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Journal articles on the topic 'Juniperus oxycedrus subsp. badia'

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Published: 10 September 2021
Last updated: 17 July 2025

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1

Cano Ortiz, Ana Cano, Giovanni Spampinato, José Carlos Piñar Piñar Fuentes, Carlos José Pinto Pinto Gomes, Ricardo Quinto-Canas, and Eusebio Cano. "Taxonomy, Ecology and Distribution of Juniperus oxycedrus L. Group in the Mediterranean Basin Using Bioclimatic, Phytochemical and Morphometric Approaches, with Special Reference to the Iberian Peninsula." Forests 12, no. 6 (2021): 703. http://dx.doi.org/10.3390/f12060703.

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Several studies have been conducted in the past to clarify various aspects of species in the genus Juniperus L. One critical group is Juniperus oxycedrus L., especially from the taxonomical point of view. For this reason, we have studied the ecology, taxonomy and distribution of the taxa in the J. oxycedrus group. From an ecological and distribution standpoint, in this work we use the ombroedaphoxeric index (Ioex) to explain the presence of Juniperus populations in ombrotypes that are not optimum for these taxa. The controversy over the taxonomy of J. oxycedrus subsp. badia (H. Gay) Debeaux and J. oxycedrus subsp. lagunae (Pau ex C. Vicioso) Rivas Mart. is clarified, and it is accepted as a valid name, J. oxycedrus subsp. badia. The phytochemical differences in essential oils (EO) are addressed and their similarities analyzed; greater similarities are observed between oxycedrus and badia, and between navicularis Gand. and macrocarpa (Sm.) Ball. species. The phytochemical, molecular and distribution differences allow J. oxycedrus subsp. macrocarpa (Sm.) Ball and J. navicularis Gand. to be maintained as species. The results obtained make it possible to establish the rank to which the taxa belong and allow clear discrimination between species in groups that are difficult to interpret. Ecological, bioclimatic, phytochemical and morphometric similarities allow us to subordinate the subsp. macrocarpa to the species J. navicularis.
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2

Oliveira, Isabel, António Nunes, Ana Lima, et al. "New Lectins from Mediterranean Flora. Activity against HT29 Colon Cancer Cells." International Journal of Molecular Sciences 20, no. 12 (2019): 3059. http://dx.doi.org/10.3390/ijms20123059.

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Experiments conducted in vitro and in vivo, as well as some preclinical trials for cancer therapeutics, support the antineoplastic properties of lectins. A screening of antitumoral activity on HT29 colon cancer cells, based on polypeptide characterization and specific lectin binding to HT29 cells membrane receptors, was performed in order to assess the bioactivities present in four Mediterranean plant species: Juniperus oxycedrus subsp. oxycedrus, Juniperus oxycedrus subsp. badia, Arbutus unedo and Corema album. Total leaf proteins from each species were evaluated with respect to cell viability and inhibitory activities on HT29 cells (cell migration, matrix metalloproteinase –MMP proteolytic activities). A discussion is presented on a possible mechanism justifying the specific binding of lectins to HT29 cell receptors. All species revealed the presence of proteins with affinity to HT29 cell glycosylated receptors, possibly explaining the differential antitumor activity exhibited by the two most promising species, Juniperus oxycedrus subsp. badia and Arbutus unedo.
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3

Cano, Eusebio, Carmelo Musarella, Ana Cano-Ortiz, et al. "Geobotanical Study of the Microforests of Juniperus oxycedrus subsp. badia in the Central and Southern Iberian Peninsula." Sustainability 11, no. 4 (2019): 1111. http://dx.doi.org/10.3390/su11041111.

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We have studied Juniperus oxycedrus L. subsp. badia (H.Gay) Debeaux in the central and southern Iberian Peninsula, where the macrobioclimate ranges from Mediterranean-pluviseasonal-oceanic to Mediterranean-pluviseasonal-continental, and the thermotype from the thermo- to the supramediterranean. The relevés were taken following the Braun-Blanquet phytosociological methodology. A statistical treatment was applied to establish a separation among Juniperus communities. To understand the presence of Juniperus communities in territories dominated by species in the Quercus genus, we applied Thornthwaite’s formula to calculate potential evapotranspiration. The general cluster analysis clearly distinguishes two groups of plant communities and separates the different associations in each group. All the plant communities growing on rocky crests and in extremely steep sloping areas are significantly influenced by the soil. The ombroclimatic index does not explain the presence of plant communities influenced by substrate, so we proposed a new ombroedaphoxeric index which explains the presence of Juniperus communities in territories with a thermotype between the thermo- and supramediterranean. The areas of distribution of Juniperus species are expanding due to the spread of rocky areas; this phenomenon causes an increase in edaphoxerophilous areas and a decrease in climatophilous ones. We propose four new plant associations, with updated structures and floristic compositions. Efficient conservation is possible in both the territories studied (Spain and Portugal) through the implementation of specific cross-border cooperation projects.
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4

Güvenç, Ayşegül, Nurgün Küçükboyacι, and Ahmet Ceyhan Gören. "Fatty Acid Composition of Juniperus Species (Juniperus Section) Native to Turkey." Natural Product Communications 7, no. 7 (2012): 1934578X1200700. http://dx.doi.org/10.1177/1934578x1200700730.

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Fatty acid compositions of seeds of five taxa of the Juniperus section of the genus Juniperus L. (Cupressaceae), i. e. J. drupacea Lab., J. communis L. var. communis, J. communis var. saxatilis Pall., J. oxycedrus L. subsp. oxycedrus, and J. oxycedrus subsp. macrocarpa (Sibth. & Sm.) Ball, were investigated. Methyl ester derivatized fatty acids of the lipophylic extracts of the five species were comparatively analyzed by capillary gas chromatography-mass spectrometry (GC-MS). Juniperus taxa showed uniform fatty acid patterns, among which linoleic (25.8–32.5%), pinolenic (11.9–24.1%) and oleic acids (12.4–17.2%) were determined to be the main fractions in the seed oils. Juniperonic acid was found to be remarkably high in J. communis var. saxatilis (11.4 %), J. oxycedrus subsp. oxycedrus (10.4 %), and J. communis var. communis (10.1 %). To the best of our knowledge, the present work discloses the first report on the fatty acid compositions of seeds of this Juniperus section grown in Turkey.
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5

Salido, Sofı́a, Joaquı́n Altarejos, Manuel Nogueras, et al. "Chemical studies of essential oils of Juniperus oxycedrus ssp. badia." Journal of Ethnopharmacology 81, no. 1 (2002): 129–34. http://dx.doi.org/10.1016/s0378-8741(02)00045-4.

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6

Muñoz-Reinoso, José Carlos, and Enrique Sánchez Gullón. "Juniperus oxycedrus var. badia novedad para el litoral de Huelva (España). Juniperus oxycedrus var. badia, a new record for the coast of Huelva (Spain)." Acta Botanica Malacitana 41 (December 1, 2016): 291–94. http://dx.doi.org/10.24310/abm.v41i0.2475.

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7

Muñoz-Reinoso, José Carlos, and Enrique Sánchez Gullón. "Juniperus oxycedrus var. badia novedad para el litoral de Huelva (España). Juniperus oxycedrus var. badia, a new record for the coast of Huelva (Spain)." Acta Botanica Malacitana 41 (May 25, 2017): 291. http://dx.doi.org/10.24310/actabotanicaabm.v41i0.2475.

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8

Klimko, Małgorzata, Krystyna Boratyńska, Jose Maria Montserrat, et al. "Morphological variation of Juniperus oxycedrus subsp. oxycedrus (Cupressaceae) in the Mediterranean region." Flora - Morphology, Distribution, Functional Ecology of Plants 202, no. 2 (2007): 133–47. http://dx.doi.org/10.1016/j.flora.2006.03.006.

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9

Brus, R., M. Idžojtić, and K. Jarni. "Morphologic variation in northern marginal Juniperus oxycedrus L. subsp. oxycedrus populations in Istria." Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 150, no. 2 (2014): 274–84. http://dx.doi.org/10.1080/11263504.2014.984790.

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10

Djellouli, Soumia, Khadidja Side Larbi, Boumediene Meddah, Abdelkrim Rebiai, Aicha Tir Touil, and Pascal Sonnet. "Chemical composition, in vitro antioxidant and anti-inflammatory activities of Juniperus oxycedrus subsp. oxycedrus extracts from Algeria." European Journal of Biological Research 12, no. 3 (2022): 271–81. https://doi.org/10.5281/zenodo.7135281.

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This study was conducted to examine chemical compositions, antioxidant and anti-inflammatory properties of methanolic and aqueous extracts from aerial parts of <em>Juniperus oxycedrus</em> subsp. <em>oxycedrus</em> growing in Mascara, Algeria. The quantitative assessment indicated that methanol extract was the most concentrated in phenolic, flavonoid and tannin contents (167.77&plusmn;5.12 mg GAE/g DW, 90.56&plusmn;2.23mg QE/g DE and 110.21&plusmn;2.38 mg CE/g DE respectively). The chromatographic analysis by HPLC showed quantitative differences in phenolic constituents, noting that Chlorogenic acid was the major compound of both extracts. Moreover, the methanolic extract exhibited the highest antioxidant activity than the aqueous extract when tested by the 1,1-diphenyl-2-picrylhydrazyl (IC50 4.45&plusmn;0.001 &mu;g/mL) and phosphomolybdenum (328.52&plusmn;0.071 mg of GAE/g DW) assays. Furthermore, the in vitro anti-inflammatory activity showed strong inhibition of albumin denaturation by the methanolic extract at different concentrations when compared to the standard drug diclofenac sodium. These findings confirm the richness of Algerian <em>Juniperus oxycedrus</em> extracts in bioactive compounds with antioxidant and anti-inflammatory capacities.
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11

Taviano, Maria Fernanda, Andreana Marino, Ada Trovato, et al. "Juniperus oxycedrus L. subsp. oxycedrus and Juniperus oxycedrus L. subsp. macrocarpa (Sibth. & Sm.) Ball. “berries” from Turkey: Comparative evaluation of phenolic profile, antioxidant, cytotoxic and antimicrobial activities." Food and Chemical Toxicology 58 (August 2013): 22–29. http://dx.doi.org/10.1016/j.fct.2013.03.049.

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12

ALAN, Sevim, Mine KÜRKÇÜOĞLU, and Görkem ŞENER. "Composition of the Essential Oils of Juniperus oxycedrus L. subsp. oxycedrus Growing in Turkey." Turkish Journal of Pharmaceutical Sciences 13, no. 3 (2016): 300–303. http://dx.doi.org/10.4274/tjps.2016.03.

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13

OUAAR, Djilali, Aicha MEGHERBI BENALI, Fawzia TOUMI BENALI, et al. "Durabilité naturelle et composition en extractibles du bois de Juniperus oxycedrus subsp. oxycedrus du Nord-Ouest de l’Algérie." BOIS & FORETS DES TROPIQUES 350 (January 4, 2022): 57–69. http://dx.doi.org/10.19182/bft2021.350.a36837.

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Les bois de Juniperus oxycedrus subsp. oxycedrus étudiés sont issus de deux provenances du Nord-Ouest algérien aux conditions climatiques et édaphiques différentes (régions de Sidi Bel Abbès et de Tiaret). Les extractibles et les polyphénols totaux du duramen ont été quantifiés et caractérisés. La durabilité naturelle du duramen a été évaluée vis-à-vis de deux champignons de pourriture brune (Rhodonia placenta et Coniophora puteana) et de termites (Reticulitermes flavipes). Les taux d’extractibles les plus élevés sont ceux obtenus pour les bois de Sidi Bel Abbès. L’extraction au mélange toluène-éthanol a permis d’obtenir des taux plus élevés que l’extraction à l’eau, respectivement 14,17 % et 1,35 % pour les bois de Sidi Bel Abbès contre 9,84 % et 1,19 % pour ceux de Tiaret. Les analyses par chromatographie en phase gazeuse couplée à la spectrométrie de masse (GC/MS) montrent que les familles chimiques majoritairement identifiées dans les extraits aqueux sont les sesquiterpénoïdes, les acides gras et les stérols. Dans les extraits au toluène-éthanol, les sesquiterpènes et les sesquiterpénoïdes sont les composés majeurs. La composition en sesquiterpènes et sesquiterpénoïdes est différente en fonction de la provenance des bois, mais reste très similaire quantitativement. La teneur en polyphénols totaux des extraits au méthanol de la provenance Sidi Bel Abbès est supérieure à celle de Tiaret. Aucune différence significative n’est observée entre les deux provenances pour la durabilité naturelle vis-à-vis de C. puteana. En revanche, la résistance à R. placenta est significativement plus élevée pour la provenance Sidi Bel Abbès. Pour les deux provenances, le bois de J. oxycedrus subsp. oxycedrus est très durable vis-à-vis des champignons de pourriture. Il est aussi répulsif et résistant aux attaques de termites. Une analyse ciblée des relations entre la composition chimique et la durabilité naturelle permettra de mettre en évidence la nature du ou des constituants responsables de la durabilité́ naturelle du bois de J. oxycedrus subsp. oxycedrus, tant vis-à-vis des champignons lignivores que des termites.
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14

Gülsoy, Serkan, and Alican Çıvğa. "Diken ardıç (Juniperus oxycedrus L. subsp. oxycedrus) kozalaklarının uçucu yağ özellikleri ve çevresel faktörlerle ilişkileri." Turkish Journal of Forestry | Türkiye Ormancılık Dergisi 17, no. 2 (2016): 142. http://dx.doi.org/10.18182/tjf.83849.

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15

Orhan, Nilüfer, Mustafa Aslan, Betül Demirci, and Fatma Ergun. "A bioactivity guided study on the antidiabetic activity of Juniperus oxycedrus subsp. oxycedrus L. leaves." Journal of Ethnopharmacology 140, no. 2 (2012): 409–15. http://dx.doi.org/10.1016/j.jep.2012.01.042.

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16

Medvedec, Barbara, Iva Jurčević Šangut, Armin Macanović, Erna Karalija, and Dunja Šamec. "Biflavonoid Profiling of Juniperus Species: The Influence of Plant Part and Growing Location." Applied Sciences 15, no. 13 (2025): 7082. https://doi.org/10.3390/app15137082.

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Biflavonoids are an important group of flavonoids found in Juniperus species, yet their distribution and accumulation patterns remain insufficiently explored. In this study, we applied a method for the simultaneous quantification of seven biflavonoids to analyze different plant parts of J. communis, J. communis subsp. nana, and J. oxycedrus. In order to determinate the influence of growing location, we also analyzed J. communis samples collected from different locations. Four biflavonoids—cupressuflavone, amentoflavone, bilobetin, and hinokiflavone—were detected. In both analyzed J. communis varieties, amentoflavone was the predominant biflavonoid in cones and needles, while in J. oxycedrus, cupressuflavone was the most abundant in cones, with amentoflavone dominating in needles. Overall, biflavonoid content was significantly higher in needles than in cones, with total biflavonoid levels in needles exceeding 5 mg/g dw, highlighting the tissue-specific nature of biflavonoid biosynthesis within Juniperus species. Additionally, our results suggest that in J. communis, biflavonoid accumulation is significantly influenced by growing location.
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17

Orhan, Nilüfer, Mustafa Aslan, Mert Pekcan, Didem Deliorman Orhan, Erdal Bedir, and Fatma Ergun. "Identification of hypoglycaemic compounds from berries of Juniperus oxycedrus subsp. oxycedrus through bioactivity guided isolation technique." Journal of Ethnopharmacology 139, no. 1 (2012): 110–18. http://dx.doi.org/10.1016/j.jep.2011.10.027.

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18

Chaouche, T. M., F. Haddouchi, R. Ksouri, F. Medini, and F. Atik-Bekara. "In vitro evaluation of antioxidant activity of the hydro-methanolic extracts of Juniperus oxycedrus subsp. oxycedrus." Phytothérapie 11, no. 4 (2013): 244–49. http://dx.doi.org/10.1007/s10298-013-0779-5.

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19

Lewandowski, Andrzej, Adam Boratyński, and Leon Mejnartowicz. "Low level of isoenzyme variation in an island population of Juniperus oxycedrus subsp. macrocarpa (sm. ex sibth.) ball." Acta Societatis Botanicorum Poloniae 65, no. 3-4 (2014): 335–38. http://dx.doi.org/10.5586/asbp.1996.051.

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The isoenzyme variation in a geographically well isolated population of &lt;em&gt;Juniperus oxycedrus&lt;/em&gt; subsp. &lt;em&gt;macrocarpa&lt;/em&gt; from Korfu island was investigated. Based on the 18 putative isoenzyme loci a very low level of variation has been observed. In the studied material only 11% (95% criterion) of the loci were polymorphic. The number of alleles per locus was 1.17 and the observed, and expected heterozygosities were 0.016, and 0.024, respectively.
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20

Ben Mrid, Reda, Najat Bouchmaa, Youssef Bouargalne, et al. "Phytochemical Characterization, Antioxidant and In Vitro Cytotoxic Activity Evaluation of Juniperus oxycedrus Subsp. oxycedrus Needles and Berries." Molecules 24, no. 3 (2019): 502. http://dx.doi.org/10.3390/molecules24030502.

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In order to evaluate the antioxidant properties of aqueous and methanol extracts of needles and berries of Juniperus oxycedrus subsp. oxycedrus (Joo) species, various antioxidant capacity assessment tests (free radical scavenging assays (DPPH• and ABTS•+ tests), ferrous ions (Fe2+) chelating activity and reducing power assay (FRAP) were conducted. In all of the tests, the extracts exhibited strong antioxidant activity. Furthermore, in-vitro cytotoxic activity assays of the methanolic extracts showed potent cytotoxic effects against two breast cancer cell lines (MDA-MB-468 and MCF-7), with no cytotoxicity towards normal cells (PBMCs). Reactive oxygen species generation was presumed to be a potential reason for the observed cytotoxic effects. According to all the above, and considering its appropriate composition of mineral elements and phenolic compounds, Joo could offer a beneficial and natural source of bioactive compounds that can be either used on the preventive side as it could potentially be used in the clinic without toxicity.
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21

Brus, Robert, Dalibor Ballian, Peter Zhelev, et al. "Absence of geographical structure of morphological variation in Juniperus oxycedrus L. subsp. oxycedrus in the Balkan Peninsula." European Journal of Forest Research 130, no. 4 (2010): 657–70. http://dx.doi.org/10.1007/s10342-010-0457-1.

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22

Tashani, Amel, and Sarah Aggag. "DNA Barcoding Identifies Juniperus oxycedrus subsp. macrocarpa in Derna Region, East Libya." Journal of Agricultural Chemistry and Biotechnology 11, no. 1 (2020): 17–20. http://dx.doi.org/10.21608/jacb.2020.76658.

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23

Sezik, E., E. Kocakulak, K. H. C. Baser, and T. Ozek. "Composition of the Essential Oils of Juniperus oxycedrus subsp. Macrocarpa from Turkey." Chemistry of Natural Compounds 41, no. 3 (2005): 352–54. http://dx.doi.org/10.1007/s10600-005-0149-0.

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Klimko, Małgorzata, Krystyna Boratyńska, Adam Boratyński, and Katarzyna Marcysiak. "Morphological variation of Juniperus oxycedrus subsp. macrocarpa (Cupressaceae) in three Italian localities." Acta Societatis Botanicorum Poloniae 73, no. 2 (2011): 113–19. http://dx.doi.org/10.5586/asbp.2004.016.

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The intra- and interpopulational geographic variation of three distant populations of &lt;em&gt;J. oxycedrus &lt;/em&gt;subsp. &lt;em&gt;macrocarpa &lt;/em&gt;was examined biometrically on the basis of morphological key-characters of needles, seeds and cones. The shortest Euclidean distances were used in the agglomerative grouping of closest neighbourhood and discrimination analysis with principal component analysis (PCA) was performed to verify the south-north differentiation of the taxon in Italy. Most of the cone and seed dimensional characters are correlated. No significant correlations were found between cone and needle characters. The sampled populations differ only insignificantly from one another, while the intrapopulational variation is slightly higher. Cone length as well as seed number, width and thickness were significantly correlated with geographic latitude, while the other four characters are not. Differences in cone shape were observed between individuals, so that several morphotypes can be distinguished.
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Stassi, V., E. Verykokidou, A. Loukis, and C. Harvala. "Polyphenolic compounds from the leaves of Juniperus oxycedrus L. subsp. macrocarpa (Sm.) Ball." Pharmaceutica Acta Helvetiae 72, no. 5 (1998): 311–12. http://dx.doi.org/10.1016/s0031-6865(97)00037-x.

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26

Chriqui, Ahmed, Ouafae Benkhnigue, Yassine Mouniane, et al. "First Record of Fourteen Plant Species in the Western Izarene Massif (Prerif, Morocco)." Journal of Environmental & Earth Sciences 6, no. 3 (2024): 273–88. http://dx.doi.org/10.30564/jees.v6i3.7112.

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As part of the continuity of our floristic work carried out between June 2021 and July 2024 in the Ouezzane region, we carried out a botanical study in the western part of the Izarene massif, which is part of the Prerif-Moyen Sebou region and corresponds to the Maroc atlantique nord-1 (Man-1) division. Field surveys of the territorial municipalities of Asjen and Brikcha and the Brikcha Site of Biological and Ecological Interest (SBEI) have enabled us to report for the first time the presence of fourteen species belonging to eleven families and fourteen genera, of which Lilium candidum is reported for the first time in Moroccan vascular flora. These are Biscutella pseudolyrata, Bolboschoenus glaucus, Crepis vesicaria subsp. stellata, Gagea fibrosa, Glinus lotoides, Hedera maroccana, Juniperus oxycedrus subsp. oxycedrus, Laurus nobilis, Quercus coccifera, Senecio glaucus subsp. coronopifolius, Silene sclerocarpa, Scorzonera hispanica subsp. hispanica and Thymbra capitata. Among these new species, we counted two endemics, one of which is strictly Moroccan (Biscutella pseudolyrata) and one that shares endemism between Morocco and Algeria (Hedera maroccana). Two species are rare and two are threatened with extinction. These additions represent an update of data concerning the flora of Man-1. Indeed, a synthesis of all the publications on the update of the vascular flora of Man-1 will be an important contribution to improving scientific knowledge on the distribution of new species in this division.
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Farris, Emmanuele, Luisa Canopoli, Elisabetta Cucca, Sara Landi, Alfredo Maccioni, and Rossella Filigheddu. "Foxes provide a direct dispersal service to Phoenician junipers in Mediterranean coastal environments: ecological and evolutionary implications." Plant Ecology and Evolution 150, no. (2) (2017): 117–28. https://doi.org/10.5091/plecevo.2017.1277.

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<b>Background and aims</b> – Exploring the role of mammalian carnivores as seed dispersers in Mediterranean environments is crucial for understanding biotic interactions and preserving mutualistic networks in areas with high biodiversity. We examine the potential role of the Sardinian fox ( <i>Vulpes vulpes</i> subsp. <i> ichnusae</i> ) as a seed-disperser of two juniper species ( <i>Juniperus phoenicea</i> subsp. <i>turbinata</i> and <i>J. oxycedrus</i> subsp. <i>macrocarpa</i> ) in Mediterranean coastal environments.<b>Methods</b> – Observational and manipulative experiments were conducted in five coastal sites in north-western Sardinia (Italy) between 2010 and 2013.<b>Key results</b> – We found that Sardinian fox actively disperses seeds of <i>J. phoenicea</i> subsp. <i>turbinata</i>, whereas no evidence was obtained for the fox dispersing seeds of <i> J. oxycedrus</i> subsp. <i> macrocarpa</i>. Fox scat contained, on average, 73–86 <i>J. phoenicea</i> subsp. <i>turbinata</i> seeds, accounting 16.3–17.8 % of the average dung weight. The role of Sardinian fox as a primary disperser of <i>J. phoenicea</i> subsp. <i>turbinata</i> is by directly dispersing juniper seeds (via defecation) to a specific microhabitat (i.e. 80–90 % of dung was released on dwarf plants, mainly <i> Helichrysum italicum</i> subsp. <i> microphyllum</i> ), which positively affected the survival of emerged seedlings). We quantified that fox dispersed 30 to 100 seeds per day per hectare (3 500–10 500 seeds per hectare in one winter season).<b>Conclusions</b> – We reported that Sardinian fox is a direct disperser of <i> J. phoenicea</i> subsp. <i> turbinata</i>, thus playing a major role in secondary successional dynamics in Mediterranean coastal environments. Evolutionary implications are discussed, in that the positive interaction between Sardinian fox and <i> J. phoenicea</i> subsp. <i> turbinata</i> could be recent, following the introduction of fox to the Tyrrhenian islands during the 7 <sup>th</sup> –6 <sup>th</sup> millennium BC.
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Chaouche, Tarik Mohammed, Farah Haddouchi, Fouzia Atik-Bekara, et al. "Antioxidant, haemolytic activities and HPLC–DAD–ESI–MSn characterization of phenolic compounds from root bark of Juniperus oxycedrus subsp. oxycedrus." Industrial Crops and Products 64 (February 2015): 182–87. http://dx.doi.org/10.1016/j.indcrop.2014.10.051.

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YUCA, Hafize, Hakkı Cem DEMİRCAN, Bilge AYDIN, et al. "COMPARISON OF SOME BIOLOGICAL ACTIVITIES AND CATECHIN TANNIN CONTENTS OF TWO JUNIPERUS AND PRUNUS SPECIES." Ankara Universitesi Eczacilik Fakultesi Dergisi 47, no. 2 (2023): 31. http://dx.doi.org/10.33483/jfpau.1218845.

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Objective: Qualitative and quantitative determination of catechin in fruits of J. communis var. saxatilis, J. oxycedrus subsp. oxycedrus, P. spinosa, and P. cerasifera was analyzed by LC-MS/MS using standards. Antidiabetic, antimicrobial, and antioxidant activities of fruit and cone extracts of these plants were evaluated. Qualitative analysis of secondary metabolites was also done. Material and Method: Antimicrobial activity was done with MIC. ABTS·+ and DPPH• scavenging activies were used antioxidant activity. α-Amylase and α-glucosidase inhibition assays were done for antidiabetic activity. Result and Discussion: JCS (IC50 = 578 ± 20 μg/ml), JOO (IC50 = 3706 ± 52 μg/ml), and PS (IC50 = 313 ± 7 μg/ml) extracts were observed to show a higher activity than acarbose (IC50 = 4061 ± 146 μg/ml). J. communis var. saxatilis fruit extract was observed with MIC values between (312.5 -2500 µg/ml) against all microorganisms. JCS extract has the highest phenolic composition and JOO has the lowest phenolic composition (µg GAE/ mg extract). JCS extract indicated the highest antioxidant activity. It was determined that plant containing the highest catechin (1173.3±5.77 ng/ml) and epigallocatechin (208±7.21 ng/ml) was JCS. In this research, it can be said that JCS with the highest tannin content shows the highest effects.
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30

COSENTINO, SOFIA, ANDREA BARRA, BARBARA PISANO, MADDALENA CABIZZA, FILIPPO MARIA PIRISI, and FRANCESCA PALMAS. "Composition and Antimicrobial Properties of Sardinian Juniperus Essential Oils against Foodborne Pathogens and Spoilage Microorganisms." Journal of Food Protection 66, no. 7 (2003): 1288–91. http://dx.doi.org/10.4315/0362-028x-66.7.1288.

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In this work, the chemical compositions and antimicrobial properties of Juniperus essential oils and of their main components were determined. Five berry essential oils obtained from different species of Juniperus growing wild in Sardinia were analyzed. The components of the essential oils were identified by gas chromatography–mass spectrometry (GC-MS) analysis. The antimicrobial activities of the oils and their components against food spoilage and pathogenic microorganisms were determined by a broth microdilution method. The GC-MS analysis showed a certain variability in the concentrations of the main constituents of the oils. α-Pinene was largely predominant in the oils of the species J. phoenicea subsp. turbinata and J. oxycedrus. α-Pinene and myrcene constituted the bulk (67.56%) of the essential oil of J. communis. Significant quantitative differences were observed for myrcene, δ-3-carene, and d-germacrene. The results of the antimicrobial assay show that the oils of J. communis and J. oxycedrus failed to inhibit any of the microorganisms at the highest concentrations tested (MLC ≥ 900 μg/ml), while the oils extracted from J. turbinata specimens were active against fungi, particularly against a strain of Aspergillus flavus (an aflatoxin B1 producer). Of the single compounds tested, δ-3-carene was found to possess the broadest spectrum of activity and appeared to contribute significantly to the antifungal activity observed for J. turbinata oils. This activity may be helpful in the prevention of aflatoxin contamination for many foods.
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31

TASHANI, A. F. "Morphological and Some Wood Properties of Juniperus Oxycedrus Subsp. Macrocarpa in Derna Region, East Libya." المجلة الليبية لعلوم وتكنولوجيا البيئة (LJEEST) 2, no. 1 (2020): 18–26. https://doi.org/10.63359/fhrdxz75.

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تم تصميم هذا العمل لتقييم الخصائص المورفولوجية للأوراق والمخروط والبذور، لتوضيح تصنيف هذا النوع ، وكذلك التحقق من بعض خصائص الخشب كالثقل النوعي وطول الألياف في شجرة العرعر الشوكي Juniperus oxycedrus subsp. macrocarpa بمنطقة درنة ، ليبيا. لخصت النتائج أن الخصائص المورفولوجية لطول الأوراق وعرضها، وحجم البذور والمخروط كانت مهمة لتصنيف هذا النوع. أيضا كانت علاقة الارتباط بين الخصائص المورفولوجية إيجابية بين الصفات. من ناحية أخرى، أوضحت النتائج أن قيم الثقل النوعي للخشب تراوحت بين0.392-0.386،كذلك كانت علاقة الأنحدار للثقل النوعي سلبية مع العمر الكامبيومي، حيثأ تضح أن قيم الثقل النوعي تتناقص كلما زادت المسافة من النخاع إلى القلف فكانت قيم معامل التحديد R2 تتراوح من 59.9%-70.9%.أيضاُ بدراسة العلاقة بين طول الألياف والعمر كان هناك تأثير ايجابي حيث أن متوسط طول الألياف يزداد كلما ابتعدنا عن النخاع.كما يعتبر خشب العرعر الشوكي من النوع قصير الألياف متوسط طولها1.75 ملم
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32

Pérez-Latorre, Andrés V., Federico Casimiro-Soriguer Solanas, and Baltasar Cabezudo. "Flora y vegetación de la Sierra de Alcaparaín (Málaga, España)." Acta Botanica Malacitana 40 (December 1, 2015): 107–56. http://dx.doi.org/10.24310/abm.v40i0.2542.

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Español. El objetivo de este trabajo es realizar un catálogo de la flora, de las comunidades vegetales y el estudio del dinamismo sucesional y del paisaje vegetal de la Sierra de Alcaparaín, que forma parte de una Zona de Especial Conservación (ZEC) situada en la provincia de Málaga (Andalucía, España). El macrobioclima es de tipo mediterráneo con termotipos termo y mesomediterráneo y ombrotipos seco y subhúmedo. El área de estudio está compuesta geológicamente por materiales calizo-dolomíticos, silíceos y peridotíticos, con elevadas pendientes y altitudes entre 400 y 1295 m. y se encuentra en la provincia fitogeográfica Bética (región Mediterránea), con los sectores Rondeño (zonas calizo-dolomíticas), Malacitano-Axarquiense (zonas silíceas) y Bermejense (zonas peridotíticas). El catálogo florístico se compone de 467 taxones, destacando el endemismo local Armeria grajoana y Centaurea carratracensis (VU), endémica del subsector Carratracense (sector Bermejense). Otros taxones interesantes son Linaria clementei (VU), Platycapnos tenuiloba subsp. parallela (VU), Polygala webbiana (única localidad europea), Salvia candelabrum (VU) y Sarcocapnos baetica subsp. baetica (VU). Son remarcables también un total de 7 serpentinófitos destacando Crepis bermejana, Galium boissieranum (VU) y G. viridiflorum (VU). Se han catalogado 28 comunidades y asociaciones vegetales, entre las que destacan como novedades sintaxonómicas la vegetación glerícola vivaz sobre peridotitas (Crambe filiformisCentaureetum carratracensis comb. nova et stat. nov.), los jarales silicícolas rondeños (Lavandulo stoechadisGenistetum equisetiformis ulicetosum baetici subass. nova), los pinares-sabinares mesomediterráneos (Pino halepensis-Juniperetum phoeniceae rhamnetosum myrtifoliae subass. nova) y los encinares edafoxerófilodolomitícolas (Rhamno myrtifoliae-Quercetum rotundifoliae ass. nova). El dinamismo sucesional se expresa en seis series de vegetación. Dos series climatófilas termo y mesomediterráneas de Quercus rotundifolia y de Quercus suber. Tres series edafoxerófilas: termo-mesomediterránea calcícola-dolomitícola de Pinus halepensis y Juniperus phoenicea, mesomediterránea dolomitícola de Quercus rotundifolia y serpentinícola con Juniperus oxycedrus. Existe también una serie edafohigrófila de saucedas (Salix pedicellata). En los frecuentes hábitats rupícolas se describen 3 complejos topogénicos (entre ellos uno con Saxifraga globulifera) y 2 glerícolas (uno sobre kakiritas con Linaria clementei y otro sobre serpentinas con Centaurea carratracensis). En la Sierra existen 8 grandes unidades de paisaje zonopotencial, caracterizados en gran medida por la presencia de Quercus rotundifolia y Q. suber, así como por gimnospermas como Pinus halepensis, Juniperus phoenicea y J. oxycedrus.English. The main objective of this work is to catalogue the flora and plant communities and to study the successional dynamics of the vegetation and landscape in the Alcaparain mountain range, which is part of a Special Area of Conservation (SAC) located in the province of Malaga (Andalusia, Spain). The macrobioclimate is Mediterranean with thermomediterranean and mesomediterranean thermotypes (vegetation belts) and dry and sub-humid ombrotypes. The study area is geologically composed of limestone-dolomitic materials, siliceous and ultramafic, with steep slopes and altitudes between 400 and 1295 m. and it is placed in the Betica phytogeographical province (Mediterranean region), with Rondeño sector (limestone-dolomite areas) Malacitano-Axarquiense sector (siliceous areas) and Bermejense sector (peridotite-ultramafic areas). The floristic list consists of 467 taxa, highlighting local endemism Armeria grajoana and Centaurea carratracensis (VU), this latter endemic to the Carratracense subsector (Bermejense sector). Other interesting taxa are Linaria clementei (VU), Platycapnostenuiloba subsp. parallela (VU), Polygala webbiana (unique European population), Salvia candelabrum (VU) and Sarcocapnos baetica subsp. baetica (VU). Also noteworthy are a total of 7 serpentinophytes highlighting Crepis bermejana, Galium boissieranum (VU) and G. viridiflorum (VU). 28 communities and plant associations have been catalogued, among which are new syntaxa as the perennial scree vegetation on peridotites (Crambe filiformisCentaureetum carratracensis comb. nova et stat. nov.), the silicicolous shrublands of Rondense subsector (Lavandulo stoechadis-Genistetum equisetiformis ulicetosum baetici subass. nova), the mesomediterranean pine-juniper open forest (Pino halepensis-Juniperetum phoeniceae rhamnetosum myrtifoliae subass. nova) and dolomitic edaphoxerophyllous oak shrublands (Rhamno myrtifoliae-Quercetum rotundifoliae ass. nova). The successional dynamism is expressed in six vegetation series. Two are thermo- and mesomediterranean climatophilous series of Quercus rotundifolia and Quercus suber respectively. Three are edaphoxerophyllous series: thermo-mesomediterranean calcicolous-dolomiticolous with Aleppo pine and Juniperus phoenicea, dolomiticolous mesomediterranean of Quercus rotundifolia and serpentinicolous with Juniperus oxycedrus. There is also one edaphohygrophyllous series of willow (Salix pedicellata). Vegetation of the frequent rocky and cliff habitats are described in three topogenous complexes (including one with Saxifraga globulifera) and two in screes (one on kakirite sands with Linaria clementei and another on serpentine small slopes with Centaurea carratracensis). In the Sierra there are eight large zonopotential units of landscape, mainly characterized by the presence of Quercus rotundifolia (and in a lesser extent, Q. suber) as well as gymnosperms as Aleppo pine, Juniperus phoenicea and J. oxycedrus.
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33

Pérez-Latorre, Andrés V., Federico Casimiro-Soriguer Solanas, and Baltasar Cabezudo. "Flora y vegetación de la Sierra de Alcaparaín (Málaga, España)." Acta Botanica Malacitana 40 (July 6, 2017): 107. http://dx.doi.org/10.24310/actabotanicaabm.v40i0.2542.

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Español. El objetivo de este trabajo es realizar un catálogo de la flora, de las comunidades vegetales y el estudio del dinamismo sucesional y del paisaje vegetal de la Sierra de Alcaparaín, que forma parte de una Zona de Especial Conservación (ZEC) situada en la provincia de Málaga (Andalucía, España). El macrobioclima es de tipo mediterráneo con termotipos termo y mesomediterráneo y ombrotipos seco y subhúmedo. El área de estudio está compuesta geológicamente por materiales calizo-dolomíticos, silíceos y peridotíticos, con elevadas pendientes y altitudes entre 400 y 1295 m. y se encuentra en la provincia fitogeográfica Bética (región Mediterránea), con los sectores Rondeño (zonas calizo-dolomíticas), Malacitano-Axarquiense (zonas silíceas) y Bermejense (zonas peridotíticas). El catálogo florístico se compone de 467 taxones, destacando el endemismo local Armeria grajoana y Centaurea carratracensis (VU), endémica del subsector Carratracense (sector Bermejense). Otros taxones interesantes son Linaria clementei (VU), Platycapnos tenuiloba subsp. parallela (VU), Polygala webbiana (única localidad europea), Salvia candelabrum (VU) y Sarcocapnos baetica subsp. baetica (VU). Son remarcables también un total de 7 serpentinófitos destacando Crepis bermejana, Galium boissieranum (VU) y G. viridiflorum (VU). Se han catalogado 28 comunidades y asociaciones vegetales, entre las que destacan como novedades sintaxonómicas la vegetación glerícola vivaz sobre peridotitas (Crambe filiformisCentaureetum carratracensis comb. nova et stat. nov.), los jarales silicícolas rondeños (Lavandulo stoechadisGenistetum equisetiformis ulicetosum baetici subass. nova), los pinares-sabinares mesomediterráneos (Pino halepensis-Juniperetum phoeniceae rhamnetosum myrtifoliae subass. nova) y los encinares edafoxerófilodolomitícolas (Rhamno myrtifoliae-Quercetum rotundifoliae ass. nova). El dinamismo sucesional se expresa en seis series de vegetación. Dos series climatófilas termo y mesomediterráneas de Quercus rotundifolia y de Quercus suber. Tres series edafoxerófilas: termo-mesomediterránea calcícola-dolomitícola de Pinus halepensis y Juniperus phoenicea, mesomediterránea dolomitícola de Quercus rotundifolia y serpentinícola con Juniperus oxycedrus. Existe también una serie edafohigrófila de saucedas (Salix pedicellata). En los frecuentes hábitats rupícolas se describen 3 complejos topogénicos (entre ellos uno con Saxifraga globulifera) y 2 glerícolas (uno sobre kakiritas con Linaria clementei y otro sobre serpentinas con Centaurea carratracensis). En la Sierra existen 8 grandes unidades de paisaje zonopotencial, caracterizados en gran medida por la presencia de Quercus rotundifolia y Q. suber, así como por gimnospermas como Pinus halepensis, Juniperus phoenicea y J. oxycedrus.English. The main objective of this work is to catalogue the flora and plant communities and to study the successional dynamics of the vegetation and landscape in the Alcaparain mountain range, which is part of a Special Area of Conservation (SAC) located in the province of Malaga (Andalusia, Spain). The macrobioclimate is Mediterranean with thermomediterranean and mesomediterranean thermotypes (vegetation belts) and dry and sub-humid ombrotypes. The study area is geologically composed of limestone-dolomitic materials, siliceous and ultramafic, with steep slopes and altitudes between 400 and 1295 m. and it is placed in the Betica phytogeographical province (Mediterranean region), with Rondeño sector (limestone-dolomite areas) Malacitano-Axarquiense sector (siliceous areas) and Bermejense sector (peridotite-ultramafic areas). The floristic list consists of 467 taxa, highlighting local endemism Armeria grajoana and Centaurea carratracensis (VU), this latter endemic to the Carratracense subsector (Bermejense sector). Other interesting taxa are Linaria clementei (VU), Platycapnostenuiloba subsp. parallela (VU), Polygala webbiana (unique European population), Salvia candelabrum (VU) and Sarcocapnos baetica subsp. baetica (VU). Also noteworthy are a total of 7 serpentinophytes highlighting Crepis bermejana, Galium boissieranum (VU) and G. viridiflorum (VU). 28 communities and plant associations have been catalogued, among which are new syntaxa as the perennial scree vegetation on peridotites (Crambe filiformisCentaureetum carratracensis comb. nova et stat. nov.), the silicicolous shrublands of Rondense subsector (Lavandulo stoechadis-Genistetum equisetiformis ulicetosum baetici subass. nova), the mesomediterranean pine-juniper open forest (Pino halepensis-Juniperetum phoeniceae rhamnetosum myrtifoliae subass. nova) and dolomitic edaphoxerophyllous oak shrublands (Rhamno myrtifoliae-Quercetum rotundifoliae ass. nova). The successional dynamism is expressed in six vegetation series. Two are thermo- and mesomediterranean climatophilous series of Quercus rotundifolia and Quercus suber respectively. Three are edaphoxerophyllous series: thermo-mesomediterranean calcicolous-dolomiticolous with Aleppo pine and Juniperus phoenicea, dolomiticolous mesomediterranean of Quercus rotundifolia and serpentinicolous with Juniperus oxycedrus. There is also one edaphohygrophyllous series of willow (Salix pedicellata). Vegetation of the frequent rocky and cliff habitats are described in three topogenous complexes (including one with Saxifraga globulifera) and two in screes (one on kakirite sands with Linaria clementei and another on serpentine small slopes with Centaurea carratracensis). In the Sierra there are eight large zonopotential units of landscape, mainly characterized by the presence of Quercus rotundifolia (and in a lesser extent, Q. suber) as well as gymnosperms as Aleppo pine, Juniperus phoenicea and J. oxycedrus.
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34

Medini, H., H. Marzouki, R. Chemli, et al. "Comparison of the antimicrobial activity and the essential oil composition of Juniperus oxycedrus subsp. macrocarpa and J. oxycedrus subsp. rufescens obtained by hydrodistillation and supercritical carbon dioxide extraction methods." Chemistry of Natural Compounds 45, no. 5 (2009): 739–41. http://dx.doi.org/10.1007/s10600-009-9416-9.

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35

SESTRAS, Radu E. "Introduction pages, Notulae Scientia Biologicae 15(4), 2023." Notulae Scientia Biologicae 15, no. 4 (2023): 11842. http://dx.doi.org/10.55779/nsb15411842.

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Notulae Scientia Biologicae (http://www.notulaebiologicae.ro), Issue 4, Volume 15, 2023: The papers published in this issue represent interesting novelties in different topics of life science. Among the exciting research or reviews, we invite readers to find news about: Medicinal potential and health benefits of torch ginger (Etlingera elatior); Phytochemical profile, antioxidant and anti-inflammatory activities of crude latex (Pergularia tomentosa L.) in Algerian Saharan; Extractive optimization of antioxidants and phenolic compounds from Anacyclus pyrethrum; Antimicrobial and mosquito larvicidal activity of iron oxide nanoparticles phytosynthesized from the medicinal plant Andrographis serpyllifolia; Phytochemical characterization, biological screening and corrosion inhibition of mild steel from extracts of Juniperus oxycedrus L.; Supply of essential and nonessential amino acids, proteins, antioxidants, iron and zinc from the main varieties of beans consumed in Mexico and their potential for biofortification; Seed dormancy mechanism and dormancy-breaking methods in wild raspberry (Rubus fraxinifolius Poir.); New insights regarding the taxonomy and phylogeography of Onobrychis montana DC. subsp. transsilvanica (Fabaceae); Estimating dendrometric variables, volume and carbon from stump diameter for Pinus arizonica Engelm. in northern Mexico.
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36

Saaed, Manam W. B., and Anwagy A. M. Almasouri. "Ecological and conservation status of Juniperus oxycedrus subsp. macrocarpa: A rare and endangered tree species in the flora of Libya." Journal of Degraded and Mining Lands Management 12, no. 4 (2025): 7979–92. https://doi.org/10.15243/jdmlm.2025.124.7979.

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Preserving isolated plant populations and defining their geographic range, especially for rare and threatened species, is vital in conservation ecology. The current study examined the ecological status and potential conservation trajectories of Juniperus oxycedrus subsp. macrocarpa (Sm.) Neilr in the only Libyan area with significant populations of this tree. The habitat was identified, and its climatic, edaphic, and vegetation characteristics were analyzed. The species' landscape distribution was studied, with regeneration and mortality percentage estimated, along with influencing factors. The results revealed that the soil in the area is predominantly sandy in texture and infertile. The accompanying vegetation cover is comprised of 112 species and dominated by dwarf plant species. Previous records of this tree species east of Derna City are no longer extant. The study documented 4135 scattered trees covering an area estimated at around 260 hectares, with another 24 individuals located along the road to Al-Qubah city. The average height of the trees was 2.33 m, while the average canopy area and volume per individual were 38.18 m2 and 174.30 m3, respectively. The percentage of regeneration was estimated at 16.42%, while the mortality was 3.07%. Despite their apparent resilience to poor soil properties, arid climate, and proximity to the sea, this tree is primarily threatened by unsustainable human activities, resulting in habitat alteration and landscape modification. Therefore, urgent and efficient management measures are required to preserve this taxon at the national level. This should involve designating the study area as a protected zone to ensure long-term ecological conservation and sustainable management
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37

Kutbay, Hamdi G�ray, and Tolga Ok. "Foliar N and P resorption and nutrient levels along an elevational gradient in Juniperus oxycedrus L. subsp. macrocarpa (Sibth. & Sm.) Ball." Annals of Forest Science 60, no. 5 (2003): 449–54. http://dx.doi.org/10.1051/forest:2003037.

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38

Ismail, Amri, Hamrouni Lamia, Hanana Mohsen, and Jamoussi Bassem. "Chemical Composition of Juniperus oxycedrus L. subsp macrocarpa Essential Oil and Study of Their Herbicidal Effects on Germination and Seedling Growth of Weeds." Asian Journal of Applied Sciences 4, no. 8 (2011): 771–79. http://dx.doi.org/10.3923/ajaps.2011.771.779.

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39

Liakakou, Anastasia, Apostolis Angelis, Dimitrios P. Papachristos, Nikolas Fokialakis, Antonios Michaelakis, and Leandros A. Skaltsounis. "Isolation of Volatile Compounds with Repellent Properties against Aedes albopictus (Diptera: Culicidae) Using CPC Technology." Molecules 26, no. 11 (2021): 3072. http://dx.doi.org/10.3390/molecules26113072.

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The present work describes the use of Centrifugal Partition Chromatography (CPC) for the bio-guided isolation of repellent active volatile compounds from essential oils. Five essential oils (EOs) obtained from three Pinus and two Juniperus species were initially analyzed by gas chromatography–mass spectrometry (GC/MS) and evaluated for their repellent properties against Aedes albopictus. The essential oil from needles of P. pinea (PPI) presented the higher activity, showing 82.4% repellency at a dose of 0.2 μL/cm2. The above EO, together with the EO from the fruits of J. oxycedrus subsp. deltoides (JOX), were further analyzed by CPC using the biphasic system n-Heptane/ACN/BuOH in ratio 1.6/1.6/0.2 (v/v/v). The analysis of PPI essential oil resulted in the recovery of (−)-limonene, guaiol and simple mixtures of (−)-limonene/β-pheladrene, while the fractionation of JOX EO led to the recovery of β-myrcene, germacrene-D, and mixtures of α-pinene/β-pinene (ratio 70/30) and α-pinene/germacrene D (ratio 65/45). All isolated compounds and recovered mixtures were tested for their repellent activity. From them, (−)-limonene, guaiol, germacrene-D as well the mixtures of (−)-limonene/β-pheladrene presented significant repellent activity (&gt;97% repellency) against Ae. albopictus. The present methodology could be a valuable tool in the effort to develop potent mosquito repellents which are environmentally friendly.
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Juan, Ana, Michael F. Fay, Julio Pastor, Rocío Juan, Inmaculada Fernández, and Manuel B. Crespo. "Genetic structure and phylogeography in Juniperus oxycedrus subsp. macrocarpa around the Mediterranean and Atlantic coasts of the Iberian Peninsula, based on AFLP and plastid markers." European Journal of Forest Research 131, no. 3 (2011): 845–56. http://dx.doi.org/10.1007/s10342-011-0558-5.

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Magaña Ugarte, Rosina, María Manuela Redondo, and Daniel Sánchez-Mata. "Evaluating the post-fire natural regeneration of Mediterranean-type scrublands in Central Spain." Mediterranean Botany 42 (June 23, 2021): e67331. http://dx.doi.org/10.5209/mbot.67331.

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We performed a five-year assessment of the natural vegetation restoration capacity following the 2012 fires in Valdemaqueda (Madrid, Spain) via the characterization of the post-fire and residual vegetation and the analysis of soil physico-chemical characteristics. Six pilot-plots were established in the affected site. Forest species, representative of the potential natural vegetation of the area (Juniperus oxycedrus subsp. lagunae and Quercus rotundifolia woodlands) and broom shrubs (Cytisus scoparius, Retama sphaerocarpa) were planted to assess the relationship among the stages of ecological succession, competition, and soil restoration processes following devastating fire events.&#x0D; The fire-driven alteration of the soil’s physico-chemical properties was evident, given the increased pH and reduced C/N ratio in the first years of the study. However, we observed an increased soil enrichment in the last years of study, accompanied by the propagation of herbaceous species, su[1]pporting our seed bank findings, showing a clear difference in the sprouting rate between burnt and control plots (80% vs. 20%, respectively). The establishment of robust, pyrophyte shrub species (Cistus ladanifer, C. laurifolius, Rosmarinus officinalis) rather than natural succession evidenced the clear conversion of the vegetation in burnt areas. These findings in the pilot-plots allowed evidencing the high vulnerability of the natural vegetation to the settling of pyrophytes, given their low survival rate under the strong competitive pressure of these pyrophytic species. The proliferation of these pyrophytes could translate into changes in soil macro- and microbiota, nutrient dynamics, species diversity, and interaction, added to the alteration of fire regimes in the area. Overall, these results highlight the risk for soil impoverishment and possible erosion of the fire-affected sites. Moreover, they underline the importance of the establishment and regeneration of Genisteae species to outcompete pioneer pyrophytic species, favoring the restoration of the area’s potential natural vegetation
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Crous, Pedro, Željko Jurjević, S. Balashov, et al. "Fungal Planet description sheets: 1614-1696." Fungal Systematics and Evolution 13 (June 28, 2024): 183–440. https://doi.org/10.3114/fuse.2024.13.11.

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Novel species of fungi described in this study include those from various countries as follows: <strong>Australia</strong>, <em>Baobabopsis sabindy</em> in leaves of <em>Eragrostis spartinoides</em>, <em>Cortinarius magentiguttatus </em>among deep leaf litter, <em>Laurobasidium azarandamiae</em> from uredinium of <em>Puccinia alyxiae</em> on <em>Alyxia buxifolia</em>, <em>Marasmius pseudoelegans</em> on well-rotted twigs and litter in mixed wet sclerophyll and subtropical rainforest. <strong>Bolivia,</strong> <em>Favolaschia luminosa</em> on twigs of <em>Byttneria hirsuta</em>, <em>Lecanora thorstenii</em> on bark, in savannas with shrubs and trees. <strong>Brazil,</strong> <em>Asterina costamaiae</em> on leaves of <em>Rourea bahiensis</em>, <em>Purimyces orchidacearum</em> (incl. <em>Purimyces gen. nov.</em>) as root endophyte on <em>Cattleya locatellii</em>. <strong>Bulgaria,</strong> <em>Monosporascus bulgaricus</em> and <em>Monosporascus europaeus</em> isolated from surface-sterilised, asymptomatic roots of <em>Microthlaspi perfoliatum</em>. <strong>Finland,</strong> <em>Inocybe undatolacera</em> on a lawn, near <em>Betula pendula</em>. <strong>France,</strong> <em>Inocybe querciphila</em> in humus of mixed forest. <strong>Germany,</strong> <em>Arrhenia oblongispora</em> on bare soil attached to debris of herbaceous plants and grasses. <strong>Greece,</strong> <em>Tuber aereum</em> under <em>Quercus coccifera</em> and <em>Acer sempervirens</em>. <strong>India,</strong> <em>Alfoldia lenyadriensis</em> from the gut of a <em>Platynotus</em> sp. beetle, <em>Fulvifomes subramanianii </em>on living <em>Albizzia amara</em>, <em>Inosperma pavithrum</em> on soil, <em>Phylloporia parvateya</em> on living <em>Lonicera</em> sp., <em>Tropicoporus maritimus </em>on living <em>Peltophorum pterocarpum</em>. <strong>Indonesia,</strong> <em>Elsinoe atypica</em> on leaf of <em>Eucalyptus pellita</em>. <strong>Italy,</strong> A<em>piotrichum vineum</em> from grape wine, <em>Cuphopyllus praecox</em> among grass. <strong>Madagascar,</strong> <em>Pisolithus madagascariensis</em> on soil under <em>Intsia bijuga</em>. <strong>Netherlands,</strong> <em>Cytosporella calamagrostidis</em> and <em>Periconia calamagrostidicola</em> on old leaves of <em>Calamagrostis arenaria</em>, <em>Hyaloscypha caricicola</em> on leaves of <em>Carex</em> sp., <em>Neoniesslia phragmiticola </em>(incl. <em>Neoniesslia gen. nov.</em>) on leaf sheaths of standing dead culms of <em>Phragmites australis</em>, <em>Neptunomyces juncicola</em> on culms of <em>Juncus maritimus, Zenophaeosphaeria calamagrostidis</em> (incl. <em>Zenophaeosphaeria</em> <em>gen. nov</em>.) on culms of <em>Calamagrostis arenaria.</em> <strong>Norway,</strong> <em>Hausneria geniculata</em> (incl. <em>Hausneria gen. nov.</em>) from a gallery of <em>Dryocoetes alni</em> on <em>Alnus incana.</em> <strong>Pakistan,</strong> <em>Agrocybe auriolus</em> on leaf litter of <em>Eucalyptus camaldulensis, Rhodophana rubrodisca</em> in nutrient-rich loamy soil with <em>Morus alba.</em> <strong>Poland,</strong> <em>Cladosporium nubilum</em> from hypersaline brine, <em>Entomortierella ferrotolerans</em> from soil at mines and postmining sites, <em>Pseudopezicula epiphylla</em> from sooty mould community on <em>Quercus robur, Quixadomyces sanctacrucensis</em> from resin of <em>Pinus sylvestris, Szafranskia beskidensis</em> (incl. <em>Szafranskia gen. nov</em>.) from resin of <em>Abies alba.</em> <strong>Portugal,</strong> <em>Ascocoryne laurisilvae</em> on degraded wood of <em>Laurus nobilis, Hygrocybe madeirensis</em> in laurel forests, <em>Hygrocybula terracocta</em> (incl. <em>Hygrocybula gen. nov.</em>) on mossy areas of laurel forests planted with <em>Cryptomeria japonica.</em> Republic of Kenya, <em>Penicillium gorferi</em> from a sterile chicken feather embedded in a soil sample. <strong>Slovakia,</strong> <em>Cerinomyces tatrensis</em> on bark of <em>Pinus mugo,</em> Me<em>t</em>apochonia <em>simonovicovae</em> from soil. <strong>South Africa</strong>, <em>Acremonium agapanthi</em> on culms of <em>Agapanthus praecox, Alfaria elegiae</em> on culms of <em>Elegia ebracteata, Beaucarneamyces stellenboschensis</em> (incl. <em>Beaucarneamyces gen. nov.</em>) on dead leaves of <em>Beaucarnea stricta, Gardeniomyces kirstenboschensis</em> (incl. <em>Gardeniomyces gen. nov.</em>) rotting fruit of <em>Gardenia thunbergia, Knufia dianellae</em> on dead leaves of <em>Dianella caerulea, Lomaantha quercina</em> on twigs of <em>Quercus suber. Melanina restionis</em> on dead leaves of <em>Restio duthieae, Microdochium buffelskloofinum</em> on seeds of <em>Eragrostis cf. racemosa, Thamnochortomyces kirstenboschensis</em> (incl. <em>Thamnochortomyces gen. nov.</em>) on culms of <em>Thamnochortus fraternus, Tubeufia hagahagana</em> on leaves of <em>Hypoxis angustifolia, Wingfieldomyces cypericola</em> on dead leaves of <em>Cyperus papyrus.</em> <strong>Spain,</strong> <em>Geastrum federeri</em> in soil under Q<em>u</em>ercus <em>suber</em> and <em>Q. canariensis</em>, <em>Geastrum nadalii</em> in calcareous soil under <em>Juniperus, Quercus, Cupressus, Pinus</em> and <em>Robinia, Hygrocybe garajonayensis</em> in laurel forests, <em>Inocybe cistophila</em> on acidic soil under <em>Cistus ladanifer, Inocybe sabuligena</em> in a mixed <em>Quercus ilex</em> subsp. <em>ballota/Juniperus thurifera</em> open forest, <em>Mycena calongei</em> on mossy bark base of <em>Juniperus oxycedrus, Rhodophana ulmaria</em> on soil in <em>Ulmus minor</em> forest, <em>Tuber arriacaense</em> in soil under <em>Populus pyramidalis, Volvariella latispora</em> on grassy soils in a <em>Quercus ilex</em> ssp. <em>rotundifolia</em> stand. <strong>Sweden,</strong> <em>Inocybe iota</em> in alpine heath on calcareous soil. <strong>Thailand,</strong> <em>Craterellus maerimensis</em> and <em>Craterellus sanbuakwaiensis</em> on laterite and sandy soil, <em>Helicocollum samlanense</em> on scale insects, <em>Leptosporella</em> cassiae on dead twigs of <em>Cassia fistula, Oxydothis coperniciae</em> on dead leaf of <em>Copernicia alba, Russula mukdahanensis</em> on soil, <em>Trechispora sangria</em> on soil, <em>Trechispora sanpatongensis</em> on soil. <strong>T&uuml;rkiye,</strong> <em>Amanita corylophila</em> in a plantation of <em>Corylus avellana.</em> <strong>Ukraine,</strong> <em>Pararthrophiala adonis</em> (incl. <em>Pararthrophiala gen. nov.</em>) on dead stems of <em>Adonis vernalis.</em> <strong>USA,</strong> <em>Cladorrhinum carnegieae</em> from <em>Carnegiea gigantea, Dematipyriformia americana</em> on swab from basement wall, <em>Dothiora americana</em> from outside air, <em>Dwiroopa aeria</em> from bedroom air, <em>Lithohypha cladosporioides</em> from hospital swab, <em>Macroconia verruculosa</em> on twig of <em>Ilex montana,</em> associated with black destroyed ascomycetous fungus and <em>Biatora</em> sp., <em>Periconia floridana</em> from outside air, <em>Phytophthora fagacearum</em> from necrotic leaves and shoots of <em>Fagus grandifolia, Queenslandipenidiella californica</em> on wood in crawlspace. Morphological and culture characteristics are supported by DNA barcodes.
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43

SALVATORE, PASTA, DI DIO VINCENZO, SCUDERI LEONARDO, and LA MANTIA TOMMASO. "DISTRIBUZIONE STORICA E ATTUALE DELLE SPECIE DEL GENERE JUNIPERUS (Cupressaceae) IN SICILIA." January 23, 2023. https://doi.org/10.5281/zenodo.7562240.

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Viene proposto un quadro aggiornato della distribuzione delle tre specie di ginepro presenti in Sicilia, ovvero Juniperus communis, J. oxycedrus subsp. macrocarpa e J. turbinata. La creazione di un repertorio critico dei fitonimi dialettali riferiti a tali specie ha permesso inoltre di condurre una ricerca sistematica dei toponimi riportati su documenti cartografici antichi e recenti e di individuare altri popolamenti costieri di ginepro trascurati dai botanici o certamente scomparsi. Questo lavoro evidenzia la probabile estinzione di diverse stazioni storiche di J. oxycedrus subsp. macrocarpa e J. turbinata, indicate nella letteratura o documentate da campioni d&rsquo;erbario. Sporadici riferimenti fatti negli scorsi due secoli alla presenza di J. sabina L. in Sicilia e di J. communis sui Nebrodi e sugli Erei non sono stati confermati dalle indagini svolte nel corso degli ultimi decenni. Vengono infine presentati i dati distributivi e demografici relativi a diversi nuclei inediti o poco conosciuti di J. oxycedrus subsp. macrocarpa e di J. turbinata. Molti di essi sono stati scoperti di recente, come quello presso Rasocolmo sulle coste della Sicilia nordorientale, mentre altri, documentati da campioni di erbario o gi&agrave; segnalati su vecchie pubblicazioni, erano stati trascurati dalla pi&ugrave; recente letteratura botanica dedicata a queste conifere. Le indagini di campo hanno permesso inoltre di fornire dei dettagli aggiornati e puntuali sulla distribuzione di J. communis sull&rsquo;Etna e di J. oxycedrus subsp. macrocarpa e di J. turbinata nella fascia costiera e collinare delle province di Caltanissetta e Ragusa, aree per le quali si disponeva di informazioni spesso generiche, datate e frammentarie. Diversi popolamenti di J. oxycedrus subsp. macrocarpa riscontrati lungo le spiagge sabbiose dell&rsquo;Agrigentino e del Ragusano sembrano derivare dal diffuso utilizzo di questa specie nei rimboschimenti effettuati nel corso del secolo scorso sui sistemi dunali che un tempo caratterizzavano la costa del Canale di Sicilia. Vengono inoltre riportati tutti gli usi tradizionali locali. delle diverse specie di ginepro. Incentrato sul territorio siciliano, grazie al suo approccio interdisciplinare e allo sforzo di fornire una prospettiva spazio-temporale quanto pi&ugrave; completa possibile, questo lavoro pu&ograve; costituire un modello replicabile per condurre ricerche simili, volte a ricostruire la distribuzione pregressa e potenziale di altre specie forestali, indirizzando al meglio i futuri interventi di riforestazione e di ripristino della vegetazione autoctona su scala regionale. &nbsp;
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44

Orhan, N., M. Aslan, DD Orhan, F. Ergun, M. Pektaş, and E. Bedir. "Antidiabetic Effect of Juniperus oxycedrus subsp. oxycedrus Berries by Using Bioactivity Guided Fractionation." Planta Medica 77, no. 12 (2011). http://dx.doi.org/10.1055/s-0031-1282168.

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45

OKUT, Neşe, Bünyamin YILDIRIM, Kamil EKİCİ, Ömer TERZİOĞLU, and Fevzi ÖZGÖKÇE. "Juniperus oxycedrus L. subsp. oxycedrus Yapraklarındaki Uçucu Yağın Kimyasal Yapısı ve Antibakteriyel Özelliklerinin Belirlenmesi." Yüzüncü Yıl Üniversitesi Tarım Bilimleri Dergisi, June 29, 2018, 186–91. http://dx.doi.org/10.29133/yyutbd.379647.

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46

Neg, Imane, Youssef Khachtib, Said Bouda, and Abdelmajid Haddioui. "The genetic diversity of Juniperus oxycedrus L. subsp. oxycedrus populations in Morocco-North Africa." Genetic Resources and Crop Evolution, February 25, 2025. https://doi.org/10.1007/s10722-025-02377-0.

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47

Tomi, Félix, Mathieu Paoli, Joseph Casanova, et al. "Chemical variability of the berry essential oil of two subspecies of Juniperus oxycedrus L. from Northwestern Algeria." Chemistry & Biodiversity, May 2024. http://dx.doi.org/10.1002/cbdv.202400862.

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The chemical composition of 33 oil samples isolated from the berries of individual trees of two subspecies of Juniperus oxycedrus L., collected in four locations in Tlemcen and Aïn Temouchent provinces, was investigated by GC‐FID, GC/MS and 13CNMR. In total, 83 compounds were identified, accounting for 85.9% to 98.6% of the total composition. Yields ranged between 0.02 and 0.40% (w/w). All compositions were submitted to statistical analysis. Combination of hierarchical clustering dendrogram and principal component analysis suggested the existence of two groups, the second group being sub‐divided into two sub‐groups. Groups and sub‐groups were distinguished with respect to their contents of α‐pinene, germacrene D, myrcene and, to a lesser extent, of manoyl oxide. The chemical composition of the oils belonging to subsp. oxycedrus was largely dominated by monoterpenes. α‐Pinene (23.7 ‐ 63.2%) and germacrene D (4.5 ‐ 25.4%) were the major components, followed by myrcene (3.1 ‐ 16.7%). Conversely, samples oils of subsp. macrocarpa were largely dominated by germacrene D (4.4 ‐ 30.0%), followed by a lower content of α‐pinene (10.0 – 24.3%) and myrcene (1.0 ‐ 4.3%) and a significant content of manoyl oxide (4.3 ‐ 9.9%).
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48

Yurt, Bayram, Rüya Sağlamtaş, Yeliz Demir, Ebubekir İzol, Halit Diril, and Cüneyt Çağlayan. "Determination of in vitro Antioxidant, Anticholinergic and Antiepileptic Activities of Some Aromatic Plant Extracts." Kahramanmaraş Sütçü İmam Üniversitesi Tarım ve Doğa Dergisi, August 9, 2024. http://dx.doi.org/10.18016/ksutarimdoga.vi.1472403.

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Medicinal and aromatic plants such as Crocus cancellatus, Scilla Siberica subsp. armena, Juniperus oxycedrus subsp. oxycedrus and Anthriscus nemorosa have many different biological activities. While antioxidants are significant in preventing many diseases, inhibition of metabolic enzymes is also important in preventing many significant diseases. In this study, antioxidant activities of water, ethanol, and dichloromethane extracts of four different medicinal and aromatic plant species were determined by 1,1-diphenyl-2-picrylhydrazyl (DPPH·) and 2,20-azino-bis-3-ethylbenzthiazoline-6-sulphonic acid (ABTS·+) radical scavenging and Cu2+, Fe+3, and Fe3+-2,4,6-tris(2-pyridyl)-S-triazine (TPTZ) reducing assays. Standard antioxidants (BHA, BHT, Trolox, α-Tocopherol) were used in antioxidant assays, and the results were evaluated according to these standards. Enzyme inhibition studies were performed with metabolic enzymes acetylcholinesterase, butyrylcholinesterase, carbonic anhydrase I and II isoenzymes. The ethanol extract of A. nemorosa showed the highest activity in DPPH assay (IC50: 17.36 µg mL-1). In the ABTS assay, the ethanol extract of A. nemorosa plant showed the highest activity (IC50: 7.02 µg mL-1). In the Fe3+ reducing assay, the dichloromethane extract of A. nemorosa showed the highest activity (1.96±0.060 µg mL-1). In the Cu2+ reducing assay, the dichloromethane extract of J. oxycedrus showed the highest activity (1.773±0.066 µg mL-1). In the Fe3+-TPTZ reducing assay, the ethanol extract of S. siberica showed the highest activity (1.256±0.011 µg mL-1). In the enzyme inhibition results, it was determined that all plants and all extracts inhibited the enzymes studied. As a result of this study, it was determined that these four medicinal and aromatic plants have high biological and antioxidant activities.
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49

SEVGİ, Ece, and Ünal AKKEMİK. "EGE BÖLGESİNDE GELENEKSEL KULLANIMI OLAN AĞAÇ TÜRLERİNİN YÖRESEL ADLARI." AVRASYA TERİM DERGİSİ, December 25, 2022. http://dx.doi.org/10.31451/ejatd.1217649.

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Akdeniz fitocoğrafik bölgesi içindeki Ege Bölgesinde iklimi, yeryüzü özellikleri ve farklı yükseltilere sahip olması sebebiyle tür çeşitliliği oldukça zengindir ve bu bitkiler insanlar tarafından kullanılmaktadır. &#x0D; Bu çalışmada, bölgedeki etnobotanik ve geleneksel bitki kullanımı kapsamındaki yayınlardan ağaçların geleneksel adlarının geçtiği 47 yayın değerlendirilmiştir. Ege Bölgesi geleneksel kullanımı olan 96 ağaç taksonuna ait 390 adet yöresel ad verildiği tespit edilmiştir. Bu sayılar bölgede ağaç türlerinin iyi tanındığının da bir göstergesi olarak değerlendirilebilir.&#x0D; Ağaç türlerinden 35’i bir bitkiadı (fitonim) ile kayıtlıdır. Özellikle çok eski dönemlerden bu yana meyvelerinin kullanıldığı bilinen; ceviz, ayva, kestane, iğde, zeytin ve şeftali buna örnek verilebilir. Bölgenin bazı yörelerinde aynı türe farklı adlar verildiği gibi farklı türlerin de aynı yöresel ad ile anıldığı belirlenmiştir. Bu ortak adlardan “Çitlenbik” adı Celtis australis L. ve Pistacia terebinthus L. türleri için, “Kızılcık” adı Cornus mas L., Crataegus monogyna Jacq., Juniperus oxycedrus L. türleri için kullanıldığı tespit edilmiştir. Ayrıca yaygın olarak kızılçam olarak bilinen Pinus brutia Ten. ve karaçam adı ile tanınan Pinus nigra J. F. Arnold. subsp. pallasiana (Lamb.) Holmboe türleri de akçam olarak ortak ad ile de adlandırılmaktadır. &#x0D; Sonuç olarak, geleneksel kullanım açısından önem taşıyan çok sayıda ağaç türünün bölgede bulunduğu ve bitkiadları açısından da önemli bir birikimin olduğu görülmektedir
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50

Crous, P. W., Ž. Jurjević, S. Balashov, et al. "Fungal Planet description sheets: 1614–1696." Fungal Systematics and Evolution, 2024. http://dx.doi.org/10.3114/fuse.2024.13.11.

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Novel species of fungi described in this study include those from various countries as follows: Australia, Baobabopsis sabindy in leaves of Eragrostis spartinoides, Cortinarius magentiguttatus among deep leaf litter, Laurobasidium azarandamiae from uredinium of Puccinia alyxiae on Alyxia buxifolia, Marasmius pseudoelegans on well-rotted twigs and litter in mixed wet sclerophyll and subtropical rainforest. Bolivia, Favolaschia luminosa on twigs of Byttneria hirsuta, Lecanora thorstenii on bark, in savannas with shrubs and trees. Brazil, Asterina costamaiae on leaves of Rourea bahiensis, Purimyces orchidacearum (incl. Purimyces gen. nov.) as root endophyte on Cattleya locatellii. Bulgaria, Monosporascus bulgaricus and Monosporascus europaeus isolated from surface-sterilised, asymptomatic roots of Microthlaspi perfoliatum. Finland, Inocybe undatolacera on a lawn, near Betula pendula. France, Inocybe querciphila in humus of mixed forest. Germany, Arrhenia oblongispora on bare soil attached to debris of herbaceous plants and grasses. Greece, Tuber aereum under Quercus coccifera and Acer sempervirens. India, Alfoldia lenyadriensis from the gut of a Platynotus sp. beetle, Fulvifomes subramanianii on living Albizzia amara, Inosperma pavithrum on soil, Phylloporia parvateya on living Lonicera sp., Tropicoporus maritimus on living Peltophorum pterocarpum. Indonesia, Elsinoe atypica on leaf of Eucalyptus pellita. Italy, Apiotrichum vineum from grape wine, Cuphopyllus praecox among grass. Madagascar, Pisolithus madagascariensis on soil under Intsia bijuga. Netherlands, Cytosporella calamagrostidis and Periconia calamagrostidicola on old leaves of Calamagrostis arenaria, Hyaloscypha caricicola on leaves of Carex sp., Neoniesslia phragmiticola (incl. Neoniesslia gen. nov.) on leaf sheaths of standing dead culms of Phragmites australis, Neptunomyces juncicola on culms of Juncus maritimus, Zenophaeosphaeria calamagrostidis (incl. Zenophaeosphaeria gen. nov.) on culms of Calamagrostis arenaria. Norway, Hausneria geniculata (incl. Hausneria gen. nov.) from a gallery of Dryocoetes alni on Alnus incana. Pakistan, Agrocybe auriolus on leaf litter of Eucalyptus camaldulensis, Rhodophana rubrodisca in nutrient-rich loamy soil with Morus alba. Poland, Cladosporium nubilum from hypersaline brine, Entomortierella ferrotolerans from soil at mines and postmining sites, Pseudopezicula epiphylla from sooty mould community on Quercus robur, Quixadomyces sanctacrucensis from resin of Pinus sylvestris, Szafranskia beskidensis (incl. Szafranskia gen. nov.) from resin of Abies alba. Portugal, Ascocoryne laurisilvae on degraded wood of Laurus nobilis, Hygrocybe madeirensis in laurel forests, Hygrocybula terracocta (incl. Hygrocybula gen. nov.) on mossy areas of laurel forests planted with Cryptomeria japonica. Republic of Kenya, Penicillium gorferi from a sterile chicken feather embedded in a soil sample. Slovakia, Cerinomyces tatrensis on bark of Pinus mugo, Metapochonia simonovicovae from soil. South Africa, Acremonium agapanthi on culms of Agapanthus praecox, Alfaria elegiae on culms of Elegia ebracteata, Beaucarneamyces stellenboschensis (incl. Beaucarneamyces gen. nov.) on dead leaves of Beaucarnea stricta, Gardeniomyces kirstenboschensis (incl. Gardeniomyces gen. nov.) rotting fruit of Gardenia thunbergia, Knufia dianellae on dead leaves of Dianella caerulea, Lomaantha quercina on twigs of Quercus suber. Melanina restionis on dead leaves of Restio duthieae, Microdochium buffelskloofinum on seeds of Eragrostis cf. racemosa, Thamnochortomyces kirstenboschensis (incl. Thamnochortomyces gen. nov.) on culms of Thamnochortus fraternus, Tubeufia hagahagana on leaves of Hypoxis angustifolia, Wingfieldomyces cypericola on dead leaves of Cyperus papyrus. Spain, Geastrum federeri in soil under Quercus suber and Q. canariensis, Geastrum nadalii in calcareous soil under Juniperus, Quercus, Cupressus, Pinus and Robinia, Hygrocybe garajonayensis in laurel forests, Inocybe cistophila on acidic soil under Cistus ladanifer, Inocybe sabuligena in a mixed Quercus ilex subsp. ballota/Juniperus thurifera open forest, Mycena calongei on mossy bark base of Juniperus oxycedrus, Rhodophana ulmaria on soil in Ulmus minor forest, Tuber arriacaense in soil under Populus pyramidalis, Volvariella latispora on grassy soils in a Quercus ilex ssp. rotundifolia stand. Sweden, Inocybe iota in alpine heath on calcareous soil. Thailand, Craterellus maerimensis and Craterellus sanbuakwaiensis on laterite and sandy soil, Helicocollum samlanense on scale insects, Leptosporella cassiae on dead twigs of Cassia fistula, Oxydothis coperniciae on dead leaf of Copernicia alba, Russula mukdahanensis on soil, Trechispora sangria on soil, Trechispora sanpatongensis on soil Türkiye, Amanita corylophila in a plantation of Corylus avellana. Ukraine, Pararthrophiala adonis (incl. Pararthrophiala gen. nov.) on dead stems of Adonis vernalis. USA, Cladorrhinum carnegieae from Carnegiea gigantea, Dematipyriformia americana on swab from basement wall, Dothiora americana from outside air, Dwiroopa aeria from bedroom air, Lithohypha cladosporioides from hospital swab, Macroconia verruculosa on twig of Ilex montana, associated with black destroyed ascomycetous fungus and Biatora sp., Periconia floridana from outside air, Phytophthora fagacearum from necrotic leaves and shoots of Fagus grandifolia, Queenslandipenidiella californica on wood in crawlspace. Morphological and culture characteristics are supported by DNA barcodes.
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