Your search keyword '"Duabanga"' showing total 22 results

1. Anatomical Structures and Fiber Quality of Four Lesser-Used Wood Species Grown in Indonesia

Author

Jajang Suryana, Sari Delviana Marbun, Imam Wahyudi, and Deded Sarip Nawawi

Subjects

Duabanga, food.ingredient, Materials science, 020209 energy, Materials Science (miscellaneous), Anatomical structures, 02 engineering and technology, 010501 environmental sciences, engineering.material, 01 natural sciences, Industrial and Manufacturing Engineering, law.invention, food, law, Ultimate tensile strength, 0202 electrical engineering, electronic engineering, information engineering, Microtome, Composite material, Porosity, 0105 earth and related environmental sciences, Tear resistance, biology, Pulp (paper), biology.organism_classification, Artocarpus odoratissimus, engineering

Abstract

This study aimed to investigate the anatomical structure and fiber quality of four lesser-used wood species namely Benuang (O. sumatrana), Duabanga (D. moluccana), Pisang Merah (H. hellwigii), and Terap (A. odoratissimus). This study evaluated its suitability for raw material in pulp and paper manufacturing. The anatomical structure was observed macro- and microscopically. Macroscopic structures were observed directly to the wood samples, while microscopic characteristics were observed through microtome specimens. Fiber dimension was measured through macerated specimens and fiber quality was analyzed following the Rachman and Siagian’s method. Results showed that these four timber species have similarity in the indistinct growth ring, diffuse porous in a radial pattern, rounded solitary vessel outline, 1 to 3 cells of ray width, deposits within the rays, fiber length, and cell wall thickness. Differences were found on vessel diameter, vessel grouping, vessel frequency, tyloses existence, type of axial parenchyma, and ray height. Based on fiber length and its derived values, the wood fibers of all species studied are suitable for pulp and paper manufacturing. They belong to the II quality class. The produced pulp and paper would have good quality, especially in tensile, folding, and tear strength. To promote their utilization, silviculture aspect of these four species has to be well understood.

Published

2019

2. ANALISIS KOMPOSISI JENIS DAN POTENSI SIMPANAN KARBON PADA EKOSISTEM KARST DI RESORT TONDONG TALLASA TAMAN NASIONAL BANTIMURUNG BULUSARAUNG

Author

Ayu Kartini Parawansa, Much Syachrir, and St. Subaedah

Subjects

Duabanga, Biomass (ecology), geography, geography.geographical_feature_category, biology, Beilschmiedia, National park, General Engineering, Forestry, Dracontomelon dao, Vegetation, biology.organism_classification, Old-growth forest, Syzygium, Environmental science

Abstract

The purpose of this study is to identify the composition and potential of carbon deposits of karst ecosystem vegetation at the Tondong Tallasa Resort Management Division of Balocci Regional National Park I Bantimurung Bulusaraung National Park covering surface biomass (BAP). The research was conducted in April 2017 - June 2017 on the karst ecosystem in the flat area, the fault path, slope with a few stones, slopes with many rocks and hills in the Bantimurung Bulusaraung National Park. The dominant types consist of Syzygium acuminatissima and Dracontomelon dao in the flat primary forest, Kleinhovia hospital and Alstonia scholaris in the primary forest of broken paths, Pterocymbium tinctorium and Beilschmiedia gemmiflora in the primary forest slope of a few miles, Duabanga molucana and Garuga floribunda in primary forest slopes many stones, Duabanga molucana and Sterculia foetida in the primary forest of the dorsal hills. The results showed that the average mean carbon forest reserve was 56.26 ± 9.52 tons / ha, in the primary forest of fault paths was 44.64 ± 8.87 tons / ha, in the primary forests slope a slight rock of 52.12 ± 9.84 ton / ha, in primary forest slope of many stone of 15.39 ± 3.06 ton / ha, and in primary forest of hillside equal to 11.35 ± 2.26 ton / ha. Tree with diameter> 20 cm gives a significant contribution to total BAP ranging from 11.18 - 95.49 ton / ha or 43.63 - 84.86%. While trees with diameter of 5 - 20 cm only ranged from 6.73 - 15.55 tons / ha or 10.90 - 37.22%.

Published

2019

3. Bonding strength of benuang and duabanga glulams using their barks as phenol formaldehyde-filler

Author

Jajang Suryana, Sari Delviana Marbun, Deded Sarip Nawawi, and Imam Wahyudi

Subjects

0106 biological sciences, Duabanga, Filler (packaging), Materials science, Polymers and Plastics, Formaldehyde, Benuang, lcsh:Chemical technology, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, 010608 biotechnology, Phenol formaldehyde resin, Materials Chemistry, Phenol, lcsh:TP1-1185, Dentistry (miscellaneous), Composite material, GLUE, Filler, Water content, chemistry.chemical_classification, biology, 030206 dentistry, biology.organism_classification, Surfaces, Coatings and Films, lcsh:RK1-715, chemistry, lcsh:Dentistry, visual_art, visual_art.visual_art_medium, Glulam, Bark, Bonding strength, Tree bark

Abstract

In line with environmental issues and forest sustainability, tree bark of two species from tropical rain forests i.e. benuang (Octomeles sumatrana/BN) and duabanga (Duabanga moluccana/DB) was used as filler for phenol formaldehyde resin (PF-filler). The main objective of the research was to analyze effect of tree barks as PF-filler on bonding strength of BN and DB glulams produced. Four glue mixture compositions with ratio PF, technical filler, and tree bark filler, respectively are 10: 0: 0 (A); 10: 1.5: 0.5 (B); 10: 1.25: 0.75 (C); and 10: 1: 1 (D) were prepared. Characteristics of tree bark and glue mixtures were also investigated. Glulam parameters i.e. moisture content, density, delamination, bonding strength, wood failure, and formaldehyde emission were determined following JAS 1152. Results showed bonding strength was influenced by wood species and glue mixture composition. The B composition—the lowest ratio of tree bark filler—is the best for BN glulam, while for DB glulam D composition—the highest ratio of tree bark filler—was the best. Generally, tree bark filler improved the bonding strength, however, without bark as PF-filler, the failure occurred on the glue line. Furthermore, DB bark is more potential to be utilized as PF-filler.

Published

2020

4. The oldest fossil of Duabanga from Kutch, western India

Author

Rakesh C. Mehrotra and Anumeha Shukla

Subjects

0106 biological sciences, Systematics, Duabanga, 010506 paleontology, Flora, biology, Intertrappean Beds, Forestry, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Paleontology, Geography, Fossil wood, Deccan Traps, 0105 earth and related environmental sciences

Abstract

The systematics of a fossil wood assigned to Duabangoxylon (family Lythraceae) is described from the Deccan Intertrappean beds of Kutch, Gujarat, western India considered to be late Maastrichtian to early Danian in age. This fossil is the oldest record of Duabanga as its previous records are not older than Eocene. As the intertrappean flora of Kutch is poorly known, the present fossil not only enriches this flora but also helps in the reconstruction of palaeoclimate.

Published

2017

5. Fossil Records in the Lythraceae

Author

Shirley A. Graham

Subjects

Duabanga, biology, Ecology, Lythrum, Plant Science, Pemphis, biology.organism_classification, Sonneratia, Adenaria, Botany, Lagerstroemia, Sonneratiaceae, Lythraceae, Ecology, Evolution, Behavior and Systematics

Abstract

The Lythraceae (Myrtales) are a family of 28 genera and ca. 600 species constituting with the Combretaceae and sister family Onagraceae a major lineage of the Myrtales and including the former Sonneratiaceae, Duabangaceae, Punicaceae, and Trapaceae. The fossil record of the family is extensive and significant new discoveries have been added to the record in recent years. This review provides a vetted summary of fossils attributed to the Lythraceae, their geographic distributions, and their stratigraphic ranges. It anticipates the use of the information to generate robustly dated molecular phylogenies to accurately reconstruct the evolutionary and biogeographic history of the family. Fossils of 44 genera or form genera have been attributed to the Lythraceae; 24 are accepted here as lythracean. Fourteen of the 28 modern genera have fossil representatives: Adenaria, Crenea, Cuphea, Decodon, Duabanga, Lafoensia, Lagerstroemia, Lawsonia, Lythrum, Pemphis, Punica, Sonneratia, Trapa, and Woodfordia. Ten extinct genera are recognized. The most common kinds of fossil remains are seeds and pollen. The only fossil flower confidently accepted in the family is the extinct genus Sahnianthus from the Early Paleocene of India. The oldest confirmed evidence of the Lythraceae is pollen of Lythrum/Peplis from the Late Cretaceous (early Campanian, 82−81 Ma) of Wyoming. Seeds of Decodon from the late Campanian (73.5 Ma) of northern Mexico are next oldest. Sonneratia, Lagerstroemia, and extinct Sahnianthus first appear in the Paleocene of the Indian subcontinent; extinct Hemitrapa fruits first occur in the Paleocene of northwestern North America. Diversification of the Lythraceae occurred primarily during two major periods of global temperature change, during the Paleocene-Eocene Thermal Maximum and from the middle Miocene forward when temperatures decreased markedly and seasonality and dry-adapted vegetation types became more prominent. Fossils of the Lythraceae from South America and Africa are limited in number. The few dates available for South American genera are comparatively young and diversification of the largest genus, Cuphea (ca. 240 species), was mainly a Quaternary event. A phylogeny of the family is briefly explored and examples of specialized characters occurring in the oldest known genera are noted. The fossil record of the Lythraceae is presently too fragmentary to confidently reconstruct the early history of the family. The record indicates, however, that the family was well-diversified and widely dispersed globally over a wide latitudinal range by the end of the Paleocene.

Published

2013

6. Synthesis of Ionic Liquid and its Application in Duabanga Grandiflora Wood Powder as Green Solvent

Author

Jian Li and Cheng Chen

Subjects

Duabanga, Materials science, biology, Hydrogen bond, Inorganic chemistry, General Engineering, biology.organism_classification, Duabanga grandiflora, Solvent, chemistry.chemical_compound, Chemical engineering, chemistry, Ionic liquid, Cellulose, Solubility, Dissolution

Abstract

In this paper, a kind of imidazolium ionic liquid, 1-butyl-3-methyl imidazolium chloride ( [BMIM]Cl) was synthesized, and the chemical structures of the ionic liquids were characterizaed by FT-IR and NMR. The solubilities of the ionic liquid for duabanga grandiflora powder activated with different modified conditions were studied respectively. Dissolution rate of wood pretreated with about 25% NaOH solution was the best , due to the reduction of the hydrogen bond applied force. The chemical structure and crystal behavior of duabanga grandiflorar powder before and after dissolution were analyzed by FT-IR and XRD, respectively. The dissolution mechanism has also been discussed. The results showed that the ionic liquids had a good solubility for cellulose in activated duabanga grandiflorar powder. Micrographs of the original wood powder，regenerated wood powder and the residua were quite different from each others. The regenerated wood appeared some micro voids special construction.

Published

2010

7. Phylogenetic Analysis of the Lythraceae Based on Four Gene Regions and Morphology

Author

Su‐hua Shi, Kenneth J. Sytsma, Shirley A. Graham, and Jocelyn C. Hall

Subjects

Duabanga, biology, Phylogenetic tree, Phylogenetics, Botany, Molecular phylogenetics, Plant Science, Sonneratiaceae, biology.organism_classification, Lythraceae, Ecology, Evolution, Behavior and Systematics, Sonneratia, Maximum parsimony

Abstract

The family limits of the Lythraceae and relationships among the ca. 31 genera remain poorly known in spite of previous phylogenetic studies. We use morphology and DNA sequences from the rbcL gene, the trnL‐F region, and psaA‐ycf3 intergenic spacer of the chloroplast and the internal transcribed spacer region of the nucleus to explore relationships for up to 27 genera of the Lythraceae sensu stricto and the monogeneric families Duabangaceae, Punicaceae, Sonneratiaceae, and Trapaceae. Maximum parsimony, maximum likelihood, and Bayesian likelihood approaches are employed. Morphology alone provided little phylogenetic resolution. Results from individual gene regions were relatively well resolved and largely congruent, whereas basal relationships were poorly supported. A combined gene analysis of 20 genera produced one fully resolved maximum parsimony tree that corresponded closely to the maximum likelihood and Bayesian trees in which a monophyletic Lythraceae includes Duabanga, Punica, Sonneratia, and Trapa a...

Published

2005

8. Phylogenetics of Lythraceae sensu lato: A Preliminary Analysis Based on Chloroplast rbcL Gene, psaA‐ycf3 Spacer, and Nuclear rDNA Internal Transcribed Spacer (ITS) Sequences

Author

Suhua Shi and Yelin Huang

Subjects

Paraphyly, Duabanga, Monophyly, Phylogenetic tree, biology, Sensu, Botany, Plant Science, Internal transcribed spacer, Lythraceae, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Sonneratia

Abstract

Phylogenetic relationships of Lythraceae sensu lato (s.l.) were investigated by parsimony and likelihood analyses of 85 accessions representing 23 species, 16 genera that have been assigned to the family at various times. The three data sets, including the chloroplast rbcL gene, the psaA‐ycf3 spacer, and the nuclear internal transcribed spacer (ITS; including the 5.8S ribosomal gene), are highly congruent on the basis of the partition homogeneity test. No significantly long branches are detected by relative apparent synapomorphy analysis. Phylogenetic analyses based on the combined data strongly support the monophyly of the Lythraceae s.l., in which the satellite genera Dubanga, Punica, Sonneratia, and Trapa were included, with Onagraceae and Combretaceae as outgroups. Paraphyly of subfamily Lythroideae (= Lythraceae sensu stricto) is proposed with the other four monotypic subfamilies nested within. The analysis further supports the sister relationship between Sonneratia and Trapa instead of Duabanga and ...

Published

2002

9. Phylogenetic Analysis of the Sonneratiaceae and its Relationship to Lythraceae Based on ITS Sequences of nrDNA

Author

Fengxiao Tan, Xingjin He, Suhua Shi, Yelin Huang, and David E. Boufford

Subjects

Duabanga, Monophyly, biology, Genus, Botany, Lagerstroemia, Plant Science, Sonneratiaceae, biology.organism_classification, Clade, Lythraceae, Sonneratia

Abstract

nested within the Sonneratiaceae. The Sonneratiaceae occurred within the Lythraceae with high bootstrap value support (96%). The two traditional genera constituting Sonneratiaceae were in different well-supported clades. Duabanga (Sonneratiaceae) is sister to the clade of Lagerstroemia (Lythraceae) (82%). The mangrove genus Sonneratia (100%) formed the other monophyletic group. It was located terminally within the Lythraceae clade and comprised two clades: one consisting of S. apetala, S. alba, S. ovata, and S. hainanensis; the other including S. caseolaris and S. paracaseolaris. The results indicated that species previously placed in two different sections (Sect. Sonneratia and Sect. Pseudosonneratia) of Sonneratia occurred within the same clade, and the taxonomic classification was not supported by the molecular analysis of the ITS region sequences. Based on the phylogenetic analyses of the ITS regions, the Sonneratiaceae were shown to be nested within the family Lythraceae. Therefore, the sequence data presented here do not support the recognition of the Sonneratiaceae as a distinct family, but instead support the inclusion of Sonneratiaceae in the Lythraceae proposed by other authors.

Published

2000

10. Duabanga-like leaves from the Middle Eocene Princeton chert and comparative leaf histology of Lythraceae sensu lato

Author

Richard C. Keating, Stefan A. Little, and Ruth A. Stockey

Subjects

0106 biological sciences, Duabanga, Plant Science, Biology, biology.organism_classification, Duabanga grandiflora, 010603 evolutionary biology, 01 natural sciences, Palisade cell, Myrtales, Spongy tissue, Botany, Genetics, Sonneratiaceae, Lythraceae, Ecology, Evolution, Behavior and Systematics, Vascular tissue, 010606 plant biology & botany

Abstract

A permineralized lythraceous leaf type found in close association with fruits, stems, and roots of Decodon allenbyensis Cevallos-Ferriz et Stockey in the Middle Eocene Princeton chert of British Columbia, Canada, is described. Midribs have a prominent C-shaped midvein surrounded by sclerenchyma, with an adaxial epidermis of rectangular to rounded cells lacking enlarged mucilage cells. Leaves are dorsiventral, 180-270 micrometer thick at the lamina, with a double palisade layer. Abaxial epidermal cells have prominent papillae, and these epidermal cells can be infected by fungi, forming dark sterile stromata. Fossil leaves are similar to those of Myrtales and are compared to those of Lythraceae sensu lato. Although these leaves are thought to belong to the previously described Decodon allenbyensis found in the same chert layer, they lack the diagnostic features of extant Decodon leaves. Instead they share most anatomical similarities with Duabanga grandiflora Roxburgh ex DC Walpers (Lythraceae, subfamily Duabangoideae) including vascular tissues, palisade and spongy mesophyll, bundle fibers, and abaxial epidermal papillae. Duabanga grandiflora differs from the fossil in having mucilaginous cells and a consistently V-shaped abaxial midrib. Although anatomically similar to Duabanga, the fossil leaves are considered those of D. allenbyensis, based on association and the depositional environment prior to preservation. Recent phylogenetic analyses place Duabanga and Decodon in separate clades within Lythraceae, but relationships between these clades are not well supported, indicating that fossil leaves should provide useful anatomical characters for elucidating relationships within Lythraceae.

Published

2011

11. Cladistic analysis of the Lythraceae sensu lato based on morphological characters

Author

Shirley A. Graham, Peter C. Hoch, and Jorge V. Crisci

Subjects

Paraphyly, Duabanga, Monophyly, Sensu, biology, Botany, Taxonomy (biology), Lagerstroemia, Plant Science, Lythraceae, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Sonneratia

Abstract

GRAHAM, S. A., CRISCI, J. V. & HOCH, P. C, 1993. Cladistic analysis of the Lythraceae sensu lato based on morphological characters. The Lythraceae s. I. comprise 31 mostly highly distinctive genera distributed worldwide. Cladistic analyses of the family were undertaken using 26 characters from anatomy, floral morphology, pollen, and seed morphology. Of four outgroup hypotheses, the Onagraceae offered the best heuristic assessment, generating 3746 trees with a tree length of 83 and consistency index and (C.I.) of 0.41. A strict consensus tree from the 3746 trees produced a basal monophyletic group of five genera (Sonneratia, Duabanga, Punka, Lagerstroemia, Lawsonia) characterized by anthotelic (determinate) inflorescences and wet stigmas, and a second clade with blastotelic (indeterminate) inflorescences, dry stigmas, and reduced carpel number. Successive weighting with Onagraceae as outgroup generated five most parsimonious trees with a tree length of 164 and C.I. of 0.75. Internal branches are weakly supported by only seven non-homoplasious characters. Significant results of the analysis include: (1) recognition of the two major clades and a total of seven monophyletic groups within the family; (2) the paraphyly of subfamily Lythroideae (Lythraceae s. s.); and (3) indication that genera endemic to the New World have been derived from more than one ancient Old World evolutionary line. The current taxonomic classification of the family is not closely correlated with results of the cladistic analysis.

Published

1993

12. Chromosome numbers in Sonneratia and Duabanga (Lythraceae s.l.) and their systematic significance

Author

Shirley A. Graham, Kazuo Oginuma, Peter H. Raven, and Hiroshi Tobe

Subjects

Duabanga, biology, Sonneratia alba, Sonneratia ovata, Botany, Plant Science, Sonneratiaceae, Sonneratia caseolaris, biology.organism_classification, Lythraceae, Duabanga grandiflora, Ecology, Evolution, Behavior and Systematics, Sonneratia

Abstract

Published chromosome numbers in Sonneratia and Duabanga are inconsistent and indicate the basic numbers of the two genera are x = 9 or 11 and x = 12, respectively. Chromosome number counts made in this study for three species of Sonneratia indicate 2n = 24, and for two species of Duabanga, 2n = 48. The base is established as x = 12 in both genera. Although the genera have accumulated numerous autapomorphies that lead them to be regarded in separate subfamilies Sonneratioideae and Duabangoideae of the Lythraceae s.l., they share karyologically similar chromosomes and a unique basic number for the family, which is x = 8 in the remaining subfamilies Punicoideae and Lythroideae. Sonneratia and Duabanga are regarded as among the most primitive genera of the Lythraceae s.l. A number of other myrtalean higher taxa also have x = 12. This base number is most likely the ancestral number for the order.

Published

1993

13. Fossil wood of Duabanga from the Siwaliks of Sindhuli area, eastern Nepal

Author

Shyam Kc, M. Prasad, and U. M. S. Pradhan

Subjects

Duabanga, Geography, biology, Agroforestry, Fossil wood, biology.organism_classification

Abstract

A fossil wood belonging to the extant genus Duabanga Buch-Ham of Sonneratiaceae has been represented the collection from the Siwaliks of the Sindhuli district, eastern Nepal. As the modem equivalents of the fossil wood grow now in the Indo-Malayan region, its presence in the Siwaliks of Nepal is phytogeographically important and indicates more humid climate at the time of deposition.

Published

1997

14. CHROMOSOME COUNTS FOR SOME LYTHRACEAE SENS. STR. (MYRTALES), AND THE BASE NUMBER OF THE FAMILY

Author

Shirley A. Graham, Hiroshi Tobe, and Peter H. Raven

Subjects

Duabanga, biology, Lythrum, Myrtales, Punica, Botany, Punicaceae, Plant Science, Sonneratiaceae, biology.organism_classification, Lythraceae, Ecology, Evolution, Behavior and Systematics, Sonneratia

Abstract

Summary Chromosome numbers of 12 genera and 13 species of the Lythraceae sens. str. were determined. Nine of 12 genera and 12 species are reported for the first time. An analysis of all published chromosome data including these new counts shows that 13 of 15 genera for which we could determine the base number have x = 8, and two remaining genera (Peplis and Lythrum) x = 5, thus confirming an earlier suggestion that the original basic number of the Lythraceae is x = 8. On the basis of evidence from chromosome number alone, Punica (x = 8) (Punicaceae) fits in well with the pattern of chromosome numbers in the Lythraceae, but Sonneratia (x = 9 or 11) and Duabanga (x = 12) (Sonneratiaceae) are more distinct and perhaps derived from a group ancestral to modern Lythraceae.

Published

1986

15. Reinvestigations of the Wood Anatomy of Duabanga and Sonneratia With Particular Reference to Their Systematic Position

Author

Rajeshwar Dayal, R. Vijendra Rao, Babulal Sharma, and Laxmi Chauhan

Subjects

Duabanga, biology, Ecology, Botany, Forestry, Plant Science, Anatomy, Sonneratiaceae, biology.organism_classification, Lythraceae, Sonneratia

Abstract

The wood anatomy of Duabanga and Sonneratia is described in detail. Based on the present investigation as well as on the well recognised differences between these two genera, their systematic position is discussed. The study endorses the suggestion made by Dahlgren and Thorne (1984) to raise the status of these two genera to two subfamilies within the Lythraceae. The ecological differences between these two genera in relation to their xylem anatomy is also discussed.

Published

1987

16. REMARKS ON POLLINATION BY BATS IN THE GENERA FREYCINETIA, DUABANGA AND HAPLOPHRAGMA, AND ON CHIROPTEROPHILY IN GENERAL

Author

L. Van Der Pijl

Subjects

Duabanga, Freycinetia, biology, Pollination, Botany, Plant Science, biology.organism_classification

Published

1956

17. The Genus Duabanga

Author

Don M A Jayaweera

Subjects

Duabanga, biology, Genus, Botany, biology.organism_classification

Published

1967

18. Chemical constituents of Actinodaphne augustifolia, Croton sparsiflorus, Duabanga sonneratiodes, Glycosmis mauritiana, Hedyotis auricularia, Lyonia ovalifolia, Micromelum pubescens, Pyrus pashia and Rhododendron niveum

Author

S. Satish, N.C. Gupta, S.C. Sharma, Dewan S. Bhakuni, J.S. Tandon, and Y.N. Shukla

Subjects

Duabanga, Lyonia ovalifolia, biology, Plant Science, General Medicine, Horticulture, biology.organism_classification, Biochemistry, Croton, Hedyotis auricularia, Rhododendron niveum, Micromelum, Botany, Actinodaphne, Molecular Biology, Pyrus pashia

Published

1971

19. Constituents of Colocasia formicata, Sagittaria sagittifloria, Arnebia nobilis, Ipomoea paniculata rhododendron niveum, Paspalum scrobiculatum, Mundulea sericea and Duabanga sonneratiodes

Author

J.S. Tandon, Y.N. Shukla, and S.C. Sharma

Subjects

Duabanga, biology, Plant Science, General Medicine, Horticulture, biology.organism_classification, Ipomoea, Biochemistry, Rhododendron niveum, Ericaceae, Sagittaria, Botany, Arnebia, Molecular Biology, Paspalum, Colocasia

Published

1972

20. PALYNOLOGY AND SYSTEMATICS OF THE LYTHRACEAE. III. GENERA PHYSOCALYMMA THROUGH WOODFORDIA, ADDENDA, AND CONCLUSIONS

Author

Varsha Patel, Shirley A. Graham, Sangtae Lee, Joan W. Nowicke, and Alan Graham

Subjects

Duabanga, Systematics, biology, Mineralogy, Plant Science, biology.organism_classification, medicine.disease_cause, Sonneratia, Pollen, Punica, Myrtales, Botany, Genetics, medicine, Tetrataxis, Lythraceae, Ecology, Evolution, Behavior and Systematics

Abstract

Pollen of the 27 genera presently recognized as comprising the family Lythraceae have been surveyed with light microscopy and scanning and transmission electron microscopy. Results for five genera (Physocalymma, Pleurophora, Rotala, Tetrataxis, Woodfordia), in addition to Duabanga, Sonneratia, and Punica (assigned to the Lythraceae in some classifications), are presented here; the remaining genera were treated previously in the series. The family is revealed as the most diverse palynologically of the order Myrtales. The most simple pollen type and the one common to the largest number of genera is prolate-spheroidal to prolate; tricolporate, without pseudocolpi; psilate, scabrate or finely verrucate; and 16-28 μm or less in length. Specializations include oblate grains, development of pseudocolpi (three or six in number), diversification of exine sculpturing, broadening of the colpal and pseudocolpal areas, and reduction in the conspicuousness of the colpi. Pollen evidence provides qualified support for inclusion of Punica in the Lythraceae, the generalized nature of the pollen tempering the conclusion, and little support for inclusion of Sonneratia and Duabanga in the family. Completion of the survey provides a data base of pollen characters that will be integrated in future studies with other evidence into an overall phenetic and cladistic assessment of the family leading to production of a more natural classification.

Published

1988

21. Genkwanin 4′-galactoside and other constituents from Duabanga sonneratioides

Author

M.M. Dhar, J.S. Tandon, Y.N. Shukla, and S.C. Sharma

Subjects

Duabanga, chemistry.chemical_compound, chemistry, Traditional medicine, Genkwanin, Plant Science, General Medicine, Horticulture, Biology, biology.organism_classification, Molecular Biology, Biochemistry, Galactoside

Published

1974

22. Architecture and Growth Strategies of Tropical Trees in Relation to Successional Status

Author

P. S. Ramakrishnan and R. P. Shukla

Subjects

Duabanga, Rubiaceae, Ecology, biology, Plant Science, Dilleniaceae, biology.organism_classification, Moraceae, Botany, Growth rate, Shading, Sonneratiaceae, Ecology, Evolution, Behavior and Systematics, Woody plant

Abstract

(1) Crown architecture, growth and branch display were studied in two earlysuccessional (Anthocephalus cadamba and Duabanga sonneratioides) and two latesuccessional (Artocarpus chaplasha and Dillenia pentagyna) tree species of subtropical humid forest in north-eastern India. While the early-successional species conform morphologically to Massart's model (Duabanga sonneratioides) or Roux's model (Anthocephalus cadamba), the late-successional species conform to Scarrone's model (Dillenia pentagyna) or Rauh's model (A rtocarpus chaplasha) of tree architecture. (2) While rhythmic extension growth of the leader axis has been identified on the basis of differences in leaf morphology and branch organization in the architectural models, this does not always agree with detailed growth analysis as, for example, in Anthocephalus cadamba and Duabanga sonneratioides. (3) The extension and radial growth rates of early-successional species were very rapid compared with late-successional species. (4) Faster growth over a longer annual-growth period results in the sparse branch arrangement in early-successional species which facilitates greater leaf exposure. (5) The slower growth rate over a shorter growth period results in densely packed canopies with mutual shading of leaves of late-successional species. (6) In the early-successional species the production and the contribution of first order branches to the total branch system was much higher than in the late-successional species, which had plasticity in the orientation and overall display of their branches in relation to irradiance.

Published

1986