Stomatogenesis in the genus Hibiscus L. (Malvaceae)

In Hibiscus , stomata are anisocytic, anomocytic, paracytic and tetracytic, the first type being the most frequent and occurring in all plant parts in the ten species studied, whereas the others are scarce and have a limited organographic distribution. The stem, petiole, pedicel, staminal tube, ovary and style are stomatiferous; the leaf-blade, stipule, bracteole and sepals are amphistomatic and petals hypostomatic in the species investigated.
The stomatal types are often homoplastic, the anisocytic being either mesogenous trilabrate or mesoperigenous dolabrate, the anomocytic, mesoperigenous dolabrate or mesogenous trilabrate, and the tetracytic, mesoperigenous dolabrate or mesoperigenous trilabrate. But the typical paracytic stomata (with the subsidiaries completely enclosing the poles) are constantly mesogenous dolabrate and therefore probably indicate mesogenous dolabrate development. Although several patterns of stomatogenesis are encountered in any specific organ, only one of them is found to be dominant. A new subcategory of stomatal ontogeny, mesoperigenous trilabrate, is proposed in Hibiscus. No significant stomatal variation involving reduction in the divisive capacity of the meristemoid has been observed from the vegetative to floral parts; and stomata functioning as hydathodes have not been noticed in the latter, thus indicating that florogenic factors have no effect on the stomata.     

Wild Kenaf,Hibiscus cannabinus L. (Malvaceae), and related species in Kenya and Tanzania

Kenaf,Hibiscus cannabinus L., occurs as a wild and ruderal plant in Kenya and Tanzania. It is polymorphic, varying in height, growth habit, spininess, flower color, and size of floral parts, capsules, and seeds. It occupies several distinct environmental niches, from low-lying meadows close to swamps and streams to semi-arid grassland /thornbush plains. It is also found in various weedy situations, such as cultivated and fallow fields, and fence- and hedgerows. At least one ecotype appears to be specifically adapted as a weed of cultivated fields. Leaves and stem-tips of this plant are used as food. It is not cultivated for this purpose, although it is sometimes encouraged in fields of maize, cassava, and perhaps other crops. It is apparently not used for fiber by the natives, possibly because fiber of the introduced sisal (Agave sisalana Perr.) is readily available everywhere. Kenaf fiber is produced commercially on a plantation in Tanzania, from a cultivar developed in Guatemala. The occurrence of twelve other taxa of Hibiscus section Furcaria in East Africa is discussed briefly.     

Photosynthesis and kinetic characteristics of rubisco in Hibiscus cannabinus L

Photosynthetic characteristics in kenaf (Hibiscus cannabinus L.), a C3 plant, were compared with Abelmoschus esculentus (L.) Moench, another member of Malvaceae. Kenaf leaves exhibited significantly higher rate of photosynthesis (40 mg CO2 dm(-2) hr(-1)) which was 24.6 mg dm(-2) hr(-1) in A. esculentus. Rate of photo and dark respiration was similar in both the species. Kenaf leaf photosynthesis had a higher optimum temperature (32 degrees C) than that of A. esculentus (26 degrees C). Photosynthesis in kenaf leaves required higher saturation irradiance (1,600 micromole m(-2) sec(-1)). There was a significant correlation between photosynthetic rate and biomass yield in these species. The primary product of photosynthesis after 5 seconds of 14C-assimilation was 3-PGA in both the species. The kinetic properties of RuBP carboxylase/oxygenase were determined in the leaf extracts. Higher carboxylase activities were recorded with kenaf leaf extracts (245 pmole mg chl(-1) hr(-1)). Km (CO2) for kenaf leaf carboxylase was significantly lower (7.8 microM) than A. esculentus (13.5 microM) and corresponding difference in Vmax values of carboxylase was recorded between the two species. The kinetic characteristics of oxygenase were similar in both the extracts. These results indicated the variation in carboxylase activity and its kinetic characteristics reflected a significant difference in CO2 assimilation in C3 plants.     

Callus induction and adventitious organogenesis of kenaf (Hibiscus cannabinus L.)

Callus production along with caulogenesis and rhizogenesis were obtained from internodal stem explants of kenaf (Hibiscus cannabinus L.) after 4 weeks in culture. Murashige and Skoog medium was used for two 4×4 matrix experiments designed to determine suitable growth regulator combinations (NAA/BAP or 2,4-D/kinetin) and concentrations (0.1, 0.3, 1.0, 3.0 mg/L). The most abundant callus production was observed at 0.3/3.0 and 1.0/3.0 mg/L 2,4-D/kinetin and at 1.0/1.0 and 3.0/1.0 mg/L NAA/BAP. Rhizogenesis was most extensive with NAA/BAP at concentrations of 0.1/3.0 and 0.3/ 3.0 mg/L. Adventitious shoots developed on both auxin/cytokinin matrixes when each concentration was at 0.3 mg/L or less. These protocols will facilitate the development of in vitro approaches to kenaf improvement and the study of certain host-pathogen interactions.Abbreviations MS Murashige and Skoog (1962) medium - 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - NAA 1-naphthyleneacetic acid - SDS sodium dodecyl sulfate     

Delayed autonomous self-pollination in Hibiscus laevis (Malvaceae)

Delayed autonomous self-pollination allows outcrossing to occur while also ensuring that seeds are produced in the absence of pollen vectors. We investigated variation in the efficacy of this pollination mechanism in populations of Hibiscus laevis. Recurvature of stylar branches occurred after 1 d of anthesis, and in plants from Ohio, Illinois, Arkansas, and Oklahoma this behavior resulted in autonomous selfing (surprisingly, stylar movement was facultative in that it did not take place when the stigmas were already pollinated). In contrast to these more northern populations, the distance between anthers and stigmas was too great to allow autonomous selfing in plants from Texas, Mississippi, and Louisiana. Greenhouse studies of plants from Ohio demonstrated that autonomous selfing resulted in an average of 29.5 seeds per flower, as compared to 59.9 seeds per flower from hand-pollination of stigmas with self pollen. In an assessment of the possible significance of this selfing mode, emasculated flowers did not set significantly fewer seeds in a natural stand in Ohio, suggesting that few seeds resulted from autonomous selfing at that site. Modest inbreeding depression was detected at this population. Our results suggest that delayed autonomous selfing is more common in northern populations, where it may facilitate population establishment and persistence at times when pollinators are scarce.     

X-ray irradiation of excised embryos of mesta (Hibiscus cannabinus L. and H. sabdariffa L.)

Summary Excised embryos of Hibiscus spp. were treated with 1 kR to 6 kR of X-ray. Results indicate that germination was unaffected at this level of employed doses in both species, which in turn implies that the factors responsible for inhibition of germination are not present in the embryo. LD₅₀ values differed between varieties and species. Early varieties of both species were more sensitive to radiation than late varieties. Strikingly similar effects were observed for the varieties with smaller embryos over those with larger ones. Allopolyploid H. sabdariffa (2n=72) was more susceptible than diploid H. cannabinus (2n=36).Differences in mutation frequency exist between species with different levels of ploidy and between varieties within the same species. Most of the HC mesta varieties yielded higher mutation frequencies than those of HS mesta. Optimal dose for triggering mutations in all varieties (except the chlorophyll mutation variety of HC mesta) of the two species lies within a narrow range of 1 kR to 2 kR. Cent per cent seedling abnormalities is concomitant to LD₅₀; nevertheless, optimum dose for mutation frequency is independent of LD₅₀. Hence, the response should be viewed in terms of respective genotype. The advantages of the embryo irradiation technique are mentioned.     

Phenolic constituents from the core of kenaf (Hibiscus cannabinus)

Four lignans, boehmenan H [2-(4-hydroxy-3-methoxyphenyl)-5-[3-(4-hydroxy-3-methoxycinnamoyloxy)propyl]-3-hydroxymethyl-7-methoxybenzodihydrofuran], boehmenan K [2-(4-hydroxy-3-methoxyphenyl)-5-[3-(4-hydroxycinnamoyloxy)-1-propenyl]-3-(4-hydroxy-3-methoxycinnamoyloxymethyl)-7-methoxybenzodihydrofuran], threo-carolignan H [threo-1-(4-hydroxy-3-methoxyphenyl)-2-[4-[3-(4-hydroxy-3-methoxycinnamoyloxy)propyl]-2-methoxyphenoxy]-1,3-propanodiol], and threo-carolignan K [threo-1-(4-hydroxy-3-methoxyphenyl)-3-(4-hydroxy-3-methoxycinnamoyloxy)-2-[4-[3-(4-hydroxycinnamoyloxy)-1-propenyl]-2-methoxyphenoxy]-1-propanol] as well as several other lignans, aldehydes and a tyramine derivative were isolated from the acetone extract of core of kenaf (Hibiscus cannabinus). All the structures were established by spectroscopic methods. The hitherto unreported 13C NMR spectra of some compounds are also presented and discussed. 2D NMR techniques have allowed the revision of certain previously reported 13C NMR assignments of some scarce naturally occurring compounds.     

Clarification of the status of Hibiscus (sect. Furcaria) uncinellus (Malvaceae)

Hibiscus uncinellus andH. bifurcatus have been confused in the literature and in the herbarium. The morphological, ecological, and geographic differences between them are presented, and a lectotype is chosen for the former species.Hibiscus uncinellus is virtually confined to Mexico (plus one Guatemalan station), andH. bifurcatus occurs in the West Indies, South America, and Central America, as far north as Honduras.     

Characterization and Cytopathology of Hibiscus Latent Ringspot Virus Isolated from Kenaf (Hibiscus cannabinus L.) in Italy

Hibiscus latent ringspot virus (HLRV) was isolated from kenaf plants (Hibiscus cannabinus L.) in Italy. and identified as III. RV by its host range, purification, electron microscopy and serology. Ultrastructural studies showed that infected plants contained membranous cytoplasmic inclusion bodies. characteristic of nepoviruses, and sometimes also crystalline aggregates.     

Surface topography of kenaf (Hibiscus cannabinus) sized papers

Bleached kenaf handsheets sized with different polymers such as chitosan, polyvinyl alcohol and cationic starch, were used for the determination of surface topography. A non-contact profilometer, the AltiSur 500, was used to characterize the topography of structural details in the paper surface. Numerical and visual characterization of surface roughness indicated that the surface of chitosan-sized paper was less rough than other surfaces, and all the sized papers were commonly smoother than the unsized paper. One property of bio-polymer of chitosan is its ability to form films that improve the surface properties of paper when it is applied to the surface of the sheet.     

Hibiscus section Furcaria (Malvaceae) in islands of the Pacific Basin

Hibiscus sectionFurcaria includes more than 60 known taxa. The section has a mainly tropical distribution, but a few species penetrate subtropical and temperate regions. Seven taxa are recognized that occur in the islands of the Pacific Basin, five of which are endemic.Hibiscus fijiensis is described and a new combination,Hibiscus brackenridgei subsp.molokaianus, is proposed.     

A new species of Hibiscus (Malvaceae) from Somalia

Hibiscus ceratophorus , sp. nov. in H . sect. Furcaria , from coastal and subcoastal dunes in southern Somalia, is described and illustrated.     

Floral traits and mating system of Hibiscus trionum (Malvaceae)

Variations in floral traits and floral structures influence plant mating systems. Hibiscus trionum produces large, showy flowers typical of an outcrossing species, yet flowers are autonomously self-pollinated. In this study, we measured floral morphology, breeding system and outcrossing rate estimated by ISSR markers. Results indicate that two types of flowers were observed in H. trionum, and the type I with bigger petals appears to be much more visible to pollinators, demonstrated by than type II flowers with smaller petals. The flowers with hand pollination were closed 1 h earlier than intact flowers, whether they were type I or II. The relationship between the amount of pollen deposited on the stigma and the number of seeds per capsule was highly significant, and 80 or more pollens per flower can make the mean number of seeds (mean = 37) in H. trionum. Delayed selfing in H. trionum did not provide a large contribution to seed production, since reproductive assurance were only 0.025. However, successful reproduction of 72.5% flowers in the absence of pollinators suggested that selfing provides reproductive assurance during seasons, in which pollinators were limiting. The multilocus outcrossing rates in different populations varied from 0.982 to 1.200, with a mean of 1.116. Our data provide an empirical demonstration of a predominantly outcrossing species with potential delayed selfing when pollinators are absent or scarce.     

Isolation and characterization of microsatellites in the sea hibiscus (Hibiscus tiliaceus L., Malvaceae) and related hibiscus species

Microsatellite loci were isolated from the sea hibiscus (Hibiscus tiliaceus L., Malvaceae), a pantropical plant with sea‐drifted seeds. This study describes six dinucleotide microsatellite loci for which the primers produced clear and polymorphic amplification patterns with different levels of variability (between three and nine alleles). Six markers were amplified in four other species of hibiscus, greatly increasing the utility of these markers.     

Multiple Shoot Regeneration from Young Shoots of Kenaf (Hibiscus cannabinus)

A method was developed to initiate multiple shoots from the young shoot of kenaf. Young shoots along with the cotyledons were excised from ten-day old aseptically germinated seeds and pre-cultured for two weeks in Murashige and Skoog (MS) medium supplemented with benzyl adenine (BA) or a combination of BA and kinetin. After two weeks in culture, elongated shoots were excised above the cotyledonary nodes and cultured on fresh medium of the same composition. Multiple shoots were initiated within eight weeks. The number of shoots varied among cultivars. The highest number of shoots (11/explant) occured in cultivar Tainung 2 (T2) cultured in MS medium supplemented with 8.8 μM BA. Concentrations of BA higher than 8.8 μM had a negative effect on the number of shoots. Furthermore, callus growth was initiated from which morphologically abnormal shoots were induced. Kinetin had a significant effect only on cultivar Everglades 41 (E41). Shoot elongation and rooting were obtained simultaneously in half strength MS basal medium with no plant growth regulators. About 98% of the rooted plants were grown to maturity under greenhouse conditions. This method was successful with all four genotypes tested. However, significant genotypic variations were observed among the genotypes.     

Long-distance translocation of polyamines in phloem and xylem of Ricinus communis L. plants

Polyamine content and enzyme activities in the biosynthetic and degradative pathways of polyamine metabolism were investigated in sieve-tube sap, xylem sap and tissues of seedlings and adult plants of Ricinus communis L. Polyamines were present in tissues and translocation fluids of both seedlings and adult plants in relatively high amounts. Only free polyamines were translocated through the plant, as indicated by the finding that only the free form was detected in the phloem and the xylem sap. Removal of the endosperm increased the polyamine content in the sieve-tube exudate of seedlings. The level and pattern of polyamines in tissue of adult leaves changed during leaf age, but not, however, in the sieve-tube sap. Xylem sap was relatively poor in polyamines. Polyamine loading in the phloem was demonstrated by incubating cotyledons with [¹⁴O]putrescine and several unlabelled polyamines. Feeding cotyledons with cadaverine and spermidine led to a decrease in the level of putrescine in sieve-tube sap, indicating a competitive effect. Comparison of polyamine content in the tissue and export rate showed that the export would deplete the leaves of polyamines within 1–3 d, if they were not replenished by biosynthesis. Polyamine biosynthesis in Ricinus proceeds mostly via arginine decarboxylase, which in vitro is 100-fold more active than ornithine decarboxylase. The highest arginine decarboxylase, ornithine decarboxylase and diamine oxidase activities were detected in cotyledons, while in sieve-tube sap only a slight arginine decarboxylase activity was found. Received: 18 March 1997 / Accepted: 20 August 1997     

Microgeographic genetic structure and gene flow in Hibiscus moscheutos (Malvaceae) populations

Microgeographic genetic variation in populations of a wetland macrophyte, Hibiscus moscheutos L. (Malvaceae), was investigated using allozyme polymorphism. The species is a self-compatible insect-pollinated perennial, and seeds are water dispersed (hydrochory). Six hundred plants were analyzed from eight brackish and two freshwater populations within the Rhode River watershed/estuarine system. The genetic structure of the populations was assessed by fixation indices and spatial autocorrelation analyses. The degree of genetic differentiation among sites and gene flow between all paired combinations of sites (M ) was analyzed using three hypothetical gene flow models. Fixation indices indicated almost complete panmixia within populations, and spatial autocorrelations showed that genotypes were randomly distributed within sites, most likely the result of water dispersal of seeds. Allele frequencies were significantly different among sites, and estimated FST indicated moderate genetic differentiation (_ = 0.062). Genetic differences between populations were mostly explained by a gene flow model that accounted for the location of populations relative to the tidal stream. The importance of hydrochory in affecting spatial genetic structure was thus suggested both within and among H. moscheutos populations.     

Relationships among New World species of Hibiscus section furcaria (Malvaceae)

Seventeen species ofHibiscus sectionFurcaria are native to the New World, of which 12 (one diploid, nine tetraploids, one octoploid and one decaploid) have been studied cytotaxonomically. New chromosome counts (2n=4x=72) are reported forH. cucurbitaceus, H. flagelliformis, H. kitaibelifolius, andH. laxiflorus. Seventeen types of tetraploid interspecific hybrids (seven new to this study) all showed complete meiotic chromosome homology (genome formulaGGPP) and normal floral development. That all hybrids were nevertheless almost completely sterile suggests a cytoplasmic component to the genetic differentiation of the species. The diversification of the tetraploid species in habits, habitats and geographical ranges is considerable, despite their similar genome constitutions. A key to 17 native and four introduced African species is presented.Hibiscus cerradoensis sp. nov. is described.     

Neotropical Segregates from Sida L. (Malvaceae)

Three genera are segregated out ofSida as natural units,viz. Sidastrum E. G. Baker, enlarged from one species to seven,Krapovickasia nom. nov. including four species, andRhynchosida gen. nov. including two species, one described as new from Bolivia,R. kearneyi. Mericarp and calyx morphology are emphasized in delimiting these genera and in defining the residual genusSida, which now assumes a more natural character.