Division of the generative nucleus in cultured pollen tubes of the Bromeliaceae

Pollen germination, division of the generative nucleus and position of the generative nucleus in the pollen tube during in vitro germination were examined for six bromeliad cultivars. The influence of mixed amino acids (casein hydrolysate) and individual amino acids (Arg, Asn, Asp, Glu, Gly, Met, Phe, Orn, Tyr) were tested. Aechmea fasciata and A. chantinii pollen tubes showed more generative nuclear division in cultured pollen tubes than the other four cultivars tested. Casein hydrolysate did not stimulate generative nuclear division. In general arginine (1 mM) improved division of the Aechmea generative nucleus and to a lesser extent this of Vriesea `Christiane', Guzmania lingulata and Tillandsia cyanea. A concentration of 2 mM arginine reduced pollen tube growth of Aechmea. The vegetative nucleus was ahead of the generative nucleus in approximately 50% of the pollen tubes of all cultivars studied. In about 25% of the pollen tubes, the generative nucleus was ahead and in ±25% pollen tubes the vegetative and generative nuclei were joined together. The distance between the two generative nuclei and the distance from the generative nuclei to the pollen tube tip differed significantly for Aechmea fasciata and A. chantinii. The influence of different amino acids for Aechmea fasciata and A. chantinii varied with respect to pollen germination and generative nuclear division. Arg and Met improved nuclear division of both Aechmea cultivars. Pollen germination and sperm cell production were not linked. This information is important to ameliorate in vitro pollination methods used to overcome fertilization barriers in Bromeliaceae and other higher plants.     

Maturation of maize pollen in vitro

Summary Maturation of maize pollen was obtained in male reproductive structures cultured in vitro. Immature tassels containing microspores at the mid-uninucleate to late-binucleate stage of development were excised and spikelets, anthers, and/or isolated microspores were cultured on a medium capable of supporting pollen maturation. Microspore mitosis, culminating in the production of starch-filled, trinucleate pollen capable of germination, was observed after 7–15 days, depending on the genotype and stage at which the cultures were initiated. Up to 100%, 70%, and 20% of the cultured spikelets, anthers, and isolated microspores, respectively, produced mature pollen, which germinated, however, at different frequencies (i.e., spikelets, 50–70%; anthers, 5–10%; microspores, <1%). Mature kernels were produced following fertilization with pollen from cultured spikelets and anthers. These procedures provide methods for the in vitro manipulation of a significant phase of the maize life cycle.     

Effect of water stress on the boron response of wheat genotypes under low boron field conditions

Sterility has emerged as a widespread problem for wheat (Triticum aestivum) production in South and South-east Asia. Whilst boron (B) deficiency is commonly associated with sterility in wheat, the expression of sterility is complicated in rainfed conditions by a number of environmental factors including water stress. A field experiment was conducted to examine the effect of water stress on B response of wheat genotypes on a low B soil (0.087 mg B kg-1soil) at Chiang Mai, Thailand (18°45 N, 99° E) during the dry season from November to March. The experiment consisted of three factors arranged in a split-split plot design with two levels of irrigation: water stress (I–) and full irrigation (I+) in main plots, two levels of B: 0 kg (B0) and 1 kg B ha-1 (B+) as borax in sub plots and four wheat genotypes: SW 41, BL 1022, UP 262 and Sonora 64 in sub–sub plots. Water stress was applied by discontinuing irrigation in I– treatments after the double ridge stage. In all genotypes, above ground biomass was decreased by I–, but not by B deficiency. Significant B×genotype interactions were detected for reproductive growth. SW 41 and BL 1022 strongly responded to added B with relief from B deficiency symptoms at anthesis and improved grain set index (GSI), grains ear-1, ears with grain and grain yield at maturity. By contrast, Sonora 64 could set grain well at B0 and did not show any response to added B with respect to these parameters. Grains ear-1 of SW 41 and BL 1022 was not affected by full irrigation at B0, but were significantly increased when fully irrigated with added B. In all genotypes, B concentration of the flag leaf and the ear at booting and at anthesis was significantly higher in B+, but was not affected by irrigation. Boron × irrigation interactions detected in this study indicate the possibility of the influence of water stress on the severity of wheat sterility in South and South-east Asia.     

Semi in vivo pollen tube growth of Aechmea fasciata

With semi in vivo pollen tube growth assays, stigmas are pollinated in vivo and, after a fixed time interval, the styles are isolated from the ovary and placed on culture medium in vitro. Semi in vitro pollination includes isolation of the stigma and style complex, followed by pollination and placing the stylar end on nutrient medium. After semi in vivo pollination more and longer pollen tubes protruded from the cut end of the styles into medium, in comparison to semi in vitro pollination. Medium with 3 g l^–1 agar was better than that with 6 g l^–1 agar for pollen tube growth after the tubes emerged from the cut style. Semi in vitro pollination of the reversed style indicated that pollen tube growth was not influenced by the direction of the style. Fructose and glucose inhibited pollen tube growth compared to sucrose. Swollen tips characterized tube growth inhibition. After semi in vivo pollination all generative nuclei had divided to give two sperm nuclei. The average distance between the last sperm nucleus and the pollen tube tip as well as the distance between the two sperm nuclei diminished in growing pollen tubes between 24 and 48 h after pollination. The arrangements between the vegetative and the generative nuclei did not differ in semi in vivo and in vitro cultured pollen tubes of Aechmea fasciata. This information is important to explain why fertilization rate is low after placental pollination in comparison to placental grafted style pollination of Aechmea fasciata. The data may also contribute to the improvement of in vitro fertilization methods in Bromeliaceae and other higher plants.     

The mobility of boron in plants

In order to investigate a possible remobilization of boron, tomato plants were first exposed to excessive supplies of B and thereafter transferred to B-free nutrient solutions. Almost all the gain of top biomass after this transfer consisted of the growth of pre-existing immature leaves. Little new growth occurred before severe B deficiency became apparent. Boron was moved out of stems, but there was no evidence for a transfer of B from leaf blades into new tissues at the top.Although the B concentration in roots was low after the transfer to the B-free solution, there was a manyfold increase in root biomass. Consequently, the B content of the entire root system increased.It is concluded that little B was remobilized and transported into plant tops, whereas a small but adequate amount was remobilized and transported to the roots.     

薄壳山核桃花粉离体萌发和花粉管生长特性研究

以6年生薄壳山核桃优良品种‘金华’的新鲜花粉为试材,采用离体培养法,研究了不同复水时间、不同培养基组分、不同培养温度及培养时间对薄壳山核桃花粉萌发和花粉管生长的影响。结果显示:(1)薄壳山核桃花粉萌发试验前进行4h复水处理可显著提高萌发率,萌发率可达51.78%,为对照(2.51%)的20.68倍。(2)蔗糖、H3BO3、Ca(NO3)2·4H2O在一定浓度范围内均具有促进花粉萌发和花粉管生长的作用,但浓度过高则起抑制作用。(3)正交试验结果经实验验证表明,薄壳山核桃花粉萌发和花粉管生长的最适培养基为20%蔗糖+0.02%~0.03%H3BO3+0.05%Ca(NO3)2·4H2O,最佳培养条件为25℃下恒温培养24h,此时的花粉萌发率高达74.46%,花粉管平均长度为258.84μm。     

Immature maize spikelets develop and produce pollen in culture

Immature maize spikelets have been successfully grown in vitro. Culture conditions were refined to maximize development of normal pollen grains. Kinetin was not required for normal development, in contrast to the absolute requirement for this plant growth regulator for in vitro tassel development. Development occured in all stages sampled, from premeiosis to postvacuolation, and there was no lag in progression through the various stages of development as compared to greenhouse-grown material. Cultured spikelets produced pollen that appeared morphologically normal, accumulated starch and had the normal two sperm nuclei and single vegetative nucleus.     

The control of boron accumulation by two genotypes of wheat

The mechanism of boron (B) uptake in wheat was studied using two genotypes with known differences in their ability to accumulate B. Influx and efflux of B was measured in the roots of intact 21 d old plants.Roots grown in 15 M B, when transferred to solutions containing 1mM B showed a rapid increase in B content for up to 60 min, after which no further increase was evident up to 4 h. No genotypic difference in B influx was apparent over these time periods. Roots grown in 1mM B for 7 d and then rinsed in B-free solutions quickly lost most of B that they contained within 1 hour; little further efflux was observed over the following three hours. As with the influx, no genotypic difference in B flux was evident.It is suggested that the lack of genotypic difference in the short-term B fluxes could be due to a masking effect of extracellular B bound in the cell walls of the roots.Department of Botany, University of Adelaide     

Influence of arginine,ornithine, DFMO and polyamines on division of the generative nucleus in cultured pollen tubes of <Emphasis Type="Italic">Aechmea fasciata</Emphasis> (Bromeliaceae)

During in vitro pollen tube growth of Aechmea fasciata the second pollen mitosis (PM II) that produces two sperm cells was influenced by exogenous amino acids. Arginine (Arg) as single amino acid was the limiting factor for the second mitosis of the generative nucleus and thus the formation of sperm cells in cultured pollen tubes of A. fasciata. The involvement of Arg was probably related to protein synthesis. The need for Arg was not related to polyamine (PA) biosynthesis, since PA added to the germination medium were unfavourable for sperm cell production. Both ornithine (Orn) and difluoromethylornithine (DFMO) inhibited the second mitosis in cultured pollen tubes of A. fasciata. The addition of Arg during the first 2 h of pollen germination was necessary to establish the division of the generative nucleus 6 h later.     

Cupressus arizonica pollen wall zonation and in vitro hydration

The structure of Cupressus arizonica pollen at different degrees of hydration was examined by using cytochemical staining and light (LM) and scanning electron (SEM) microscopy. Most pollen grains are inaperturate and a minority are provided with an operculate pore enveloped by a concave annulus. Intine consists of: 1) a thin polysaccharidic outer layer, 2) a large polysaccharidic middle layer that is spongy and bordered by a mesh of large and branched fibrils, and 3) an inner cellulosic thick layer with callose concentrated on the inner side, which forms a shell around the protoplast. The protoplast is egg-shaped with PAS positive cytoplasm and prominent nucleus. Exine splits during hydration and is cast off according to three major steps: 1) the split opens like a mouth and the underlying intine is expelled by swelling like a balloon, 2) the protoplast enveloped by the inner intine is sucked in the outgrowing side, and 3) the backside of the intine gets rid of the exine shell. In water containing salts, exine is rapidly released and the middle intine may expand up to break the outer layer, with disgregation of the spongy material and release of the intine shell including the protoplast. In water lacking salts, the sporoderm hydration and breaking are negatively influenced by the population effect. Pollen when air dried after the exine release become completely flat owing to disappearance of the middle intine layer which may be restored by dipping pollen in water. The results are discussed in relation to the functional potentialities of the sporoderm.     

Inoculationin vitro of wheat seedlings and wheat straw cultures withBacillus azotofixans

Bacillus azotofixans is a recently described species capable of fixing molecular nitrogen efficiently.Ecological studies performed in monoxenic wheat cultures, both in 0.7% agar and in vermiculite-sand mixture, showed that no acetylene reduction occurred and that this bacteria did not grow when supplied only with the wheat plant root exudates. However, after glucose addition to the 0.7% agar cultures, acetylene reduction ability (ARA) was detected. Comparing ARA for media with glucose both with and without plants, it was observed that the plants supply some component leading to the increase of the nitrogenase activity, since the ARA doubled in the samples containing plants.In wheat straw cultures a fast growth of the bacteria was observed in the first 24 hours after inoculation, but no acetylene reduction was detected. After glucose addition to the media with and without straw, nitrogenase activity was detected.     

In vitro differentiation of embryogenic pollen,control by cold treatment and embryo formation inab initio pollen cultures ofNicotiana tabacum var. badischer burley

Summary InNicotiana cold treatment causes differentiation of embryogenic pollen. This differentiation initiates on the plant and is completed in culture. Differentiation on the plant results in pollen dimorphism and differentiation in culture leads to pollen embryogenesis. An increased number of pollen capable of embryogenesis is possible on plants induced to flower in short days and low temperature (8 hours light, 18 °C). These embryogenic pollen on selective isolation, from buds at a petal length of 3.4±0.1 cm, fail to form embryos but do so in the cultures which receive cold treatment at 10 °C for 10 days. To some extent the differentiation of embryogenic pollen can be completed on plants induced to flower at 15 °C and embryogenic pollen from such plants form embryos at a low frequency which can be substantially increased on giving the cultures a cold treatment. The frequency of embryogenesis is higher in cultures of 15 °C plants than those of 18 °C plants. Low temperature requirements at two stages—to the plant and to the culture—are essential and complimentary for embryogenesis inab initio pollen cultures.Cold treatment causes repression of gametophytic differentiation and this results in the differentiation of embryogenic potential. The embryogenic pollen, unlike gametophytic pollen, are not fully differentiated structures. They are unable to divide and form embryos in presence of metabolic inhibitors such as actinomycin-D and cycloheximide.     

Effects of liming and boron fertilization on boron uptake of Picea abies

The effects of liming on concentrations of boron and other elements in Norway spruce [Picea abies (L) Karst.] needles and in the mor humus layer were studied in long-term field experiments with and without B fertilizer on podzolic soils in Finland. Liming (2000+4000 kg ha^-1 last applied 12 years before sampling) decreased needle B concentrations in the four youngest needle age classes from 6–10 mg kg^-1 to 5 mg kg^-1. In boron fertilized plots the corresponding concentrations were 23–35 mg kg^-1 in control plots and 21–29 mg kg^-1 in limed plots. Both liming and B fertilizer decreased the Mn concentrations of needles. In the humus layer, total B concentration was increased by both lime and B fertilizer, and Ca and Mg concentrations and pH were still considerably higher in the limed plots than controls. Liming decreased the organic matter concentration in humus layer, whilst B fertilizer increased it.The results about B uptake were confirmed in a pot experiment, in which additionally the roles of increased soil pH and increased soil Ca concentration were separated by means of comparing the effects of CaCO₃ and CaSO₄. Two-year-old bare-rooted Norway spruce seedlings were grown in mor humus during the extension growth of the new shoot. The two doses of lime increased the pH of soil from 4.1 to 5.6 to 6.1, and correspondingly decreased the B concentrations in new needles from 22 to 12 to 9 mg kg^-1. However, CaSO₄ did not affect the pH of the soil or needle B concentrations. Hence the liming effect on boron availability in these soils appeared to be caused by the increased pH rather than increased calcium concentration.     

杂交石竹授粉受精及其胚胎发育过程的观察

以‘杂交石竹’为试验材料,利用荧光显微镜观察其授粉后花粉萌发、花粉管生长情况,采用石蜡切片法对其受精及胚胎发育过程进行观察研究。结果表明:(1)授粉后1h母本柱头上少量花粉开始萌发;授粉后4h大量花粉萌发,花粉管生长至柱头中部有胼胝质出现;授粉后6h花粉管生长至子房组织并有少量与胚珠结合;授粉后15h柱头中出现大量胼胝质,花粉管与胚珠结合数增多;授粉后24h胚珠周围出现多条花粉管,其中1条花粉管进入胚珠,部分进入胚囊的花粉管卷曲盘绕生长并产生胼胝质;精细胞与极核的融合主要发生在授粉后17~48h,与卵细胞融合主要于授粉后1~3d。(2)杂交石竹胚发育经过原胚、球形胚、棒状形胚、心形胚、鱼雷形胚和子叶形胚阶段。(3)杂交障碍表现为:只有游离的胚乳核而无胚发育的胚囊、合子未分裂、两极核未融合、球形胚败育。研究表明,杂交石竹存在受精前和受精后障碍,这是导致其结实率低的主要原因。     

Effects of incubation temperature on microspore callus production and plant regeneration in wheat anther cultures

Anthers of wheat cultivars Orofen and Pitic 62 were incubated for 8 days at 15, 20, 25, 30, 35 and 40°C before transfer to 25°C. Compared with anthers cultured at 25°C constantly, anthers treated at 30°C produced 40% more microspore callus and green plants in both cultivars whereas those treated at 35°C produced 2–3 fold more green plants. Treatment at 40°C was deleterious. Possible modes of action of high temperature on callus production and albinism were discussed.     

New details on the morphology of fossil onagraceous pollen grains

Fossil onagraceous pollen grains from two Upper Miocene localities in E. Austria were investigated by LM and EM. Exine structure and sculpture as well as viscin threads suggest affinities with the extant genusCircea.     

Effect of genome, induction medium and temperature pretreatment on green plant production in durum ( Triticum turgidum var. durum ) x bread wheat ( Triticum aestivum L. em Thell) crosses

The recalcitrancy of durum wheat (Triticum turgidum var. durum) to anther culture, was attempted to be overcome by transferring the responsible genes form bread wheat B-genome to the respective on durum wheat, determining an appropriate induction medium and clarifying the necessity of cold pretreatment. For this, three durum wheat cultivars were crossed to two bread wheat (Triticum aestivum L. em Thell) cultivars. The resulting F₁ plants and their original cultivars were grown in the field and anthers at the appropriate microspore stage were cultured on potato-2 and W₁₄ media with and without low temperature pretreatment. No green plants were produced from the parental durum wheat cultivars. In contrast, green plants were produced from the F₁ plants. The best results in three of the four F₁ hybrids were recorded when potato-2 was used as induction medium. A more variable response of the examined genotypes was noticed with respect to temperature pretreatment. Regarding green plant production, a negative effect of cold pretreatment was observed in two of the F₁ hybrids when they were cultured on potato-2. Chromosome counts on root tips from the resulting green plants revealed that they all carried D-genome chromosomes. The last observation could suggest that D-genome chromosomes are necessary for anther culture response in wheat. Yet, the production of one green plant with 15 chromosomes may indicate that the development of extracted durum genotypes from bread wheat genotypes with good response to in vitro anther culture might be possible. Further work however, is needed for this to be verified.     

Differences in pollen viability in relation to different deceptive pollination strategies in Mediterranean orchids

Background and Aims

To date, current research involving pollen viability has been evaluated in a relatively low number of orchid species. In the present study, we focused on five related Mediterranean orchid genera (Anacamptis, Orchis, Dactylorhiza, Ophrys and Serapias) that are characterized by different types of deceptive pollination.

Methods

The in vitro germination ability of increasingly aged pollinaria of eight food-, seven sexually and two shelter-deceptive species was evaluated. Pollination experiments on two food-, one sexually and one shelter-deceptive species were also performed and the percentage of embryonate seeds derived from the increasingly aged pollinaria was checked.

Key Results

All of the examined species showed long-term viabilities (=50 % pollen tube growth) that ranged from 8 to 35 d. Species with the same deceptive pollination strategies exhibited the same pollen viability trends. Interestingly, pollen viabilities of species groups with different deception types have shown significant differences, with sexually and shelter- deceptive species exhibiting a shorter life span than food-deceptive species.

Conclusions

This study confirms the prolonged germination and fertilization capacities of orchid pollinaria, and to our knowledge is the first report demonstrating a clear relationship between pollen viability and pollination system. It is proposed that this relationship is attributed to the different types of reproductive barriers, pre- or post-zygotic, that characterixe Ophrys and Serapias and the food-deceptive species, respectively.     

Pollen viability assessments in blackberries (Rubus subgen.Rubus)

Pollen viability has been investigated in 20 blackberry species using 3 methods, (1) cotton blue, (2) TTC, and (3) germination in a sucrose solution. Significant differences were found between species. Correlations between high pollen viability and high seed set were also obtained.