In a curious event, ZeroHedge reports The September Jobs Report Was Even Worse: u.s. States Lost A Total of 22,000 Jobs.
Zero Hedge noted that the month-over-month total of nonfarm payrolls was -22,000 while the nonfarm total was well over 100,000 nationally.
He posted this chart.
Click on image to enlarge
Those numbers match my totals. And as ZeroHedge reports, 28 states lost jobs while 22 gained.
But it's not that simple. From the same data, here is a table of nonfarm payrolls for the last three months.
Nonfarm Payrolls (In Thousands)
Yes, month over month, states lost 22,000 jobs. But also notice that state totals overall beat national totals by 856,000 jobs.
Which stat do you believe?
I have been aware of this discrepancy for a long time, and have been working on this data with Michael Lucci and Connor White at Illinois Policy Institute since July.
Here is an email we received from Tyler Downing at the BLS on July 22.
Hello Connor,
Thank you for contacting the Current employment Statistics (CES) program.
CES independently develops national and state and area employment, hours, and earnings series. Both sets of estimates are based on the same establishment reports; however, CES uses the full establishment survey sample to produce monthly national employment estimates, while CES uses only the state-specific portion of the sample to develop state employment estimates.
State and area estimates use smaller amounts of sample by industry than the national industry estimates. This increases the error component associated with state and metropolitan level estimates. For this reason, aggregating state data to the national level will also sum this error component, resulting in different estimates of U.S. employment, hours, and earnings. Summed state level CES estimates should not be compared to national CES estimates.
Estimates for states and areas are produced using two methods. The majority of state and area estimates are produced using direct sample-based estimation. However, published area and industry combinations (domains) that do not have a large enough sample to support estimation using only sample responses have been estimated using modeling techniques.