As Nicol Bolas said, some triangles have UV coordinates going from ~0.9 back to 0, so the interpolation messes the texture around the seam. In my code, I've created this function to duplicate the vertices around the seam. This will create a sharp line splitting those vertices. If your texture has only water around the seam (the Pacific ocean?), you may not notice this line. Hope it helps.

```
/**
* After spherical projection, some triangles have vertices with
* UV coordinates that are far away (0 to 1), because the Azimuth
* at 2*pi = 0. Interpolating between 0 to 1 creates artifacts
* around that seam (the whole texture is thinly repeated at
* the triangles around the seam).
* This function duplicates vertices around the seam to avoid
* these artifacts.
*/
void PlatonicSolid::SubdivideAzimuthSeam() {
if (m_texCoord == NULL) {
ApplySphericalProjection();
}
// to take note of the trianges in the seam
int facesSeam[m_numFaces];
// check all triangles, looking for triangles with vertices
// separated ~2π. First count.
int nSeam = 0;
for (int i=0;i < m_numFaces; ++i) {
// check the 3 vertices of the triangle
int a = m_faces[3*i];
int b = m_faces[3*i+1];
int c = m_faces[3*i+2];
// just check the seam in the azimuth
float ua = m_texCoord[2*a];
float ub = m_texCoord[2*b];
float uc = m_texCoord[2*c];
if (fabsf(ua-ub)>0.5f || fabsf(ua-uc)>0.5f || fabsf(ub-uc)>0.5f) {
//test::printValue("Face: ", i, "\n");
facesSeam[nSeam] = i;
++nSeam;
}
}
if (nSeam==0) {
// no changes
return;
}
// reserve more memory
int nVertex = m_numVertices;
m_numVertices += nSeam;
m_vertices = (float*)realloc((void*)m_vertices, 3*m_numVertices*sizeof(float));
m_texCoord = (float*)realloc((void*)m_texCoord, 2*m_numVertices*sizeof(float));
// now duplicate vertices in the seam
// (the number of triangles/faces is the same)
for (int i=0; i < nSeam; ++i, ++nVertex) {
int t = facesSeam[i]; // triangle index
// check the 3 vertices of the triangle
int a = m_faces[3*t];
int b = m_faces[3*t+1];
int c = m_faces[3*t+2];
// just check the seam in the azimuth
float u_ab = fabsf(m_texCoord[2*a] - m_texCoord[2*b]);
float u_ac = fabsf(m_texCoord[2*a] - m_texCoord[2*c]);
float u_bc = fabsf(m_texCoord[2*b] - m_texCoord[2*c]);
// select the vertex further away from the other 2
int f = 2;
if (u_ab >= 0.5f && u_ac >= 0.5f) {
c = a;
f = 0;
} else if (u_ab >= 0.5f && u_bc >= 0.5f) {
c = b;
f = 1;
}
m_vertices[3*nVertex] = m_vertices[3*c]; // x
m_vertices[3*nVertex+1] = m_vertices[3*c+1]; // y
m_vertices[3*nVertex+2] = m_vertices[3*c+2]; // z
// repeat u from texcoord
m_texCoord[2*nVertex] = 1.0f - m_texCoord[2*c];
m_texCoord[2*nVertex+1] = m_texCoord[2*c+1];
// change this face so all the vertices have close UV
m_faces[3*t+f] = nVertex;
}
}
```