You might be able to detect ovulation by simply observing the consistency of your cervical mucus. In most cases, your discharge will become egg white in appearance about 2 to 3 days before ovulation. Yet, monitoring your discharge can provide clues about your most fertile days. Some women find it difficult to track their menstrual cycle. If you’re looking to conceive, tracking ovulation improves your odds of getting pregnant. How do you know if you have egg white cervical mucus? For example, you might notice egg white discharge during pregnancy, and you may see this type of discharge right before sexual intercourse. While egg white cervical mucus is typical during ovulation, this type of discharge can occur at other times, too. Ovulation is when your ovaries release an egg to be fertilized by sperm. This type of discharge can continue for up to 1 to 2 days after ovulation. This discharge spreads from the cervix and can be found inside the vagina and sometimes in your underwear or on toilet paper when you wipe.Įgg white cervical mucus is a clear, stretchy fluid that you’ll see a few days before ovulation in response to hormonal changes. The cervix is located at the end of the vagina and connects your uterus to your vagina. It’s called “egg white cervical mucus” because it looks and feels like raw egg whites under close examination.Īlthough vaginal discharge is a regular occurrence throughout the month, it’s not uncommon for vaginal fluid to change in quantity and consistency depending on the stage of your menstrual cycle.Ĭervical mucus is created by the glands in your cervix. Shanghai Science and Technology Press, Shanghai, China, 112–115, (in Chinese).Egg white cervical mucus is fertile fluid that helps sperm travel from the vagina to the uterus. Wu C, Pang S (1994) On the cultivation of Undaria gametophyte clones and its use in sporeling raising. Wu C, Gao N, Cheng D, Chou B, Cai P, Dong S, Wen Z, Cong R (1979) On the malformation disease of Laminaria sporelings. In Critchley A, Ohno M (eds), Seaweed Resources of the World. Hakone, Japanese Society of Plant Physiology 63–75. Proceedings of the U.S.- Japan Conference. In Watanabe A, Hattori A (eds), Cultures and Collection of Algae. (1968) Media and prospect for the cultivation of marine algae. Pang S, Wu C (1996) Study on gametophyte vegetative growth of Unidaria pinnatifida and its application. –A possible time-saving way of strain selection. Pang S, Hu X, Wu C, Hirosawa A, Ohno M (1997) Intraspecific crossing of Unidaria pinnatifida (Harv.) Sur. Lüning K (1981) Egg release in gametophytes of Laminaria saccharina induction by darkness and inhibition by blue light and U.V. Li D, Liu H, Peng G, Wu C (1998) Application of gametophyte clones of Japanese strain Undaria pinnatifida to large scale sporeling production. During the second and third days, very few eggs were discharged throughout the 11 h of the normal light phase of the L-D regime, indicating the inhibitory effect of continuous light and that the rhtyhm is easily damped by light. This suggests the existence of an endogenous circadian rhythm. When the slides were transferred from the standard 11:13 L-D regime to continuous light, eggs were discharged 5 min after the end of the light phase and peaked 5–l5 min later on first day after transfer, indicating that the female gametes “remember” the light-dark regime. In order to enhance outgrowth rate of young sporophytes, a study was conducted to test the effect of controlling darkness in the period 2–3 h after dusk. The course of egg discharge could be disturbed by light, with irradiance as low as 5–6 μmol photon m −2 s −1 causing 75–80% of the discharged eggs to detach from the oogonia and consequently to die within several hours. A sporeling culture method using gametophyte clones developed in the early 1990s led to egg discharge occurring in the dark 5 min after the start of the dark period under growth under a 11:13 L-D photoperiod.
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