Your search keyword '"Maryam Malekmohammadi"' showing total 10 results

1. Chemical composition and Synergistic toxicity of four essential oils on Tetranychus urticae (Acari: Tetranychidae)

Author

Maryam Malekmohammadi and Farhad Sharifi

Subjects

two-spotted spider mite, chemical composition of essential oil, binary combinations, fumigant toxicity, Veterinary medicine, SF600-1100

Abstract

Problems associated with the use of pesticides have urged the need for biodegradable, environmentally and ecologically safe pesticides. Owing to the high heterogeneity and complex composition, binary combinations of plant derived-essential oils often exhibit increased insecticidal activity through synergistic interactions. The aims of the present study, therefore were to: 1) determine essential oil yield and chemical composition of Myrtus communis L. (Myrtaceae), Foeniculum vulgare Mill. (Apiaceae), Eucalyptus globulus Labill. (Myrtaceae) and Pistacia atlantica Desf. (Anacardiaceae) essential oils by gas chromatography–mass spectrometry (GC–MS) at two different phenological stages and 2) evaluate durability and 3) fumigant toxicity of above-mentioned essential oils and their binary combinations against two-spotted spider mite, Tetranychus urticae Koch (Acari: Tetranychidae) eggs and adults. The essential oils yields (w/w %) varied between 0.69% for M. communis at vegetative stage and 1.27% for F. vulgare at full flowering stage. At the full flowering stage, 23, 24, 34, and 17 components were identified in essential oils of P. atlanticae, E. globulus, M. communis and F. vulgare, respectively. Oxygenated monoterpenes and monoterpene hydrocarbons constituted the majority of chemical classes in essential oils of the studied plants. Among the oils tested, the most toxic essential oils against adults and eggs of T. urticae were M. communis (LC50= 3.95 μL L−1 air) and F. vulgare (LC50= 0.91 μL L−1 air), respectively. The LC50 values for the binary mixtures of the essential oils ranged between 0.75 to 3.23 μL L−1 and between 3.78 to 6.84 μL L−1, for T. urticae eggs and adults, respectively. Based on the synergistic factor and dose reduction index, the most promising binary mixtures to T. urticae eggs and adults was E. globulus EO: P. atlantica EO. The essential oils of M. communis, E. globulus, F. vulgare and P. atlantica caused 71%, 69%, 61% and 51% mortality at 3rd day exposure, respectively. No mortality was recorded on 9th day of exposure for all plant essential oils. Such this fast-initial release could reduce the toxicological effects expected to each essential oils. Overall it seems that essential oils of the above mentioned plants have the potential to be used in management of T. urticae in greenhouse conditions.

Published

2024

2. A taxonomic backbone for the Plumbaginaceae (Caryophyllales)

Author

Maryam Malekmohammadi, Konstantina Koutroumpa, Manuel B. Crespo, Gianniantonio Domina, Nadja Korotkova, Hossein Akhani, Sabine von Mering, Thomas Borsch, and Walter G. Berendsohn

Subjects

Botany, QK1-989

Abstract

A taxonomic backbone of the Plumbaginaceae is presented and the current state of knowledge on phylogenetic relationships and taxon limits is reviewed as a basis for the accepted taxon concepts. In total, 4,476 scientific names and designations are treated of which 30 are not in the family Plumbaginaceae. The Plumbaginaceae are subdivided in three tribes with 26 genera and 1,179 accepted species. Two subgenera, 17 sections, two subsections and 187 infraspecific taxa are accepted. At the species and infraspecific level 2,782 synonyms were assigned to accepted taxa, whereas 194 names were excluded from the core checklist (i.e., unplaced taxa, infrageneric subdivisions with still uncertain application, names of verified uncertain application, invalid horticultural names, excluded names from other families, other excluded designations, and unresolved names). The EDIT Platform for Cybertaxonomy was utilized as the tool to compile and manage the names and further taxonomic data under explicit taxon concepts. Secundum references are given in case taxon concepts were taken from the literature, whereas this study serves as reference for newly circumscribed taxa. The family’s division into the tribes Aegialitideae, Limonieae, and Plumbagineae departs from earlier two-subfamily classifications, prompted by recent phylogenetic findings that challenge the subfamilial affinity of Aegialitis. The genus Acantholimon was extended to include Gladiolimon, as currently available phylogenetic and morphological data support this merger. In Limonium, all accepted species could be assigned to sections and subsections or the “Mediterranean lineage”, respectively, making use of the phylogenetic distribution of their morphological characters and states. A new combination and/or status is proposed for Dyerophytum socotranum, Limonium thymoides, Limonium × fraternum, Limonium × rossmaessleri, and Limonium sect. Jovibarba. Special attention is given to nomenclatural issues, particularly for Statice nomen ambiguum to resolve the names under accepted names. The use of artificial groupings like “aggregates”, “complexes” and “species groups” in alpha-taxonomic treatments is discussed. The taxonomic backbone will receive continued updates and through the Caryophyllales Taxonomic Expert Network, it contributes the treatment of the Plumbaginaceae for the World Flora Online.

Published

2024

3. Estimating palaeoatmospheric CO2 levels based on fossil Ginkgoites cuticles from the Middle Jurassic of Northeast Iran

Author

Mohammad Taghi Badihagh, Dieter Uhl, Maryam Malekmohammadi, and Yong-Dong Wang

Subjects

Stratigraphy, Paleontology, Ecology, Evolution, Behavior and Systematics

Published

2023

4. Is Pteropyrum a pathway to C4 evolution in Polygonaceae? An integrative approach to the taxonomy and anatomy of Pteropyrum (C3), an immediate relative of Calligonum (C4)

Author

Hossein Akhani, Moslem Doostmohammadi, Morteza Djamali, Maryam Malekmohammadi, Halophytes and C4 Plants Research Laboratory, Department of Plant Sciences, School of Biology, College of Science, University of Tehran, Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UMR237-Aix Marseille Université (AMU)-Avignon Université (AU)

Subjects

0106 biological sciences, 0301 basic medicine, cryptic speciation, Calligonum, C4 photosynthesis, Pteropyrum, Atraphaxis, Plant Science, 01 natural sciences, Polygonaceae, 03 medical and health sciences, pollen morphology, Ecology, Evolution, Behavior and Systematics, molecular phylogeny, Irano–Turanian flora, biology, proto-Kranz anatomy, desert flora, 15. Life on land, biology.organism_classification, Caryophyllales, 030104 developmental biology, Evolutionary biology, [SDE]Environmental Sciences, Taxonomy (biology), 010606 plant biology & botany

Abstract

Pteropyrum is a small genus of Polygonaceae with four species from the arid regions of Iran and adjacent countries. Pteropyrum spp. are not precisely delimitated and are difficult to identify because of their high plasticity in morphological characters. Pteropyrum (C3) has a close affinity to Calligonum (C4) and is therefore a suitable case for C4 evolutionary studies. We investigated the morphology and micromorphology (including pollen morphology) of Pteropyrum and elucidated the phylogenetic relationships with Atraphaxis and Calligonum using nuclear ITS sequences. Characteristics of the photosynthetic tissues such as volume and number of layers of primary carbon assimilation tissues (PCA) and photosynthetic carbon reduction tissue (PCR) were studied. In addition, the leaf and cotyledon anatomical characters of Pteropyrum (C3), Atraphaxis (C3) and Calligonum (C4), and their δ 13C values were compared to look for evolutionary changes in assimilating organs. The molecular phylogenetic tree identifies two strongly supported clades in Pteropyrum and its close relationship with Calligonum, confirming previous studies. Some morphologically similar species belong to different clades, which is probably due to convergent evolution and homoplasy. Leaf anatomical studies show that Atraphaxis has a multilayered mesophyll tissue, whereas Calligonum has one-layered mesophyll cells. The volume and layer number of mesophyll tissue cells decreases, whereas water storage tissue area significantly increases from Atraphaxis to Pteropyrum and Calligonum. This phenomenon confirms previous studies in other lineages with C4 salsoloid anatomy that have evolved through increasing of water storage tissue and succulence of assimilating organs. In the taxonomic part of the paper, a key to identification of accepted taxa of Pteropyrum, description of species and distribution maps are presented based on numerous herbarium specimens and our own rich collections from the field. Four new species are described based on a combination of morphology of seedlings and mature plants, pollen morphology and molecular data. A subspecific classification is suggested to show morpho-geographical variation of Pteropyrum aucheri s.l.

Published

2020

5. Phylogenetic relationships of Limonium (Plumbaginaceae) inferred from multiple chloroplast and nuclear loci

Author

Thomas Borsch, Maryam Malekmohammadi, and Hossein Akhani

Subjects

0106 biological sciences, biology, Phylogenetic tree, Caryophyllales, Limonium, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Plumbaginaceae, Chloroplast, Molecular phylogenetics, Botany, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Published

2017

6. The Global Caryophyllales Initiative: Towards an updated taxonomic backbone and a dynamic monograph of a major plant group

Author

Patricia Hernández-Ledesma, Jurriaan M. de Vos, Richard K. Rabeler, Boris O. Schlumpberger, Markus S. Dillenberger, Gudrun Kadereit, Maria Hilda Flores-Olvera, Juan Javier Ortiz Diaz, Pertti Uotila, Urs Eggli, Maryam Malekmohammadi, Abigail J. Moore, Idelfonso Castañeda-Noa, Walter G. Berendsohn, Thomas Borsch, Salvador Arias, Bengt Oxelman, Martín E. Timaná, Nadja Korotkova, Reto Nyffeler, Cornelia Klak, Tanja M. Schuster, Hossein Akhani, Gilberto Ocampo, Sabine von Mering, Andreas Fleischmann, Fernando O. Zuloaga, Botany, Finnish Museum of Natural History, and University Management

Subjects

0106 biological sciences, Caryophyllales, biology, Evolutionary biology, Group (periodic table), education, 1181 Ecology, evolutionary biology, General Medicine, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010606 plant biology & botany

Abstract

The ongoing paradigm shift in taxonomy from individual contributions to a truly collaborative and forward-looking endeavour results in a number of challenges related to distributed data management. Examination of physical specimens remains a key task, but searching for specimen data, literature, and name information is now mostly done online. In the past, these research steps involved many physical visits to collections and libraries. Although these infrastructures were and are still freely accessible and supportive for research carried out by individuals, the amount of characters, specimens, and the complexity of current analytical approaches limit what can be achieved by individual workers. Monographing is challenged because: larger genera remain unstudied and become fragmented in regional treatments; long-term availability of detailed (unpublished) primary research data is often not addressed; cross-disciplinary interoperability and open data principles are needed; and highly specialised techniques used in phylogenetic and genomic analyses require teamwork by specialists. larger genera remain unstudied and become fragmented in regional treatments; long-term availability of detailed (unpublished) primary research data is often not addressed; cross-disciplinary interoperability and open data principles are needed; and highly specialised techniques used in phylogenetic and genomic analyses require teamwork by specialists. The process towards generating truly community-based integrative dynamic taxonomic treatments is ongoing. In botany, specialist communities and networks have formed for certain plant groups, for example in the families Solanaceae, Brassicaceae, Fabaceae, Poaceae, Melastomataceae-Miconieae, Asteraceae-Cichorieae, and in the order Caryophyllales. Their common aim is to create sustainable information systems according to the FAIR principles, making the information Findable, Accessible, Interoperable and Reusable. At the same time, the information system is meant to support and document ongoing taxonomic research as an iterative process with tracking of changes, and backlinks to original data sources. This represents a big step forward with respect to the efficiency of the entire field of taxonomy. The Global Caryophyllales Initiative aims at creating a global synthesis of species diversity in this group (Borsch et al. 2015) encompassing about 12,500 species in more than 30 families or about 6% of flowering plants (Fig. 1). Caryophyllales include ecologically diverse, economically important, invasive, and threatened species. The Caryophyllales Network was initiated in 2011 and unites specialists from across the world (to date, 150 scientists from 37 countries). The network is recognized by the World Flora Online (WFO) Council as its Taxonomic Expert Network for Caryophyllales. Advances by the network are presented in the open-access Caryophyllales Portal (http://caryophyllales.org/), aiming to provide up-to-date phylogenetic and taxonomic information. The systematic treatment is powered by the EDIT Platform for Cybertaxonomy (https://cybertaxonomy.eu/), with the generic checklist (http://caryophyllales.org/Checklist) and some family treatments already publicly available (e.g. Cactaceae). The checklist is regularly updated in consultation with family editors. A species-level taxonomic backbone incorporating all names and pertinent nomenclatural acts and evaluations is being compiled. A compilation of the Nepenthaceae (Berendsohn et al. 2018) served as a case study for the accommodation of descriptive and other factual data, and for demonstrating the feasibility of the workflow contributing to the WFO initiative. The taxonomic treatment of Iresine (Borsch et al. 2018) is another example. These studies are fundamental in establishing a general workflow for collaborative online monographs. Several challenges remain, inter alia the genomics perspective in biodiversity informatics, proper attribution and unique identification of taxonomic concepts, review and impact assessment of individual contributions, possibilities to simultaneously display contrasting taxonomical concepts and classifications, and engaging both the wider taxonomic community and the public. The ongoing implementation shows that a dynamic online monograph requires rethinking of editorial workflows. Based on experiences with the Caryophyllales network, the taxonomic and biodiversity informatics communities are ready to meet this challenge.

Published

2019

7. The discovery, naming and typification of Limonium gmelini (Plumbaginaceae)

Author

Maryam Malekmohammadi, Maria N. Lomonosova, Hossein Akhani, and H. Walter Lack

Subjects

0106 biological sciences, biology, Limonium, Willdenowia, Plant Science, Biodiversity, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Plumbaginaceae, Caryophyllales, Tracheophyta, Magnoliopsida, Taxon, Herbarium, Botany, Typification, Plantae, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany, Taxonomy

Abstract

An account is given of the early reports of Limonium gmelini and the pre-Linnaean names attached to this extremely widespread plant. The uncertainties created by Carl Ludwig Willdenow when validating the name Statice gmelini are clarified and the earlier lectotypification of this name modified because the herbarium sheet cited has been found to represent more than one taxon. One of the elements is selected as the new lectotype and an epitype is designated. Sequences of one nuclear and three plastid markers have been submitted to GenBank. Citation: Malekmohammadi M., Lack H. W., Lomonosova M. & Akhani H. 2017: The discovery, naming and typification of Limonium gmelini (Plumbaginaceae). — Willdenowia 47: 99–106. doi: https://doi.org/10.3372/wi.47.47201 Version of record first published online on 17 May 2017 ahead of inclusion in August 2017 issue.

Published

2017

8. First record of Psylliostachys spicata (Plumbaginaceae), confirmation of Salvia pratensis (Lamiaceae) from Turkey, and taxonomic status of Salvia ertekinii

Author

Ferhat CELEP, Osman KARABACAK, Maryam MALEKMOHAMMADI, Mehmet FİDAN, Musa DOĞAN, and Belirlenecek

Subjects

Halophytes,Lamiaceae,Plumbaginaceae,Psylliostachys,Salvia,taxonomy, Halophytes, Lamiaceae, Plumbaginaceae, Psylliostachys, Salvia, taxonomy, Plant Science, Bitki Bilimleri

Abstract

Psylliostachys spicata (Plumbaginaceae) is reported as a new genus record for Turkey; an amended species description is given. Bossier's record of Salvia pratensis (Lamiaceae) in Flora Orientalis is confirmed from Turkey. Additionally, the endemic Salvia ertekinii is reduced to a synonym of Salvia pinnata.

Published

2016

9. Plant Diversity of the Khorassan-Kopet Dagh Floristic Province (Irano-Turanian Region) (Title & copyright page)

Author

Maryam Malekmohammadi, Vajiheh Zarrinpour, Roxana Khoshravesh, Mohammad Reza Joharchi, Hossein Akhani, and Farshid Memariani

Subjects

0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Botany, Plant Science, Biology, Eudicots, Ecology, Evolution, Behavior and Systematics, Floristics, Plant diversity

Published

2016

10. Taxonomic novelties from Irano-Turanian region and NE Iran: Oreosalsola, a new segregate from Salsola s.l., two new species in Anabasis and Salvia, and two new combinations in Caroxylon and Seseli

Author

Maryam Malekmohammadi, Roxana Khoshravesh, and Hossein Akhani

Subjects

0106 biological sciences, Anabasis, Salsola, biology, Lineage (evolution), Salsoloideae, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Genus, Botany, Seseli, Endemism, Eudicots, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Oreosalsola, a non-C 4 lineage is described as a new genus segregated from Salsola s.l. (Chenopodiaceae). The phylogenetic position and anatomical structure of the new genus in relation to photosynthetic types are discussed. Anabasis firouzii (Chenopodiaceae) and Salvia shahkuhmahalei (Lamiaceae) are described from Golestan National Park (GNP) and Ghorkhod Protected Area (GPA), NE Iran. The new Anabasis is a C 4 plant according to its Salsoloid Kranz anatomy and carbon isotope composition. Anabasis firouzii grows on species-poor marl outcrops of Kopet Dagh Mountains in GNP and GPA. The phylogenetic relationship of the new species is discussed using ITS sequence data. The position of Anabasis setifera within the genus Anabasis (not Salsola ) is confirmed by updated molecular data. Salvia shahkuhmahalei is closely related to S. rhytidea that is native of Afghanistan and S Iran. Salsola iljinii is transferred to Caroxylon following a new phylogenetic concept of Salsoleae. Seseli tortusosum subsp. kiabii (Apiaceae) is elevated to the species level, which is justified by the recent knowledge. The new species are illustrated; their habitat, plant communities, associated species, threat categories and phytogeographic importance are discussed.

Published

2016