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Sympetalous 2 (PSF)
Sympetaly (fused petals) is a flower characteristic that historically was used to classify a grouping of plants termed Sympetalae, but this term has been abandoned in newer molecular based classifications, although the grouping has similarity to the modern term asterids. History Sympetalae Rchb. (1828), meaning “with fused petals”, is a descriptive botanical name used in the Eichler, Engler, and Wettstein systems for a group of flowering plants (angiosperms). In this group the flowers have a separate calyx and corolla and in which the corolla petals are fused, at least at their base, a condition known as sympetaly. Prior to the phylogenic classifications of August Eichler and his successors this group corresponds to the Gamopetalae of Bentham and Hooker, gamopetaly being a synonym of sympetaly. This was one of the three divisions of dicotyledons in their system. In Eichler's ''Blüthendiagramme'', the class Dicotyleae was divided into two subclasses, the Sympetalae ( ...
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Sympetalous 2 (PSF)
Sympetaly (fused petals) is a flower characteristic that historically was used to classify a grouping of plants termed Sympetalae, but this term has been abandoned in newer molecular based classifications, although the grouping has similarity to the modern term asterids. History Sympetalae Rchb. (1828), meaning “with fused petals”, is a descriptive botanical name used in the Eichler, Engler, and Wettstein systems for a group of flowering plants (angiosperms). In this group the flowers have a separate calyx and corolla and in which the corolla petals are fused, at least at their base, a condition known as sympetaly. Prior to the phylogenic classifications of August Eichler and his successors this group corresponds to the Gamopetalae of Bentham and Hooker, gamopetaly being a synonym of sympetaly. This was one of the three divisions of dicotyledons in their system. In Eichler's ''Blüthendiagramme'', the class Dicotyleae was divided into two subclasses, the Sympetalae ( ...
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Bentham And Hooker
A taxonomic system, the Bentham & Hooker system for seed plants, was published in Bentham and Hooker's ''Genera plantarum ad exemplaria imprimis in herbariis kewensibus servata definita'' in three volumes between 1862 and 1883. George Bentham (1800–1884) and Joseph Dalton Hooker (1817–1911) were British botanists who were closely affiliated to the Royal Botanic Gardens, Kew, in England. Their system of botanical taxonomy was based on the principle of natural affinities and is considered as pre-Darwinian as it does not take evolution into account. The ''Genera plantarum'' classified an estimated 97,205 species into 202 families and 7,569 genera. Summary The system recognises the following main groups: * Class DICOTYLEDONES **DICOTYLEDONUM POLYPETALE vol I ***: Series 1. Thalamiflorae ***: Series 2. Disciflorae ***: Series 3. Calyciflorae **DICOTYLEDONES GAMOPETALÆ vol II ***: Series 1. Inferae ***: Series 2. Heteromerae ***: Series 3. Bicarpellatae **DICOTYLEDONES MONOCHLA ...
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Tubiflorae
''Tubiflorae'' is a botanical name, meaning “with tubular flowers”. It was used in the Engler system (and derived systems such as the Wettstein system) for: * an order in the ''Sympetalae''. This order included such families as ''Convolvulaceae'', ''Boraginaceae'', ''Scrophulariaceae'', ''Solanaceae'', etc. This order does not corresponds closely to any one group in the Cronquist system or in the APG II-system, but the component taxa belong in the ''Lamiales'', ''Scrophulariales'' and ''Solanales'' of the Cronquist system and the euasterids I of the APG II-system. * a subfamily in the family ''Compositae'' (as opposed to the subfamily ''Liguliflorae''). Note that these days the rules for botanical nomenclature, the ''ICBN'', allow such descriptive botanical names only at a rank Rank is the relative position, value, worth, complexity, power, importance, authority, level, etc. of a person or object within a ranking, such as: Level or position in a hierarchical organization * ...
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Ebenales
Ebenales is an order of flowering plants. This order was recognized in several systems, for example the Bentham & Hooker system and the Engler system, although the Wettstein system preferred the name Diospyrales'. In the 1981 version of the Cronquist system it was an order placed in subclass Dilleniidae with the following circumscription: *order Ebenales *: family Ebenaceae *: family Sapotaceae *: family Styracaceae *: family Symplocaceae In the APG II system all the plants involved are assigned to the hugely expanded order ''Ericales The Ericales are a large and diverse order of dicotyledons. Species in this order have considerable commercial importance including for Camellia sinensis, tea, persimmon, blueberry, kiwifruit, Brazil nuts, Argania, argan, and azalea. The order i ...''. References {{Reflist Historically recognized angiosperm orders ...
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Plumbaginales
Plumbaginales is an order of flowering plants. The order is recognized by several systems, such as the Wettstein system, last revised in 1935, the Engler system, in its update of 1964 and the Cronquist system, 1981. Its circumscription is typically: * order Plumbaginales *: family Plumbaginaceae Cronquist placed this order in his subclass Caryophyllidae Caryophyllidae is a botanical name at the rank of subclass. At the moment there is no complete consensus about what orders it includes, except that it presumably contains the order Caryophyllales. Note that this is only a naming difficulty: wh ... of three orders. References {{Reflist Historically recognized angiosperm orders ...
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Primulales
Primulales was an order of flowering plants. This order was recognized in several systems with little variation in circumscription (see Bentham & Hooker, Engler and Wettstein system). In the classification system of Dahlgren the Primulales were in the superorder Primuliflorae (also called Primulanae). In the 1981 version of the Cronquist system it was an order placed in subclass Dilleniidae with the following circumscription: * order Primulales *: family Myrsinaceae *: family Primulaceae *: family Theophrastaceae The APG III system includes all the plants involved in the (expanded) order Ericales The Ericales are a large and diverse order of dicotyledons. Species in this order have considerable commercial importance including for Camellia sinensis, tea, persimmon, blueberry, kiwifruit, Brazil nuts, Argania, argan, and azalea. The order i .... References {{Reflist Historically recognized angiosperm orders ...
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Ericales
The Ericales are a large and diverse order of dicotyledons. Species in this order have considerable commercial importance including for Camellia sinensis, tea, persimmon, blueberry, kiwifruit, Brazil nuts, Argania, argan, and azalea. The order includes trees, shrub, bushes, lianas, and herbaceous plants. Together with ordinary Photosynthesis, autophytic plants, the Ericales include chlorophyll-deficient mycoheterotrophic plants (e.g., ''Sarcodes sanguinea'') and carnivorous plants (e.g., genus ''Sarracenia''). Many species have five petals, often grown together. Fusion of the petals as a trait was traditionally used to place the order in the subclass Sympetalae. Mycorrhiza, Mycorrhizal associations are quite common among the order representatives, and three kinds of mycorrhiza are found exclusively among Ericales (namely, ericoid, arbutoid and monotropoid mycorrhiza). In addition, some families among the order are notable for their exceptional ability to accumulate aluminum. Er ...
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Diapensiales
Diapensiaceae is a small family of flowering plants, which includes 15 species in 6 genera. The genera include ''Berneuxia'' Decne. (1 species), '' Diapensia'' L. (5 species), ''Galax'' Sims (1 species), '' Pyxidanthera'' Michx. (2 species), ''Shortia'' Torr. & A.Gray (4 species), and '' Schizocodon'' Siebold & Zucc. (2 species). Members of this family have little economic importance; however, some members are cultivated by florists. Taxonomy Past literature classified Diapensiaceae as an old family, without defining the meaning of old. The name '' Diapensia'' was given to ''Diapensia lapponica'' by Linnaeus. Previously, it was the Greek name of sanicle. The family, originally including only ''Diapensia lapponica'', was named by Heinrich Friedrich Link in 1829. Concerning the interrelationships in Diapensiaceae, debate still remains regarding the recognition of ''Schizocodon'' and whether it should be separate from ''Shortia''. However, recent molecular studies support the spli ...
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Dicot
The dicotyledons, also known as dicots (or, more rarely, dicotyls), are one of the two groups into which all the flowering plants (angiosperms) were formerly divided. The name refers to one of the typical characteristics of the group: namely, that the seed has two embryonic leaves or cotyledons. There are around 200,000 species within this group. The other group of flowering plants were called monocotyledons (or monocots), typically each having one cotyledon. Historically, these two groups formed the two divisions of the flowering plants. Largely from the 1990s onwards, molecular phylogenetic research confirmed what had already been suspected: that dicotyledons are not a group made up of all the descendants of a common ancestor (i.e., they are not a monophyletic group). Rather, a number of lineages, such as the magnoliids and groups now collectively known as the basal angiosperms, diverged earlier than the monocots did; in other words, monocots evolved from within the dico ...
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Alfred Rendle
Alfred Barton Rendle FRS (19 January 1865 – 11 January 1938) was an English botanist. Rendle was born in Lewisham to John Samuel and Jane Wilson Rendle. He was educated in Lewisham where he first became interested in plants, St Olave's Grammar School, Southwark and St John's College, Cambridge. He graduated with a Bachelor of Arts degree from Cambridge and Bachelor of Science from University of London in 1887. He was awarded Master of Arts degree from Cambridge in 1891 and D.Sc. degree from London in 1898. He won scholarships from his school and universities that covered most of the cost of his education and his move from Cambridge to London was prompted by a vacancy for a salaried position as an assistant in the Botanical Department of the British Museum. This made him focus on systematic botany for his career, focusing on gymnosperms, monocotyledons, and the Apetalae. In 1894 he obtained a lectureship at The Birkbeck Institute, teaching during the evenings. He was Keepe ...
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Karl Anton Eugen Prantl
Karl Anton Eugen Prantl (10 September 1849 – 24 February 1893), also known as Carl Anton Eugen Prantl, was a German botanist. Prantl was born in Munich, Kingdom of Bavaria, and studied in Munich. In 1870 he graduated with the dissertation ''Das Inulin. Ein Beitrag zur Pflanzenphysiologie'' (The inulin, a contribution to the plant physiology). He worked with Carl Wilhelm von Nägeli and Julius Sachs. From 1887 on, he published ''Die Natürlichen Pflanzenfamilien'' (''The Natural Plant Families'') with fellow botanist Adolf Engler, who completed the work in 1915.Sambamurty, A.V.S.S''Taxonomy of Angiosperms.''I. K. International Pvt Ltd, 2005: Page 15-16. Accessed on August 10, 2011 In 1877 he became a professor at the forest educational institution at Aschaffenburg, transferring to Breslau University in 1889, where he also became director of the botanical garden there. Prantl worked particularly on Cryptogams. Works *''Lehrbuch der Botanik'' (Textbook of Botany), 7 Eds., Le ...
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Adolf Engler
Heinrich Gustav Adolf Engler (25 March 1844 – 10 October 1930) was a German botanist. He is notable for his work on alpha taxonomy, plant taxonomy and phytogeography, such as ''Die natürlichen Pflanzenfamilien'' (''The Natural Plant Families''), edited with Karl Anton Eugen Prantl, Karl A. E. von Prantl. Even now, his system of plant classification, the Engler system, is still used by many Herbarium, herbaria and is followed by writers of many manuals and Flora (plants), floras. It is still the only system that treats all 'plants' (in the wider sense, algae to flowering plants) in such depth. Engler published a prodigious number of taxonomic works. He used various artists to illustrate his books, notably Joseph Pohl (1864–1939), an illustrator who had served an apprenticeship as a wood-engraver. Pohl's skill drew Engler's attention, starting a collaboration of some 40 years. Pohl produced more than 33 000 drawings in 6 000 plates for ''Die naturlichen Pflanzenfamilien''. He ...
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