Van der Wal on:
THE ONE TO BE MET: THE MORPHODYNAMICS OF HUMAN SPERM CELLS
Unlike the solitary egg cell a sperm is never on its own. The production of sperm cells in the human testis is characterized by the production of enormous numbers of cells. On the other hand the process of oogenesis (i.e. the process of ripening and production of egg cells) is characterized by a tendency of diminishing and reducing in number. The facts will support this view. During the fetal phase of a female, at first millions of egg cells are produced by means of cell division. Next the number is reduced to about 2,000,000 cells at birth until about several hundred thousand remain at the beginning of the menstrual cycles (menarche). In every cycle however some ten to twenty egg cells may reach the final stage of ripening, but only one of them (very seldom two or three) is released (ovulation). The rest of the ripened cells disintegrate. So the whole process of egg cell production and ripening might be described as a converging tendency (gesture). On the contrary the male process (spermatogenesis) exhibits a diverging tendency: continuously enormous numbers of sperm cells are produced within the testis. Millions per day, thousand per second! This huge numbers are also functional. Very many sperm cells will be sacrificed in the process of overcoming a lot of anatomical, physiological and biochemical barriers, which a sperm has to face in order to finally make contact with an egg cell. The production of egg cells from the ovary is a process of titration (one by one), the production of sperm cells in a testis is massive and explosive. These features cope with the polarity of one and solitarily for the egg cell versus many and community for the sperm cells.
As to their shape the contrast between the two gametes is very strong. The egg cell could be described as purely spherically shaped. On the contrary the sperm cell, with its total length of about 60μ, with a diameter of the head of the cell of about 3 to 4μ (at the most) and a diameter of the so-called tail of not more than 1μ, should be characterized as a radial-shaped cell. In the sense of morphodynamics the polarity here is evident and impressive. The egg cell is a ball. Isn't the ball a form with (endlessly) many non-visible radiuses? The sperm cell on the opposite brings the principle of radius to appearance. Later on, prior to and during conception, many sperm cells will converge and focus on just one egg cell. Don't they bring in this way transcendentally (sinnlich-übersinnlich) a ball shape to appearance, with the sperm cells as visible rays of the sensorially perceivable manifestation of that ball? The sperm cells are making visible what is present in a non-visible way within the egg cell!
Describing the egg cell previously it has been argued that the spherical shape represents the spatial form with the least environmental contact that could be adapted to by a cell. It therefore represents par excellence the shape that fits to being brought into motion (being moved). On the other hand the radius-like shape represents the principle of motion and (self) mobility. The fact that the sperm cell is an actively moving organism (in opposition to an egg cell), is not actually surprising or unexpected for the dynamic morphological observer. It is the same flow of fluid within the ovarian tube by which the egg cell is being transported passively in the direction of the uterus, that offers to the sperm cell the resisting stream against which he can exhibit his potency to move. At the same time the flow of fluid is directive and guiding for his movement.
The end of spermatogenesis is marked by the event of seemingly eliminating nearly all its cytoplasmatic content. This process therefore results in a cell with a cell membrane, a very small amount of cytoplasm and with merely a nucleus as its cellular content. The dynamics of a ripening egg cell may be characterized as one of enlargement, swelling and diverging, the formation of a sperm cell as a gesture of concentration and diminishing (loosing volume). Just like in the case of the egg cell and its being-large, the signature of being-small of the sperm cell represents a qualitative rather than a quantitative characteristic, and therefore represents a morphodynamic gesture.
The egg cell actively and metabolically relates to its physiological context, the sperm cell on the contrary does not exhibit any metabolic exchanges or interaction with its environment. Could the egg cell therefore be described as open and vulnerable and the complete opposite be true for the sperm cell? Apparently without any difficulty the sperm cell might undergo all kinds of mechanical and physical manipulations (maltreatments) – for example being centrifuged, being frozen to more the 60 degrees Celsius below zero – without any evident or notable damage. In terms of morphodynamic gesture the sperm cell may be characterized as a closed or non-open cell.
All this from Van der Wal again:
http://home.unet.nl/walembryo/econceptie.htm