When we think about plants, swimming ability generally doesn't come to mind. As kids we learn that one of the major differences between plants and animals is that plants generally can't move on their own volition. Certainly there are exceptions to this rule - sensitive plants and Venus flytraps to name a few. However, there are plants out there in which swimming is a crucial component of their life cycle. Though it isn't the plant itself that does the swimming, some of the ancestral plant lineages alive today have motile sperm!
Swimming sperm is a throwback to the early days of plant evolution. Because they arose from aquatic algae, a sperm's ability to swim to an ovule helped increase the chances of reproduction. Today we see this adaptation in plants like liverworts, mosses, and ferns, which still require water to complete their life cycle. However, swimming sperm are not restricted to the cryptograms. This adaptation also can be found in cycads (as well as ginkgoes). Their sperm are super strange too. They look like little seeds covered in concentric rings of beating flagella. Unlike cryptograms, however, their swimming ability doesn't come into play until pollen comes into contact with the ovule.
Cycads are either male or female. Each produces cone-like structures called strobili. This is where the magic happens. When pollen from a male plant finds its way onto the ovule of a female, it does something quite strange. It fuses with the ovule and begins to grow. In essence it acts almost like a parasite, sucking up nutrients from the ovule tissue and destroying it in the process. This is okay because once this happens, these tissues soon become obsolete. What matters is the female gametophyte, which is embedded inside the ovule.
The pollen begins to grow a tube down into the ovule. Once it has gained enough energy, the pollen will then burst and release its sperm. This is where the flagella come in. Each sperm is like a tiny submarine, capable of swimming around inside the ovule until it locates the female gametophyte. Then and only then is fertilization accomplished. Pretty wild for an otherwise sessile organism, wouldn't you say?