In python, you can use matplotlib's fill_between:
import numpy as np
import matplotlib.pyplot as plt
# Create some fake data
x = np.arange(0, 20, 0.01)
y1 = np.exp(-(x - 6)**2 / 5.)
y2 = 2 * np.exp(-(x - 12)**2 / 8.)
plt.plot(x, y1, 'r-')
plt.plot(x, y2, 'g-')
plt.fill_between(x, 0, y1, color='r', alpha=0.6)
plt.fill_between(x, 0, y2, color='g', alpha=0.6)
Here, the alpha was used to create transparency and combine the two colours in the intersection area. You can also just colour that area with a different colour:
idx_intsec = 828
plt.fill_between(x[:idx_intsec], 0, y2[:idx_intsec], color='y')
plt.fill_between(x[idx_intsec:], 0, y1[idx_intsec:], color='y')
If you only want the bottom part of the graphic (ie, the function areas before and after an the threshold value), it is also easy. Let's define the threshold value in my plot as x = 7
:
thres = 7.
idx_thres = np.argmin(np.abs(x - thres))
plt.plot(x[:idx_thres], y2[:idx_thres], 'g-')
plt.plot(x[idx_thres:], y1[idx_thres:], 'r-')
plt.plot([thres, thres], [0, y1[idx_thres]], 'r-')
plt.fill_between(x[:idx_thres], y2[:idx_thres], color='g', alpha=0.6)
plt.fill_between(x[idx_thres:], y1[idx_thres:], color='r', alpha=0.6)