NMOC Quarterly Summary

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NMOC Quarterly Summary April-June 2002

Summary of System Performance
Data Impact

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All impacts are now being calculated relative to the GASP T239 assimilation system, which replaced the T79 system in December 1998. On the basis of pre-implementation testing of the new system, the assigned background field errors for the new system are lower than in the old system, particularly so for upper winds in middle and high latitudes. As a consequence, one would expect tropical and subtropical upper air stations to figure now more prominently than before, among the higher impacts.

Mean sea level pressure observations

Buoys

	Call No.	Latitude	Longitude	Impacts (hPa)
		(S)		rms	max
1.	71566	62.2	13.9	1.7	5.0
2.	74520	65.1	352.6	1.5	3.3
3.	74535	58.5	98.2	1.4	4.6
4.	56517	62.2	139.6	1.3	4.5
5.	71545	68.9	330.5	1.2	4.2
6.	15908	52.5	350.2	1.1	3.5
7.	74519	65.9	340.9	1.1	2.6
8.	74903	60.6	8.2	1.1	3.3
9.	74534	54.3	140.2	1.0	3.9
10.	71541	63.9	315.5	1.0	2.7

The above ten buoys in the Southern Hemisphere had the greatest impacts on GASP analyses of sea level pressure on the basis of ensemble root-mean-square impacts for April to June 2002. The latitude and longitude columns show the buoy position at last report.

There was a substantial increase in overall buoy impacts since the January to March quarter, the ninth and tenth buoys having impacts about the same as the top buoy in the previous quarter.

Synops

	Station	Latitude	Longitude	Impact (hPa)
		(S)		rms	max
1.	Orcadas	61	315	1.8	5.4
2.	Dumont D'Urville	67	140	1.8	4.5
3.	Bouvet Island	54	3	1.6	4.8
4.	San Martin	68	293	1.4	3.2
5.	Heard Island	53	74	1.3	3.7
6.	Larsen Ice	67	299	1.3	3.2
7.	Syowa	69	40	1.3	5.5
8.	Neumayer	71	352	1.2	4.8
9.	Macquarie Island	54	159	1.2	3.8
10.	Crozet Island	46	52	1.2	4.1

The above ten synops in the Southern Hemisphere have had the greatest impacts upon GASP analyses, on the basis of ensemble statistics of root-mean-square impacts during April to June 2002. Only stations below 800 metres were considered, so that the impacts can all be taken as applying to sea level pressure.

Upper Winds

	500 hPa	Impacts(m/s)		200hPa	Impacts(m/s)
		rms	max		rms	max
1.	Weipa	3.3	10.1	Weipa	4.4	11.7
2.	Gove	2.5	6.7	Carnarvon	4.0	13.6
3.	Darwin	2.5	6.0	Port Hedland	3.9	11.3
4.	Broome	2.4	8.3	Learmonth	3.7	10.6
5.	Tennant Creek	2.4	6.2	Giles	3.6	9.8
6.	Mount Isa	2.4	6.3	Mount Isa	3.5	11.2
7.	Halls Creek	2.4	6.5	Eucla	3.4	9.5
8.	Port Hedland	2.4	5.6	Gove	3.4	12.4
9.	Alice Springs	2.2	6.3	Perth Airport	3.3	8.7
10.	Giles	2.2	5.3	Geraldton	3.3	10.3

The above Australian upper air stations have had the greatest impacts upon GASP analyses at 500 hPa (left columns) and at 200 hPa (right columns) on the basis of ensemble statistics of root-mean-square vector impact during April to June 2002. Antarctic and island stations, and irregularly reporting stations, are excluded.

The top ten stations at 500 hPa are the same as in the previous quarter; only the order has changed. However at 200 hPa Eucla, Perth Airport and Geraldton have moved into the top ten.

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Summary of System Performance Data Impact

Summary of System Performance
Data Impact