Although I am not a fan of answering my own questions, I think I have found a way to achieve this effect and would like to share. By setting up a basic vertex shader, I was able to manipulate the location of the vertex along the y-axis depending on how far away it was from the center of the screen (the origin in my case). I originally used a linear absolute value equation to see how it worked, and I got something like this:
This is obviously a strange effect, but it is getting very close to what I want to achieve. I figured I would also try leveling the effect out by dividing the absolute value of the vertices' distance from the origin by some scalar. I started with 32 and the result was much more reasonable:

As you can see, there is only a slight bend in the terrain.

This is all nice and all, but it isn't a "curve" yet. It is just an upside down 'V' with a bit of squashing done. So from here, it was easy to apply a nice curve by using a parabola and just flattening it out in the same fashion. The result was this:
The result was a very nice curve that I could modify to be any intensity I wanted. I also tried applying the graph of a 3rd degree equation, but it gave more of a try-hard 3D feel. I suppose I could apply the graph of a circle so I can accurately get the proper curve when I am on a planet with a specified radius, but I am satisfied for now.

The code turned out to be only a few lines long. Here is the GLSL code for the vertex shader:

```
#version 150
varying vec4 vertColor; //Just to send the color data to the fragment shader
uniform float tx; //Passed by the Java program to ensure the terrain curvature
//is sinked by with player's movement, this value is usually
//in the "lookThroughCamera" method where you handle the game
//world's translation when the player moves
void main(void) {
float v0 = gl_Vertex[1] - pow((gl_Vertex[0] + tx) / 64, 2); //this will be the new y-value for the vertex.
//It takes the original y-value and subtracts
//the absolute value of the x-value plus the offset
//on the x-axis of the player divided by 64 all to
//the power of 2. The division by 64 levels the
//curve out enough so it looks acceptable
vec4 pos = vec4(gl_Vertex[0], v0, gl_Vertex[2], gl_Vertex[3]); //create the new position with the changed y-value
gl_Position = gl_ModelViewProjectionMatrix * pos; //multiply it by your projection and modelview matrices
vertColor = gl_Color.argb; //more color stuff that has nothing to do with the rest
}
```

EDIT: This approach does have a serious issue though. All vertical lines will remain vertical due to the fact they are not shifted along the x-axis properly. This is shown by the following image:
This gives an extremely unnatural look, and I have yet to come up with a proper solution to this.