Thanks for the input everyone.
Since it looks like there isn't a good solution within the proc itself, I went with a macro approach to manually setting the axis.

This paper provided the foundation for what I did:
http://analytics.ncsu.edu/sesug/2012/BB-09.pdf

Since I couldn't find the text of the program anywhere except for in that non-searchable PDF, I've typed it in here. My version adds one additional parameter that optionally pads the low value in order to leave space for data labels below the low point (useful if you are making a column chart with labels above the positive values and below the negative values)

```
%macro set_axis_minmaxincrement(ds=,
axisvar=,
axis_length = 51,
sa_min = 999999,
sa_max = -999999,
returned_min = axis_min,
returned_max = axis_max,
returned_increment = axis_increment,
force_zero = 0,
pad_bottom = 0
) ;
%global &returned_min &returned_max &returned_increment;
/* Find the high and low values. Note: a data step was used versus a proc */
/* to allow the application of the option parameters, if specified. */
proc sort data=&ds out=sortlb(keep=&axisvar);
by &axisvar;
where &axisvar ne .;
run;
data axisdata(keep=low high);
retain low 0;
set sortlb end=eof;
by &axisvar;
if _n_=1 then low = &axisvar;
if eof then do;
high = &axisvar;
if &sa_min ^= 999999 and &sa_min < low then low = &sa_min;
if &sa_max ^= -999999 and &sa_max > high then high = &sa_max;
%if &force_zero = 1 %then %do;
if low > 0 then low = 0;
else if high < 0 then high = 0;
%end;
%if &pad_bottom = 1 %then %do;
if low < 0 then low = low-((high-low)*.06);
%end;
output;
end;
run;
data axisdata;
set axisdata;
/* insure that high is greater than low */
if high <= low then do;
if abs(low) <= 1 then high = low + 1;
else high = low+10;
end;
/* Calculate the conversion unit to transform the standard range to */
/* include the actual range. This value is used to convert the standard */
/* to the actual increment for the actual range. */
axisrange = high - low;
/* ranges of less than 1 */
if axisrange <= 6 then do;
check = 6;
conversion_unit = .01;
do until (axisrange > check);
check = check/10;
if axisrange <= check then conversion_unit = conversion_unit / 10;
end;
end;
/* Ranges of 1 or greater */
else do;
check = 60;
conversion_unit = 1.0;
do while (axisrange > check);
check = check*10;
conversion_unit = conversion_unit * 10;
end;
end;
/* standardize the range to lie between 6 to 60 */
unit_range = axisrange/conversion_unit;
/* Set the increment based on the unitized range */
/* 'Long' axis, 8 - 12 increments */
%if &axis_length >50 %then %do;
if unit_range < 12 then axisinc = 1 * conversion_unit;
else if unit_range < 24 then axisinc = 2 * conversion_unit;
else if unit_range < 30 then axisinc = 2.5 * conversion_unit;
else axisinc = 5 * conversion_unit;
%end;
/* Otherwise, 'short' axis, 4-6 increments */
%else %do;
if unit_range < 12 then axisinc = 2 * conversion_unit;
else if unit_range < 18 then axisinc = 3 * conversion_unit;
else if unit_range < 24 then axisinc = 4 * conversion_unit;
else if unit_range < 30 then axisinc = 5 * conversion_unit;
else axisinc = 10 * conversion_unit;
%end;
/*Round the min's value to match the increment; if the number is */
/* rounded up so that it becomes larger than the lowest data value, */
/* decrease the min by one increment. */
axislow = round(low,axisinc);
if axislow > low then axislow = axislow - axisinc;
/* Round the max; if the number is rounded down, */
/* increase the max by one increment. */
axishigh = round(high, axisinc);
if axishigh < high then axishigh = axishigh + axisinc;
/* put the values into the global macro variables */
call symput("&returned_min",compress(put(axislow, best.)));
call symput("&returned_max",compress(put(axishigh, best.)));
call symput("&returned_increment",compress(put(axisinc, best.)));
run;
%mend set_axis_minmaxincrement;
```