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.     

春季高寒山区牧草低温保护物质变化与其脱冻适应间关系研究

为了了解牧草低温保护物质与其抗冷冻的关系,在高寒山区测定了几种多年生牧草根中低温保护物质的含量和几种蔗糖酶活力的变化。结果表明,在4月土壤解冻期间,无芒雀麦、花雀麦、垂穗披碱草和草地早熟禾根中的蔗糖含量分别下降了74．1％、66．2％、45．2％和69．6％,果糖含量分别下降了72．0％、38．0％、68．3％和84．6％,葡萄糖含量分别下降了66．7％、62．5％、42．2％和65．2％,脯氨酸含量分别下降了83．0％、51．0％、43．3％和70．6％,可溶性蛋白质变化不大;蔗糖合成酶、蔗糖磷酸合成酶活性下降,蔗糖分解酶活性增加,蔗糖分解酶活性是蔗糖合成酶活性的22～35倍,是蔗糖磷酸合成酶活性的55～80倍。研究结果说明,春季牧草萌发时,根中已糖含量的下降是蔗糖分解酶活性增加的结果,根中脯氨酸作为氮的贮藏物质被用于根的呼吸和蛋白质合成。春季牧草根的抗寒能力随着根中低温保护物质的减少而下降,这也说明牧草的低温保护物质和牧草的抗寒性密切相关。     

Physiological history may mask the inherent inducible desiccation tolerance strategy of the desert moss Crossidium crassinerve

Shoots of bryophytes collected in the desiccated state from the field are likely to be hardened to desiccation tolerance (DT) to varying degrees. To account for this, most studies on DT include a relatively short deacclimation period. However, no study has experimentally determined the appropriate deacclimation time for any bryophyte species. Our purposes are to (i) determine if ‘field effects’ are biologically relevant to DT studies and how long a deacclimation period is required to remove them; and (ii) utilise field versus cultured shoot responses within the context of a deacclimation period to elucidate the ecological strategy of DT. Our hypothesis (based on an extensive literature on DT) is that a deacclimation period from 24 to 72 h should be sufficient to eliminate historical stress effects on the physiology of the shoots and allow an accurate determination of the inherent ecological DT strategy (constitutive or inducible). We determined, however, using chlorophyll fluorescence and visual estimates of shoot damage, that field‐collected shoots of the desert moss Crossidium crassinerve required an experimental deacclimation period of >7 days before field effects were removed, and revealed an ecological DT strategy of inducible DT. If the deacclimation period was <6 days, the shoot response conformed to an ecological strategy of constitutive protection. Thus the presence of field effects can obscure the ecological strategy of desiccation tolerance exhibited by the species, and this translates into a need to re‐evaluate previous mechanistic and ecological studies of desiccation tolerance in plants.     

春季白皮松实生苗的脱锻炼与再锻炼

春季测定二年生白皮松实生苗脱锻炼期间针叶和茎的抗寒性和估测脱锻炼结束后经低温(4℃)处理1周后幼苗的再锻炼能力,以及测定低温处理前后不同器官干物质含量的结果表明:脱锻炼后,一年生针叶的最小抗寒性为-10.4℃,一年生茎为-6.7℃.在低温诱导下,白皮松苗具有再锻炼能力,一年生针叶和茎的抗寒性分别增强约7和9℃;一年生针叶和茎的抗寒性均高于当年生的.再锻炼期间,一年生针叶和茎的抗寒性与干物质含量呈正相关.     

Changes in cold hardiness of introduced and native interior Alaskan evergreens in relation to water and lipid content during spring dehardening

Needle hardiness of introduced yellow pine, Pinus banksiana Lamb., lodgepole pine, P. contorta Dougl, and native white spruce, Picea glauca (Moench) Voss, were assessed by the effective prefreezing temperature method. Yellow pine needles were less hardy than lodgepole pine or white spruce needles in Alaska on each date measured. Although hardiness decreased in springtime in all species, decreases in hardiness in yellow pine began before temperatures were above ?20°C, apparently in response to day length, while decreases in hardiness in lodgepole pine and white spruce began only when mean temperatures were above 0°C. Hardiness was increased by decreasing the water content of yellow pine and spruce needles. However, only the latter increased its field hardiness by decreased water contents, and only to a small degree. Large decreases in phospholipid occurred during the dehardening period, indicating the presence of major membrane-associated changes. However, changes in hardiness did not closely parallel those in phospholipid; hardiness decreased before phospholipid did in spruce and after phospholipid did in lodgepole pine. In yellow pine, changes in hardiness were more closely related to changes in phospholipid content. Decreases in phospholipid appeared to be correlated with the day length in all species.     

Developing sporophytes transition from an inducible to a constitutive ecological strategy of desiccation tolerance in the moss Aloina ambigua: effects of desiccation on fitness

Background and Aims Two ecological strategies of desiccation tolerance exist in plants, constitutive and inducible. Because of difficulties in culturing sporophytes, very little is known about desiccation tolerance in this generation and how desiccation affects sexual fitness.Methods Cultured sporophytes and vegetative shoots from a single genotype of the moss Aloina ambigua raised in the laboratory were tested for their strategy of desiccation tolerance by desiccating the shoot–sporophyte complex and vegetative shoots at different intensities, and comparing outcomes with those of undried shoot–sporophyte complexes and vegetative shoots. By using a dehardened clonal line, the effects of field, age and genetic variance among plants were removed.Key Results The gametophyte and embryonic sporophyte were found to employ a predominantly inducible strategy of desiccation tolerance, while the post-embryonic sporophyte was found to employ a moderately constitutive strategy of desiccation tolerance. Further, desiccation reduced sporophyte fitness, as measured by sporophyte mass, seta length and capsule size. However, the effects of desiccation on sporophyte fitness were reduced if the stress occurred during embryonic development as opposed to postembryonic desiccation.Conclusions The effects of desiccation on dehardened sporophytes of a bryophyte are shown for the first time. The transition from one desiccation tolerance strategy to the other in a single structure or generation is shown for only the second time in plants and for the first time in bryophytes. Finding degrees of inducible strategies of desiccation tolerance in different life phases prompts the formulation of a continuum hypothesis of ecological desiccation tolerance in mosses, where desiccation tolerance is not an either/or phenomenon, but varies in degree along a gradient of ecological inducibility.     

Carbohydrate content and glycosidase activities following cold hardening in two grass species

The freezing resistance of the grass species Phleum pratense L. (timothy) and Phalaris arundinaces L. increases significantly after cold hardening. The content and composition of soluble carbohydrates were determined in the plants after short day treatment, cold hardening and dehardening. The amounts of mono-, di- and trisaccharides were reduced during the short day treatment, increased during cold hardening and decreased again during dehardening. The total amounts of soluble carbohydrates (mono-, di-, tri- and polysaccharides) were the same in hardened and dehardened plants, indicating that during hardening soluble polysaccharides (fructose polymers, fructans) were converted to mono- and oligosaccharides. Sucrose increased most after hardening conditions and, in P. arundinacea , a significant increase in 1-F-fructosylsucrose (isokestose) was also observed.
Invertase (β-fructofuranosidase. EC 3.2.1.26) activity increased following cold hardening and decreased following dehardening, while the α-galactosidase (EC 3.2.1.22) activity seemed to increase after dehardening. The glycosidases are probably involved in the mobilisation of polysaccharides during cold hardening.     

Frost tolerance and biochemical changes during hardening and dehardening in contrasting white clover populations

Successful winter survival of perennial plants, like white clover, is dependent on proper timing of both hardening and dehardening. The purpose of this study was to investigate the regulation of these processes in two cultivars (AberCrest and AberHerald) and two Norwegian ecotypes (Særheim collected at 58°46′N lat. and Bodø at 67°20′N lat.) of white clover (Trifolium repens L.). For hardening and dehardening, plants were exposed to controlled temperature conditions and frost hardiness of stolons was tested by programmed freezing at the rate of 3°C per hour. In addition, stolons were analysed for starch, soluble sugars and soluble amino acids. Cultivars AberCrest and AberHerald, selected for growth at low temperature and winter hardiness in the United Kingdom, were significantly less hardy than the Norwegian populations. After six weeks of hardening (2 weeks at 6°C and 4 weeks at 0.5°C), estimated LT₅₀ values were ?13.8, ?13.0, ?17.8 and ?20.3°C for AberCrest, AberHerald, Saerheim and Bodø, respectively. The rate of dehardening increased with increasing temperature. At low temperature (6°C), the northern ecotype from Bodø was more resistant to dehardening than AberHerald. However, at 18°C the absolute rate of dehardening (°C day^?1) was twice as high in Bodø as in AberHerald plants. Stolon elongation during dehardening was initiated at lower temperatures in AberHerald than in plants of the Bodø ecotype. The content of total soluble sugars, sucrose and the amino acids proline and arginine were significantly higher in hardy plants of Bodø than in those of AberHerald. Sucrose levels decreased during dehardening and correlations between sucrose content and LT₅₀ during this process were statistically highly significant for both Bodø and AberHerald. The least hardy populations of white clover were characterized by thick stolons, long internodes and large leaves.     

电导法和电阻抗图谱法测定脱锻炼期间欧美杨×大青杨F_1子代抗寒性

利用电导（EL）法和电阻抗图谱（EIS）法对脱锻炼期间欧美杨‘107杨’（Populus×canadensis Moench cv.‘Neva’）×大青杨（P.ussuriensis Kom.）F1子代进行抗寒性测定,试图通过比较两种方法测定抗寒性结果的相关性,以确定EIS法快速测定‘107杨’×大青杨F1子代抗寒性的最佳参数。以8个杂种子代和母本‘107杨’3年生为试材,进行了电阻抗图谱法和电导法分析,结果表明：脱锻炼期间,各子代抗寒性均逐渐降低,依次为NK36〉NK41〉NK61〉NK57〉NK42〉NK60〉NK58〉NK56,均高于‘107杨’,EIS参数弛豫时间[EIS（τ）法]和EL法的抗寒性测定结果间存在明显的线性相关（R2=0.965）,但EIS法测定的抗寒性低于EL法,且未经冷冻处理样本的胞外电阻率（re）和弛豫时间（τ）与经冷冻处理EL测定的抗寒性有较高的相关性,R2分别为0.817和0.847。