What are the effects of mimosa pudica Linn on larvae?5 answersMimosa pudica Linn has shown toxicity effects on the larvae of Anopheles stephensi, a type of mosquito. The ethanolic leaf extract of Mimosa pudica Linn demonstrated considerable toxicity against different immature stages of Anopheles stephensi, with varying lethal concentrations (LC50 and LC90) for each larval stage. The smoke from Mimosa pudica leaves also exhibited a knockdown effect on mosquitoes, reducing their egg-laying capacity and hatchability. These findings suggest that Mimosa pudica Linn has potential as an antivectorial agent against mosquito larvae.
What are the traditional uses of Mimosa pudica in the Philippines?5 answersMimosa pudica has traditional uses as an anesthetic, antidepressant, sedative, and antialopecic in the Philippines. It is also used as a medicinal plant with pharmacological properties such as antidiabetic, antimicrobial, antiulcer, and anti-inflammatory effects. Additionally, the plant has been used for the synthesis of silver nanoparticles, which have potential applications in various fields. Furthermore, there are reports of Mimosa pudica being used as a substance of abuse, either on its own or mixed with marijuana, highlighting its potential for misuse. The plant extracts from Mimosa pudica have been found to possess free radical scavenging potential, making them a potential source of antioxidants for combating aging and oxidative stress-related degenerative diseases.
What is the cultural significance of mimosa pudica?3 answersMimosa pudica, also known as the "sensitive plant," holds cultural significance in various ways. It is commonly used in folk medicine for its pharmacological properties, including antidiabetic, antimicrobial, anti-inflammatory, and antidepressant effects. In traditional folk medicine, it has been used to treat a range of illnesses, such as alopecia, tumours, sleeplessness, dysentery, and snakebites. Additionally, Mimosa pudica has been associated with drug addiction, as it is sometimes abused as a substance or mixed with marijuana. The plant's movement and biological properties have been extensively studied, revealing its diverse biological profile and potential as a natural medicine. Overall, Mimosa pudica's cultural significance lies in its traditional medicinal uses, its association with drug addiction, and its potential as a source of therapeutic compounds.
What are the ethno-medicinal uses of Mimosa pudica in the Philippines?3 answersMimosa pudica has several ethno-medicinal uses in the Philippines. It is used in folk medicine for managing various types of diseases. The plant contains metabolites such as phenols and flavonoid compounds, which possess pharmacological properties such as antidiabetic, antimicrobial, antiulcer, antidepressant, and anti-inflammatory effects. Additionally, the plant extracts from Mimosa pudica have been found to have antioxidant activity, which can help in slowing down the process of aging and age-related or oxidative stress-related degenerative diseases. The plant also exhibits antimicrobial activity against bacteria and fungi, making it a potential source of antimicrobial agents. Furthermore, Mimosa pudica has been traditionally used for the prevention and control of diabetes and cancer, as well as their complications. Overall, the ethno-medicinal uses of Mimosa pudica in the Philippines include disease management, antioxidant activity, antimicrobial activity, and potential therapeutic applications for diabetes and cancer.
Is there C-glycosyl flavones in Mimosa pudica seeds?5 answersYes, C-glycosyl flavones have been identified in Mimosa pudica.The seeds of Mimosa pudica contain a wide array of secondary metabolites, including glycosylflavones.
What are the alternative plant Fiber base ropes in the Philippines?5 answersAlternative plant fiber base ropes in the Philippines have not been specifically mentioned in the abstracts provided. However, there are references to the use of natural fiber ropes and high-strength fiber ropes in different contexts. Detyara Imani et al. discuss the quality of rope made from Sansevieria trifasciata laurentii (Lidah Mertua) leaf fiber. Annett Schmieder et al. mention the development of alternative tension members, including high-strength fiber ropes, for discontinuous conveyor systems. Varnava Thanasis and Conger Wesley describe a braided rope made of twisted yarns, including high modulus polyethylene (HMPE) fibers. Claudio De Angelis discusses the use of synthetic fiber ropes with indicator fibers to detect wear. Tanaka Shinji describes a natural fiber base made from processed bark for vegetation. While these abstracts provide information on different types of fiber ropes, they do not specifically mention alternative plant fiber base ropes in the Philippines.