scholarly journals Toxic plants act as indiscriminate protectors of insects

2021 ◽  
Vol 4 (1) ◽  
Author(s):  
Luke R. Grinham
Keyword(s):  
Toxic Plants

TOXIC PROPERTIES AND INTAKE SYMPTOMS OF SOME WILD PLANTS IN RELATION TO REPORTED FROM THE FOREST OF NORTH WEST SATPUDA REGION OF MAHARASTRA, INDIA

2017 ◽  
Vol 23 (2) ◽  
Author(s):  
SANJAY A. KHAIRNAR
Keyword(s):  
Secondary Phase ◽  
Wild Plants ◽  
Chemical Components ◽  
World Population ◽  
Poisonous Plants ◽  
North West ◽  
Toxic Plants ◽  
Datura Metel ◽  
Croton Tiglium ◽  
Modern Era

In modern era about 80% of the world population depends on herbal alternative system of medicine. Seventy thousand plants are used in medicine and about 2000 plants are used in Indian Ayurveda. The activities of the curative plants are evaluated by their chemical components. Few of them are important as a medicine but also posses poisonous or toxic properties. The toxicity is produced in them due to the synthesis of toxic chemical compounds may be in primary or secondary phase of their life. Most of the users of such medicinal plants in crude form are tribal and peoples living in the forests and their domestic stock . Most of the time these peoples may not aware about the toxicity of such plants used by them and probably get affected sometimes even leads to death. In the study area during the field survey of poisonous plants, information are gathered from the traditional practicing persons, cow boy and from shepherds. About 20 plant species belonging to 17 families are reported as a medicinal as well as toxic. From the available literature, nature of toxic compound and symptoms of their intake on human being are recorded. In the study area the plants like, Abrus precatorious commonly known as a Gunj or Gunjpala, Jatropha curcas , (Biodiesel plant), Croton tiglium (Jamalgota), Citrullus colocynthis (Kadu Indrawan, Girardinia diversifolia (Agya), Mucuna purriens (Khajkuairi), Euphorbia tirucali (Sher), E. ligularia (Sabarkand), Datura metel ( Kala Dhotara), Datura inoxia (Pandhara Dhotara) and Asparagus racemo-sus (Shatavari) etc . are some of the toxic plants used as a medicine and harmful also.

Ethnopharmacological Survey of Medicinal Plants Used in Traditional Treatment of Kidney Diseases in Fez–Meknes Region, Morocco

2019 ◽  
Vol 18 (2) ◽  
pp. 99-114
Author(s):  
M. Chebaibi ◽  
D. Bousta ◽  
I. Iken ◽  
H. Hoummani ◽  
A. Ech-Choayeby ◽  
...  
Keyword(s):  
Kidney Disease ◽  
Medicinal Plants ◽  
Kidney Diseases ◽  
Rank Order ◽  
Pearson Correlation ◽  
Use Value ◽  
Traditional Treatment ◽  
Toxic Plants ◽  
A Value ◽  
Chi Squared

The purpose of this study was to inventory and collect information on plants and mixtures commonly used by herbalists to treat kidney disease in the Fez–Meknes region. We also aimed to compare the results obtained with the results of the other studies and exploit the correlations between different factors. An ethnopharmacological survey was conducted from 289 local herbalists in eight different areas of Fez–Meknes region. Ethnomedicinal uses and ethnobotanical indices were analyzed using quantitative tools, i.e., the total number of citation (TNC), use value (UV), family use value (FUV), fidelity level (FL), and rank order priority (ROP). Statistical analyses such as Pearson correlation and chi-squared test were performed to delineate any correlation. Two hundred and eighty-nine herbalists were questioned. Sixty-nine plant species belonging to 38 families were cited by herbalists for traditional treatment of kidney disease. The highest value of UV was obtained for Herniaria glabra L. (UV = 0.79), and Caryophyllaceae was the family frequently cited (FUV = 0.795). Ammodaucus leucotrichus Coss. & Dur. had the highest value of FL with a value of 100%, and the highest value of ROP was recorded for Herniaria glabra L. (ROP = 91%). Sociodemographic characteristics had a significant impact on the knowledge of toxic plants. Our study has revealed a cultural heritage linked to herbalism and a great wealth of medicinal plants, whose valorization and protection are necessary. Several studies are needed to sensitize herbalists and population on the danger of toxic plants, to extract chemical compounds from the main plants used, and to evaluate their toxicity.

Drugs in Clinical Practice from Toxic Plants and Phytochemicals

2020 ◽  
pp. 79-94
Author(s):  
Tadele Mekuriya Yadesa ◽  
Patrick Engeu Ogwang ◽  
Casim Umba Tolo
Keyword(s):  
Clinical Practice ◽  
Toxic Plants

Toxic plants and animals: A guide for Australia

Toxicon ◽  
1988 ◽  
Vol 26 (8) ◽  
pp. 756
Author(s):  
G. Habermehl
Keyword(s):  
Toxic Plants

scholarly journals William Horner Andrews (1887–1953) – First Professor of Physiology at Onderstepoort

2011 ◽  
Vol 82 (1) ◽  
Author(s):  
D. W. Verwoerd ◽  
W. J. H. Andrews
Keyword(s):  
South Africa ◽  
World War I ◽  
World War ◽  
Snake Venoms ◽  
Field Station ◽  
Guest Worker ◽  
Royal Veterinary College ◽  
Toxic Plants ◽  
The Uk ◽  
Veterinary Laboratory

WHAndrews qualified as a veterinarian in London in 1908 and was recruited soon after, in 1909, by Sir Arnold Theiler to join the staff of the newly established veterinary laboratory at Onderstepoort. After initial studies on the treatment of trypanosomosis and on snake venoms he was deployed by Theiler in 1911 to start research on lamsiekte (botulism)at a field station on the farm Kaffraria near Christiana, where he met and married his wife Doris. After a stint as Captain in the SA Veterinary Corps during World War I he succeeded D T Mitchell as head of the Allerton Laboratory in 1918, where he excelled in research on toxic plants, inter alia identifying Matricaria nigellaefolia as the cause of staggers in cattle.Whenthe Faculty ofVeterinary Science was established in 1920 he was appointed as the first Professor of Physiology. After the graduation of the first class in 1924, and due to health problems, he returned to the UK, first to the Royal Veterinary College and then to the Weybridge Veterinary Laboratories of which he became Director in 1927.After his retirement in 1947 he returned to South Africa as a guest worker at Onderstepoort where he again became involved in teaching physiologywhenProf. Quin unexpectedly died in 1950. Andrews died in Pretoria in 1953 and was buried in the Rebecca Street Cemetery.

scholarly journals CARACTERES EPIDÉRMICOS FOLIARES DE PLANTAS ORNAMENTALES, TÓXICAS PARA ANIMALES DOMÉSTICOS.

2019 ◽  
pp. 13-18
Keyword(s):  
Veterinary Medicine ◽  
Ornamental Plants ◽  
Microscopic Analysis ◽  
Domestic Animals ◽  
Hedera Helix ◽  
Abaxial Epidermis ◽  
Fecal Matter ◽  
Ficus Benjamina ◽  
Toxic Plants ◽  
Palabras Clave

CARACTERES EPIDÉRMICOS FOLIARES DE PLANTAS ORNAMENTALES, TÓXICAS PARA ANIMALES DOMÉSTICOS. LEAF EPIDERMAL CHARACTERS OF ORNAMENTAL PLANTS, TOXIC FOR DOMESTIC ANIMALS. Patricia Nasca de Zamora DOI: https://doi.org/10.33017/RevECIPeru2009.0003/ RESUMEN El tejido epidérmico de los vegetales presenta un diseño característico para cada especie, de manera que muchas plantas pueden reconocerse a través de su estudio microscópico. Además, este tejido resiste el pasaje por el tracto digestivo de los animales, permaneciendo prácticamente inalterable. Basados en este hecho, los investigadores Baungartder y Martin (1939) idearon la técnica microhistológica, que consiste en estudiar la composición botánica de la dieta de animales herbívoros a través del análisis microscópico de fragmentos de epidermis vegetales encontrados en la materia fecal de los mismos. A lo largo de los años, el uso de esta técnica se extendió ampliamente, adaptándose a diferentes objetivos, tanto ecológicos como económicos. El objetivo del presente trabajo, que se llevó a cabo en la provincia de Tucumán, República Argentina, es describir las epidermis foliares de cuatro especies ornamentales tóxicas, a fin de aportar datos para la confección de una clave dicotómica de identificación de las mismas, para ser usada como elemento de diagnóstico en medicina veterinaria. Se extrajeron en laboratorio - con diversas técnicas - epidermis foliares de Evonymus japonicus, Hedera helix, Ficus benjamina y Vinca difformis; especies ornamentales citadas como tóxicas en la bibliografía veterinaria y cultivadas habitualmente en jardines particulares y espacios públicos de la Provincia. Se confeccionaron preparados microscópicos permanentes, se tomaron registros fotográficos y se describieron las características epidérmicas de cada especie, teniendo en cuenta la forma de las células, la presencia o ausencia de estomas, presencia de tricomas, tipos de estomas, tipos de tricomas, etc. Hedera helix y Vinca difformis presentan células epidérmicas de contorno lobulado, mientras que las células epidérmicas de Evonymus japonicus. y Ficus benjamina son isodiamétricas y poligonales. Las cuatro especies descriptas presentan estomas sólo en la zona internerval de la cara abaxial de sus hojas. Se encontraron tricomas simples solamente en la zona nerval de la epidermis adaxial de Vinca difformis, las demás epidermis son completamente glabras. Los caracteres encontrados en las especies estudiadas y volcados en las descripciones, constituyen un aporte de utilidad para la confección de una clave dicotómica de indentificación de estas plantas tóxicas a través de sus epidermis. Palabras clave: epidermis foliar, plantas ornamentales, tóxicas, medicina veterinaria. ABSTRACT The epidermal tissue of the vegetables presents a typical design for every species so that many plants can be recognized across its microscopic study. In addition, it resists the passage for the digestive tract of the animals, remaining practically inalterable. Based on this fact, Baungartder and Martin (1939) designed the microhistological technique, which consists of studying botanical composition of diet of herbivorous animals across the microscopic analysis of plant´s epidermis fragments found in the fecal matter. Throughout the years, the use of this technique spread widely, adapting to different aims, both ecological and economic. The aim of the present work, realized in Tucumán's province, Argentina, is to characterize epidermis of ornamental, toxic plants for domestic animals, in order to be used as element of diagnosis in veterinary medicine. Epidermis of Evonymus japonicus, Hedera helix, Ficus benjamina and Vinca difformis were extracted in laboratory. All of them are ornamental species, mentioned like toxic in the bibliography veterinary and cultivated habitually in particular gardens and public spaces of the Province. They were made prepared microscopic permanent, photographic records took and there were described the epidermal characteristics of every species, bearing in mind the form of the cells, the presence or absence of stomata and trichomes, and types of stomata and trichomes. Hedera helix and Vinca difformis present lobulated epidermal cells, whereas Evonymus japonicus and Ficus benjamina ones are isodiametrics and polygonal. Four species present stomata only in the internerval zone of abaxial epidermis. They were trichomes only in the nerval zone of adaxial epidermis of Vinca difformis. The epidermal characters found in the studied species, constitute an usefull contribution for the confection of a dichotomous indentification key of these toxic plants. Keywords: epidermis, ornamental toxic plants, veterinary medicine.

scholarly journals Reduction Glossoplasty in a Calf with Bifid Tongue

2019 ◽  
Vol 47 ◽  
Author(s):  
Samara De Paula Lopes ◽  
Michel Abdalla Helavel ◽  
Isabelle Magalhães De Cunha ◽  
Raphael Delecrodi ◽  
Leonardo Pereira ◽  
...  
Keyword(s):  
Oral Cavity ◽  
Clinical Medicine ◽  
Present Report ◽  
Well Being ◽  
Incomplete Fusion ◽  
Diarrhea Virus ◽  
Toxic Plants ◽  
Holstein Friesian ◽  
Deep Groove ◽  
Fetal Malformations

Background: Fetal malformations are characterized by anatomical changes that compromise an organ or system. Tongue formation in bovines occurs with the fusion of three structures at the end of the fourth week of gestation, and any failure during this stage of embryonic development may lead to tongue malformation. Bifid tongue, also called glossoschisis, is a rare congenital abnormality in any species and is characterized by incomplete fusion of the lateral tongue buds, resulting in a deep groove in the midline of the tongue. The objective of this study was to describe a case of bifid tongue and the procedure of reduction glossoplasty in a calf of the Girolando breed in Tocantins State.Case: A male mixed-breed (Holstein-Friesian × Gir) calf, born from natural mating in the municipality of Araguaína, Tocantins, was clinically assessed in the Sector of Ruminant Clinical Medicine of the Federal University of Tocantins at 2 months of age. The owner reported that the animal exhibited difficulty in suckling after birth and that on inspection of the oral cavity, he observed changes in the tongue and mandible. Clinical examination of the oral cavity revealed the presence of a bifid tongue and abnormal fusion of the mandible in the region of the lower incisive teeth. It was decided to perform a surgical procedure with the aim of improving the animal’s quality of life because the owner wanted to keep it in the farm. An incision was made, followed by removal of the medial rims of the two tines of the tongue, and synthesis was performed, joining the ventral rims of the tongue, beginning at the root and ending at the apex.Discussion: The observed lesions are compatible with bifid tongue and mandibular fissure, both previously reported in other species. The literature has no reports of bifid tongue in bovines. The etiology of fetal malformations is still unclear, and the primary causes known in Brazil include ingestion of toxic plants by the mother, such as Mimosa tenuiflora and Poincianella pyramidalis; infections, with the main viral agents being bovine viral diarrhea virus and blue tongue virus; and teratogenic agents, namely certain medications administered during embryogenesis, e.g., ivermectin. Other potentially teratogenic agents that have not been identified as causes of malformation include radiation, cortisone, benzimidazoles, sulfonamides, folate antagonists, and organophosphates. The intense genetic improvement that the Holstein-Friesian breed has been subjected to, including inbreeding that results in consanguinity, may be a determining factor for the breed carrying mutant alleles. Because the calf in this report was crossbred from parents with Holstein-Friesian ancestry, it could carry mutant alleles that led to the malformation. Another etiology proposed in a study on embryological bases by Goodacre and Wallace (1990) is the persistence of buccopharyngeal membrane and amniotic constriction bands in the region of the branchial arches; this cause cannot be ruled out in the present case. Calves born with fetal malformations generate losses for cattle breeders because the calf dies either before or after birth, which may culminate with the death of the mother or, in cases in which the anomaly is compatible with life, damage to the animal’s development and well-being, as in the present report. Bifid tongue is a rare malformation in bovines, and reduction glossoplasty is essential for the description and improvement of techniques that aid bovine medicine; however, animals subjected to this procedure should not be used for reproduction.  

scholarly journals Author response: Independent evolution of ancestral and novel defenses in a genus of toxic plants (Erysimum, Brassicaceae)

2020 ◽  
Author(s):  
Tobias Züst ◽  
Susan R Strickler ◽  
Adrian F Powell ◽  
Makenzie E Mabry ◽  
Hong An ◽  
...  
Keyword(s):  
Author Response ◽  
Independent Evolution ◽  
Toxic Plants
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