Plant identification applications do not reliably identify toxic and edible plants in the American Midwest.

INTRODUCTION: Exposure to potentially toxic plants is a global problem, resulting in thousands of calls to poison centers and emergency department visits annually and occasional deaths. Persons with limited botanical knowledge may be tempted to rely on smartphone applications to determine if plants are safe to forage. This study evaluated the reliability of several popular smartphone applications to identify foraged foods and distinguish them from potentially toxic plants in the Midwestern United States. METHODS: Sixteen plant species were selected based on local availability, attractiveness as foraged food, and potential for misidentification. Of the 16 species, five are edible, three are potentially toxic if improperly harvested or prepared, and eight are considered to be toxic. Plant specimens were identified by graduate-level botanists and photographed during multiple stages of their growth cycles. LeafSnap, PictureThis, Pl@ntNet and PlantSnap were used to identify the plants. RESULTS: Overall accuracy of the applications in identifying plant genus was 76% (95% confidence interval: 73-79, range 96% for PictureThis to 53% for PlantSnap). Accuracy for identification of plant species was 58% (95% confidence interval 55-62%, range 94% for PictureThis to 34% for PlantSnap). Five of eleven potentially toxic species were identified as an edible species by at least one application. CONCLUSION: Accuracy of the smartphone applications varies, with PictureThis outperforming other apps. At this time, apps cannot be used to safely identify edible plants. Foragers must have adequate botanical knowledge to ensure safe harvesting of wild plants.

Swipe Right: a Comparison of Accuracy of Plant Identification Apps for Toxic Plants.

INTRODUCTION: Plant identification applications for use on smartphones have been increasing in availability, accuracy, and utilization. We aimed to perform an introductory study to determine if a plant identification application (ID app) used on a smartphone could identify toxic plants, and to compare apps to determine which is most reliable. METHODS: We compared three popular iPhone plant ID apps, PictureThis (PT), PlantSnap (PS), and Pl@ntNet (PN), used to identify 17 commonly encountered toxic plants. Apps were used to photograph the entire plant, leaves, and flowers of ≥ 10 different plants for each species. Two toxicologists performed plant identification with confirmation of identification performed by a botanist, and inter-researcher agreement was confirmed. For each plant species, scores for accuracy of app identification of leaves, flowers, and whole plant were combined to create an overall composite score used to compare accuracy of each app (95% C.I.). RESULTS: PictureThis had the best performance with 10/17 (59% [36 to 78]) plant species identified 100% correctly, as opposed to 8/17 (47% [26 to 69]) for Pl@ntNet and 1/17 for PlantSnap (5.8% [1.1 to 27]). CONCLUSION: A plant identification app may be a useful tool to assist healthcare providers and the public in identifying toxic plants.

Development of molecular markers to distinguish between morphologically similar edible plants and poisonous plants using a real-time PCR assay.

BACKGROUND: As a result of similar appearances between edible and poisonous plants, 42 patients have ingested poisonous plants from 2013 to 2017 in Korea. We have developed species-specific primer sets of three of edible and poisonous plants sets (Ligularia fischeri & Caltha palustris, Artemisia annua & Ambrosia artemisiifolia and Hemerocallis fulva & Veratrum maackii) for distinguishing both plants using a real-time polymerase chain reaction assay. RESULTS: The efficiencies of the developed primer sets ranged from 87.8% to 102.0%. The developed primer sets have significant correlation coefficient values between the Ct values and the log DNA concentration for their target species (r2 > 0.99). The cut-off lines as the crossing point values of the limit of quantitation of the target species were determined, and all non-target species were amplified later than the cut-off cycles. Then, the effectiveness of the developed primer sets was evaluated using commercial food products and digested samples with simulated gastric juice. CONCLUSION: All of the developed species-specific primer sets were able to detect target DNA successfully in commercial food products and the digested samples. Therefore, the developed species-specific primer sets in the present study would be useful tools for distinguishing between poisonous plants and edible plants. © 2020 Society of Chemical Industry.

Independent evolution of ancestral and novel defenses in a genus of toxic plants (Erysimum, Brassicaceae).

Phytochemical diversity is thought to result from coevolutionary cycles as specialization in herbivores imposes diversifying selection on plant chemical defenses. Plants in the speciose genus Erysimum (Brassicaceae) produce both ancestral glucosinolates and evolutionarily novel cardenolides as defenses. Here we test macroevolutionary hypotheses on co-expression, co-regulation, and diversification of these potentially redundant defenses across this genus. We sequenced and assembled the genome of E. cheiranthoides and foliar transcriptomes of 47 additional Erysimum species to construct a phylogeny from 9868 orthologous genes, revealing several geographic clades but also high levels of gene discordance. Concentrations, inducibility, and diversity of the two defenses varied independently among species, with no evidence for trade-offs. Closely related, geographically co-occurring species shared similar cardenolide traits, but not glucosinolate traits, likely as a result of specific selective pressures acting on each defense. Ancestral and novel chemical defenses in Erysimum thus appear to provide complementary rather than redundant functions.

Plants are often attacked by insects and other herbivores. As a result, they have evolved to defend themselves by producing many different chemicals that are toxic to these pests. As producing each chemical costs energy, individual plants often only produce one type of chemical that is targeted towards their main herbivore. Related species of plants often use the same type of chemical defense so, if a particular herbivore gains the ability to cope with this chemical, it may rapidly become an important pest for the whole plant family. To escape this threat, some plants have gained the ability to produce more than one type of chemical defense. Wallflowers, for example, are a group of plants in the mustard family that produce two types of toxic chemicals: mustard oils, which are common in most plants in this family; and cardenolides, which are an innovation of the wallflowers, and which are otherwise found only in distantly related plants such as foxglove and milkweed. The combination of these two chemical defenses within the same plant may have allowed the wallflowers to escape attacks from their main herbivores and may explain why the number of wallflower species rapidly increased within the last two million years. Züst et al. have now studied the diversity of mustard oils and cardenolides present in many different species of wallflower. This analysis revealed that almost all of the tested wallflower species produced high amounts of both chemical defenses, while only one species lacked the ability to produce cardenolides. The levels of mustard oils had no relation to the levels of cardenolides in the tested species, which suggests that the regulation of these two defenses is not linked. Furthermore, Züst et al. found that closely related wallflower species produced more similar cardenolides, but less similar mustard oils, to each other. This suggests that mustard oils and cardenolides have evolved independently in wallflowers and have distinct roles in the defense against different herbivores. The evolution of insect resistance to pesticides and other toxins is an important concern for agriculture. Applying multiple toxins to crops at the same time is an important strategy to slow the evolution of resistance in the pests. The findings of Züst et al. describe a system in which plants have naturally evolved an equivalent strategy to escape their main herbivores. Understanding how plants produce multiple chemical defenses, and the costs involved, may help efforts to breed crop species that are more resistant to herbivores and require fewer applications of pesticides.

Comprehensive Toxic Plants-Phytotoxins Database and Its Application in Assessing Aquatic Micropollution Potential.

The production of toxic plant secondary metabolites (phytotoxins) for defense is a widespread phenomenon in the plant kingdom and is even present in agricultural crops. These phytotoxins may have similar characteristics to anthropogenic micropollutants in terms of persistence and toxicity. However, they are only rarely included in environmental risk assessments, partly because a systematic overview of phytotoxins is missing. Here, we present a newly developed, freely available database, Toxic Plants-PhytoToxins (TPPT), containing 1586 phytotoxins of potential ecotoxicological relevance in Central Europe linked to 844 plant species. Our database summarizes phytotoxin patterns in plant species and provides detailed biological and chemical information as well as in silico estimated properties. Using the database, we evaluated phytotoxins regarding occurrence, approximated from the frequencies of Swiss plant species; environmental behavior based on aquatic persistence and mobility; and toxicity. The assessment showed that over 34% of all phytotoxins are potential aquatic micropollutants and should be included in environmental investigations.

Toxic effect of common poisonous plants of district Bannu, Khyber Pakhtunkhwa, Pakistan.

The present paper was a part of Ph.D research work, conducted during the year 2014, in which 87 poisonous plants belonging to 54 genera, were collected, documented and preserved in the herbarium of Bannu, Department of Botany UST, Bannu Khyber Pakhtunkwa Pakistan. The plants were identified botanically, arranged alphabetically along with their Latin name, family name, common name, poisonous parts, toxicity, affects, toxin and their effects. Aim of the study was to induce awareness in the local people of district Bannu about the poisonous effects of the commonly used plants. Data about poisonous effect were collected from the local experienced and mostly old age people through questionnaire. Some information were collected from a number of veterinary texts and literature. The most important plants genera studied in the area were Brassica 6 species (11.11%), Lathyrus 5 spp (9.26%), Astragalus, Euphorbia and Prunus were with 4 spp (7.40%). Datura, Jatropha, Ranunculus, Solanum and Sorghum were with 3 spp (5.56%) while Allium, Amaranthus, Chenopodium, Melilotus and Taxus were with 2 spp (3.70%). These 15 genera contribute 48 species (55.17 %) while the remaining 39 genera have single species each and contribute 44.83% to the total poisonous flora of the research area. Other important poisonous plants were Anagallis arvensis L., Cannabis sativa, Datura stramonium L., D. metel L., Euphorbia species, Heliotropium europaeum, Ipomoea tricolor, Jatropha curcas, Lolium temulentum L., Malus domestica, Mangifera indica L., Medicago sativa L., Melilotus alba Desr., M. officinalis (L.) Lam., Mirabilis jalapa L., Narcissus tazetta, Nicotiana tabacum L., Sorghum halepense (L) Pers., and Xanthium strumarium. It was concluded that the local population had poor knowledge about the poisonous effect of the plants and the present research work was anticipated for use by health care professionals, veterinarians, farmers, homeowners, as well as botanically curious individuals.

Administering multiple doses of a non N-(methylsuccinimido) anthranoyllycoctonine (MSAL)-containing tall larkspur (Delphinium occidentale) to cattle.

Larkspurs (Delphinium spp.) are a serious toxic plant problem for cattle in western North America. There are two chemotypes of D. occidentale, a more toxic and a less toxic chemotype. The objective of this study was to evaluate the acute toxicity of the less toxic chemotype when administered in multiple doses to cattle. These results suggest that cattle could consume enough of the less toxic chemotype to be poisoned in a range setting.

A swainsonine survey of North American Astragalus and Oxytropis taxa implicated as locoweeds.

Swainsonine, an indolizidine alkaloid with significant physiological activity, is an α-mannosidase and mannosidase II inhibitor that causes lysosomal storage disease and alters glycoprotein processing. Swainsonine is found in a number of plant species worldwide, and causes severe toxicosis in livestock grazing these plants, leading to a chronic wasting disease characterized by weight loss, depression, altered behavior, decreased libido, infertility, and death. Swainsonine has been detected in 19 Astragalus and 2 Oxytropis species in North America by thin layer chromatography, gas chromatography-mass spectrometry, liquid chromatography-mass spectrometry and a jack bean α-mannosidase inhibition assay. In addition, 5 species in North America are presumed to contain swainsonine based upon reports from field cases. Many of these plant species have not been analyzed for swainsonine using modern instrumentation such as gas or liquid chromatography coupled with mass spectrometry. To provide clarification, 22 Astragalus species representing 93 taxa and 4 Oxytropis species representing 18 taxa were screened for swainsonine using both liquid chromatography-mass spectrometry and gas chromatography-mass spectrometry. Swainsonine was detected in 48 Astragalus taxa representing 13 species and 5 Oxytropis taxa representing 4 species. Forty of the fifty-three swainsonine-positive taxa had not been determined to contain swainsonine previously using liquid or gas chromatography coupled with mass spectrometry. The list of swainsonine-containing taxa reported here will serve as a reference for risk assessment and diagnostic purposes.

Complete chloroplast genome sequence of poisonous and medicinal plant Datura stramonium: organizations and implications for genetic engineering.

Datura stramonium is a widely used poisonous plant with great medicinal and economic value. Its chloroplast (cp) genome is 155,871 bp in length with a typical quadripartite structure of the large (LSC, 86,302 bp) and small (SSC, 18,367 bp) single-copy regions, separated by a pair of inverted repeats (IRs, 25,601 bp). The genome contains 113 unique genes, including 80 protein-coding genes, 29 tRNAs and four rRNAs. A total of 11 forward, 9 palindromic and 13 tandem repeats were detected in the D. stramonium cp genome. Most simple sequence repeats (SSR) are AT-rich and are less abundant in coding regions than in non-coding regions. Both SSRs and GC content were unevenly distributed in the entire cp genome. All preferred synonymous codons were found to use A/T ending codons. The difference in GC contents of entire genomes and of the three-codon positions suggests that the D. stramonium cp genome might possess different genomic organization, in part due to different mutational pressures. The five most divergent coding regions and four non-coding regions (trnH-psbA, rps4-trnS, ndhD-ccsA, and ndhI-ndhG) were identified using whole plastome alignment, which can be used to develop molecular markers for phylogenetics and barcoding studies within the Solanaceae. Phylogenetic analysis based on 68 protein-coding genes supported Datura as a sister to Solanum. This study provides valuable information for phylogenetic and cp genetic engineering studies of this poisonous and medicinal plant.

Prospects and Problems for Identification of Poisonous Plants in China using DNA Barcodes.

OBJECTIVE: Poisonous plants are a deadly threat to public health in China. The traditional clinical diagnosis of the toxic plants is inefficient, fallible, and dependent upon experts. In this study, we tested the performance of DNA barcodes for identification of the most threatening poisonous plants in China. METHODS: Seventy-four accessions of 27 toxic plant species in 22 genera and 17 families were sampled and three DNA barcodes (matK, rbcL, and ITS) were amplified, sequenced and tested. Three methods, Blast, pairwise global alignment (PWG) distance, and Tree-Building were tested for discrimination power. RESULTS: The primer universality of all the three markers was high. Except in the case of ITS for Hemerocallis minor, the three barcodes were successfully generated from all the selected species. Among the three methods applied, Blast showed the lowest discrimination rate, whereas PWG Distance and Tree-Building methods were equally effective. The ITS barcode showed highest discrimination rates using the PWG Distance and Tree-Building methods. When the barcodes were combined, discrimination rates were increased for the Blast method. CONCLUSION: DNA barcoding technique provides us a fast tool for clinical identification of poisonous plants in China. We suggest matK, rbcL, ITS used in combination as DNA barcodes for authentication of poisonous plants.

Monofluoroacetate-containing plants that are potentially toxic to livestock.

Many plants worldwide contain monofluoroacetate and cause sudden death in livestock. These plants are primarily found in the southern continents of Africa, Australia, and South America, where they negatively affect livestock production. This review highlights past and current research investigating (1) the plants reported to contain monofluoroacetate and cause sudden death; (2) the mode of action, clinical signs, and pathology associated with poisoning by monofluoroacetate-containing plants; (3) chemical methods for the analysis of monofluoroacetate in plants; (4) the coevolution of native flora and fauna in Western Australia with respect to monofluoroacetate-containing plants; and (5) methods to mitigate livestock losses caused by monofluoroacetate-containing plants.

Caso de intoxicación en Venezuela, por el uso de la planta de Estropajo o Tusa (Luffa cylíndrica ) / Case of intoxication by the use of the loofah sponge or tusa (Luffa cylindrica) in Venezuela

En algunas regiones del mundo, las plantas originan importantes problemas clínicos, causando gran morbilidad y mortalidad, principalmente después de la intoxicación no intencional. Este trabajo tiene como objetivo principal describir un caso clínico presentado en el Servicio de Toxicología Médica, Hospital “Doctor Leopoldo Manrique Terrero”, Caracas, Venezuela (2012), de una intoxicación con la planta de estropajo (Luffa  cylindrica), perteneciente a la familia de las Cucurbitáceas, usada inadecuadamente como instilación nasal. El análisis clínico otorrinolaringológico permitió evidenciar un cuadro agudo, grave con obstrucción de vías aéreas superiores, producido por el uso tópico de extracto de la planta de estropajo (Luffa  cylindrica), como medicamento nasal para tratar una sinusitis crónica. El paciente presentó 2 horas después de la instilación,  una disfonía,  con un intenso edema de úvula; se encontraba confundido, con cefalea, así como acentuada odinofagia y dificultad respiratoria. Tras la revisión de la literatura se permite plantear que se trata del primer caso referido o publicado de esta inusual intoxicación y daño de vías aéreas superiores ocasionado por esta planta. El paciente fue tratado con oxígeno (SOS), hidrocortisona y clorfeniramina recuperándose después de 48 h de tratamiento sintomático.

In some world regions, plants originate important clinical problems, causing significant morbidity and mortality, mainly after unintentional poisoning. This paper aims to describe a case seen at the Medical Toxicology Service, "Dr. Leopoldo Manrique Terrero " Hospital, Caracas, Venezuela (2012), which was a loofah plant poisoning (Luffa cylindrica), belonging to Cucurbitaceae family, used inappropriately as nasal instillation. The otorhinolaryngology clinical analysis demonstrated an acute, severe upper airway obstruction produced by the topical use of loofah (Luffa cylindrica) plant extract as nasal medication to treat chronic sinusitis. The patient developed 2 hours after instillation, a dysphonia, with intense uvula edema, confusion, headache and sore throat and accentuated respiratory distress. After literature review it is suggested that this is the first referred or published case in this unusual intoxication and upper airway damage caused by this plant. The patient was treated with oxygen (SOS), hydrocortisone and chlorpheniramine recovering after 48 h of symptomatic treatment.

Discrimination of grassland species and their classification in botanical families by laboratory scale NIR hyperspectral imaging: preliminary results.

The objective of this study was to discriminate by a NIR line scan hyperspectral imaging, taxonomic plant families comprised of different grassland species. Plants were collected from semi-natural meadows of the National Apuseni Park, Apuseni Mountains, Gârda area (Romania) according to botanical families. Chemometric tools such as PLS-DA were used to discriminate distinct grassland species, and assign the different species to botanical families. Species within the Poacea family and other Botanical families could be distinguished (R(2)=0.91 and 0.90, respectively) with greater accuracy than those species in the Fabacea family (R(2)=0.60). A correct classification rate of 99% was obtained in the assignment of the various species to the proper family. Moreover a complete study based on wavelength selection has been performed in order to identify the chemical compound related to each botanical family and therefore to the possible toxicity of the plant. This work could be considered as a first step for the development of a complete procedure for the detection and quantification of possible toxic species in semi-natural meadows used by grazing animals.

[The most popular poisons from Graeco-Roman world]. / Najbardziej popularne trucizny swiata grecko-rzymskiego.

Article presents the most popular antique poisons. Information from encyclopaedic literature and literary texts of the Roman Empire period has been compared with the etymology of the names of some poisons of plant and animal origin.

Identification of a new locoweed (Oxytropis serioopetala) and its clinical and pathological features in poisoned rabbits.

By a series of experiments, we identified a new member of the locoweed family, Oxytropis serioopetala, that produces swainsonine, a phytotoxin harmful to livestock. In order to evaluate the toxicity of Oxytropis serioopetala, its extract was administered to ten rabbits by gavage at a dose of 1.5 mg/kg body weight as swainsonine once daily. After the 20th day, the rabbits appeared depressive and anorexic. In addition, intention tremors were apparent upon movement. Their eyes were dull. The rear limbs were severely weak and even progressed to partial paresis. The activities of serum aspartate aminotransferase (AST), alanine transaminase (ALT) and alkaline phosphatase (AKP) and urea nitrogen (BUN) levels in the poisoned rabbits increased significantly. Serum α-mannosidase (AMA) activity decreased markedly. Pathomorphological lesions in the locoweed-poisoned rabbits developed severe microvacuolation of visceral and neurological tissue. Extensive vacuolation was observed in the liver, kidney and brain. These clinical and pathological features are similar to the symptoms of locoism.

Pastoralists' perceptions of feed scarcity and livestock poisoning in southern rangelands, Ethiopia.

A survey was conducted between April and July 2007 to generate information on dry season feeding management and livestock poisoning in the southern rangelands of Ethiopia. A total of 119 pastoralists were interviewed using a semi-structured questionnaire. Moreover, additional information was obtained through informal discussions. The study revealed that pastoralists have rich knowledge of natural resource management and utilization and employ various strategies such as migration, collection of grasses and pods, and cutting branches to overcome feed scarcity during dry/drought periods. Migration of livestock and people to areas with better grazing is the widely used strategy. However, the implementation of this strategy is diminishing as a result of changes such as bush encroachment, expansion of settlements, and crop cultivation in dry-season grazing lands. The respondents also indicated the presence of poisonous plants in the rangeland, and about 20 such plants were identified by the respondents. Various species and classes of livestock are reported to be affected by toxic plants particularly in the dry and early rainy seasons when feed is in short supply. A more extensive survey is required to document all poisonous plants in the rangelands and to identify the major toxic principles in the different species. Future development interventions should consider the prevailing constraints and potentials of the rangelands with active participation of the pastoralists.

Identifying plant poisoning in livestock: diagnostic approaches and laboratory tests.

Plant poisoning is often associated with a variety of livestock diseases and unexplained animal deaths. Although toxic plants commonly poison livestock and it is estimated to cost the livestock industry in the western United States more than $340 million every year, obtaining a definitive diagnosis is difficult and challenging. The purpose of this article is to provide a framework to help veterinarians and diagnosticians make an accurate definitive diagnosis of plant poisoning. We provide suggestions for investigating and sampling field cases of suspected plant poisoning, for where and how to analyze diagnostic samples, and for integrating information and recruiting appropriate expertise.