Citation:

PANGAEA.81125

Always quote citation above when using data! You can download the citation in several formats below.

RIS Citation BibTeX Citation Text Citation Facebook TwitterShow Map Google Earth

Related to:

Spear, Donald (2000): JGOFS Canada Data Sets 1989-1998. CD-ROM Version 1.0 Dec. 2000, Marine Environmental Data Service, Department of Fisheries and Oceans, Canada

Project(s):

Joint Global Ocean Flux Study (JGOFS)

Coverage:

Median Latitude: 35.887273 * Median Longitude: -44.207273 * South-bound Latitude: 23.570000 * West-bound Longitude: -65.100000 * North-bound Latitude: 45.010000 * East-bound Longitude: -10.270000

Date/Time Start: 1987-06-22T00:00:00 * Date/Time End: 1993-05-25T00:00:00

Minimum DEPTH, water: 70 m * Maximum DEPTH, water: 150 m

Event(s):

JG89_1 * Latitude: 40.690000 * Longitude: -47.100000 * Date/Time: 1989-04-28T00:00:00 * Campaign: * Basis: Baffin * Method/Device: Trap, sediment (TRAPS)

JG89_2 * Latitude: 45.010000 * Longitude: -41.260000 * Date/Time: 1989-05-09T00:00:00 * Campaign: * Basis: Baffin * Method/Device: Trap, sediment (TRAPS)

JG90_1 * Latitude: 37.590000 * Longitude: -40.020000 * Date/Time: 1990-04-12T00:00:00 * Campaign: * Basis: Baffin * Method/Device: Trap, sediment (TRAPS)

Comment:

This data contains measurements taken from both sediment traps and bottle samples, both of which are used to measure the nitrogen flux in a system. To obtain the data, a Knauer-type sediment trap with four replicates was deployed. While following the trap, bottle samples were taken at particular points, and incubated. Three types of incubation were used: simulated in situ (SIS), where the bottle was incubated using an incubator on the deck of the ship in daylight; in situ (IS), where the bottle was incubated by being hung in the water at the appropriate depth; and dark (D), where simulated in situ incubation was done in the dark instead of the daylight. In each case, the bottle was incubated for three hours, and the amount of nitrogen which settled out was measured, as was the total primary production (for daylight hours). The mean and standard deviation were also recorded. When the sediment trap was recovered, the sediment in it was measured to obtain the carbon flux and nitrogen flux (NO3 uptake).

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Event label	Event
2	Latitude of event	Latitude
3	Longitude of event	Longitude
4	DEPTH, water	Depth water	m			Geocode
5	DATE/TIME	Date/Time				Geocode
6	Duration, number of days	Duration	days	Harrison, Glen	Calculated
7	Sample code/label	Sample label		Harrison, Glen
8	Carbon, total, flux	C flux	mg/m²/day	Harrison, Glen	Calculated, see reference(s)	Carbon flux, as measured by the contents of the sediment trap over the length of time indicated
9	Nitrogen, total, flux	N flux	mg/m²/day	Harrison, Glen	Calculated, see reference(s)	Nitrogen flux (NO3 uptake), as measured by the contents of the sediment trap over the length of time indicated
10	Primary production of carbon per area, yearly	PP C area	g/m²/a	Harrison, Glen	Calculated, see reference(s)
11	Nitrate, flux	[NO3]- flux	µmol/m²/day	Harrison, Glen	Calculated, see reference(s)	Nitrogen leaving system, measured with simulated in-situ incubation in daylight (SIS)
12	Nitrate, flux	[NO3]- flux	µmol/m²/day	Harrison, Glen	Calculated, see reference(s)	Nitrogen leaving system, measured with in-situ incubation (IS)
13	Nitrate, flux	[NO3]- flux	µmol/m²/day	Harrison, Glen	Calculated, see reference(s)	Nitrogen leaving system, measured with simulated in-situ incubation in the dark (D)

License:

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

Size:

190 data points

Data

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

1 Event	2 Latitude	3 Longitude	4 Depth water [m]	5 Date/Time	6 Duration [days] (Calculated)	7 Sample label	8 C flux [mg/m²/day] (Carbon flux, as measured by t...)	9 N flux [mg/m²/day] (Nitrogen flux (NO3 uptake), a...)	10 PP C area [g/m²/a] (Calculated, see reference(s))	11 [NO3]- flux [µmol/m²/day] (Nitrogen leaving system, meas...)	12 [NO3]- flux [µmol/m²/day] (Nitrogen leaving system, meas...)	13 [NO3]- flux [µmol/m²/day] (Nitrogen leaving system, meas...)
PLASMA_1	34.6600	-54.2300	150	1987-06-22	2.63	140	88.00	11.43	35.55		6.00
PLASMA_1	34.6600	-54.2300	150	1987-06-22		160			37.74		3.06
PLASMA_2	34.6100	-51.0000	150	1987-06-27	2.50	231	64.00	8.65	33.84		5.88
PLASMA_2	34.6100	-51.0000	150	1987-06-27		253			37.70		3.14
PLASMA_3	31.9100	-55.4800	150	1987-07-01	2.38	302	78.00	9.51	22.67		0.97
PLASMA_3	31.9100	-55.4800	150	1987-07-01		327			40.92		3.78
N-FLUX_1	36.0100	-64.0000	150	1988-09-10	8.75	10. Sep	71.00	9.40	48.22		1.72
N-FLUX_1	36.0100	-64.0000	150	1988-09-11		11. Sep			74.20		1.75
N-FLUX_1	36.0100	-64.0000	150	1988-09-12		12. Sep			79.94		2.22
N-FLUX_1	36.0100	-64.0000	150	1988-09-13		13. Sep			84.17		1.00
N-FLUX_1	36.0100	-64.0000	150	1988-09-14		14. Sep			110.70		1.66
N-FLUX_1	36.0100	-64.0000	150	1988-09-15		15. Sep			93.59		1.03
N-FLUX_1	36.0100	-64.0000	150	1988-09-16		16. Sep			126.87		1.62
N-FLUX_1	36.0100	-64.0000	150	1988-09-17		17. Sep			106.98		0.82
N-FLUX_1	36.0100	-64.0000	150	1988-09-18		18. Sep			102.67		1.38
JG89_1	40.6900	-47.1000	150	1989-04-28	6.80	28. Apr	259.00	35.00	473.04	6.87
JG89_1	40.6900	-47.1000	150	1989-04-29		29. Apr			271.93	6.59	5.59
JG89_1	40.6900	-47.1000	150	1989-04-30		30. Apr			384.35	14.25
JG89_1	40.6900	-47.1000	150	1989-05-02		02. Mai			354.05	10.65	4.83	6.66
JG89_1	40.6900	-47.1000	150	1989-05-03		03. Mai			468.66	8.62	7.15
JG89_1	40.6900	-47.1000	150	1989-05-03						8.63		5.50
JG89_2	45.0100	-41.2600	150	1989-05-09	3.83	09. Mai	159.00	30.00	396.39	9.90	5.73
JG89_2	45.0100	-41.2600	150	1989-05-10		10. Mai			531.08	15.71		3.78
JG89_2	45.0100	-41.2600	150	1989-05-12		12. Mai			342.01	14.51	8.02	5.90
JG89_2	45.0100	-41.2600	150	1989-05-12						9.16
JG89_2	45.0100	-41.2600	150	1989-05-12						6.64
JG90_1	37.5900	-40.0200	100	1990-04-12	6.75	12. Apr	346.00	42.00	630.36	13.71		6.70
JG90_1	37.5900	-40.0200	100	1990-04-13		13. Apr	317.00	50.00	600.28	18.06	12.25
JG90_1	37.5900	-40.0200	100	1990-04-15		15. Apr			599.80	33.76		3.53
JG90_1	37.5900	-40.0200	100	1990-04-16		16. Apr			618.57	17.27	12.87
JG90_1	37.5900	-40.0200	100	1990-04-18		18. Apr			1191.51	57.48
JG90_2	36.9300	-40.8100	100	1990-04-19	2.77	19. Apr	229.00	32.00	763.14	13.60	8.42
JG90_2	36.9300	-40.8100	100	1990-04-20		20. Apr	250.00	32.00	397.16	8.18		7.61
JG90_2	36.9300	-40.8100	100	1990-04-21		21. Apr			323.06		4.41
JG90_2	36.9300	-40.8100	100	1990-04-21						7.78
JG91_1	43.2000	-65.1000	70	1991-04-05	2.06	05. Apr	189.00	26.00	1037.99		11.04
JG91_1	43.2000	-65.1000	70	1991-04-06		06. Apr	316.00	30.10	1233.88		8.05
JG91_1	43.2000	-65.1000	70	1991-04-07		07. Apr			786.39		21.96
JG92_1	30.5800	-10.2700	100	1992-09-29	4.00	29. Sep	312.90	35.70	388.73	15.21
JG92_1	30.5800	-10.2700	100	1992-09-30		30. Sep			564.66	12.17
JG92_1	30.5800	-10.2700	100	1992-10-01		01. Okt			385.08	3.29
JG92_1	30.5800	-10.2700	100	1992-10-02		02. Okt			457.35	5.00
JG92_1	30.5800	-10.2700	100	1992-10-05	3.13	05. Okt	292.40	29.10	560.28	24.58
JG92_1	30.5800	-10.2700	100	1992-10-06		06. Okt			810.30	18.21
JG92_1	30.5800	-10.2700	100	1992-10-07		07. Okt			384.71	7.58
JG93_1	23.5700	-17.0100	100	1993-05-24	1.96	24. Mai	212.50	28.40	341.38	12.59
JG93_1	23.5700	-17.0100	100	1993-05-25		25. Mai			303.68	7.39