Answer provided by @Shashank is nice. However, if you want a solution in pure `pandas`

, you may like this:

```
import pandas as pd
from pandas.io.data import DataReader
from datetime import datetime
import scipy.stats as stats
gdp = pd.DataFrame(DataReader("GDP", "fred", start=datetime(1990, 1, 1)))
vix = pd.DataFrame(DataReader("VIXCLS", "fred", start=datetime(1990, 1, 1)))
#Do it with a pandas regression to get the p value from the F-test
df = gdp.merge(vix,left_index=True, right_index=True, how='left')
vix_on_gdp = pd.ols(y=df['VIXCLS'], x=df['GDP'], intercept=True)
print(df['VIXCLS'].corr(df['GDP']), vix_on_gdp.f_stat['p-value'])
```

Results:

```
-0.0422917932738 0.851762475093
```

Same results as stats function:

```
#Do it with stats functions.
df_clean = df.dropna()
stats.pearsonr(df_clean['VIXCLS'], df_clean['GDP'])
```

Results:

```
(-0.042291793273791969, 0.85176247509284908)
```

To extend to more vairables I give you an ugly loop based approach:

```
#Add a third field
oil = pd.DataFrame(DataReader("DCOILWTICO", "fred", start=datetime(1990, 1, 1)))
df = df.merge(oil,left_index=True, right_index=True, how='left')
#construct two arrays, one of the correlation and the other of the p-vals
rho = df.corr()
pval = np.zeros([df.shape[1],df.shape[1]])
for i in range(df.shape[1]): # rows are the number of rows in the matrix.
for j in range(df.shape[1]):
JonI = pd.ols(y=df.icol(i), x=df.icol(j), intercept=True)
pval[i,j] = JonI.f_stat['p-value']
```

Results of rho:

```
GDP VIXCLS DCOILWTICO
GDP 1.000000 -0.042292 0.870251
VIXCLS -0.042292 1.000000 -0.004612
DCOILWTICO 0.870251 -0.004612 1.000000
```

Results of pval:

```
[[ 0.00000000e+00 8.51762475e-01 1.11022302e-16]
[ 8.51762475e-01 0.00000000e+00 9.83747425e-01]
[ 1.11022302e-16 9.83747425e-01 0.00000000e+00]]
```