Shoot proliferation and rooting treatments influence secondary metabolite production and antioxidant activity in tissue culture-derived Aloe arborescens grown ex vitro

Aloe species are valuable plants with great ornamental and medicinal value. Although micropropagation protocols have been developed to meet the increasing global demand, the effects of the series of events during micropropagation on the phytochemical and pharmacological efficacy of ex-vitro plants remains poorly understood. Thus, we evaluated the effects of cytokinin and rooting compounds used during the shoot regeneration and rooting phases respectively, on secondary metabolite production in greenhouse-grown in vitro-derived Aloe arborescens. Shoots derived from meta-methoxytopolin (MemT)-containing medium and rooted with either smoke–water (SW) or indole butyric acid (IBA) had higher levels of total phenolics and flavonoids than those rooted on plant growth regulator (PGR)-free medium. Iridoid content was significantly reduced in cytokinin-regenerated shoots rooted with IBA in comparison to PGR-free regenerated shoots rooted with IBA. Conversely, the use of SW for rooting in cytokinin-regenerated shoots significantly increased iridoid content when compared to PGR-free regenerated shoots rooted with SW. These findings suggest an antagonistic interaction between cytokinins used in this study and IBA as well as a possible synergistic or additive interaction of the cytokinins with SW on iridoid production. Significantly higher antioxidant activity was recorded in shoots regenerated from meta-topolin riboside (mTR) and MemT and rooted with IBA or SW when compared to those rooted without PGR. Overall, the type of cytokinin and rooting treatments individually and interactively had a significant carry-over effect on secondary metabolite production and antioxidant potential of tissue culture-derived A. arborescens. Therefore, when micropropagating plants for medicinal uses, it is prudent to select the right cytokinin and rooting compound for optimal production of secondary metabolites and ultimately the pharmacological efficacy of acclimatized plants.     

Improved micropropagation of Gypsophila paniculata with bioreactor and factors affecting ex vitro rooting in microponic system

Studies on the mass production of high-quality plantlets in Gypsophila paniculata L. using a bioreactor and microponic system (a hydroponic system in which micropropagation shoots are planted) indicated that both aeration treatments, in which bioreactors were aerated from the top of explants by sparger (AS) and by tub (AT), were more effective than unaerated treatment for shoot proliferation and growth, and the maximum shoots (15.7 shoots per explant) with low hyperhydricity rate (2.9%) were found in the AS group. The ex vitro culture was more efficient for rooting when compared to the in vitro culture; the better shoot and root growth was obtained in the ex vitro culture, with rooting rate reaching 100% after 20 d of culture, but only 65% of in vitro shoots rooted; all stomata of ex vitro shoots closed, and their length was more than their width, but the stomata in in vitro shoots were all opened, the length close to the width. Furthermore, the stomata numbers were less in ex vitro (67.8) than in vitro (267.2). The survival rate of ex vitro plants reached 83.3% when plantlets derived in vitro and ex vitro were transferred to pots, while only 23.3% of in vitro plantlets survived. During ex vitro rooting with the microponic system, foam as the supporter material, 90 μmol?m^?2?s^?1 of light, and 80 shoots of planting density were favorable for shoot and root growth. The combination of bioreactor and microponic systems is an efficient way to produce high-quality plantlets of G. paniculata. Their application can reduce costs during large-scale industrial production.     

Adventitious rooting of Jatropha curcas L. is stimulated by phloroglucinol and by red LED light

An efficient root induction system has been established for in vitro-regenerated Jatropha curcas L. shoots. Callus formation on shoots transferred to auxin containing medium was found to be a prominent and recurrent problem for rooting of in vitro-cultivated J. curcas. In particular, the type of auxins and cytokinins applied in the culture media were shown to strongly influence the severity of callus formation. Shoots cultivated on meta-methoxytopolin riboside (MemTR) were free of callus and produced elongated stems and well-developed leaves in comparison to the cytokinins benzyl adenine, zeatin, and thidiazuron. Subsequent root induction experiments were performed with shoots precultured on MemTR-containing medium. Shoots were excised and transferred to Murashige and Skoog (MS) medium supplemented with different concentrations of indole-3-butyric acid (IBA), indole-3-acetic acid (IAA), and α-naphtaleneacetic acid (NAA). The induction of excessive callus formation was avoided only on IBA-containing medium. The optimum rooting medium with good root induction (35%) and 1.2 roots per shoot contained half-strength MS salts supplemented with 2.5 μM IBA. The same medium supplemented with 0.25% (w/v) activated charcoal produced 46% rooted shoots. Further improvement of rooting was obtained by transferring in vitro grown shoots to woody plant medium containing phloroglucinol (PG). In the presence of 2.5 μM IBA and 238 μM PG, 83% of the shoots rooted with on average 3.1 roots per shoot. We also analyzed the impact of light quality on the rooting capacity of Jatropha in vitro grown shoots. In general, light-emitting diodes (LEDs) light sources were less efficient for root induction. Red LED light provided the most favorable growth conditions, inducing a rooting response in 65% of the shoots, which produced on average 5.5 roots per shoot. These results indicate that adventitious rooting in J. curcas is under control of photoreceptors and that optimal rooting requires fine-tuning of the salt concentration, auxin, and cytokinin balance and application of synergistic compounds.     

Acmella oppositifolia micropropagation by single-node culture

Acmella oppositifolia plantlet formation was achieved by subculturing single-node explants on Murashige and Skoog medium without growth regulators. The explants from 1-month-old in vitro plantlets produced shoots over a 7-day culture period. From these in vitro cultured nodes readily rooted shoots elongated on auxin-free MS medium. Plants produced were easily acclimatized and subsequently flowered in a greenhouse. This species is of medicinal value in tropical America from Mexico to Colombia.     

Promoting effects of organic medium supplements on the micropropagation of promising ornamental Daphne species (Thymelaeaceae)

Three Daphne species (Thymelaeaceae) were propagated in vitro using media enriched with natural ingredients including coconut water, pineapple pulp, arabinogalactan, chitosan, and conditioned medium containing exudates of the green alga Desmodesmus subspicatus. High vigor of proliferative shoots and enhanced rooting efficiency were obtained. The propagation rate for shoot cultures of Daphne caucasica and Daphne tangutica increased significantly when cultured in the presence of 10 ml?L^?1 coconut water or 10 ml?L^?1 pineapple pulp. Addition of 10 ml?L^?1 pineapple pulp, 10 ml?L^?1 coconut water, or 20% conditioned medium to the culture medium stimulated organogenesis in D. caucasica. The percentage of rooted shoots in this difficult-to-root species reached 80% in enriched medium. Daphne jasminea plants rooted efficiently on media without growth regulators but supplemented with 10 ml?L^?1 pineapple pulp or 10 ml?L^?1 coconut water. Plants of D. caucasica and D. jasminea were successfully acclimatized to greenhouse conditions. Biochemical evaluation of pineapple pulp using thin-layer chromatography revealed the absence of natural auxins. However, the low-molecular-weight fraction (<500 Da) obtained via dialysis significantly stimulated rhizogenesis in each species tested.     

Adventitious rooting of conifers: influence of biological factors

Vegetative propagation of superior conifer trees can be achieved, e.g., through rooted cuttings or rooted microshoots, the latter predominantly through in vitro tissue culture. Both techniques are used to achieve rapid multiplication of trees with favorable genetic combinations and to capture a large proportion of the genetic diversity in a single generation cycle. However, adventitious rooting of shoots (cuttings) is often not efficient due to various problems, such as scarcity of roots and cessation of their growth, both of which limit the application of vegetative propagation in some conifer species. Many factors are involved in the adventitious rooting of shoots, including physical and chemical ones, such as plant growth regulators, carbohydrates, light quality, temperature and rooting substrates, or media [reviewed by Ragonezi et al. (Trees 24(6):975–992, 2010)]. The focus of this review is on biological factors, such as inoculations with Agrobacterium rhizogenes, plant-growth promoting rhizobacteria and other endophytes, and mycorrhizal fungi, which were found to stimulate adventitious rooting. These microorganisms could contribute not only to adventitious root development but also to help in protecting conifer plants against pathogenic microorganisms, facilitate acclimation and transplanting, and contribute to more sustainable, chemical-free forests.     

Endogenous phenolic contents,peroxidase and polyphenoloxidase activities in date palm (<Emphasis Type="Italic">Phoenix dactylifera</Emphasis> L.) offshoots related to rooting ability

Offshoots from three cultivars of date palm showed different rooting ability, in response to the same root inducing treatment (25 mM indole butyric acid), under misting system. Offshoots from Mejhoul rooted easily and produced numerous roots, while those from Khalt rooted poorly and produced fewer roots. No relationship was found between soluble and ionically bound peroxidase and polyphenoloxidase activities and phenolics level, determined spectrophotometrically in the offshoot leaves prior to the auxin application, and the rooting ability of these cultivars. However, changes of these parameters during the first month of culture were correlated with the rooting ability. In the well rooting cultivar, the soluble peroxidase activity showed a minimum on the 4^th day and a maximum on the 10^th day, while phenolics level and polyphenoloxidase activity showed an inverse trend. In the poorly rooting cultivar, these parameters changed weakly.     

Evaluation of aeroponics for clonal propagation of Caralluma edulis,Leptadenia reticulata and Tylophora indica – three threatened medicinal Asclepiads

The present study explores the potential of aeroponic system for clonal propagation of Caralluma edulis (Paimpa) a rare, threatened and endemic edible species, Leptadenia reticulata (Jeewanti), a threatened liana used as promoter of health and Tylophora indica (Burm.f.) Merill, a valuable medicinal climber. Experiments were conducted to asses the effect of exogenous auxin (naphthalene acetic acid, indole-3-butyric acid, indole-3-acetic acid) and auxin concentrations (0.0, 0.5, 1, 2, 3, 4 or 5gl⁻¹) on various root morphological traits of cuttings in the aeroponic chamber. Amongst all the auxins tested, significant effects on the length, number and percentage of rooting was observed in IBA treated nodal cuttings. Cent per cent of the stem cuttings of C. edulis rooted if pre-treated with 2.0 gl⁻¹ of IBA for 5 min while 97.7 % of the stem cuttings of L. reticulata and 93.33 % of stem cuttings of Tylophora indica rooted with pre-treatment of 3.0 gl⁻¹ of IBA for 5 min. Presence of at least two leaves on the nodal cuttings of L. reticulata and T. indica was found to be a prerequisite for root induction. In all the species, the number of adventitious roots per cutting and the percentage of cuttings rooted aeroponically were significantly higher than the soil grown stem cuttings. Shoot growth measured in terms of shoot length was significantly higher in cuttings rooted aeroponically as compared to the cuttings rooted under soil conditions. All the plants sprouted and rooted aeroponically survived on transfer to soil. This is the first report of clonal propagation in an aeroponic system for these plants. This study suggests aeroponics as an economic method for rapid root induction and clonal propagation of these three endangered and medicinally important plants which require focused efforts on conservation and sustainable utilization.     

Effects of N6-benzyladenine on shoots of five willow clones (Salix spp.) cultured in vitro

Growth and differentiation in shoot cultures of five willow clones on media of different BA concentrations were compared. The tendency of axillary shoots to develop on shoot cultures depended on the genotype, the type of shoot and the number of previous subcultures. The optimum concentration for shoot multiplication was either 5×10^-7 M or 10^-6 M. On BA concentrations of 10^-5 M or higher, browning and death of shoots occurred. Depending on the genotype, shoot elongation was best on media containing 0–5×10^-7 M BA. Rooting ability was also genotype dependent. Prolonged culture in vitro improved the rooting ability of the two most reluctant clones. BA concentrations of 5×10^-7 M or higher inhibited rooting almost completely, but this was not a permanent effect. All clones could be rooted on medium containing 10^-6 M NAA. Shoots were transferred to greenhouse conditions and rooted with varying degrees of success depending on shoot size and genotype.     

Aeroponics for adventitious rhizogenesis in evergreen haloxeric tree <Emphasis Type="Italic">Tamarix aphylla</Emphasis> (L.) Karst.: influence of exogenous auxins and cutting type

Tamarix aphylla (L.) Karst., a drought resistant halophyte tree, is an agroforestry species which can be used for reclamation of waterlogged saline and marginal lands. Due to very low seed viability and unsuitable conditions for seed germination, the tree is becoming rare in Indian Thar desert. Present study concerns the evaluation of aeroponics technique for vegetative propagation of T. aphylla. Effect of various exogenous auxins (indole-3-acetic acid, indole-3-butyric acid, naphthalene acetic acid) at different concentrations (0.0, 1.0, 2.0, 3.0, 5.0, 10.0 mg l^?1) was examined for induction of adventitious rooting and other morphological features. Among all three auxins tested individually, maximum rooting response (79%) was observed with IBA 2.0 mg l^?1. However, stem cuttings treated with a combination of auxins (2.0 mg l^?1 IBA and 1.0 mg l^?1 IAA) for 15 min resulted in 87% of rooting response. Among three types of stem cuttings (apical shoot, newly sprouted cuttings, mature stem cuttings), maximum rooting (~ 90%) was observed on mature stem cuttings. Number of roots and root length were significantly higher in aeroponically rooted stem cuttings as compared to stem cuttings rooted in soil conditions. Successfully rooted and sprouted plants were transferred to polybags with 95% survival rate. This is the first report on aeroponic culture of Tamarix aphylla which can be utilized in agroforestry practices, marginal land reclamation and physiological studies.     

Improved in vitro rooting and hyperhydricity in regenerating tissues of Thapsia garganica L.

Stock cultures of Thapsia garganica grown on Murashige and Skoog agar medium (1962) (MS) (0.8% agar [w/v]; pH 5.8) with 0.5 mg l⁻¹ NAA and 1.5 mg l⁻¹ BA were best rooted by subjecting to half strength MS liquid medium with IBA (10 mg l⁻¹) for 3 days prior to transfer to medium without plant growth regulators. A rooting frequency of 60% was noted with seven roots per rooted plant. Rooting was apparent after 10 days. The present study also aimed at reducing the occurrence of hyperhydric plants. The inclusion of 2% polyethylene glycol (w/v) in the growth medium or ventilation of cultures prior to acclimatization resulted in the production of plants true to type, closely resembling wild plants. Those plantlets that had been rooted and exposed to a better vented environment were able to acclimatize readily. Tissue culture propagation is therefore beneficial to the conservation of the medicinally important species, Thapsia garganica.     

Productivity and root/shoot ratio of reedswamp species growing in outdoor hydroponic cultures

The study of the annual productivity of some reedswamp species grown in hydroponic sand cultures is described. The plants were cultivated in the open in a mixture of diatomite earth and sand, and irrigated periodically with a nutrient solution. The cultivation tanks were arranged in tiers to enable a continuous passage of the nutrient solution through the rooting medium. The plants were grown from small rhizome cuttings or seedlings one year old. Harvests at intervals of 1 to 3 years made it possible to follow and assess in quantitative terms the dry matter production of both aerial (shoots) and underground organs (“Root/Shoot” Ratio) and the annual dry weight increase of the underground biomass of these perennial species. The research included macro- and microclimatological measurements of temperature (air, substrate), humidity and incident (global) solar radiation. The annual productivity and the efficiency of incident solar energy utilization in the yields of cultivated reedswamp species are compared with corresponding values of the same species in natural stands. The values of production (standing crop), net annual productivityC, and the coefficient of solar energy conversion η were very high, surpassing in several cases those of natural habitats. The significance of these findings is discussed.     

Influence of the Irradiance on Carbohydrate Content and Rooting of Cuttings of Pine Seedlings (Pinus sylvestris L.)

Seedlings of Pinus sylvestris L. were grown for 6 weeks at an irradiance of either 8 or 40 watts per square meter in a controlled environment room. Cuttings from these plants were rooted in tap water for 75 days at either 8 or 40 watts per square meter. The photoperiod was 17 hours.

During the first 30 days of the rooting period quantitative changes in carbohydrates were recorded in cuttings from the different treatments. The carbohydrate contents of the cuttings were mainly regulated by the irradiance during the stock plant stage and generally a higher carbohydrate level was found in cuttings from stock plants grown at 40 watts per square meter.

The irradiance during the rooting period had only minor effects on the time course of root formation, whereas the irradiance during the stock plant stage did influence the subsequent root formation. Cuttings from stock plants grown at 8 watts per square meter rooted faster and with higher frequency than those from stock plants grown at 40 watts per square meter. These results are discussed in relation to the mentioned irradiance effects on carbohydrate content.

     

A Landscape Perspective of the Stream Corridor Invasion and Habitat Characteristics of an Exotic (Dioscorea oppositifolia) in a Pristine Watershed in Illinois

The spatial distribution of exotics across riparian landscapes is not uniform, and research elaborating the environmental constraints and dispersal behavior that underlie these patterns of distribution is warranted. This study examined the spatial distribution, growth patterns, and habitat constraints of populations of the invasive Dioscorea oppositifolia in a forested stream corridor of a tributary of Drury Creek in Giant City State Park, IL. The distribution of D. oppositifolia was determined at the watershed scale mainly by floodplain structure and connectivity. Populations of D. oppositifolia were confined to the floodplain, with overbank flooding from the stream. Dioscorea oppositifolia probably originates in disturbed areas upstream of natural corridors, and subsequently, the species disperses downstream into pristine canyons or ravines via bulbils dispersing in the water. In Giant City State Park, populations of D. oppositifolia were distributed on the floodplain across broad gradients of soil texture, light, slope, and potential radiation. The study also examined the longevity of bulbils in various micro-environments to illuminate strategies for the management of the species in invaded watersheds. After 1 year, the highest percentages of bulbils were viable under leaves, and much lower percentages were viable over leaves, in soil, and in the creek (76.0±6.8, 21.2±9.6, 21.6±3.6, and 5.2±5.2%), respectively. This study suggests that management procedures that reduce leaf litter on the forest floor (e.g., prescribed burning) could reduce the number of bulbils of D. oppositifolia stored in the watershed.     

Influence of arginine onin vitro rooting of dwarf apple rootstock

L-arginine was added to the rooting media for apple rootstock shoots taken from proliferating cultures. The effect was studied in combination with other rooting factors such as: phloroglucinol, initial dark period, concentration of indol-3-yl butyric acid and inorganic nitrogen levels. In all treatments, arginine caused an increase in root number per rooted shoot and enlargement of the shoot base. Arginine was especially effective with low indol-3-yl butyric acid levels as well as without it, and with low or no inorganic nitrogen. The effect of arginine on root number interacted with dark treatment and with phloroglucinol. The most efficient amount of arginine was 200 mg l^–1. The possible influences of arginine on rooting are discussed.     

Propagation of an elite high biomass-producing genotype of Atriplex canescens by axillary enhancement

A technique for rapid in vitro multiplication and rooting of Atriplex canescens microshoots and establishment of plantlets in the soil is described. The influence of growth regulators in the multiplication medium on shoot growth, rooting, and soil establishment of in vitro-derived plants is assessed. Rapid propagation was achieved by the culture of shoot tips or lateral buds on a medium supplemented with 1 mg per liter of benzyladenine. Shoots were rooted in vitro on a medium supplemented with 1 mg per liter indolebutyric acid prior to placement in the soil. Plants were established successfully in the greenhouse through the maintenance of a high humidity environment for the first 21 days and were subsequently transferred to the greenhouse and field.     

Culture and regeneration of Populus leaf protoplasts isolated from non-seedling tissue

Leaf protoplasts of Populus alba L. × P. grandidentata Michx. (NC-5339) were isolted from shoot cultures of non-seedling origin and cultured through plant regeneration. Complete protoplast development was dependent on providing a stress-free culture environment which included eliminating ammonium, agar, exudate build-up, and light during the culture period. Contact with a solid surface appeared to stimulate development and thus the protoplasts were cultured in a liquid floating-disc system in which they adhered to the fibers of a polyester screen. Protoplasts exhibited a slow, staged development which resulted in cell division 6 weeks following protoplast isolation. The resulting colonies proliferated rapidly and rooted spontaneously. Shoot regeneration occurred when the protoplast-derived calli were exposed to thidiazuron, and such shoots could be readily rooted. This is the first report of reproducible plant regeneration from leaf protoplasts of non-seedling origin of a tree species.     

Soil water availability and rooting depth as determinants of hydraulic architecture of Patagonian woody species

Adaptations of species to capture limiting resources is central for understanding structure and function of ecosystems. We studied the water economy of nine woody species differing in rooting depth in a Patagonian shrub steppe from southern Argentina to understand how soil water availability and rooting depth determine their hydraulic architecture. Soil water content and potentials, leaf water potentials (Ψ_Leaf), hydraulic conductivity, wood density (ρ_w), rooting depth, and specific leaf area (SLA) were measured during two summers. Water potentials in the upper soil layers during a summer drought ranged from −2.3 to −3.6 MPa, increasing to −0.05 MPa below 150 cm. Predawn Ψ_Leaf was used as a surrogate of weighted mean soil water potential because no statistical differences in Ψ_Leaf were observed between exposed and covered leaves. Species-specific differences in predawn Ψ_Leaf were consistent with rooting depths. Predawn Ψ_Leaf ranged from −4.0 MPa for shallow rooted shrubs to −1.0 MPa for deep-rooted shrubs, suggesting that the roots of the latter have access to abundant moisture, whereas shallow-rooted shrubs are adapted to use water deposited mainly by small rainfall events. Wood density was a good predictor of hydraulic conductivity and SLA. Overall, we found that shallow rooted species had efficient water transport in terms of high specific and leaf specific hydraulic conductivity, low ρ_w, high SLA and a low minimum Ψ_Leaf that exhibited strong seasonal changes, whereas deeply rooted shrubs maintained similar minimum Ψ_Leaf throughout the year, had stems with high ρ_w and low hydraulic conductivity and leaves with low SLA. These two hydraulic syndromes were the extremes of a continuum with several species occupying different portions of a gradient in hydraulic characteristics. It appears that the marginal cost of having an extensive root system (e.g., high ρ_w and root hydraulic resistance) contributes to low growth rates of the deeply rooted species.     

Hybridization and evolution in Picradeniopsis (Compositae)

The predominantly allopatric species of the genusPicradeniopsis, P. oppositifolia andP. woodhousei, are distinct in morphological, in phenolic and terpeniod chemical, and in cytological aspects (n = 24 andn = 12, respectively). In an area of sympatry in northeastern New Mexico, interbreeding occurs frequently with the production of morphologically intermediate hybrids. Morphological and phenolic chemical data from 191 plants in 40 isolated parental populations and from 91 plants in four hybrid populations are of limited value in determining the nature of this hybridization, but meiotic configurations of 12_II and 12_I and low pollen viabilities of 1–11% in the hybrids indicate that they are all of the F₁ generation (with one possible backcross). The absence of observed introgression, and therefore the absence of gene flow between the two taxa, strengthens the case for taxonomic recognition of two species in the genus. Comparisons of the morphology, phenolic and terpenoid chemistry, and cytology of parents and F₁ hybrids suggest that the tetraploid,P. oppositifolia, has arisen by allopolyploidy from a cross betweenP. woodhousei and an unknown diploid species. An extrapolated morphological and chemical reconstruction of this putative diploid parent is advanced.     

Pre and post-severance effects of light quality on carbohydrate dynamics and microcutting adventitious rooting of two Eucalyptus species of contrasting recalcitrance

Adventitious rooting is a complex developmental response affected by genetic and environmental factors. Radiation quality effects on adventitious rooting depend on characteristics such as species, growth stage, irradiance, spectral quality, and time of exposure. Eucalyptus is an essential genus for the paper industry, and high yield plantations depend on adventitious rooting of selected genotypes. This work addressed two hypotheses: (1) radiation quality equally affects adventitious rooting in Eucalyptus species of different recalcitrance; (2) adventitious rooting outcome depends on both donor plant and cutting radiation quality treatments. To that end, the easy-to-root Eucalyptus grandis and the recalcitrant Eucalyptus globulus were evaluated. The effect of white, blue, red and far-red radiation enrichment on microcuttings and donor plants of both species was evaluated in relation to rooting. There was no effect of radiation quality on adventitious rooting of E. grandis or when radiation treatments were applied to E. globulus microcuttings. In contrast, donor plants of E. globulus, grown in medium devoid of sucrose and exposed to far-red radiation, yielded microcuttings showing higher rooting percentage, even in the absence of exogenous auxin in the rooting medium. Sucrose in donor plant medium abolished the positive effect of far-red radiation. An increase in endogenous soluble sugars and starch contents in basal microcuttings was associated with far-red radiation treatment of donor plants. These results underline the importance of appropriate carbohydrate partitioning in donor plants for adventitious rooting of cuttings and provide a basis for understanding and overcoming rooting recalcitrance in E. globulus clones.