Comparison of two PVS2-based procedures for cryopreservation of commercial sugarcane (<Emphasis Type="Italic">Saccharum</Emphasis> spp.) germplasm and confirmation of genetic stability after cryopreservation using ISSR markers

Conservation of Saccharum spp. germplasm as ex situ collections of plants has a high cost, and in natural conditions, the plants remain exposed to pests, pathogens, and natural disasters. Long-term preservation of plant germplasm is important for agricultural biodiversity and food safety, so the aim of this study was to develop a cryogenic procedure for cryopreservation of sugarcane germplasm. The first study compared droplet vitrification and encapsulation-vitrification techniques for cryopreservation of in vitro shoot tips of Saccharum spp. variety Halaii. The best regeneration rate (70.9%) was obtained from 45-min PVS2 vitrification solution-treated shoot tips via the droplet vitrification technique. This technique was tested on two other Saccharum sp. varieties, and the best regeneration rates for varieties NG 57-024 and H 83-6179 were 63.3 and 76.3%, respectively. Shoots derived from cryopreserved shoot tip buds developed well-formed roots, and were easily acclimated to greenhouse conditions. The second study evaluated genetic stability of the cryopreserved varieties using ten inter-simple sequence repeat primers. A total of 211 (Halaii), 198 (H83-6179), and 201 (NG 57-024) reproducible bands, ranging from 125 to 5500 bp, were scored with this technique. One hundred genetic stability was detected from Halaii and H 83-6179 whereas 98.5% genetic stability was detected from varieties of NG 57-024. The PCR reactions showed that there was no crucial variation on genetic stability for all cryopreserved varieties.     

Genetic and biochemical stability assessment of plants regenerated from cryopreserved shoot tips of a commercially valuable medicinal herb <Emphasis Type="Italic">Bacopa monnieri</Emphasis> (L.) Wettst

Shoot tips from four accessions (IC249250, IC 426442, IC 375976, and IC468878) of Bacopa monnieri (L.) Wettst., a commercially valuable memory revitalizing medicinal plant, were cryopreserved using a vitrification technique. Depending on the genotype, 0 to 20% plant regeneration without intermediary callus was achieved from cryopreserved shoot tips. Genetic stability of plants derived from cryopreserved shoot tips was assessed using biochemical and molecular markers. The regenerated plants from non-frozen controls and cryopreserved shoot tips exhibited morphological similarity to respective parental material when transferred to soil. On the basis of ten random amplified polymorphic DNA (RAPD) and bacoside A content using HPLC analysis, no significant reproducible variation was observed between the controls and in vitro-cryopreserved plants. Thus, after cryopreservation treatment, the regenerated plants exhibited molecular and biochemical genetic stability.     

Cryopreservation of an endangered <Emphasis Type="Italic">Hladnikia pastinacifolia</Emphasis> Rchb. by shoot tip encapsulation-dehydration and encapsulation-vitrification

The objective of the present study was the cryopreservation of monotypic endemic Hladnikia pastinacifolia Rchb. shoot tips from an in vitro culture, via encapsulation-dehydration (ED) or encapsulation-vitrification (EV). For all tested genotypes, the highest rates of shoot regrowth and multiplication were obtained after overnight preculture in 0.4 M sucrose, encapsulation in Murashige and Skoog (MS) medium with 0.4 M sucrose and 1 M glycerol, followed by polymerization in 3% (w/v) Na-alginate in MS with 0.4 M sucrose. Optimal osmoprotection was achieved for ED with 0.4 M sucrose plus 1 M glycerol and for EV with 0.4 M sucrose plus 2 M glycerol. The best dehydration time for ED was 150 min in a desiccation chamber with silica gel, and the best vitrification time for EV was 85 min in plant vitrification solution 2 (PVS2). For ED, dehydration for 150 min resulted in explant water content of 22%. When the encapsulation method was combined with ED, 53% regrowth was achieved, and when it was combined with EV, 64% regrowth was achieved. Both methods could become applicable for the long-term cryopreservation of H. pastinacifolia germplasm, although EV was faster and resulted in better final regrowth success. Genetic stability analysis of cryopreserved plant samples was carried out for two genotypes, using random amplified polymorphic DNA (RAPD) markers to compare the two different cryopreservation protocols. Significant genetic differences between the genotypes were detected and a low level of genomic variation was observed.     

Cryopreservation of the critically endangered golden paintbrush (<Emphasis Type="Italic">Castilleja levisecta</Emphasis> Greenm.): from nature to cryobank to nature

In this study conservation of Castilleja levisecta Greenm., a globally endangered species was addressed through in vitro cryopreservation of shoot tips. In vitro cultures were successfully established using seedlings received from British Columbia, Canada. Shoot tips excised from in vitro propagated plants were cryopreserved using a droplet-vitrification method following optimization of individual protocol steps such as pre-culture, treatment with vitrification solutions, and unloading. The highest plant regrowth after cryopreservation (66%) was achieved when shoot tips were pre-cultured in 0.3 M sucrose for 17 h followed by 0.5 M sucrose for 4 h, incubated in an osmo-protectant solution (17.5% [v/v] glycerol and 17.5% [w/v] sucrose) for 20 min, exposed to vitrification solution A3 (37.5% [v/v] glycerol plus 15% [v/v] dimethylsulfoxide (DMSO) plus 15% [v/v] ethylene glycol (EG) plus 22.5% [w/v] sucrose) on ice for 40 min, and unloaded in 0.8 M sucrose solution for 30 min. Healthy plants were developed from cryopreserved shoot tips and propagated in vitro using nodal segments. Plants derived from in vitro culture and from cryopreserved tissues were successfully rooted and acclimated in a greenhouse with 100% survival rate. Acclimatized plants were reintroduced in a naturalized propagation area at the Conservation Nursery at Fort Rodd Hill, Canada. Twenty of 94 reintroduced plants (21%) survived the transit from lab to field and some had started to flower. This is the first report for cryopreservation of C. levisecta, an important step in conserving and re-introducing this critically imperiled species in nature.     

Droplet-vitrification cryopreservation of <Emphasis Type="Italic">in vitro</Emphasis>-grown shoot tips of grapevine (<Emphasis Type="Italic">Vitis</Emphasis> spp.)

An efficient and broad-spectrum protocol for cryopreservation of Vitis spp. shoot tips by droplet-vitrification is reported. Shoot tips (1.0 mm) containing 5–6 leaf primordia (LPs) were precultured for 3 d with a preculture medium containing 0.3 M sucrose, 0.16 μM glutathione, and 0.14 μM ascorbic acid. Precultured shoot tips were treated for 20 min at 24°C with a loading solution composed of 2 M glycerol and 0.4 M sucrose, followed by exposure at 0°C to half-strength plant vitrification solution 2 (PVS2) for 30 min, and then full-strength PVS2 for 50 min. Dehydrated shoot tips were transferred into 2.5-μL PVS2 carried on aluminum foil, prior to a direct immersion in liquid nitrogen. With this method, an average shoot regrowth level of 50.5% was obtained from cryopreserved shoot tips in six V. vinifera genotypes (three wine cultivars, two table cultivars, and one rootstock) and two V. pseudoreticulata genotypes. Vegetative growth of the regenerants recovered from cryopreservation, significantly increased as the number of subculture cycles increased and was greater than the control after the third subculture following cryopreservation. Inter-simple sequence repeats (ISSR) and random amplification of polymorphic DNA (RAPD) analyses did not detect any polymorphic loci in the plants of V. vinifera L. cv. ‘Cabernet Sauvignon’ from cryopreserved shoot tips compared to the original cultures. This droplet-vitrification cryopreservation method provides a technical platform to set up cryobanks of Vitis spp.     

Development of a common PVS2 vitrification method for cryopreservation of several fruit and vegetable crops

Many cryopreservation techniques are currently available, and it is common for new modifications to be developed for individual crops or specific genotypes. In this study, results of variations of the PVS2 cryopreservation protocol are compared to provide evidence for the suitability of a standard form of this technique for cryopreservation of a range of fruit, berry crops, and potato. Shoot cultures of Malus, Solanum, Lonicera, and Berberis were tested with variations of cold acclimation, pretreatment media, and PVS2 exposure times. A general protocol with some modifications was produced that was suitable for all four genera. The regenerative capacity of shoot tips after cryopreservation by this method exceeded a mean of 50% for Malus, Solanum, Lonicera, and Berberis, which is sufficient for setting storage in a cryobank. After liquid nitrogen storage, the shoot cultures that survived had a healthy appearance and developed rapidly. For each species tested, the only optimization required was the preparation of donor plants by cold acclimation and pretreatment. The choice of one common method simplifies the methodology for conducting experiments and storing a range of germplasm. The use of the PVS2 vitrification method with a 0.3-M sucrose pretreatment is multiuse and can be recommended as the most effective method for the cryopreservation of shoot tips from many plant species.     

Cryopreservation of fruit germplasm

Most temperate fruit species are genetically heterozygous and vegetatively propagated. Active collections of fruit genetic resources in Germany are generally maintained in the field, e.g., as potted plants for Fragaria and as trees for pome and stone fruit species. The plant material in active collections should be kept in duplicate to ensure security in case of disease or environmental disaster. The aim of this study was to develop an efficient complementary conservation strategy for fruit genetic resources. Although costly, fruit tree cultivars can be duplicated as field collections at a second site within the framework of the German Fruit Genebank, which is a decentralized fruit-specific network. Wild species accessions, particularly those of the genera Malus spp. (apple) and Fragaria spp. (strawberry) as well as strawberry cultivars, can also be duplicated by means of cryopreservation. In the current study, long-term cryopreservation was initiated for 194 Fragaria genotypes. A protocol combining vitrification with cold acclimation was effective and highly reproducible, with an average regrowth rate of 86%. In Malus, a general cryopreservation protocol based on dormant winter buds was adopted. Based on the results provided in this study, a combination of traditional ex situ conservation and cryopreservation can greatly improve the stability and security of fruit germplasm conservation.     

Cold,antioxidant and osmotic pre-treatments maintain the structural integrity of meristematic cells and improve plant regeneration in cryopreserved kiwifruit shoot tips

Cryopreservation is a reliable and cost-effective method for the long-term preservation of clonally propagated species. The number of vegetatively propagated species conserved by cryopreservation is increasing through development of vitrification-based methods; droplet vitrification in particular is becoming the preferred method for many species, as it ensures fast freezing and thawing rates. This research investigated if cold, antioxidant and osmotic pre-treatments could maintain the structural integrity of cells, thence aid in developing a droplet vitrification protocol for kiwifruit using Actinidia chinensis var. chinensis ‘Hort16A’ as a model. Cold acclimation of donor plantlets at 4 °C for 2 weeks followed by sucrose pre-culture of shoot tips and supplementation of ascorbic acid (0.4 mM) in all media throughout the procedure registered 40% regeneration after cryopreservation. Transmission electron microscope imaging of meristematic cells confirmed sucrose and ascorbic acid pre-treatment of shoot tips from cold acclimated plantlets following treatment in vitrification solution exhibited severe plasmolysis and some disruption of membrane and vacuoles. In contrast cells without cold acclimation or sucrose and ascorbic acid pre-treatments exhibited minimal change after exposure to vitrification solution. After cryopreservation and recovery, all cells of untreated shoot tips showed rupture of the plasma membrane, loss of cytoplasmic contents and organelle distortions. By comparison, most pre-treated shoot-tip cells from cold acclimated plantlets retained their structural integrity, showing that only those cells that have been dehydrated and plasmolysed can withstand cryopreservation by vitrification.     

<Emphasis Type="Italic">In vitro</Emphasis> plant regeneration and cryopreservation of <Emphasis Type="Italic">Arachis glabrata</Emphasis> (Fabaceae) using leaflet explants

Arachis glabrata Benth (perennial peanut) is a rhizomatous legume with high forage value and great potential for soil conservation as well as it displays valuable plant genetic resources for the cultivated edible peanut improvement. In this study, we developed for the first time successful protocols for micropropagation and cryopreservation of A. glabrata. First fully expanded leaflets from greenhouse-growing plants were efficiently established in vitro (93%) and displayed high frequency of bud induction (58%) on MS medium with 6 mg L^?1 1-fenil-3-(1,2,3-tiadiazol-5-il)urea [TDZ]. Whole plant regeneration was achieved via direct organogenesis by transferring the induced buds to MS media. Immature unexpanded leaves from micropropagated plants were effectively cryopreserved by using the droplet-vitrification technique. Maximum survival (~ 70%) and further regeneration (60–67%) were obtained by preconditioning immature leaves on semisolid MS with 0.3 M sucrose (1 d), exposing to loading solution consisting of 0.4 M sucrose plus 2 M glycerol (30 min) followed by glycerol-sucrose plant vitrification solution PVS3 (150 min in ice), and direct plunging into liquid nitrogen in droplets of PVS3 deposited on cryoplates. Tissues were rewarmed by plunging the aluminum foils directly in liquid MS enriched with 1.2 M sucrose (15 min) at room temperature. Growth recovery and plant regeneration were efficiently achieved via shoot organogenesis, and somatic embryogenesis by culturing cryostored explants on MS added with 6 mg L^?1 TDZ. Genetic stability of plants derived from cryopreserved leaves was confirmed by random amplified polymorphic DNA markers. The protocols established in this study have great potential for rapid multiplication and conservation of selected A. glabrata genotypes.     

An efficient <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated transformation protocol of <Emphasis Type="Italic">Withania somnifera</Emphasis>

This is the first report on Agrobacterium rhizogenes-mediated transformation of Withania somnifera for expression of a foreign gene in hairy roots. We transformed leaf and shoot tip explants using binary vector having gusA as a reporter gene and nptII as a selectable marker gene. To improve the transformation efficiency, acetosyringone (AS) was added in three stages, Agrobacterium liquid culture, Agrobacterium infection and co-culture of explants with Agrobacterium. The addition of 75 μM AS to Agrobacterium liquid culture was found to be optimum for induction of vir genes. Moreover, the gusA gene expression in hairy roots was found to be best when the leaves and shoot tips were sonicated for 10 and 20s, respectively. Based on transformation efficiency, the Agrobacterium infection for 60 and 120 min was found to be suitable for leaves and shoot tips, respectively. Amongst the various culture media tested, MS basal medium was found to be best in hairy roots. The transformation efficiency of the improved protocol was recorded 66.5 and 59.5?% in the case of leaf and shoot tip explants, respectively. When compared with other protocols the transformation efficiency of this improved protocol was found to be 2.5 fold higher for leaves and 3.7 fold more for shoot tips. Southern blot analyses confirmed 1–2 copies of the gusA transgene in the lines W1-W4, while 1–4 transgene copies were detected in the line W5 generated by the improved protocol. Thus, we have established a robust and efficient A. rhizogenes mediated expression of transgene (s) in hairy roots of W. somnifera.     

Cryopreservation of red raspberry cultivars from the VIR <Emphasis Type="Italic">in vitro</Emphasis> collection using a modified droplet vitrification method

The goal of the present study was to analyze the post-cryogenic recovery of 12 red raspberry cultivars from the N.I. Vavilov All-Russian Institute of Plant Genetic Resources in vitro collection. The 1.1–1.8 mm shoot tips of microplants were subjected to cryopreservation using the modified droplet vitrification method. The current modifications to the droplet vitrification protocol included the elimination of the initial pretreatment stage of the microplants, and the use of modified media at the stages of initial micropropagation, explant isolation, and post-cryogenic regeneration. The optimized method reduced the duration of some cryopreservation stages compared to the initial protocol, and reduced the total procedure from 14 to 11 wk. This modified cryopreservation method also demonstrated a relatively high level of post-cryogenic regeneration. Depending on the genotype, the shoot recovery of explants after rewarming varied from 24.2–89.3% and averaged 58.8 ± 5.3%. There was a statistically significant influence of the genotype on the shoot recovery after rewarming. No differences in inter simple sequence repeats and in start codon targeted marker spectra were found between post-cryopreservation microplants and donor in vitro plants from two red raspberry cultivars.     

Cryopreservation of somatic embryos from <Emphasis Type="Italic">Petiveria alliacea</Emphasis> L. by different techniques based on vitrification

Petiveria alliacea L. is a medicinal plant originating from the Amazon region. This study describes an efficient cryopreservation protocol for somatic embryos (SEs) produced from roots of P. alliacea based on the comparison of vitrification, encapsulation-dehydration, and D cryo-plate techniques. With the vitrification technique, SEs treated with PVS2 solution (0.4 M sucrose, 3.3 M glycerol, 2.4 M ethylene glycol, and 1.9 M DMSO) for 30 min displayed high viability (85%) and intermediate proliferation recovery (about 12 adventitious SEs produced from original SEs [SEs/SE] after 90 d of culture). With the encapsulation-dehydration technique, lower viability (70%) and very low proliferation recovery (about two SEs/SE) were achieved with cryopreserved SEs dehydrated for 10 min in a laminar air flow cabinet. The D cryo-plate technique led to high viability (85%) and proliferation recovery (19 SEs/SE) of cryopreserved SEs after 90 min dehydration. In the experimental conditions tested, the D cryo-plate method was the most efficient technique for cryopreservation of P. alliacea SEs.     

CAT and MDH improve the germination and alleviate the oxidative stress of cryopreserved <Emphasis Type="Italic">Paeonia</Emphasis> and <Emphasis Type="Italic">Magnolia</Emphasis> pollen

Researches have reported that reactive oxygen species (ROS)-induced oxidative stress plays an important role in cell cryodamage during cryopreservation. In the current study, pollen from Magnolia denudata and Paeonia lactiflora ‘Zi Feng Chao Yang’ was cryopreserved and incubated with exogenous catalase (CAT) and malate dehydrogenase (MDH) immediately after thawing. The effect of CAT and MDH on the germination of cryopreserved pollen was measured. Based on that, the ROS level, lipid peroxidation and antioxidants activities in fresh pollen, cryopreserved pollen added with or without CAT or MDH were determined to investigate their relationship with oxidative stress. Pollen from Magnolia and Paeonia showed a significant loss of germination, but marked increase of ROS and malondialdehyde (MDA) production after cryostorage. Antioxidant profiles in them were also enhanced. CAT and MDH addition increased the post-LN pollen germination of Magnolia and Paeonia significantly. Their germination rate achieved the highest with 100 IU ml^?1 MDH and 400 IU ml^?1 CAT application, respectively. Compared to their untreated controls, ROS and MDA accumulation reduced significantly in cryopreserved Magnolia pollen treated with 100 IU ml^?1 MDH, while superoxide dismutase (SOD) activity improved markedly. In the case of Paeonia, significantly lower level of ROS and MDA, but higher activity of CAT and SOD were observed in cryopreserved pollen treated with 400 IU ml^?1 CAT. In conclusion, pollen deterioration after cryopreservation is associated with ROS-induced oxidative stress. Exogenous CAT and MDH can reduce the oxidative damage through the activity stimulation of antioxidant enzymes, and play a protective role in the pollen during cryopreservation.     

Cryoprotectants and components induce plasmolytic responses in sweet potato (<Emphasis Type="Italic">Ipomoea batatas</Emphasis> (L.) Lam.) suspension cells

Plant genebanks often use cryopreservation to securely conserve clonally propagated collections. Shoot tip cryopreservation procedures may employ vitrification techniques whereby highly concentrated solutions remove cellular water and prevent ice crystallization, ensuring survival after liquid nitrogen exposure. Vitrification solutions can be comprised of a combination of components that are either membrane permeable or membrane impermeable within the timeframe and conditions of cryoprotectant exposure. In this study, the osmotic responses of sweet potato [Ipomoea batatas (L.) Lam.] suspension cell cultures were observed after treatment with plant vitrification solution 2 [PVS2; 15% (v/v) dimethyl sulfoxide (DMSO), 15% (v/v) ethylene glycol, 30% (v/v) glycerol, 0.4 M sucrose], plant vitrification solution 3 (PVS3; 50% (v/v) glycerol, 50% (w/v) sucrose), and their components at 25 and 0°C, as well as cryoprotectant solution, PGD (10% (w/v) PEG 8000, 10% (w/v) glucose, 10% (v/v) DMSO) at 25°C. At either 25 or 0°C, sweet potato cells plasmolyzed after exposure to PVS2, PVS3, and PGD solutions as well as the PVS2 and PVS3 solution components. Cells deplasmolyzed when the plasma membrane was permeable to the solutes and when water re-entered to maintain the chemical potential. Sweet potato suspension cells deplasmolyzed in the presence of 15% (v/v) DMSO or 15% (v/v) ethylene glycol. Sweet potato plasma membranes were more permeable to DMSO and ethylene glycol at 25°C than at 0°C. Neither sucrose nor glycerol solutions showed evidence of deplasmolysis after 3 h, suggesting low to no membrane permeability of these components in the timeframes studied. Thus, vitrification solution PVS2 includes components that are more membrane permeable than PVS3, suggesting that the two vitrification solutions may have different cryoprotectant functions. PGD includes DMSO, a permeable component, and likely has a different mode of action due to its use in two-step cooling procedures.     

Histological characterization of <Emphasis Type="Italic">Passiflora pohlii</Emphasis> Mast. root tips cryopreserved using the V-Cryo-plate technique

Cryopreservation stands out as the main strategy to ensure safe and cost efficient long-term conservation of plant germplasm, especially for biotechnological materials. However, the injuries associated with the procedure may result in structural damage and low recovery rates after cooling. Histological analysis provides useful information on the effects of osmotic dehydration, LN exposure, and recovery conditions on cellular integrity and tissue organization, allowing the determination of the critical steps of the cryopreservation protocol and, thus, the use of optimized treatments. Passiflora pohlii Mast. (Passifloraceae) is a native species from Brazil with potential agronomic interest. Recent studies showed the presence of saponins in its roots, which presented antioxidant activity. The goal of this work was to develop a cryopreservation technique for root tips of in vitro-derived plants of P. pohlii using the V-Cryo-plate technique and to characterize the anatomical alterations that occurred during the successive steps of the protocol. Root tips were excised from in vitro plants and precultured before adhesion to cryo-plates and then treated for different periods with the plant vitrification solutions PVS2 or PVS3. Treatment with PVS2 for 45 min resulted in higher recovery (79%) when compared with PVS3 (43%). The greatest number of adventitious roots per cryopreserved explant was also observed after a 45-min exposure to PVS2. Plasmolysis levels were higher in cortical cells of cryopreserved explants treated with PVS2, while pericycle and central cylinder cells were not damaged after this treatment. Thirty days after rewarming, no plasmolysis could be detected, regardless of the experimental conditions.     

Greenhouse performance,genetic stability and biochemical compounds in <Emphasis Type="Italic">Chrysanthemum morifolium</Emphasis> ‘Hangju’ plants regenerated from cryopreserved shoot tips

Chrysanthemum morifolium ‘Hangju’ is a valuable medicinal plant. We previously reported cryopreservation of shoot tips of C. morifolium ‘Hangju’. The present study further evaluated greenhouse performance, assessed genetic stability and analyzed biochemical compounds in the greenhouse-grown plants regenerated from cryopreservation. The results showed that although some minor alternations were detected in early vegetative growth, there were no differences in major parameters of vegetative growth and flower production between the plants regenerated from cryopreservation and in vitro shoots (the control). Morphologies of leaves and flowers were identical between the two types of the plants. No polymorphic bands revealed by ISSR and RAPD, and no alternations at ploidy levels analyzed by FCM were found in the cryo-derived plants. The types and number of biochemical compounds analyzed by UPLC-MS/MS were identical between the two types of the plants. Quantitative analyses by HPLC showed no differences in the contents of the five selected biochemical compounds produced between the plants regenerated from cryopreservation and in vitro shoots. Therefore, cryopreservation would provide a technical platform for establishment of cryo-banking of Chrysanthemum germplasm with medicinal values.     

Cryopreservation of <Emphasis Type="Italic">Citrus</Emphasis> anthers in the National Crop Genebank of China

Genebank conservation of pollen is valuable because it makes genetic resources immediately available for use in breeding programs. In the case of Citrus species, conserved anthers or pollen can be easily transported and used to develop new varieties with pathogen resistance and desirable quality and yield traits. The aim of this study was to develop and improve air-desiccation cryopreservation protocols for Citrus cavaleriei and Citrus maxima anthers in genebanks. In the current study, warming, rehydration, and in vitro germination conditions were optimized to achieve high levels of in vitro germination in Citrus pollen for ten cultivars after liquid nitrogen (LN) exposure. The optimal warming, rehydration, and in vitro germination medium formulations affected the germination levels after pollen cryopreservation, with species- and cultivar-dependent effects. The Citrus anthers were dehydrated to the moisture content of 5–14% before LN exposure and warmed at 25 (cryopreserved Citrus anthers with a moisture content of lower than 10%) or 37°C (a moisture content of 10% or higher), then rehydrated, and cultured on medium with 150-g L^?1 sucrose, 0.1-g L^?1 boric acid, 1.0-g L^?1 calcium nitrate, 0.1-g L^?1 potassium nitrate, 0.3-g L^?1 magnesium sulfate, and 10-g L^?1 agar. After 2 yr of storage, in vitro germination levels of Citrus pollen after cryopreservation were significantly higher (> 22% for all ten cultivars) than those of samples that were stored at 4°C (0%). In vitro germination levels of pollen from six of ten cultivars after cryopreservation remained relatively high after 2 yr of storage (38–93%). The highest viability of 93% was obtained for C. cavaleriei ‘2–3’. The methods identified in the current study could be used to cryopreserve C. cavaleriei and C. maxima anthers.     

Efficient long-term conservation of <Emphasis Type="Italic">Taraxacum pieninicum</Emphasis> synthetic seeds in slow growth conditions

The aim of this paper was to develop a protocol for efficient storage of artificial seeds of Taraxacum pieninicum, critically endangered Asteraceae species. Storage under reduced light conditions or in the darkness was tested on a basis of synthetic seeds ability to conversion and post-storage regrowth of shoot tips. The results indicated that synseeds obtained from shoot tips of T. pieninicum can be stored at 4 °C even for 12 months without subculture. The light is a stress factor during storage what was manifested by numerous necrosis and decreased shoots ability to proliferate in optimal growth conditions in 1st subculture. Additionally our results showed that the storage does not produce genetic variation at the resolution provided by the flow cytometry and RAPD analysis.     

Cryopreservation of<Emphasis Type="Italic"> Chrysanthemum morifolium</Emphasis> (<Emphasis Type="Italic">Dendranthema grandiflora</Emphasis> Ramat.) using different approaches

Chrysanthemum species are grown both as ornamentals and for the production of pyrethrum. Recent increased production and breeding efforts have raised the need for the conservation of valuable germplasm. Chrysanthemum has been cryopreserved by controlled-rate-freezing as early as 1990. We report here deep-freezing of shoot tips of C. morifolium var. Escort by different technical procedures: controlled-rate-freezing, encapsulation/dehydration, ultra-rapid-freezing by the droplet method and vitrification. While vitrification yielded the highest shoot regeneration rates, the very simple droplet method was also successful in this respect. Droplet freezing was successfully performed with nine cultivars. Our results open the door to the successful use of alternative methods if one method fails to cryopreserve a variety. Furthermore, it enables comparative investigations of genetic stability and cyro-injury to be carried out.Abbreviations BA 6-Benzylaminopurine - NAA -Naphthaleneacetic acidCommunicated by H. Lörz