMs	345.569	S20B6_EEMs.xlsx
Senck0616_Leg2	2016-06	SML	53.9088	7.88690	S21B6	EEMs	XLSX	S21B6_EEMs	708.797	S21B6_EEMs.xlsx
Senck0616_Leg3	2016-06	SML	53.7440	8.07450	S1B7	microlayer	XLSX	S1batch7_microlayer	366.721	S1batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7437	8.07580	S2B7	microlayer	XLSX	S2batch7_microlayer	366.180	S2batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7406	8.07520	S3B7	microlayer	XLSX	S3batch7_microlayer	366.995	S3batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7396	8.07550	S4B7	microlayer	XLSX	S4batch7_microlayer	365.835	S4batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7323	8.07370	S5B7	microlayer	XLSX	S5batch7_microlayer	365.969	S5batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7311	8.07500	S6B7	microlayer	XLSX	S6batch7_microlayer	364.779	S6batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7280	8.07420	S7B7	microlayer	XLSX	S7batch7_microlayer	364.930	S7batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7270	8.07400	S8B7	microlayer	XLSX	S8batch7_microlayer	364.126	S8batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7259	8.07440	S9B7	microlayer	XLSX	S9batch7_microlayer	364.041	S9batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7248	8.07450	S10B7	microlayer	XLSX	S10batch7_microlayer	360.839	S10batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7229	8.07540	S11B7	microlayer	XLSX	S11batch7_microlayer	367.803	S11batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7226	8.07590	S12B7	microlayer	XLSX	S12batch7_microlayer	366.584	S12batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7209	8.07590	S13B7	microlayer	XLSX	S13batch7_microlayer	366.757	S13batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7204	8.07590	S14B7	microlayer	XLSX	S14batch7_microlayer	366.969	S14batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	SML	53.7185	8.07610	S15B7	microlayer	XLSX	S15batch7_microlayer	366.632	S15batch7_microlayer.xlsx
Senck0616_Leg3	2016-06	ULW	53.7179	8.07615	S16B7	microlayer	XLSX	S16batch7_microlayer	366.373	S16batch7_microlayer.xlsx