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Journal articles on the topic 'Apiaceae'

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Published: 4 June 2021
Last updated: 21 February 2023

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1

Schubert, M. T. R., and B.-E. Van Wyk. "APIACEAE." Bothalia 26, no. 1 (October 8, 1996): 50–52. http://dx.doi.org/10.4102/abc.v26i1.689.

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2

Burtt, B. L. "APIACEAE (UMBELLIFERAE)." Bothalia 27, no. 1 (October 7, 1997): 51–52. http://dx.doi.org/10.4102/abc.v27i1.657.

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3

Pereira, Ana Júlia, Miguel Porto, and Cristina TauleigneA-Gomes. "Carduncellus cuatrecasasii G. López (Asteraceae) y Eryngium aquifolium Cav. (Apiaceae), dos nuevas especies para la flora de Portugal." Acta Botanica Malacitana 39 (December 1, 2014): 298–300. http://dx.doi.org/10.24310/abm.v39i1.2590.

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Carduncellus cuatrecasasii G. López (Asteraceae) y Eryngium aquifolium Cav. (Apiaceae), dos nuevas especies para la flora de PortugalKey words. Carduncellus, Asteraceae, Eryngium, Apiaceae, distribution, PortugalPalavras-chave. Carduncellus, Asteraceae, Eryngium, Apiaceae, distribuição, Portugal
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4

Pucker, Boas, and Massimo Iorizzo. "Apiaceae FNS I originated from F3H through tandem gene duplication." PLOS ONE 18, no. 1 (January 19, 2023): e0280155. http://dx.doi.org/10.1371/journal.pone.0280155.

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Background Flavonoids are specialized metabolites with numerous biological functions in stress response and reproduction of plants. Flavones are one subgroup that is produced by the flavone synthase (FNS). Two distinct enzyme families evolved that can catalyze the biosynthesis of flavones. While the membrane-bound FNS II is widely distributed in seed plants, one lineage of soluble FNS I appeared to be unique to Apiaceae species. Results We show through phylogenetic and comparative genomic analyses that Apiaceae FNS I evolved through tandem gene duplication of flavanone 3-hydroxylase (F3H) followed by neofunctionalization. Currently available datasets suggest that this event happened within the Apiaceae in a common ancestor of Daucus carota and Apium graveolens. The results also support previous findings that FNS I in the Apiaceae evolved independent of FNS I in other plant species. Conclusion We validated a long standing hypothesis about the evolution of Apiaceae FNS I and predicted the phylogenetic position of this event. Our results explain how an Apiaceae-specific FNS I lineage evolved and confirm independence from other FNS I lineages reported in non-Apiaceae species.
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5

Farille, Michel A., and Georges Lachard. "Apiaceae Himalayenses, IV." Acta Botanica Gallica 149, no. 4 (January 2002): 369–94. http://dx.doi.org/10.1080/12538078.2002.10515970.

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6

Williams, Sally. "Apiaceae and Autism." Homœopathic Links 30, no. 03 (September 2017): 175–78. http://dx.doi.org/10.1055/s-0037-1604435.

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7

Reyes-Betancort, Jorge Alfredo, Arnoldo Santos Guerra, Miguel A. Padrón Mederos, and Rosana Guma. "Ammodaucus nanocarpus (Beltrán) P. Pérez & Velasco, un nuevo endemismo canario-marroquí." Acta Botanica Malacitana 32 (December 1, 2007): 211–14. http://dx.doi.org/10.24310/abm.v32i0.7037.

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Ammodaucus nanocarpus (Beltrán) P.Pérez & Velasco, a new Canary-Moroccan endemismPalabras clave. Ammodaucus, Apiaceae, Canarias, Marruecos, endemismo, especie amenazada.Key words. Ammodaucus, Apiaceae, Canary Islands, Morocco, endemism, threatened species.
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8

Stanković, Ivana, and Branka Krstić. "Virus diseases of Apiaceae." Biljni lekar 48, no. 6 (2020): 567–85. http://dx.doi.org/10.5937/biljlek2006567s.

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The Apiaceae are a large plant family consisting of approximately 250 genera and over 3,000 species grown worldwide. Its representative vegetables are carrot, parsley, parsnip and celery, as well as some wellknown spice plants such as fennel, anise, caraway, dill, and coriander. Their production is imperiled by numerous pathogens, among which viruses are of great importance. Globally more than 30 viruses are known to affect carrot and other plant species belonging to family Apiaceae. The principal viruses are: Celery mosaic virus (CeMV), Parsnip yellow fleck virus, (PYFV), Carrot red leaf virus (CtRLV) and Carrot mottle virus (CMoV). In Serbia, three viruses are present on carrot and celery: CeMV, Cucumber mosaic virus (CMV) and Tomato spotted wilt tospovirus (TSWV). The economic importance of viruses infecting umbelliferous has long been recognised due to the foliar symptoms and viral dieback of seedlings. These viruses affect carrot crops only sporadically, but when they do occur they can be devastating. Other umbelliferous viruses are known to occur worlwide, however, their effects are not clear.
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9

Nicolson, Dan H., Prasanta Kumar Mukherjee, and Lincoln Constance. "Umbelliferae (Apiaceae) of India." Taxon 44, no. 1 (February 1995): 116. http://dx.doi.org/10.2307/1222697.

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10

Larsen, Kai. "Umbelliferae (Apiaceae) of India." Nordic Journal of Botany 14, no. 3 (July 1994): 318. http://dx.doi.org/10.1111/j.1756-1051.1994.tb00611.x.

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11

Ferrie, A. M. R., T. D. Bethune, and M. Mykytyshyn. "Microspore embryogenesis in Apiaceae." Plant Cell, Tissue and Organ Culture (PCTOC) 104, no. 3 (June 5, 2010): 399–406. http://dx.doi.org/10.1007/s11240-010-9770-0.

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12

Thiviya, Punniamoorthy, Niroshan Gunawardena, Ashoka Gamage, Terrence Madhujith, and Othmane Merah. "Apiaceae Family as a Valuable Source of Biocidal Components and their Potential Uses in Agriculture." Horticulturae 8, no. 7 (July 7, 2022): 614. http://dx.doi.org/10.3390/horticulturae8070614.

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Synthetic chemicals are used to protect crops and agricultural products, thereby producing high yields. However, intensive use of these synthetic chemicals significantly affects the environment and sustainable agriculture production. Moreover, direct or indirect exposure to these synthetic chemicals may cause acute or chronic toxicity in humans and animals. Due to their biodegradability, low toxicity, and being environmentally friendly, secondary metabolites derived from plant sources are being studied as a sustainable approach. Apiaceae family crops are a good source of bioactive phytochemicals. Many studies have found that Apiaceae extracts and essential oils possess various biocidal activities: antibacterial, antifungal, herbicidal, insecticidal or repellent, and larvicidal activities, among others. These various potent bioactivities make the Apiaceae an excellent alternative source for synthetic chemicals. In this context, the present review highlights the biocidal activities of some Apiaceae species and their potential applications in agriculture to protect the plant and agricultural products against pests, weeds, phytopathogens, and foodborne and food spoilage microorganisms.
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13

Akaberi, Maryam, Zahra Tayarani-Najaran, Iraj Mehregan, Javad Asili, Amirhossein Sahebkar, Mohammad Hassanzadeh-Khayyat, and Seyed Ahmad Emami. "Review of the Essential Oil Composition of Iranian Endemic and Native Taxa of Apiaceae (Umbelliferae)." Current Organic Chemistry 24, no. 9 (July 13, 2020): 909–1009. http://dx.doi.org/10.2174/1385272824999200513103632.

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One of the most important families of Iranian flora is Apiaceae (Umbelliferae). Most of the species of this family are aromatic plants and rich in essential oils with diverse structures. In the present review, the essential oil composition of 63 genera comprising 141 Apiaceae (66.4% native 33.6% endemic) is summarized.
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14

KLJUYKOV, EUGENE, DMITRY LYSKOV, and ULIANA UKRAINSKAJA. "An annotated checklist of the endemic Apiaceae of Kazakhstan." Phytotaxa 360, no. 3 (July 17, 2018): 237. http://dx.doi.org/10.11646/phytotaxa.360.3.4.

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An annotated checklist of the endemic Apiaceae species of Kazakhstan includes synonyms, references, geographic distributions, ecological preferences and distribution maps for each species. The number of endemic Apiaceae species in Kazakhstan is reduced from 63 to 29 because of their localities discovered in neighboring countries or because of their placement into synonymy. Two new synonyms are proposed here, to include Dorema karataviense into D. sabulosum and Prangos arenaria into P. cachroides. The Karatau Range and its vicinities are the main center of endemism of the Apiaceae in Kazakhstan. Many endemics are also found in the Dzungarian Alatau Range and the Tarbagatai Range. Most of the endemics can be considered neoendemic species; their evolution took place in geographical isolation.
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15

LIANG, Qian-Long, Chang-Bao WANG, Xiang-Guang MA, Cai ZHAO, and Xing-Jin HE. "Chromosomal Study on ChineseBupleurumL.(Apiaceae)." Plant Science Journal 31, no. 1 (2013): 11. http://dx.doi.org/10.3724/sp.j.1142.2013.10011.

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16

Fa-ting, Pu. "New Names in Chinese Apiaceae." Novon 8, no. 1 (1998): 70. http://dx.doi.org/10.2307/3391897.

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17

Ghédira, K., and P. Goetz. "Sanicle Sanicula europaea L. (Apiaceae)." Phytothérapie 17, no. 2 (April 2019): 106–8. http://dx.doi.org/10.3166/phyto-2019-0122.

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18

Hardway, T. M., K. Spalik, M. F. Watson, D. S. Katz-Downie, S. R. Downie, B. E. van Wyk, and P. M. Tilney. "Circumscription of Apiaceae tribe Oenantheae." South African Journal of Botany 70, no. 3 (August 2004): 393–406. http://dx.doi.org/10.1016/s0254-6299(15)30222-2.

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19

van Wyk, B. E., P. M. Tilney, and J. van Staden. "Diversity of Apiaceae in Africa." South African Journal of Botany 70, no. 3 (August 2004): 433–45. http://dx.doi.org/10.1016/s0254-6299(15)30227-1.

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20

Sales, F., I. Hedge, A. X. P. Coutinho, A. Marques, B. E. van Wyk, and P. M. Tilney. "Apiaceae subfamily Apioideae in Madagascar." South African Journal of Botany 70, no. 3 (August 2004): 446–48. http://dx.doi.org/10.1016/s0254-6299(15)30228-3.

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21

Acimovic, Milica, Ljiljana Kostadinovic, Sanja Popovic, and Nevena Dojcinovic. "Apiaceae seeds as functional food." Journal of Agricultural Sciences, Belgrade 60, no. 3 (2015): 237–46. http://dx.doi.org/10.2298/jas1503237a.

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The aim of this review was to point to a great importance of plants from Apiaceae family as a functional food. Caraway (Carum carvi L.), anise (Pimpinella anisum L.), coriander (Coriandrum sativum L.), dill (Anethum graveolens L.), fennel (Foeniculum vulgare Mill.) and cumin (Cuminum cyminum L.) are plants from the above-mentioned family whose seeds are widely used in folk medicine, pharmaceutical industry, as spices, flavoring agents and as dietary supplements. These plants are rich in essential oil, which is a mixture of volatile compounds that give it a characteristic aroma. Their antioxidant and antimicrobial activities have been proven and because of these activities they have great potential to be used as natural food conservatives. These plants also have hypoglycemic and hypolipidemic activities as well as anticancer properties. They are used as food supplements in everyday nutrition and as natural health products for the prevention and treatment of many disorders such as inflammations, hyperglycemia, hyperlipidemia and others. Apart from this, these plants have real application in foods such as pastries, meat and dairy products, pickles and salads as well as spice blends like curry powder, garam masala and others.
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22

Ezzat, Shahira M., Hossam M. Abdallah, Ghada A. Fawzy, and Shohda A. El-Maraghy. "Hepatoprotective constituents ofTorilis radiataMoench (Apiaceae)." Natural Product Research 26, no. 3 (February 2012): 282–85. http://dx.doi.org/10.1080/14786419.2011.587422.

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23

Ghedira, K., and P. Goetz. "Coriandrum sativum L. (Apiaceae) : Coriandre." Phytothérapie 13, no. 2 (February 27, 2015): 130–34. http://dx.doi.org/10.1007/s10298-015-0939-x.

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24

Rosselli, Sergio, Antonella Maria Maggio, Gabriella Bellone, Carmen Formisano, Felice Senatore, and Maurizio Bruno. "A New Irregular Diterpenoid of Biogenetic Interest from the Flowers of Magydaris Tomentosa (Desf.) DC. (Apiaceae)." Natural Product Communications 2, no. 1 (January 2007): 1934578X0700200. http://dx.doi.org/10.1177/1934578x0700200102.

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A new irregular acyclic diterpene, magytomol acetate (2), has been isolated from the light petroleum extract of the flowers of Magydaris tomentosa (Desf.) DC. (Apiaceae) and its structure has been elucidated by means of extensive spectroscopic experiments. The new compound can be considered the acetyl derivative of the biogenetic precursor of other irregular diterpenes isolated from other species belonging to the family Apiaceae.
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25

Balashova, I. T., V. A. Kharchenko, Ju P. Shevchenko, and N. E. Mashcenco. "Results of studying green crops of the Apiaceae family as genetic resources for vertical farming using natural immunomodulators." Vegetable crops of Russia, no. 5 (October 14, 2021): 44–48. http://dx.doi.org/10.18619/2072-9146-2021-5-44-48.

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Relevance. New technologies Plenty-type in greenhouse vegetable production is wide spread in some countries of Europe, America, South-East Asia and support with main investors of these countries. Project “Vertical farming” was started in FSBSI “Federal Scientific Vegetable Center” at 2010. The goal of our study is the results of the testing plants Apiaceae family at multy circle hydroponic installation using the natural regulators from glycosides class.Materials and methods. Objects of study: plants Apiaceae family – Coriandrum sativum L. (variety Jubilar), Anethum graveolens L. (variety Rusich), Apium graveolens L. (variety Aeliksir); flavonoid glycoside linarozid from plants Linaria vulgaris Mill. L., steroid glycoside moldstim from seeds Capsicum annuum L.. Methods of study: seed treatment with 0,001% water solutions of glycosides, cultivation of plants Apiaceae family at the multi circle hydroponic construction.Results. First experiment by cultivation of plants Apiaceae family at multi circle hydroponic construction was successful and show, that plants Apiaceae family can cultivate at vertical installations Plenty-type. Reaction on the seed treatment with water solutions of glycosides is depended on the species of plants. Seed treatment with glycosides increased height of plants and weight of leaves of Coriandrum sativum L. Anethum graveolens L. increased germination of seeds after seed treatment with water solution of linarozide. Apium graveolens L. increased germination of seeds, height of plants and weight of leaves after seed treatment with water solutions of glycosides. But water solution of moldstim was more effective in 2020, and water solution of linarozide was more effective in 2021.
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26

Das, Saubhik. "Leaf and seedling morphology: the two prospective parameters to trace phylogeny in apiaceae subfamily apioideae." Annals of Plant Sciences 6, no. 10 (October 1, 2017): 1698. http://dx.doi.org/10.21746/aps.2017.6.10.3.

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Determination of phylogenetic affinity among the members of Apiaceae especially the subfamily Apioideae is much debatable. The morphological evidences on inflorescence, fruit and seed characters showed little concomitance with those derived from molecular parameters as far as groupings in clades are concerned. In the present study involving few selected Apiaceae members, a Dendrogram was computed and a putative evolutionary trend was outlined based on leaf margin insertion pattern and cotyledonary leaf features, general plant morphology as well as leaf surface micromorphology by SEM. The members of Apiaceae with broad-ovate pinnatifid to pinnatipartite leaves and ovate –lanceolate cotyledonary leaves were included in a distinct cluster but the members with pinnatisect – decompounds leaves and linear cotyledonary leaves were included in a separate cluster. Long Coriander (Eryngium foetidum) included in the subfamily Saniculoideae may represent the most primitive condition having simple entire leaf with spiny margin. The member like Long coriander might have served as progenitor stock from which Coriander, Celery, Parsley (all with ovate pinnatifid to pinnatipartite leaves) and Cumin, Fennel, Dill (all having pinnatisect to decompounds leaves with linear segments) might have originated as evidenced by gradual increase in marginal insertion. Similarly, gradual narrowing of ovate-lanceolate cotyledonary leaves might have given rise to narrow linear cotyledonary leaves. Leaf-margin insertion pattern and cotyledonary leaf features appeared to be promising in tracing phylogeny in Apiaceae especially in Apioideae. Simple entire leaf represents the primitive condition and evolution in Apiaceae supposed to have progressed towards gradual increase in marginal insertion leading to pinnately dissected, pinnatipartite and ultimately to decompound leaves with narrow linear segments. Dendrogram computed from morphological features showed concomitance with that phylogenetic trend as far as grouping and interrelationships of members are concerned. In the present study leaf margin insertion pattern and seedling morphology appeared to be instrumental in tracing the phylogeny in Apiaceae specially subfamily Apioideae while molecular systematics are not conclusive.
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27

D’Ávila, V. A., E. L. Aguiar-Menezes, V. Gonçalves-Esteves, C. B. F. Mendonça, R. N. Pereira, and T. M. Santos. "Morphological characterization of pollens from three Apiaceae species and their ingestion by twelve-spotted lady beetle (Coleoptera: Coccinellidae)." Brazilian Journal of Biology 76, no. 3 (April 19, 2016): 796–803. http://dx.doi.org/10.1590/1519-6984.07615.

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Abstract Larvae and adults of certain species of predator lady beetles feed on pollen, guaranteeing their survival, and at times, reproduction in the absence of preferred prey. Palynology, therefore, may contribute in the investigation of botanical families visited by these predators in order to obtain this floral resource. There are records of the visitation of Apiaceae flowers by Coleomegilla maculata DeGeer, 1775 (Coleoptera, Coccinellidae), but not the ingestion of their pollen grains by this lady beetle. The external morphology of pollen grains of three Apiaceae aromatic species (Anethum graveolens L., Coriandrum sativum L., Foeniculum vulgare Mill.) was characterized, and it was evaluated the ingestion of these pollens by fourth instar larvae and adults of C. maculata upon confinement along with flowers of these Apiaceae for 24 and 48 hours. The pollen grains of those species presented similar external morphology. In the two times of exposure, the larvae ingested the same amount of pollen from the three Apiaceae species, and the amount of C. sativum pollen ingested was the same between larvae and adults. The amount of A. graveolens pollen grains ingested by the adults was significantly greater than the pollens of C. sativum and F. vulgare, in 24 hours, with the opposite occurring in 48 hours. In the first 24 hours, the adults ingested more A. graveolens pollen than the larvae, with the opposite occurring with F. vulgare. There was no significant difference in the amount of Apiaceae pollen ingested between larvae and adults in 48 hours. The results suggest that the pollen-eating habits of certain aphidophagous lady beetles may be crucial in their preservation within agro-ecosystems.
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28

OSKOLSKI, A. A. "PHYLOGENETIC RELATIONSHIPS WITHIN APIALES: EVIDENCE FROM WOOD ANATOMY." Edinburgh Journal of Botany 58, no. 2 (June 2001): 201–6. http://dx.doi.org/10.1017/s0960428601000579.

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Wood anatomical data confirm the close relationships of most Araliaceae to Apiaceae, but do not indicate any intermediate groups between the two families. Heteromorpha Cham. & Schltdl., Bupleurum L. and Melanoselinum Hoffm. form a well-delimited group distinguished from other woody Apiaceae by helical thickenings on their vessel walls, septate fibres, and mostly homogeneous rays. The woodiness in Nirarathamnos Balf.f. and Myrrhidendron J. M. Coult. & Rose is likely to be of secondary origin.
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29

Wang, Qi-Zhi, Stephen R. Downie, and Zhen-Xi Chen. "Genome-wide searches and molecular analyses highlight the unique evolutionary path of flavone synthase I (FNSI) in Apiaceae." Genome 61, no. 2 (February 2018): 103–9. http://dx.doi.org/10.1139/gen-2017-0117.

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Flavone synthase is a key enzyme for flavone biosynthesis and is encoded by two gene families: flavone synthase I (FNSI) and flavone synthase II (FNSII). FNSII is widely distributed in plants, while FNSI has been reported in rice (Oryza sativa) and seven species of Apiaceae. FNSI has likely evolved from the duplication of flavanone 3β-hydroxylase (F3H). In this study, we used multiple bioinformatics tools to identify putative FNSI and F3H genes from 42 publicly available genome and transcriptome datasets. Results showed that rice FNSI does not share a common ancestral sequence with other known FNSI genes and that FNSI is absent from species outside of Apiaceae. Positive selection site identification analysis revealed that four sites within the FNSI tree branches of Apiaceae evolved under significant positive selection. The putative F3H genes identified in this study provide a valuable resource for further function analysis of flavone synthase.
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30

Prieto, Francisca García, and Juan M. Nieto Nafría. "Trois nouvelles espèces du genre Aphis de l'Espagne." Canadian Entomologist 137, no. 1 (February 2005): 49–60. http://dx.doi.org/10.4039/n04-041.

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AbstractThree new European species of the large genus Aphis L., 1758 (Hemiptera: Aphididae) are described: Aphis jacetanasp. nov., which lives on Pimpinella saxifraga L. (Apiaceae) in the Pyrenees, Aphis orocantabricasp. nov., which lives on Gentiana lutea L. (Gentianaceae) in the Cantabrian Mountains, and Aphis zamoranasp. nov., which lives on Frangula alnus Miller (Rhamnaceae) on the northern Iberian plateau. We provide identification keys for Aphis species living in Europe on host plants of the families Apiaceae, Gentianaceae, and Rhamnaceae.
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31

Downie, Stephen R., and Deborah S. Katz-Downie. "Phylogenetic analysis of chloroplast rps16 intron sequences reveals relationships within the woody southern African Apiaceae subfamily Apioideae." Canadian Journal of Botany 77, no. 8 (November 21, 1999): 1120–35. http://dx.doi.org/10.1139/b99-086.

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Evolutionary relationships among 48 genera of Apiaceae (Umbelliferae) were inferred using maximum parsimony, maximum-likelihood, and neighbor-joining analyses of chloroplast DNA rps16 intron and adjacent rps16 3prime exon sequences. Emphasis was placed on woody members of Apiaceae subfamily Apioideae endemic to southern Africa, a region hypothesized to be the place of origin of this largely herbaceous subfamily. The resultant phylogenies were highly concordant and indicate that the apioid genera Polemanniopsis and Steganotaenia form a clade sister to Apiaceae subfamily Saniculoideae. The African genera Anginon, Dracosciadium, Glia, Heteromorpha, and Polemannia also comprise a clade and likely represent the most basal elements within Apioideae. Heteromorpha, however, is not monophyletic, with Heteromorpha arborescens (Spreng.) Cham. & Schltdl. var. abyssinica (A. Rich.) H. Wolff and Heteromorpha arborescens (Spreng.) Cham. & Schltdl. var. arborescens arising in separate subclades. Progressing up the trees, Annesorhiza then Bupleurum fall as successive sister taxa to all remaining Apioideae. The major clades recognized within subfamily Apioideae are largely congruent with those inferred using other types of molecular evidence. Sequence divergence is similar to that of other chloroplast introns, including being generally low among congeners and woody taxa. While the rps16 intron has seen very little use in molecular systematic studies to date, this study demonstrates its ability to discern high-level relationships within Apiaceae.Key words: Apiaceae, Apioideae, chloroplast rps16 intron, phylogeny, southern Africa, Umbelliferae.
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32

Stebler, T. "Ungewöhnliche Pollenform bei Peucedanum venetum (Apiaceae)." Mikroskopie 4, no. 01 (January 1, 2017): 40–43. http://dx.doi.org/10.5414/mkx0138.

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33

Zelenkov, Valeriy Nikolayevich, Mariya Ivanovna Ivanova, Anatoliy Andreyevich Lapin, and Vyacheslav Vasil'yevich Latushkin. "ELEMTNTAL COMPOSITION OF SEEDS OF APIACEAE." chemistry of plant raw material, no. 1 (March 10, 2022): 235–41. http://dx.doi.org/10.14258/jcprm.2022018478.

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The aim of the research is to study the quantitative content of macro- and micronutrients in the seeds of the Celery family. In the work using the method of X-ray fluorescence analysis, the elemental composition of the seeds of celery crops - carrots, parsley, celery, coriander and parsnip was studied. Individual profiles were compiled (series on the accumulation of macro- and microelements) and their similarity was noted for most elements, which indicates a common metabolic process in plants of related species. Of the macrocells in the seeds of the studied species, Ca and K, as well as P, Mg, S, accumulate in the maximum amount, and of the trace elements Fe, Zn, Mn. Differences in the accumulation of elements in different cultures depended on the type of macro- or microelement. The types of accumulation of Ca, P, K, Zn, Pb, Ni, Zr are relatively weak in types, and the concentrations of Si, Na, Al, Br, Ti Sr, and Fe are most variable in cultures. Significant accumulation of Si in parsnip seeds was noted which is not typical for other studied species. In general, parsnip seeds have the richest set of macro- and microelements in comparison with other celery crops. The seed samples analyzed had a wide variety in the mineral composition. Numerous variations among species belonging to the same family are probably due to individual genetic structure, as well as different growing conditions.
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34

Zelenkov, Valeriy Nikolayevich, Mariya Ivanovna Ivanova, Anatoliy Andreyevich Lapin, and Vyacheslav Vasil'yevich Latushkin. "ELEMTNTAL COMPOSITION OF SEEDS OF APIACEAE." chemistry of plant raw material, no. 1 (March 10, 2022): 235–41. http://dx.doi.org/10.14258/jcprm.2022018478.

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The aim of the research is to study the quantitative content of macro- and micronutrients in the seeds of the Celery family. In the work using the method of X-ray fluorescence analysis, the elemental composition of the seeds of celery crops - carrots, parsley, celery, coriander and parsnip was studied. Individual profiles were compiled (series on the accumulation of macro- and microelements) and their similarity was noted for most elements, which indicates a common metabolic process in plants of related species. Of the macrocells in the seeds of the studied species, Ca and K, as well as P, Mg, S, accumulate in the maximum amount, and of the trace elements Fe, Zn, Mn. Differences in the accumulation of elements in different cultures depended on the type of macro- or microelement. The types of accumulation of Ca, P, K, Zn, Pb, Ni, Zr are relatively weak in types, and the concentrations of Si, Na, Al, Br, Ti Sr, and Fe are most variable in cultures. Significant accumulation of Si in parsnip seeds was noted which is not typical for other studied species. In general, parsnip seeds have the richest set of macro- and microelements in comparison with other celery crops. The seed samples analyzed had a wide variety in the mineral composition. Numerous variations among species belonging to the same family are probably due to individual genetic structure, as well as different growing conditions.
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35

Michael, Peter. "A new combination in Eryngium (Apiaceae)." Telopea 7, no. 2 (July 8, 1997): 173–74. http://dx.doi.org/10.7751/telopea19971008.

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36

Wang, Li-Song. "Taxonomic Revision of thePternopetalum delavayiComplex (Apiaceae)." Annales Botanici Fennici 45, no. 2 (April 2008): 105–12. http://dx.doi.org/10.5735/085.045.0203.

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37

Sun, Na, Xing-Jin He, and Song-Dong Zhou. "Epidermal Morphology ofLigusticum(Apiaceae) from China." Annales Botanici Fennici 47, no. 4 (August 2010): 261–79. http://dx.doi.org/10.5735/085.047.0403.

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38

Koul, A. K., I. A. Hamal, and S. K. Gupta. "Pollination mechanism inCoriandrum sativum Linn. (Apiaceae)." Proceedings / Indian Academy of Sciences 99, no. 5 (October 1989): 509–15. http://dx.doi.org/10.1007/bf03053620.

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39

WANG, LI-SONG. "The confusing identity ofPternopetalum molle(Apiaceae)." Botanical Journal of the Linnean Society 158, no. 2 (September 25, 2008): 274–95. http://dx.doi.org/10.1111/j.1095-8339.2008.00920.x.

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40

STINCA, ADRIANO, and SANDRO PIGNATTI. "A new combination in Smyrnium (Apiaceae)." Phytotaxa 284, no. 2 (November 10, 2016): 137. http://dx.doi.org/10.11646/phytotaxa.284.2.4.

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Recently, Raimondo et al. (2015) described a new species for Sicily and Creta, i.e. Smyrnium dimartinoi Raimondo, Mazzola & Spadaro (2015: 138). This taxon is closely related morphologically and ecologically to the aggregate of S. perfoliatum Linnaeus (1753: 262), in which two subspecies are usually recognized (cf. Hartvig 1986, Conti et al. 2005, Reduron 2008, Hand 2011): S. perfoliatum subsp. perfoliatum and S. perfoliatum subsp. rotundifolium (Miller 1768: without pagination) Bonnier & Layens (1894: 135).
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41

Subramanian, D. "Cytotaxonomical studies in South Indian Apiaceae." CYTOLOGIA 51, no. 3 (1986): 479–88. http://dx.doi.org/10.1508/cytologia.51.479.

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42

Ma, Xiang-Guang, and Xing-Jin He. "Bupleurum shanianumsp. nov. (Apiaceae) from China." Nordic Journal of Botany 33, no. 1 (September 10, 2014): 71–73. http://dx.doi.org/10.1111/njb.00520.

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43

Leonti, Marco, Laura Casu, Maria Novella Solinas, Filippo Cottiglia, Pierluigi Caboni, Costantino Floris, Juerg Gertsch, and Anna Rita Saba. "A Chromone from Seseli praecox (Apiaceae)." Natural Product Communications 5, no. 4 (April 2010): 1934578X1000500. http://dx.doi.org/10.1177/1934578x1000500411.

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Chemical investigation of the stems of Seseli praecox (Gamisans) Gamisans, an endemic Apiaceae from Sardinia, afforded an isopropenylated chromone (5-hydroxy-6-(2- Z-butenyl-3-hydroxymethyl)-7-methoxy-2-methylchromone), along with four known linear furocoumarins and their natural precursor. For biological characterization the new compound was screened against four cancer cell lines in vitro and showed differential μM antiproliferative effects between suspension and adherent cells.
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44

Sun, Byung Yun, Tae Jin Kim, Sang Tae Kim, Young Bae Suh, and Chul Hwan Kim. "Systematics of Ostericum ( Apiaceae ) in Korea." Korean Journal of Plant Taxonomy 30, no. 2 (June 30, 2000): 93–104. http://dx.doi.org/10.11110/kjpt.2000.30.2.093.

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45

Kim, Mu Yeol, Soon Ku So, Eun Kyoung Seo, Hye Rim Park, Kyeong Suk Han, and Kweon Heo. "Taxonomical Review for Tilingia tsusimensis (Apiaceae)." Korean Journal of Plant Taxonomy 37, no. 4 (December 31, 2007): 529–43. http://dx.doi.org/10.11110/kjpt.2007.37.4.529.

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46

So, Soon Ku, Kyeong Suk Han, Mu Yeol Kim, Hye Rim Park, Eun Kyoung Seo, Yang Pyo Kim, and Tae Heung Kim. "Pollination Mechanism of Bupleurum Latissimum (Apiaceae)." Korean Journal of Plant Taxonomy 38, no. 1 (March 30, 2008): 43–50. http://dx.doi.org/10.11110/kjpt.2008.38.1.043.

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47

Erbar, C., P. Leins, B. E. van Wyk, and P. M. Tilney. "Sympetaly in Apiales (Apiaceae, Araliaceae, Pittosporaceae)." South African Journal of Botany 70, no. 3 (August 2004): 458–67. http://dx.doi.org/10.1016/s0254-6299(15)30230-1.

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48

Van Wyk, B. E., and P. M. Tilney. "A new species of Lichtensteinia (Apiaceae)." South African Journal of Botany 74, no. 4 (November 2008): 757–60. http://dx.doi.org/10.1016/j.sajb.2008.05.008.

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49

Magee, A. R., C. I. Calviño, M. Liu, S. R. Downie, P. M. Tilney, and B. E. Van Wyk. "New tribal delimitations in African Apiaceae." South African Journal of Botany 75, no. 2 (April 2009): 410–11. http://dx.doi.org/10.1016/j.sajb.2009.02.077.

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50

Magee, A. R., A. N. Nicolas, P. M. Tilney, B. E. Van Wyk, and G. M. Plunkett. "Systematics of the Annesorhiza clade (Apiaceae)." South African Journal of Botany 98 (May 2015): 186. http://dx.doi.org/10.1016/j.sajb.2015.03.070.

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