I think the the title is self explanatory. Although I search actually for the blackest and reddest pixel by columns, I guess answering the first automatically answers the second.
Assuming that your bitmap stores colors in RGB color format (not YCbCr or CYMK) and further assuming that 8 bits are used per color component, the pixel closest to (0,0,0) is the blackest and the pixel closest to (255,0,0) is the reddest. Assuming that this is not really new information to you, I guess your question is rather how to calculate "the distance", so you can find out which one is the closest, correct?
To find out what the blackest pixel is, RGB might not be an optimal color representation; I'd prefer HSL for that. A pixel in HSL format consists of three values, H is the hue (the base color), S is the saturation (how much "gray" is mixed into the color) and L is the lightness (basically the brightness). The pixel with the lowest L value (L is between 1.0 and 0.0) would then be closest to black; two pixels with different H/S values, but same L value are equally "black", even though they might have different colors.
To find out which pixel is closest to red, you'd compare the HSL values of the pixels and search for the pixel with a H value closest to 0.0 degree (since 0.0 degree is red and H is between 0.0 and 360.0 degree, however 360.0 degree equals 0.0 degree), an S value closest to 1.0 (since 1.0 means full color, while 0.0 means fully gray) and an L value closest to 0.5 (since 0.0 would be black and 1.0 would be white).
E.g. in HSL dark yellow is 49.5/0.893/0.497, dark blue is 248.3/0.601/0.373, so you can clearly see that the dark blue pixel has a brightness (= lightness) of 0.373, the dark yellow one of only 0.497, thus the dark blue one is definitely "darker" than the yellow one (closer to black), which solves your first question.
Which pixel is redder? Red is 0.0/1.0/0.5. You can calculate for each component how much it is off of the ideal red pixel. Whether you "weight" all components equally or whether you consider hue (color) difference as more important than other differences (and by what factor) is rather up to your definition of red. You can exclusively go by hue if you want.
This page has a nice recipe on how to convert RGB step by step to HSL (and back again, if you have to): http://18.104.22.168/~monger/hsl-rgb.html
To give you an idea of how the HSL color space looks like, here are some pictures from Wikipedia that try to visualize this color space:
HSV is an alternative color space that shares some properties with HSL, however I personally prefer HSL. Both use the same definition of hue H, but they use very different definitions of saturation and thus also a different definitions of lightness/brightness.
You can us a 3 dimensional distance equation on your RGB image(r=x,g=y,b=x). So to get the closest to black p1=(0,0,0) and is the current pixel color. The closest pixel to black will be the one with the smallest distance. For red replace p1 with (255,0,0) and repeat.