1 |
Dalbergia and Albizia: Plantlet Production via Tissue Culture, Karyological Evaluation, and Seed Anatomy with Scanning Electron MicroscopyGhosh, Nabarun 12 1900 (has links)
A publication by the National Academy of Sciences, USA (1979) outlined some of the research need for a great variety of economically important woody species whose remaining genetic resources need urgently to be collected and conserved. A viable regeneration system was established via tissue and cell suspension culture for Albizia falcataria and A. lebbeck, two important wood yielding leguminous tree species. The culture medium was standardized after several trials to obtain callus from the leaflet explants of these two tree species. The optimum use of casein hydrolysate (w/v) and coconut milk (v/v) in addition to 6-Benzylaminopurine and Indole-3-butyric acid could induce morphogenesis and somatic embryogenesis in the cultured tissue. This reports the first observation on somatic embryogenesis ofA. lebbeck using leaflets as the explants. Scanning Electron Microscopy and histological studies were done on the different stages plant development following standard techniques. Embryogenesis in suspension culture followed regeneration of plantlets in A. lebbeck. In A.falcaaria the regenerative process followed via organogenesis from the shoot buds developed on the leaf explants. After hardening the regenerated plants were transferred to the greenhouse. Some of the trees grew more than 25 feet tall within a few months outside the greenhouse. Karyotype of the three leguminous trees Albizia lebbeck, A. falcataria, and Dalbergia sissoo was analyzed. In D. sissoo, various chromosomal anomalies were observed in the cultured tissue. The abnormality indices and ploidy level varied with the age and the frequency of the subculture. In the aged culture the regenerative potential declined but was reinstated to some extent with the addition of two complex growth factors, coconut milk and casein hydrolysate. Seed anatomy of 26 species of 4 leguminous genera was studied with SEM. The main distinguishing anatomical features observed in the seed sections were uniseriate or multiseriate epidermis, epidermal projections, and number of rows and nature of columns of hypodermal layer, especially the nature of endosperm. Three species of Dalbergia, Acacia and Cassia and two species of Albizia are difficult to distinguish externally even with seed coat study under SEM, but this study with cross sections provided enough characteristic features to distinguish one from the other.
|
2 |
The systematic significance of the fruit and seed morphology and anatomy in selected Oxalis L. (Oxalidaceae) speciesObone, Charline 12 1900 (has links)
Thesis (MSc (Botany and Zoology))--University of Stellenbosch, 2005. / At present a proper systematic classification of the southern African members of Oxalis L.
(Oxalidaceae) does not exist. The most recent and comprehensive revision of the genus based
on macro-morphological characters is out-dated (published 60 years ago (Salter, 1944)). The
external morphology of the flowers of the southern African Oxalis species is reasonably wellstudied,
but little is known about the anatomy thereof. A pilot study of fruit and seed
morphology and anatomy of nine selected southern African Oxalis species (Obone, 2003)
already revealed some trends to demarcate two main groups. This confirmed the systematic
value of some of the characters already proposed by Salter (1944).
The aim of the present study was to assess the potential systematic value of fruit and seed
morphology and anatomy of 32 Oxalis species. The selection was done such that the included
species would represent the main sections proposed by Salter (1944), the pollen types
proposed by Dreyer (1996) and the different clades revealed by the phylogenetic tree
compiled by Oberlander et al. (2004).
Although the species sampling was very low (20% of the southern African taxa), 35
potentially informative characters were identified in fruit and seed morphology and anatomy.
These characters may be grouped into three character types, namely autapomorphic
characters, randomly distributed characters and systematically informative characters. The
first two character types were particularly useful in species-specific characterization. The
third group of linked characters could be used to demarcate two major groups of species,
those producing endospermous seeds and those producing exendospermous seeds. The three
types of characters may prove to be taxonomically informative if more species-inclusive
studies are performed.
The cluster analysis strongly supported the demarcation of endospermous and
exendospermous groups with 100% bootstrap support. Low bootstrap values were observed
for subgroups within each of the major groups. This is probably due to low taxon sampling.
Therefore clustering based on fruit and seed morphology should be considered with extreme
caution within the two groups. Despite these limitations of sample size, fruit and seed
morphological and anatomical characters have proven to be systematically informative at the
infra-generic level.
|
Page generated in 0.0449 seconds