mathman said:
An article I read recently (American Scientist - latest edition) describes extinctions having a 26 million year period, somehow correlated with the 30 million year plane crossing. I am puzzled, since after two or three cycles they would be too far apart.
As I stated earlier, the period is uncertain by a few million years, so the difference isn't that troublesome.
It is true that over very long periods of time--billions of years--the periods will change, but over the course of a full Galactic orbit (230 million years) the change should be small. The main drivers of change in the solar system's orbit are probably giant molecular clouds, which can have as much as a million solar masses; when the solar system encounters such clouds, their gravity alters the orbit. Spiral arms may also play a role. And the Milky Way has certainly acquired mass during the Sun's 4.6-billion-year lifetime.
It has been known for more than a century that what we now know are young stars have more circular orbits around the Galaxy and stay closer to the Galactic plane than do older stars in the Milky Way disk. Young stars are thought to be born on fairly circular orbits in the Galactic plane; then giant molecular clouds and spiral arms scatter the stars into more elliptical orbits that take the stars farther from the Galactic plane.
This process is discussed on pages 93-100 of Ken Croswell's book
The Alchemy of the Heavens: Searching for Meaning in the Milky Way. Croswell interviewed and quotes the two astronomers--Martin Schwarzschild and Lyman Spitzer, Jr.--who developed this idea. Amazingly, Schwarzschild and Spitzer predicted the existence of million-solar-mass clouds two decades before they were discovered! "We ourselves were a little bothered by that large number," Schwarzschild told Croswell. "It was quite a jump of faith."
Incidentally, the Sun has a more circular orbit and stays closer to the Galactic plane than does the average star of its age, so perhaps we haven't been as perturbed by giant molecular clouds and spiral arms as the typical solar-age star in the Galaxy.