"Androgenetic" Natural Recordings by Native Speakers
Androgenetic refers to something related to or caused by the combination of androgens (male hormones) and genetic factors. It is often used to describe conditions or characteristics influenced by both hormonal and hereditary influences, such as androgenetic alopecia (male-pattern baldness) or androgenetic hirsutism (excessive hair growth in women due to androgen sensitivity).
1. Androgenetic alopecia, commonly known as male-pattern baldness, is a hereditary condition characterized by hair loss in men due to sensitivity to androgens.
2. Women with androgenetic hypertrichosis experience excessive hair growth on their faces or bodies, which is caused by an imbalance of androgens.
3. Researchers have found that androgenetic factors play a significant role in the development of polycystic ovary syndrome (PCOS), affecting hormonal balance and fertility in women.
4. Some athletes use anabolic steroids to enhance their performance, unaware of the potential long-term effects, including androgenetic changes that can lead to masculinization.
5. In androgenetic acne, the excessive production of androgens can stimulate oil glands in the skin, leading to chronic breakouts and inflammation.
androctonus: noun, plural androctonuses or androctoni<br>1. A genus of venomous scorpions, known for their potent sting and found primarily in North Africa and the Middle East.<br>2. Referring to a person or character displaying extreme aggression or violence, often associated with the dangerous nature of the mentioned scorpion.
An androcyte is a type of cell found in the testes that is involved in the production and maturation of sperm cells. These cells, also known as spermatogonia, are responsible for the initial stage of spermatogenesis, which is the process of sperm formation.
androdioecious (adjective): Referring to a species in which both male and hermaphrodite individuals exist within the same population, allowing for sexual reproduction through either self-fertilization or cross-fertilization.
Androdioecism is a sexual system in which both male and hermaphrodite individuals exist within the same population of a species. In other words, a species is said to exhibit androdioecy when some individuals have functional testes and produce only sperm, while others are hermaphrodites, having both male and female reproductive organs. This is relatively rare in nature compared to other sexual systems like monoecy (where males and females are separate) or hermaphroditism (where all individuals have both male and female reproductive parts).
Androdioecy is a term used in biology to describe a sexual system in which both male and hermaphrodite individuals exist within the same species. In other words, it refers to a situation where some individuals have male reproductive organs and others have both male and female organs. This is relatively rare in the plant kingdom but can be found in some animal species.
The androecium is the collective term for the male reproductive organs in flowers, consisting of stamens (the structures that bear anthers, which produce pollen). It is one of the four main parts of a flower, along with the pistil (female reproductive organ), sepals (outermost floral whorl, usually green), and petals (colorful, often showy structures).
Androgen is a hormone that is primarily produced in the male body, but also present in females to a lesser extent. It is responsible for the development of male sexual characteristics, such as deepening of the voice, growth of facial and body hair, and muscle development. The main androgens are testosterone and dihydrotestosterone (DHT). In females, androgens play a role in fertility and the regulation of menstrual cycles.
Androgenesis refers to a biological process or condition where development is primarily influenced by androgens, which are male sex hormones such as testosterone. This term is often used in the context of genetics and reproduction, where it may pertain to the development of an individual with mostly male characteristics due to the dominance of androgens.