Doctoring The Numbers: The Hitters League?

Is the American League still the hitters’ league?

It may seem that the Junior Circuit has always been the league of inflated
offense, as a result of–take your pick–weaker pitching, cozier ballparks,
weaker pitching, smaller strike zones, and weaker pitching. That’s not the
case. Prior to the installation of the DH in 1973, the two leagues had
virtually identical offensive levels. If anything, the NL was the more
offensive of the two.

The league with the most runs scored per game (since 1900) is the 1930 NL
(5.68), which also holds records for OPS (808) and batting average (.303). A
sampling of the leagues over the years will give you a sense for their
equality before the DH:

Year  AL OPS  NL OPS  Diff   AL ERA  NL ERA   Diff

1905   613     647    -34     2.65    2.99   -0.34
1910   621     666    -45     2.52    3.02   -0.50
1915   651     640    +11     2.93    2.74   +0.19
1920   734     679    +55     3.79    3.13   +0.66
1925   768     762     +6     4.40    4.27   +0.13
1930   772     808    -36     4.65    4.97   -0.32
1935   753     722    +31     4.46    4.02   +0.44
1940   750     702    +48     4.38    3.85   +0.63
1945   671     696    -25     3.36    3.80   -0.44
1950   759     737    +22     4.58    4.14   +0.44
1955   720     737    -17     3.96    4.04   -0.08
1960   718     710     +8     3.87    3.76   +0.11
1965   682     687     -5     3.46    3.54   -0.08
1970   703     724    -21     3.71    4.05   -0.34

The most significant difference between the two leagues occurred in 1920,
with Babe Ruth leading the revolution (he increased the league’s OPS
by nearly seven points all by himself) towards a more powerful game. It only
took the NL two years to catch on; by 1922, the NL had the higher ERA, and
Rogers Hornsby became the only hitter in history to hit .400 with 40
homers. World War II hit AL hitters hard, as the league ERA dipped by more
than a full point between 1940 and 1945, but strangely, NL hitters were
hardly affected at all.

The AL had the lower OPS and ERA in every year but one between 1965 and
1972, which goes a long way towards explaining why they were the league
willing to experiment with the DH in the first place.

And the DH certainly had its intended effect. In every year since 1973, the
AL has had the higher ERA of the two leagues:

Year   AL ERA    NL ERA     Diff     Year   AL ERA   NL ERA    Diff

1973    3.82      3.66     +0.16     1987    4.46     4.08    +0.38
1974    3.61729   3.61725  +0.00004  1988    3.97     3.45    +0.52
1975    3.78      3.62     +0.16     1989    3.88     3.50    +0.38
1976    3.52      3.50     +0.02     1990    3.91     3.79    +0.12
1977    4.06      3.91     +0.15     1991    4.10     3.69    +0.41
1978    3.76      3.58     +0.18     1992    3.95     3.51    +0.44
1979    4.22      3.73     +0.49     1993    4.32     4.04    +0.28
1980    4.03      3.60     +0.43     1994    4.80     4.21    +0.59
1981    3.66      3.49     +0.17     1995    4.71     4.18    +0.53
1982    4.07      3.60     +0.47     1996    4.99     4.21    +0.58
1983    4.06      3.63     +0.44     1997    4.57     4.21    +0.36
1984    3.99      3.59     +0.40     1998    4.65     4.23    +0.42
1985    4.15      3.59     +0.56     1999    4.86     4.56    +0.30
1986    4.18      3.72     +0.46     2000    4.91     4.63    +0.28

In the early years of the DH, the difference between the two leagues was
very slim (invisible in the case of the 1974 season) which only highlights
the fact that the AL endorsed the DH because they were desperate to inject
offense into their games; without it, their offensive totals would have
lagged far behind the NL’s. But since 1979, the AL has consistently had
consistently higher offensive totals than the NL. With the exception of 1981
(a strike season) and, for some reason, 1990, the AL has had an ERA more
than a quarter-run higher than the NL in every season.

But does the AL truly have better hitters, or simply more hitters? If you
eliminate DHs and pitchers from the equation entirely, do the leagues even
out, or does the AL still have the higher offensive totals?

Unfortunately, I don’t have the game-by-game box scores needed to eliminate
DHs from league totals, but it is fairly easy to eliminate the performance
of pitchers. The following chart lists the OPS for each league since 1973,
as well as the OPS of each league once pitchers’ hitting totals are removed
(pitchers’ hitting data is not available after 1998):

Year   AL OPS   NL OPS  Diff      AL OPS    NL OPS    Diff
                                  (no P)    (no P)

1973    712      700     +12        712       724      -12
1974    697      695      +2        697       716      -19
1975    709      698     +11        709       722      -13
1976    684      684       0        684       706      -22
1977    738      727     +11        738       750      -12
1978    714      694     +20        714       718       -4
1979    746      712     +34        746       736       +9
1980    733      697     +36        733       719      +14
1981    696      686     +10        696       707      -11
1982    733      695     +37        733       717      +16
1983    731      700     +31        731       724       +7
1984    727      691     +36        727       714      +13
1985    735      695     +40        735       718      +17
1986    740      704     +36        740       728      +12
1987    761      734     +27        761       760       +1
1988    718      675     +43        718       699      +19
1989    712      680     +32        712       702      +10
1990    718      707     +11        718       730      -12
1991    726      692     +34        726       714      +12
1992    716      686     +30        716       708       +8
1993    748      729     +19        748       752       -4
1994    782      750     +32        782       773       +9
1995    774      741     +33        774       764      +10
1996    798      741     +57        798       764      +34
1997    770      747     +23        773       770       +3
1998    774      744     +30        776       766      +10
1999    786      771     +15
2000    792      774     +18

The chart shows that once pitchers are removed from the equation, NL hitters
were actually more productive up through 1978, and though the AL has been
the more productive league since, the difference is fairly small. On raw
totals alone, the AL has had a 30-35 point edge in OPS over the last 20
years, but approximately 23 of those points are purely the result of
pitchers batting in the NL. (Interleague play has had a measurable, but
small, impact on these numbers. AL pitchers now pick up a few hundred
at-bats a season, lowering the league’s OPS by about two points.)

The remaining 10-point edge is still exaggerated; because DHs have no
defensive responsibilities, it is much easier to find a DH that can hit
than, say, a shortstop, so the "average" DH is a considerably
better hitter than the "average" AL position player. If we were
able to eliminate DHs as well as pitchers from the equation, the ten-point
edge in OPS that the AL possesses would shrink almost to nothingness.

This is an absolutely crucial point to understand: the fact that the AL has
had consistently higher offensive totals than the NL over the last 25 years
does not mean that AL hitters are better, or that AL pitchers are worse. The
difference is almost entirely an illusion created by replacing pitchers with
designated hitters for nearly 5,000 at-bats over the course of a season.

What this means is that if, say, two hitters bat .270/.340/.450, and one of
them is in the AL and one is in the NL, even though the NL hitter is better
relative to his league than the AL hitter, that is an inaccurate (and
therefore irrelevant) comparison, because the two league averages involve
different components. Comparing a hitter to league averages can only be
done after pitchers’ hitting totals have been removed from the equation.
Better still is to compare players to the performance of hitters only at
their position.

The point of all this?

As of the All-Star break, the AL ERA is 4.52, which is a Rockies homestand
away from the NL figure of 4.47. The AL OPS (766) is also just barely ahead
of the NL total (760).

The five-point difference in ERA, and the six-point gap in OPS, are both the
lowest figures by far since 1976. This, after the 1999 and 2000 seasons
showed the smallest gap between the two leagues since the early 1990s. And
while I don’t have an easy way of removing pitcher hitting totals in-season,
we can infer from previous seasons that, pitcher hitting aside, the average
NL hitter has an OPS 15 to 20 points higher than the average AL hitter. This
is a significant difference, especially when you consider that this is a
trend: since 1998, NL hitters have been gaining steadily on their AL
counterparts.

The possible reasons for this are too numerous to mention, but I prefer to
keep things simple and look for a single, obvious, measurable cause for this
shift. Fortunately, one such cause does in fact exist: the ballparks.

The following list includes every new stadium that opened after the 1998
season. Park factors are calculated from the STATS Major League
Handbook, and are based on a score of 1000 for a neutral park, with
higher numbers indicating more run scoring (e.g. a factor of 1050 indicates
the stadium increases scoring by 5%). Note that these park factors are not
the same as the ones Clay Davenport uses for Equivalent Average rankings;
those park factors incorporate a team’s road games as well as home games.
All park factors are based on three-year data, where available.

Year  Team         Old Stadium   Park Factor  New Stadium   Park Factor

1999  Seattle       Kingdome         1022     Safeco Field       845
2000  Detroit       Tiger Stadium    1011     Comerica Park      888
2000  Houston       Astrodome         931     Enron Field       1194
2000  San Francisco 3Com Park         888     Pacific Bell Park  842

This season, the Brewers moved out of County Stadium (park factor: 985) and
into Miller Park, which through the All-Star break has a park factor of
1027. The Pirates have moved from Three Rivers (park factor: 1004) to PNC
Park (park factor: 1109).

Break it down, and you have two AL teams moving from parks which were
slightly favorable to hitters into the two best pitchers’ parks in the
league. Of the four NL teams to change parks, only the Giants have moved
into a pitchers’ park, and Pac Bell is only slightly tougher on hitters than
their old digs at Candlestick Point.

The Astros have gone from one of the worst parks (for hitters) in
major-league history into one of the best, and the Brewers and Pirates have
also made their hitters quite happy with their moves.

We can do a rough estimate of how each of these ballpark shifts have
affected the overall rate of scoring in their league. For example, the
Astros moved from a park which depressed scoring by 6.9% into a park that
increases scoring by 19.4%, an increase (relative to the league average) of
26.3%. Since 1/16th of all NL games are played in Enron Field, that should
correspond to a league increase in scoring of about 1.64%. Running the
numbers for all six teams:

Team         Old PF   New PF   % Change   % Change (League)

Detroit       1011     888      -12.3%         -0.88%
Seattle       1022     845      -17.7%         -1.26%

Houston        931    1194      +26.3%         +1.64%
San Francisco  888     842       -4.6%         -0.03%
Milwaukee      985    1027       +4.2%         +0.03%
Pittsburgh    1004    1109      +10.5%         +0.66%

Combine the totals for each league, and we can estimate that the overall
drop in AL runs scored due solely to the change in ballparks in two AL
cities is approximately 2.13%. The estimated increase in NL runs scored as a
result of the four new ballparks is roughly 2.31%.

The ratio of AL runs per game to NL runs per game should, therefore, have
declined by about 4.5%, once you do the math properly. And in fact, in 1998
the ratio of AL runs per game to NL runs per game was 1.089. This season,
that ratio is just 1.027, an overall decline of 6.0%. That leaves 1.5% that
we can’t explain with our ballpark theory. That could be due to any number
of possibilities, the most likely of which is simply natural sample-size
variation, also known as a fluke.

But that still means that most of this paradigm shift–a full 75% of it–is
not only explainable, but expected. The AL may boast of the DH, but it needs
the DH to make up for parks like Comerica and Safeco, especially since the
NL counters with parks like Coors, Enron, and PNC. The era of two different
leagues playing at two markedly different scoring levels appears to be over.

At least until the next new ballpark opens in a city near you.

Rany Jazayerli is an author of Baseball Prospectus. You can contact him by
clicking here.