In vitro germination and pollen tube growth of maize (Zea mays L.) pollen

Summary Pollen grains containing either theWx,wx,Su ₁,Su ₁,Sh ₂orsh ₂alleles were stored for 0, 1, 2, 3, 4 or 5 days at 2 °C. After each storage period, a portion of each genotype was cultured on a 15% sucrose, 0.6% bacto-agar, 0.03% calcium nitrate and 0.01% boric acid medium, while another portion was placed on receptive silks, the number of kernels produced being a measure of fertilization ability. Regardless of the allele present in the pollen grain, 1 day of storage greatly increased the germination percentage and significantly increased pollen tube length. After 4 days of storage, there was noin vitro germination but some fertilization ability was found. The experiment was designed so that comparisons free from genetic background effects could be made between alleles at each locus. Significant differences at each storage period and a differential response to storage were obtained at some loci for germination percentage, ruptured percentage, pollen tube length and fertilization ability. A relationship between dominance of the allele and response to storage was detected only for fertilization ability. Since alleles at these loci affect the biochemical composition of pollen grains containing them, the results suggest that differences inin vitro germination characteristics and fertilization ability may be associated with biochemical composition.Journal Series Paper No. 3950, Florida Agricultural Experiment Station.     

Effects of high humidity and temperature stress on pollen membrane integrity and pollen vigour in Nicotiana tabacum

Summary The prolonged exposure of pollen Nicotiana tabacum to high humidity at both room temperature and 38° C did not affect membrane integrity as revealed by the fluorochromatic reaction (FCR) test, but did affect pollen vigour. At room temperature germination was not affected, although tube growth was reduced; at 38° C, there was both a reduction in tube growth and delayed germination. When the pollen was subjected to 1 h hydration followed by 1 h desiccation (up to a maximum of four cycles) at room temperature, a reduction in the FCR, germination and tube length after each desiccation treatment was observed. Subsequent hydration fully restored the FCR, but only partially restored germination and tube growth. At 38° C, however, FCR, germination, and tube growth were drastically reduced. The implications of these results on the relationship between FCR and germinability, the responses of pollen exposed to humidity and temperature stress in the field, and on pollen storage are discussed.     

Short-term storage of cotton pollen

Several methods of storing cotton pollen (Gossypium hirsutum L.) were evaluated. A successful pollen storage method that maintains fertility would enhance the crossing of breeding materials. Storing pollen at ultra-low temperatures in liquid nitrogen or at 5°C was not successful. No storage method maintained pollen fertility for more than 72 h. Cotton pollen did maintain adequate fertility up to 24 h at 10 and 15°C, at both low and high humidity when the pollen was stored in the detached flowers. Minimally acceptable pollen fertility was maintained in flowers stored at 15°C at 100% R.H. for 72 h. Use of these methods will allow for better utilization of parental plants when both parents do not flower on the same days.USDA-ARS, in cooperation with the New Mexico Agricultural Experimental Station, Journal Article No. 1161, Las Cruces, NM 88003, USA     

Responses of tobacco pollen to high humidity and heat stress: viability and germinability in vitro and in vivo

Summary Responses of pollen grains of Nicotiana tabacum to high humidity (95% RH, 4 h) and temperature (38°/45° C, 4 h) stresses were investigated. Pollen grains were subjected to only RH or only temperature, or to both of these stresses. Their viability was assessed on the basis of the fluorochromatic reaction (FCR) test, and vigour was assessed on the basis of the time taken for in vitro germination as well as on the emergence of pollen tubes through the cut end of semi-vivo implanted styles. None of the stress conditions affected pollen viability and high RH or high temperature stress did not individually affect pollen vigour. However, pollen vigour was markedly affected when both the stresses were given together. Pollen grains subjected to high RH at 38° C took a longer time to germinate in vitro and the pollen tubes emerged later from the cut end of the semi-vivo styles; division of the generative cell was also delayed. Pollen grains subjected to high RH at 45° C failed to germinate in vitro, but did germinate on the stigma. Many pollen tubes subjected to this treatment showed abnormalities, and the growth of pollen tubes in the pistil was much slower than that observed in other treatments. Pollen samples subjected to all of the stress conditions were able to induce fruit and seed set. The implications of these results on the relationship between the FCR test and viability, and between viability and vigour, especially in stressed pollen, are discussed.     

Effect of Cold Treatment on the in vitro Germination and Day-to-day Variability of Maize (Zea mays L.) Pollen

Pollen from three varieties of maize, S2 x Golden Midget (HH),Early Sunglow, Luther Hill x Hayes White (LH x HW) was collectedduring a 3 month period and a portion of each day's sample wascultured immediately on a medium containing 15 per cent sucrose,300 parts/10⁶ calcium nitrate, 0.7 per cent bactoagar, pH 7.The remainder was stored at 6 °C for 24 h, after which itwas cultured on the same test medium. Storage resulted in alarge increase in germination percentage in all three varieties,and in a decrease in a day-to-day variability in HH. Increasein germination percentage after storage was inversely proportionalto the germination percentage yielded without storage. Tubelength and bursting were also influenced by storage. Zea mays, maize, corn, pollen, germination     

Survival at 20° C and cryopreservation of isolated sperm cells from Zea mays pollen grains

Summary The survival of isolated sperm cells from maize pollen grains at 20° C and their cryopreservation were studied by means of the fluorochromatic reaction (FCR) test. An osmotic pressure of 500 mOsmol, a pH of 7 adjusted with MOPS buffer, and the ten-fold dilution of Brewbacker and Kwack salts enabled isolated sperm cells to survive for a maximum of 35 h at 20° C. The addition of 3 mM of calcium chloride or 0.1 % glucose also slightly improved survival. The addition of 1% glutamine gave the best percentage of FCR-positive cells at 20 h. The addition of all of these substances in a unique medium provoked the formation of spermcell aggregates that were FCR positive. With respect to cryopreservaton, 70% of the isolated sperm cells remained FCR positive after freezing at -80° C and quick thawing at 37° C in the selected survival medium.     

Treatment of maize pollen to reduce nuclease activity

Recently it has been reported that maize (Zea mays L.) pollen can be stored up to several hours in a hypertonic aqueous medium at 0°C without losing its germinability (Broglia and Brunori 1994). We found that both release and activity of pollen nucleases are diminished in a cold hypertonic aqueous medium. Nucleases can be washed off while preserving germination ability and thus preserving the possibility of passive uptake of exogeneous DNA into germinating pollen grains. Alternatively, active DNA transfer into non-germinating pollen grains in the storage medium itself may be facilitated, due to the very reduced nuclease activity in this medium.     

Pollen viability and pollen vigor

Summary Investigations were carried out to correlate pollen viability, assessed on the basis of a fluorochromatic reaction (FCR) test, with pollen vigor, assessed on the basis of the time taken for in vitro germination in pollen grains subjected to high humidity (>95% RH) and temperature (38 °C) or storage stress of Nicotiana tabacum, Agave sp., Tradescantia virginiana, and Iris sp. Both high RH and temperature, as well as storage stresses, affected pollen vigor before affecting pollen viability. The results are discussed in the light of available data on the viability and vigor of stressed pollen and of aged seeds. The need for consideration of pollen vigor, particularly in stored pollen, the inadequacy of the methods presently used, and some of the methods suitable to assess pollen vigor are elaborated.     

Seed set,pollen morphology and pollen surface composition response to heat stress in field pea

Pea (Pisum sativum L.) is a major legume crop grown in a semi‐arid climate in Western Canada, where heat stress affects pollination, seed set and yield. Seed set and pod growth characteristics, along with in vitro percentage pollen germination, pollen tube growth and pollen surface composition, were measured in two pea cultivars (CDC Golden and CDC Sage) subjected to five maximum temperature regimes ranging from 24 to 36 °C. Heat stress reduced percentage pollen germination, pollen tube length, pod length, seed number per pod, and the seed–ovule ratio. Percentage pollen germination of CDC Sage was greater than CDC Golden at 36 °C. No visible morphological differences in pollen grains or the pollen surface were observed between the heat and control‐treated pea. However, pollen wall (intine) thickness increased due to heat stress. Mid‐infrared attenuated total reflectance (MIR‐ATR) spectra revealed that the chemical composition (lipid, proteins and carbohydrates) of each cultivar's pollen grains responded differently to heat stress. The lipid region of the pollen coat and exine of CDC Sage was more stable compared with CDC Golden at 36 °C. Secondary derivatives of ATR spectra indicated the presence of two lipid types, with different amounts present in pollen grains from each cultivar.     

In vitro pollen embryogenesis in Nicotiana tabacum L. and its relation to pollen sterility,sex balance,and floral induction of the pollen donor plants

Pollen sterility, sex balance, and floral induction of the pollen donor plants were tested for a possible relation to embryogenesis from in vitro cultured tobacco pollen (Nicotiana tabacum L. var. Badischer Burley). The pollen grains destined to become embryos in culture (P-grains) were sterile for the donor plants as judged by their staining reaction with acetocarmine and fluorescin-diacetate, and by an in vitro germination test. They were produced in high frequency in flowers which exhibited a shift in sex balance towards femaleness. Sex balance could be measured by the relative length of pistil to stamens. High P-grain frequency, high pollen sterility, and a shift in sex balance towards femaleness could be induced by raising the donor plants under short days and/or low temperature (18–15° C) as compared to long days at 24° C. Short days and/or low temperature also reinforced floral induction, revealing that the tobacco variety Badischer Burley is a quantitative short day and low temperature plant and that the variety follows the rule that conditions of strong floral induction shift sex balance towards femaleness. At 12° C and short days, contabescent flowers were formed with completely sterile anthers containing a few and mostly collapsed P-grains. Based on these results, it is now possible to predict conditions by which haploids via pollen embryogenesis might be produced in high frequency from low-yielding and recalcitrant species.Abbreviations DPF dead pollen grain frequency - LD24 long days at 24° C - PD pollen dimorphism - P:S ratio of pistil to stamen length - SD15 short days at 15° C     

In vitro germination and transient GFP expression of American chestnut (Castanea dentata) pollen

The development of the male reproductive structures of American chestnut (Castanea dentata) is described to advance our understanding of its reproductive behavior. This information has been vital in the development of a strategy to collect pollen grains from male catkins suitable for in vitro germination and transformation experiments. Cutting male catkins into small segments and rolling them over a culture plate resulted in evenly dispersed and large amounts of pollen with minimal unwanted accessory floral parts. To optimize pollen viability, the effect of various storage conditions on in vitro germination was examined. Our results showed that initial storage at 4°C for 2 weeks significantly increased percent germination as compared to freshly collected pollen and those stored directly at −20°C or −80°C. This also means that for long-term storage of American chestnut pollen, the catkins should first be kept at 4°C for a couple of weeks and then at −80°C. The use of pollen grains with high viability is necessary for the transformation of American chestnut pollen. To optimize pollen transformation via particle bombardment, the effects of target distance, target pressure, and pollen developmental stage were examined. Statistical analysis showed that bombardment of ungerminated pollen at 1,100 psi resulted in the highest percent transient GFP expression (4.1%).     

Testing the age and viability of airborne pollen

To study the aerobiological processes directly, it is important to differentiate between fresh and older pollen grains. Different methods were tested for this purpose using birch (Betula) pollen. Simple general stains stained also dead grains. More specific histochemical techniques (nitro blue tetrazolium and isatin) stained a high percentage of the grains even after eight days, although most of the germination ability was lost already in 2–3 days. Of the methods tried, the in vitro germination test was thus the most sensitive in differentiating between fresh and older pollen grains. To test the germination ability of airborne pollen it was collected by a suction pump on filters. Sectors of filters were incubated on a thin layer of agar on objective glasses in moist Petri dishes in +30°C for 24 hours. The germination ability was presumed to vary during the pollen season, but this was not found in this preliminary study. The diurnal variation in germination ability was clear. During or near diurnal peak concentrations the percentage of germination ability significantly higher than during diurnal minima and during intermediate concentrations.     

Effects of pollen competitive environment on pollen performance in Mirabilis jalapa (Nyctaginaceae)

 We examined the influence of pollen competitive environment on pollen performance in Mirabilis jalapa. We used the number of pollen grains and the number of pollen tubes per pistil as measures of pollen competition. Pollen germination, pollen tube penetration into the style, and pollen tube growth rates were used as measures of pollen performance. All three measures of pollen performance were affected by the competitive environment. Pollen germination was greatest at intermediate pollen load sizes. The percentage of germinated pollen grains that penetrated the stigma and grew into the style decreased with pollen load size. Pollen tube growth rate in the style was greater and more variable with larger numbers of pollen tubes in the style. Controlling for the degree of selection at the stigma indicated that pollen-pollen or pollen-style interactions were the likely causes of increased growth rates. Received: 28 October 1996 / Revision accepted: 24 January 1997     

The in vitro germination and storage characteristics of Keteleeria fortunei var. cyclolepis pollen provide a reference for cross breeding

Keteleeria fortunei var. cyclolepis is an ideal tree species for mountain afforestation, timber forests, and landscaping. Its pollination process can be affected by the rainy season, making it difficult to pollinate the massive female cones, which leads to a high abortion rate and low quality of seeds. Here, we observed the pollen morphology of K. f. cyclolepis using scanning electron and light microscopes, investigated the characteristics of its in vitro germination by the detached method, and explored the effect of different storage temperatures and times on the pollen germination rate and the activity of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT). Our results indicated that the pollen of K. f. cyclolepis is a five-cell pollen, comprising one noumenon and two air sacs, both of which were oval in polar view. The optimal condition for pollen germination of K. f. cyclolepis was 240 g/L sucrose + 70 mg/L CaCl₂ + 210 mg/L H₃BO₃ at 24 °C and pH 6.0, resulting in a germination rate of 45.0%. The effects of different storage temperature and time on pollen germination rate varied significantly. The best storage temperature was − 80 °C, at which the germination rate was 20.9% after 365 days of storage, and the activity of three protective enzymes remained relatively high, representing relatively strong antioxidation and antiaging activity. Stepwise regression analysis showed that SOD was the main factor affecting the pollen germination rate of K. f. cyclolepis. The function of the three protective enzymes differed under various temperatures, for example, SOD served as a sensitive protective enzyme at room temperature, − 20 °C and − 80 °C, whereas both SOD and CAT served as sensitive protective enzymes at 4 °C.

     

Androgenesis in isolated pollen cultures ofNicotiana tabacum: Dependence upon pollen development

Summary The influence of the stage of pollen development and of the growth conditions of donor plants on the performance of cultures of isolated pollen fromNicotiana tabacum, var. Badischer Burley has been studied. The method described includes cold treatment (4–5 °C for 3 days) and a pre-culture of the anthers for 7 days at 24 °C before the pollen is isolated. With this system reproducible results were obtained with pollen at the early binucleate stage collected from plants 11–13 weeks old. Another prerequisite for reproducibility is that the donor plants must have been grown for eight weeks in soil with an additional supply of mineral salts. Furthermore, the production of haploids by these pollen cultures was strongly influenced by the photoperiodic and temperature regime experienced by the donor plants; it was best (0.07%) with pollen from short-day plants (8 hours light per day at 18 °C) and rather weak (0.015%) with pollen from long-day plants (16 hours light per day at 24 °C). In contrast to other reports, haploid production from anther cultures was not influenced by the photoperiod or temperature.Cytological studies undertaken at the end of the pre-culture period showed that there were no differences in the percentage of potential embryos for the stages of the late uninucleate, 1. pollen mitosis and early binucleate pollen of long-day plants (1.5%). This value was considerably higher with pollen from short-day plants (7–9%), indicating that short-day conditions at 18 °C of the donor plants are favourable for the induction of androgenesis. However, only the potential embryos formed by the pollen at the initial binucleate stage were able to continue androgenetic development after isolation.     

Heat-shock response in germinating pine pollen

Summary The in vitro culture of pine pollen at various temperatures reveals only a moderate degree of thermotolerance, with considerably reduced levels of growth at and above 35° C. Unlike the pollen of many previously studied species, pine pollen shows some ability to recover from short periods of growth at temperatures as high as 40° C, especially when such exposures occur during the early stages of pollen germination. The pollen of Pinus taeda, unlike that of most other species, shows both quantitative and qualitative changes in the proteins synthesized during germination in vitro following a switch to elevated temperatures (37° C). This response, which can be elicited both during the very early stages of germination as well as during the later stages of pollen tube growth, is reversible following a shift back to the lower temperatures. As previously shown with vegetative tissue of other plant species, the heat-shock response not only involves the induction of high-molecular-weight proteins (most notably 82 kDa and 70 kDa proteins), but also a number of low-molecular-weight (10–20 kDa) species. Two-dimensional gel electrophoretic analysis reveals a small number of qualitative differences in the types of low-molecular-weight heat-shock proteins synthesized in pollen versus vegetative tissue.     

In vitro Arabidopsis pollen germination and characterization of the inward potassium currents in Arabidopsis pollen grain protoplasts

The focus of this study is to investigate the regulatory role of K(+) influx in Arabidopsis pollen germination and pollen tube growth. Using agar-containing media, in vitro methods for Arabidopsis pollen germination have been successfully established for the first time. The pollen germination percentage was nearly 75% and the average pollen tube length reached 135 microm after a 6 h incubation. A decrease in external K(+) concentration from 1 mM to 35 microM resulted in 30% inhibition of pollen germination and 40% inhibition of pollen tube growth. An increase in external K(+) concentration from 1 mM to 30 mM stimulated pollen tube growth but inhibited pollen germination. To study how K(+) influx is associated with pollen germination and tube growth, regulation of the inward K(+) channels in the pollen plasma membrane was investigated by conducting patch-clamp whole-cell recording with pollen protoplasts. K(+) currents were first identified in Arabidopsis pollen protoplasts. The inward K(+) currents were insensitive to changes in cytoplasmic Ca(2+) but were inhibited by a high concentration of external Ca(2+). A decrease of external Ca(2+) concentration from 10 mM (control) to 1 mM had no significant effect on the inward K(+) currents, while an increase of external Ca(2+) concentration from 10 mM to 50 mM inhibited the inward K(+) currents by 46%. Changes in external pH significantly affected the magnitude, conductance, voltage-independent maximal conductance, and activation kinetics of the inward K(+) currents. The physiological importance of potassium influx mediated by the inward K(+)-channels during Arabidopsis pollen germination and tube growth is discussed.     

Response of in vitro pollen germination and pollen tube growth of almond (Prunus dulcis Mill.) to temperature,polyamines and polyamine synthesis inhibitor

Prunus dulcis L. ‘Mamaei’ is grown widely in souhtwest of Iran. It blooms in early spring when temperatures are still low. Based on our knowledge there are no reports in the literature regarding pollen behavior of this cultivar under specified condition. Thus, the possible factors for low germination percentage in this cultivar have not been reported. The effect of three different temperatures (10, 25, or 35 °C), polyamines (putrescine, spermidine, and spermine) and polyamine synthesis inhibitor, methylglyoxals-bis (guanyl-hydrazone) (MGBG) on in vitro pollen germination and pollen tube growth were investigated in P. dulcis L. ‘Mamaei’. All temperatures and chemicals significantly affected both pollen germination percentage and pollen tube growth. In general, different polyamines stimulated the pollen germination percentage compared to the control at all temperatures, but increasing the temperature, particularly to 35 °C, had demonstrated inhibitory effects on pollen germination. At a concentration of 0.05 mM putrescine and spermidine and 0.005 and 0.025 mM spermine revealed longer pollen tube growth than that of the control at 10 °C, while higher concentrations tended to inhibit pollen tube growth. At 25 °C, most of the treatments had an inhibitory effect on pollen tube growth except for 0.25 mM putrescine and 0.005 mM spermine, which slightly stimulated pollen tube growth. Pollen germination and pollen tube growth were inhibited by MGBG at all temperatures and in all concentrations.     

Longevity and temperature response of pollen as affected by elevated growth temperature and carbon dioxide in peanut and grain sorghum

It is important to understand the effects of environmental conditions during plant growth on longevity and temperature response of pollen. Objectives of this study were to determine the influence of growth temperature and/or carbon dioxide (CO₂) concentration on pollen longevity and temperature response of peanut and grain sorghum pollen. Plants were grown at daytime maximum/nighttime minimum temperatures of 32/22, 36/26, 40/30 and 44/34 °C at ambient (350 μmol mol⁻¹) and at elevated (700 μmol mol⁻¹) CO₂ from emergence to maturity. At flowering, pollen longevity was estimated by measuring in vitro pollen germination at different time intervals after anther dehiscence. Temperature response of pollen was measured by germinating pollen on artificial growth medium at temperatures ranging from 12 to 48 °C in incubators at 4 °C intervals. Elevated growth temperature decreased pollen germination percentage in both crop species. Sorghum pollen had shorter longevity than peanut pollen. There was no influence of CO₂ on pollen longevity. Pollen longevity of sorghum at 36/26 °C was about 2 h shorter than at 32/22 °C. There was no effect of growth temperature or CO₂ on cardinal temperatures (T_min, T_opt, and T_max) of pollen in both crop species. The T_min, T_opt, and T_max identified at different growth temperatures and CO₂ levels were similar at 14.9, 30.1, and 45.6 °C, respectively for peanut pollen. The corresponding values for sorghum pollen were 17.2, 29.4, and 41.7 °C. In conclusion, pollen longevity and pollen germination percentage was decreased by growth at elevated temperature, and pollen developed at elevated temperature and/or elevated CO₂ did not have greater temperature tolerance.     

Storage of pollen grains of Crotalaria retusa in oils

Summary Attempts were made to store pollen grains of Crotalaria retusa L. in a mineral oil (paraffin oil) and two vegetable oils (soybean oil and olive oil). Under laboratory conditions pollen grains not stored in oil lost in vitro germinability within 15–30 days, while those stored in oils maintained some degree of germinability even after 60 days. Pollen samples stored in oils at –20° C did not show any decline in germinability or pollen tube vigour even after 6 months of storage. The results amply demonstrate the feasibility of using oils for short- and long-term pollen storage.