Results 171 to 180 of about 4,376 (215)
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A comparison of the flavonoids in Athyriaceae and Aspleniaceae
Biochemical Systematics and Ecology, 1994Abstract Flavonoid patterns were examined for 18 species of Athyriaceae and 15 species of Aspleniaceae, mainly of Malaysian origin. In the Athyriaceae, flavonol 3- O -glycosides based on both quercetin and kaempferol were the most common flavonoids found, and additionally in some species of Diplazium and Deparia flavone C -glycosides were ...
Jeffrey B Harborne
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Notes nomenclaturales relatives aux Aspleniaceae (Pteridophyta)-I
Le Journal de botanique, 2021Un nom nouveau est donné pour Asplenium ×confluens (T. Moore ex E. J. Lowe) Lawalrée, combinaison s’étant avérée être illégitime.
Boudrie, Michel, Viane, Ronald
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The systematic position ofAsplenium cardiophyllum (Aspleniaceae)
The Botanical Magazine Tokyo, 1990Asplenium cardiophyllum is a morphologically unusual species with simple leaves and anastomosing venation, and is often placed in the segregate genusBoniniella. To determine its systematic position, character comparisons were made of vascular anatomy, raphides in leaf epidermis, chromosome number and perispore of this species and those ofAsplenium sect.
Masahiro Kato +3 more
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Chemotaxonomic studies ofAsplenium sect.Hymenasplenium (Aspleniaceae)
The Botanical Magazine Tokyo, 1988We previously isolated and characterized a new free amino acid withd-configuration at the α-carbon,trans-3, 4-dehydro-d-2-aminopimelic acid and its related amino acids,d-2-aminopimelic acid and 4-hydroxy-l-2-aminopimelic acid fromAsplenium unilaterale.
Noriaki Murakami, Shin-Ichi Hatanaka
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Perispore morphology and the taxonomy of the Australian Aspleniaceae
Australian Journal of Botany, 1980Perispore morphology of the Australian members of the Aspleniaceae is examined with use of both the light and scanning electron microscopes. A range of character states is described, and suitable terminology is defined. The results are used in conjunction with other morphological data to suggest a tentative taxonomic grouping of the Australian species.
CF Puttock, CJ Quinn
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?????? Asplenium L. (Aspleniaceae) ?? ?????????????????? ?????????? ??????????????
2021According to the results of taxonomic revision, it was established that the genus Asplenium L. in the natural flora of Ukraine is represented by 14 species, but the presence of A. fontanum (L.) Bernh. needs additional confirmation. The concept of modern distribution of A. ?? heufleri Reichardt and A. cuneifolium Viv. in the territory of the country has
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Anatomical studies of the Malaysian Aspleniaceae and Athyriceae
Botanical Journal of the Linnean Society, 1992UMIKALSOM, Y., 1992. Anatomical studies of the Malaysian Aspleniaceae and Athyriaceae. The xylem strands observed in 15 species of the Malaysian Athyriaceae appear to provide useful characters for distinguishing between the genera. Alhyrium and Diplazium show a similar type of xylem strand: they possess two xylem strands in their stipe.
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การศึกษาทบทวนพืชวงศ์ Aspleniaceae ในประเทศไทย : รายงานผลการวิจัย
2009Aspleniaceae เป็นเฟิร์นวงศ์ขนาดใหญ่วงศ์หนึ่งของพืชที่มีเนื้อเยื่อท่อลำเลียงมีจำนวนชนิดประมาณ 700 ชนิดทั่วโลก ซึ่งมักจะจัดจำแนกไว้ในสกุลเดียวคือ Asplenium สำหรับประเทศไทยพบเฟิร์นสกุลนี้จำนวน 37 ชนิด ซึ่งต่อมาพบว่ามีหลายชนิดในประเทศไทยที่ไม่สามารถตรวจหาชื่อชนิดได้ ประกอบกับมีแนวความคิดของนักวิจัยต่างประเทศที่จะจัดจำแนกเฟิร์นวงศ์นี้ออกเป็นมากกว่า 1 สกุล จึ
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A New Name for Extant Asplenium foersteri (Aspleniaceae)
Annales Botanici Fennici, 2020The replacement name Asplenium hovenkampi Kottaim. is proposed for the New Guinean spleenwort A. foersteri Rosenst., because the latter name is an illegitimate later homonym of a fossil species described from Germany in 1859.
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