Modelling frost resistance of Scots pine seedlings using temperature,daylength and pH of cell effusate

The annual course of frost resistance (LT₅₀) and the pH of the cell effusate in needles of two-year-old Scots pine seedlings were monitored in a field experiment in Oulu, Northern Finland (65° N, 25° E) during 1995. The aim of the work was to to develop model to predict the annual variation in frost resistance by pH of the cell effusate and meteorological data. The seedlings were covered with a fibre cloth shelter which transmitted sufficient light for them to experience the photoperiod, but prevented the accumulation of snow over them. The shelter above the seedlings was removed at the beginning of May and erected again at the end of September. The seedlings were watered only for the time when the shelter was removed, and received fertilizer only during the previous summer (1994).Frost resistance was only -5° C during the growing season but more than -100° C during the winter rest period. It was about -10° C at the end of August, increased to -55° C in the next three weeks, and reached -100° C at the beginning of October. The pH of the cell effusate was lowest during the growing season and highest in winter, the difference being about one and half pH unit. Needles exposed to -196° C showed pH from 4.0 in summer to 5.5 in winter, while pH of the non-frozen needles varied from 5.0 to 6.5, respectively. Seasonal variation in frost resistance was explained by a regression model well (R² = 0.9) when day length, minimum air temperature and pH were entered as variables.     

Regulation of the loss of frost hardiness in Pinus radiata by photoperiod and temperature

Abstract. In controlled environments, the interactive effects of warm (16: 8°C, day: night) and cool (12: 4°C, day: night) temperatures and long (13.5 h) and short (10 h) photoperiods on the dehardening of seedlings of Pinus radiata D. Don were investigated. In another experiment, the effect of four photoperiods from 9 to 14 h was examined. In a third, dehardening at constant temperatures from 5 to 17°C was followed. There was no evidence for an interaction between photoperiod and temperature. Dehardening was temporarily delayed by photoperiods below about 10 h, but there was no other quantitative effect of photoperiod. At constant temperatures, the rate of dehardening was initially constant but declined as the minimum summer frost hardiness was reached. In the initial phase the rate of dehardening was a linear function of temperature, increasing from 0.05°C day⁻¹ at 8°C to 0.30 °C day⁻¹ at 17°C. Temperature controlled the loss of frost hardiness by regulating the rate of dehardening.     

The effect of photoperiod and temperature on growth and frost resistance of winter rye root systems

Root growth, development and frost resistance were examined in winter rye ( Secale cereale L. cv. Puma) plants grown under 6 combinations of temperature and photoperiod (20/16°C or 5/3°C, day/night; 8, 16- or 24-h days). Overall root system growth is influenced by the interaction of temperature and photoperiod. Maximum shoot growth occurs at a 24-h photoperiod in 20°C plants and at a 16-h photoperiod in 5°C plants, and is correlated in both treatments with a high root:shoot ratio. Frost resistance of rye roots is affected by short photoperiods in 2 ways. First, short photoperiod and low temperature delay production of new adventitious roots so that newly developing roots are not exposed to freezing temperatures. Second, short photoperiod alone can induce several degrees of frost tolerance in existing roots during the lag phase of growth. Low temperature alone does not decrease the rate of dry weight accumulation in rye root systems, but cold temperature does retard developmental processes within the roots. Rye roots grown at 5°C develop first order lateral roots, differentiate metaxylem vessels and suberize endodermal cell walls more slowly than roots grown at 20°C.     

Elevated atmospheric [CO2] promotes frost damage in evergreen tree seedlings

Growth under elevated [CO₂] promoted spring frost damage in field grown seedlings of snow gum ( Eucalyptus pauciflora Sieb. ex Spreng.), one of the most frost tolerant of eucalypts. Freezing began in the leaf midvein, consistent with it being a major site of frost damage under field conditions. The average ice nucleation temperature was higher in leaves grown under elevated [CO₂] (– 5·7 °C versus – 4·3 °C), consistent with the greater incidence of frost damage in these leaves (34% versus 68% of leaves damaged). These results have major implications for agriculture, forestry and vegetation dynamics, as an increase in frost susceptibility may reduce potential gains in productivity from CO₂ fertilization and may affect predictions of vegetation change based on increasing temperature.     

Cold-deacclimation of oilseed rape (Brassica napus var. oleifera) in response to fluctuating temperatures and photoperiod

The aim of this work was to establish the role of factors that may trigger elongation growth in the dehardening response, namely temperature during daylight, photoperiod and vernalization. Fully cold-acclimated seedlings of winter (with incomplete vernalization) and spring oilseed rape were subjected to deacclimation under temperatures of 2/12, 12/2, 12/12, 12/20, 20/12 and 20/20 degrees C (day/night) and a 12 h photoperiod. Plants were also deacclimated under photoperiods of 8 and 16 h at constant temperatures of 12 and 20 degrees C. After deacclimation, plants were subjected to reacclimation. Results suggest that the level of growth activity induced during deacclimation affects both the deacclimation rate and the capacity for reacclimation. Deacclimation is fully reversible if it is not accompanied by induction of elongation growth. In such cases the rate of the decrease in freezing tolerance depends on the mean temperature of deacclimation. Deacclimation becomes partially or completely irreversible when it is connected with promotion of elongation growth. The stimuli triggering elongation growth during deacclimation may be the growth-promoting temperature (20 degrees C) during the day and the lack of vernalization blockage of elongation growth. When elongation growth was stimulated by other factors such as long-day treatments, rehardening was also disturbed.     

Does availability of potassium affect cold hardening of Scots pine through polyamine metabolism?

The effect of different potassium availability on the polyamines and frost resistance of Scots pine seedlings ( Pinus sylvestris L.) during cold hardening was studied. Scots pine seedlings were grown applying different rates of potassium by using the relative addition rate technique followed by a 2- or 9-week hardening period with decreased light intensity, day length and temperature. After 2 weeks of treatment the seedlings were not hardened (LT₅₀, =−11°C) and showed no differences in frost resistance, although differences in the polyamine levels between the K levels were observed. After 9 weeks of hardening the seedlings at the low, medium and high K levels showed a mean frost resistance (LTs.₅₀) of −81, −63, and −47°C, respectively. A negative effect of K on the frost resistance of the needles was also found in adult trees in September. The results indicate that at the early stage of cold hardening, potassium or free polyamine levels do not affect the frost resistance of Scots pine needles. However, in hardened seedlings and adult trees potassium displays a negative and putrescine a positive correlation with frost resistance, whereas spermidine and spermine show no correlation.     

Soluble proteins and dehydrins in nitrogen-fertilized Scots pine seedlings during deacclimation and the onset of growth

Deacclimation of Scots pine ( Pinus sylvestris ) in northern Finland (65°N) was studied from the perspective of protein metabolism, which was related to nitrogen fertilization. Two-year-old seedlings were fertilized with calcium ammonium nitrate (0, 442 and 884 kg N ha⁻¹) in the summer prior to the study. Needles were harvested for analyses at 3-week intervals during the natural deacclimation period from mid-March to the beginning of June 1998. Deacclimation was followed by monitoring various physiological variables: freezing resistance decreased and osmotic potential increased during the experiment and needle dry weight increased from bud flushing onwards. The concentration of soluble proteins in needles was higher in fertilized seedlings but decreased transiently in the 884 kg N ha⁻¹ fertilized seedlings before budbreak. The abundance of several small polypeptides (17–32 kDa) decreased in the spring. A 60-kDa protein, identified by immunoblotting as a dehydrin, was detected in all treatments. The quantity of this dehydrin decreased with resumption of growth, along with the appearance of 50- and 56-kDa dehydrins. The concentration of these dehydrins decreased during dehardening more rapidly in fertilized seedlings than in the control plants. The fertilized seedlings started to grow earlier than the unfertilized plants. In conclusion, nitrogen fertilization provided good reserves for new growth but did not affect deacclimation of pine needles.     

Resistance of Phaseolus species to ice crystallization at subzero temperature

Dry bean ( Phaseolus vulgaris L.) cultivars possess little or no freezing tolerance and are killed at the temperature of ice formation in their tissues. An increase in frost tolerance by 2–3°C would expand dry bean production in the short growing seasons of the Canadian prairies and possibly to higher altitudes in the tropics where episodic frosts occur during the growing season. The objective of this study was to determine the differences in frost resistance of Phaseolus species in both controlled and field environments. Leaflets of dry bean cv. CDC Nighthawk, and wild relatives from the primary gene pool ( P. vulgaris var. mexicanus Freytag and P. vulgaris var. aborigineus (Burkart) Baudet) and the tertiary gene pool ( P. acutifolius var. tenuifolius A. Gray, P. filiformis Bentham, P. angustissimus A. Gray and P. ritensis M.E. Jones) were subjected to subzero temperatures with and without ice nucleation to determine the levels of tolerance and avoidance, respectively. The lethal temperature at which 50% of the leaflets were killed (LT₅₀) was 0.5–1°C lower for species of the tertiary gene pool compared to those from the primary gene pool. Leaflets of species from the tertiary gene pool were also characterized by extensive supercooling compared to leaflets of species from the primary gene pool. Resistance of Phaseolus species to spring and autumn frosts were determined on seedlings transplanted to the field. Phaseolus angustissimus , a species of the tertiary gene pool had the highest seedling survival in response to both autumn and spring frosts, when the minimum air temperatures were −5 and −7°C, respectively. Frost resistance of Phaseolus angustissimus , if successfully introgressed into bean germplasm, may enable the development of frost resistant dry bean cultivars.     

Partial purification and characterization of phospholipase C from Yersinia enterocolitica

About 34% of the strains of Yersinia enterocolitica isolated from raw milk were found to produce lecithinase. A selected strain produced phospholipase C at 22°C and 37°C; production was optimum at 37°C in the stationary phase (14–16 h). A decrease in phospholipase C activity at various storage temperatures (—5°C, 4°C, 37°C) was also observed, although the enzyme was active over a wide range of temperature (5–65°C) and pH (3mD5–7mD5). The phospholipase C was partially purified by ammonium sulphate precipitation and Sephadex column chromatography, and characterized.     

温度变化对油菜及其伴生杂草种苗生长和幼苗生理特性的影响

以目前大面积栽培的甘蓝型油菜(Brassica napus) ‘秦优10号’和其田间常见的8种杂草播娘蒿(Descurainia sophia)、泽漆(Euphorbia helioscopia)、野燕麦(Avena fatua)、棒头草(Polypogon fugax)、婆婆纳(Veronica didyma)、看麦娘(Alopecurus aequalis)、灰绿藜(Chenopodium glaucum)、反枝苋(Amaranthus retroflexus)为试验材料, 利用人工气候培养箱控温, 研究了10 ℃/5 ℃ (昼/夜)、18 ℃/10 ℃、25 ℃/20 ℃、35 ℃/30 ℃、40 ℃/35 ℃不同温度幅度处理对它们的发芽势、发芽率、幼苗形态及生理指标的影响, 旨在为预测气候变化环境下油菜田恶性靶标杂草的演替趋势提供参考依据。试验结果表明: 不同供试杂草对温度变化表现出明显的适应性差异, 看麦娘、灰绿藜和反枝苋的最适萌发温度偏高, 如反枝苋在高温处理(40 ℃/35 ℃)下种子的发芽率达到最高(91%); 而播娘蒿、泽漆、野燕麦、棒头草、婆婆纳种子的最适萌发温度主要集中于10-18 ℃范围内。进一步测试研究表明, 高温处理(40 ℃/35 ℃)下, 反枝苋幼苗生长旺盛, 体内丙二醛的积累也明显低于低温(10 ℃/5 ℃)处理, 可溶性糖和可溶性蛋白含量以及保护酶活性也较高, 表明反枝苋对高温胁迫有较好的适应性, 灰绿藜对高温的响应与反枝苋相似, 在高温气候年份, 要严防这2种草害加重; 而在低温处理(10 ℃/5 ℃)下, 野燕麦的种子萌发率达到100%, 其幼苗生长旺盛, 体内可溶性糖和可溶性蛋白含量及保护酶活性较高, 播娘蒿对低温胁迫的响应类似于野燕麦, 因此在寒冷年份需加强对野燕麦和播娘蒿草害的预防。供试油菜品种相对于所有供试杂草对温度变化的适应性更好, 其种子在不同温度处理下均保持较稳定的高发芽率, 且幼苗长势良好, 表明‘秦优10号’是一个对温度变化适应性很好的油菜品种。     

Proteolytic activity from a thermophilic Streptomyces megasporus strain SDP4

Multiple proteases secreted by a thermophilic actinomycete Streptomyces megasporus SDP4 after 18 h of growth at 55 °C are reported. The enzyme preparation exhibited activity over a broad pH and temperature range of pH 6–12 and 25–85 °C, respectively. Optimum activity was observed at pH 8·0, pH 10·0 and 55 °C and was calcium independent. Thermostability was enhanced in the presence of 0·01 mol l⁻¹ calcium ions and half-life was 30 min at 85 °C. The enzyme was active in the presence of SDS. Both, EDTA and PMSF were partially inhibitory, indicating the presence of serine and metal requiring proteases. Three active zones in the range of 90–30 kDa were detected post-electrophoretically.     

Variation in freezing tolerance,water content and carbohydrate metabolism of floral buds during deacclimation of contrasting blackcurrant cultivars

As a result of climate change, temperature patterns are expected to become increasingly irregular with longer and more frequent episodes of unseasonable warm spells during the winter season. Warm spells may promote premature loss of freezing tolerance and bud burst in woody perennials, thereby increasing the risk of tissue damage by subsequent frosts. This study investigated the variation in kinetics of deacclimation and bud break and associated changes in carbohydrate metabolism and water status in floral buds of six blackcurrant (Ribes nigrum) cultivars in response to a simulated warm spell (16/11 °C day/night). In three of the cultivars, the rate of deacclimation showed an almost logarithmic course, whereas the other three cultivars exhibited greater deacclimation resistance and a sigmoid deacclimation pattern. The timing and rate of bud development, and their relationship with deacclimation varied greatly amongst cultivars, indicating genotypic variation in time-dependent responses of freezing tolerance and bud break to warm temperatures. In all six cultivars, deacclimation and growth resumption were strongly associated with rehydration. In contrast, changes in carbohydrate metabolism were mostly associated with deacclimation. Evaluation of phenological responses of the same cultivars under field conditions showed that cultivars which were fast flushing in response to an experimental warm spell also exhibited early bud break under natural conditions, indicating that cultivar differences in phenological responses are consistent under different temperature conditions.     

Gravitropic response of primary maize rootlets as influenced by light and temperature

Abstract. The gravitropic curvature of primary maize rootlets was measured as a function of temperature, both in the presence and absence of light. In two different cultivars, light strongly increased the downward curvature of roots developing from horizontally-oriented embryos. At 15–20°C, the bending angle was in the range of 70–80° in the light, and 25–50° in the dark, depending on the cultivar. When the temperature was increased above the 15–20°C range, marked differences were found between the two cultivars in their response to light. In one variety tested, JX180, the effect of light was relatively small at 30–35°C. Gravitropic curvature in another variety, Halamish, depended strongly on light throughout the temperature range tested. In both cultivars, gravitropic curvature was only slightly temperature dependent when germination and growth were in total darkness. In the dark, the extent of gravitropic curvature also depended on whether the kernels were oriented with their embryos facing upwards or downwards. Under continuous light, the gravitropic bending of roots of cultivar Halamish did not show a marked temperature dependence. When the seedlings were subjected to only a 15 min illumination, their gravitropic response was partial, and the dependence on temperature somewhat increased. In cultivar JX180, a combination of temperature and light modulates gravitropism. The gravitropic response of different maize cultivars thus differs considerably in its combined dependence on light and temperature.     

Vegetative growth and frost hardiness of cloudberry (Rubus chamaemorus) as affected by temperature and photoperiod

The effect of photoperiod and temperature on growth and induction and development of frost hardiness in cloudberry ( Rubus chamaemorus L.) was examined in two experiments. The photoperiods were 8, 12 or 24 h and the temperatures were 18, 15, 12, 9, 4, 3, –3 or –4°C depending on the experiment. The level of hardiness was expressed as LT₆₆ or LT₅₀ (the lethal temperature for 66 or 50% of the plant material) for percentage of bud break and for the degree of coloring by triphenyltetrazolium chloride for rhizomes. The vegetative growth was clearly affected by daylength; petiole elongation, leaf growth, shoot dry weight and number of shoots per plant were all reduced under short days compared with long days. However, the photoperiod had no significant effect on hardening of buds or rhizomes. Hardening increased with successively decreasing temperatures. To get the maximum hardiness, plants had to be exposed to freezing temperatures.     

Opposite effects of temperature on breaking of dormancy and on induction of frost resistance in apple embryos

Apples ( Pyrus mains L., ev. Golden Delicious) were placed at 0, 12 and 35°C. At different intervals, seeds were taken from fruits, and the ability of isolated embryos to germinate was determined. In parallel, the survival of similar embryos frozen for 30 min at -7°C was estimated. Storage of apples at 0°C led to complete removal of embryo dormancy within ca 10 weeks. At 12°C, dormancy was only partly eliminated, and at 35°C breaking of dormancy did not occur. The onset of secondary embryo dormancy was thus evident as the result of 35 and 12°C treatments. On the other hand, the storage of apples at 35°C was the most effective treatment for induction of frost resistance in the embryos. At 12°C the same level of frost resistance was reached much slower. Even a prolonged storage of apples at 0°C did not allow frost survival of all embryos. The above relations were confirmed in experiments with transfer of fruits from one temperature of storage to another. The temperature of fruit storage affected the dormancy removal in embryos and induction of resistance to rapid freezing in opposite directions.     

Frost tolerance in cell cultures of potato

Different methods of freezing and of estimating frost damage in cell cultures of Solanum tuberosum L. and a number of wild Solanum species were compared. Frost-killing temperatures (FKT, i.e. the temperature resulting in 50% of the maximum possible frost damage) in leaves of these species were -6°C ( S. acaule ), 5°C ( S. me-gistacrotobum ), -4.5°C ( S. commersonii ) and -3°C ( S. polytrichon and S. tubero-sum ) No appreciable species differences were found in FKT when cells were submerged in either buffer or medium and frozen. However, differences did exist when cells were frozen in a non-submerged condition: S. acaule and S. commersonii callus were more sensitive to frost than suspensions, whereas suspensions of the other species were the most sensitive. Measurement of freezing damage by either electrolyte leakage or by 2,3,5-triphenyltetrazolium chloride viability assays revealed similar FKT values. Cell cultures of S. acaule showed better frost tolerance than S. tuberosum (FKT values were -4.5 to -6°C and -2.5°C. respectively), however, frost tolerance of S. megistacrolobum and S. commersonii was only poorly expressed at the cell level (FKT values were between -2 and -3°C). Variant cell lines previously selected for resistance to the amino acid analogues hydroxyprotine, aminoethylcysteine and 5-methyhryptophan appeared to be more tolerant to frost than the wild type S. tuberosum clone.     

Phytochrome action and frost hardening in black spruce seedlings

Black spruce [ Picea mariana (Mill.) B.S.P.] development is sensitive to photoperiod. To date the implication of photoperiod, and especially phytochrome, in the frost hardening process of black spruce has not been fully tested. Two light fluence rates, night interruption of darkness, and red vs far-red radiation treatments were applied to black spruce seedlings, followed by freezing at –6°C. Parallel to the freezing test, growth measurements, bud formation and the xylem water potential estimates of the seedlings were done. While dry weight accumulation depends on the irradiation energy level, bud formation and freezing tolerance are photoperiodically sensitive. Furthermore, bud formation and frost hardening are dependent upon whether phytochrome is in the active form or inactive form, as demonstrated by the positive effect of short days, far-red radiation and the reversal of the red effect by far-red radiation. Also, xylem water potential appears to be influenced by short day and far-red conditioning.     

Diapause induction and coloration in the Senegalese grasshopper, Oedaleus senegalensis

Abstract. Embryonic diapause induction in the Senegalese grasshopper, Oedaleus senegalensis Krauss (Orthoptera: Acrididae), is influenced both by the photoperiod and the temperature experienced by females. High temperatures (40°C) and long photoperiods (LD 14:10h), which characterize the beginning of the rainy season in the Sahel, cause non-diapausing eggs to be laid. Lower temperatures (25°C) and shorter photoperiods (LD 12:12h), which occur at the end of the rains, result in the production of diapausing eggs. At 30°C and constant photoperiods, O. senegalensis exhibited a long-day-short-day response with critical photoperiods of c. 13 h and c. 20 h, only the former value being of ecological significance. The photoperiodically sensitive stages to diapause induction in females occurred from the fifth stadium onwards. Temperature also affected the coloration of both nymphs and adults. Dark-black and pale-white individuals were produced by low (25°C) and high (40°C) temperatures respectively, whereas an intermediate temperature (30°C) produced individuals which were greyish brown. These results are discussed in relation to the ecology of O. senegalensis.     

Effects of Temperature on Germination of Peronospora parasitica Conidia and Infection of Brassica oleracea

The effect of temperature on germination of a South African isolate of Peronospora parasitica , and infection of Brassica oleracea was studied. The optimum condition for germination was 20° C at 100% relative humidity. The percentage germination obtained was 80–98% and 70–80% between 15 and 25° C at 100% relative humidity, after a 12 and 6h incubation period, respectively. Optimum temperature for germ tube growth was also 20° C. The temperature range for maximum infection of seedlings of a highly susceptible cabbage cultivar and subsequent disease development in vitro was 15–25° C and 90–100% infection was achieved after 48 h of incubation. At<15°C and 26–30° C infection percentage was decreased to 40–50% and 35–40%, respectively. No disease incidence was recorded at temperatures above 35° C. A scanning electron microscope study of the infection process showed that penetration of cotyledons by germ tubes was mostly via stomata and occasionally directly through the cuticle. Results are discussed in relation to the need for future studies of P. parasitica in South Africa.     

Production of alkaline xylanase by an alkaliphilic Bacillus sp. isolated from an alkalinesoda lake

An alkaline xylanase-producing alkaliphilic Bacillus sp. AR-009 was isolated from analkaline soda lake in Ethiopia. The enzyme was optimally active at pH 9 and was stable over abroad pH range. The optimum temperature for xylanase activity, assayed at pH 9, was60°–65°C. Measured at pH 8 and 9, the enzyme had good stability at 55° and60°C. At both pH values, over 80% of its original activity was retained after heating for2·5 h at 55°C. At 60°C, the enzyme maintained 63% of its original activity after2·5 h incubation while at pH 9 it retained 54% of its original activity after 1 h heating. Theseproperties qualify the enzyme to be novel and potentially important for application in someindustrial processes.