Increasing pre‐acclimation temperature reduces the freezing tolerance of winter‐type faba bean (Vicia faba L.)

Autumn‐sown winter‐type faba bean (Vicia faba L.) has been shown to have a yield advantage over spring sowing. Still, adoption of this overwintered pulse crop remains limited in temperate locations, due to inadequate winter hardiness. This research sought to understand how the prevailing temperature during emergence and seedling development, that is pre‐acclimation, influences freezing tolerance. Seedlings grown under a controlled “warm” 17/12°C (day/night) pre‐acclimation environment were initially less freezing tolerant than those grown under a “cold” 12/5°C temperature treatment. Stem and particularly root tissues were primarily responsible for slower cold acclimation, and there was a genotype specific response of above‐ground tissues to pre‐acclimation treatment. Both above and below‐ground tissues should be tested across a range of pre‐acclimation temperatures when screening faba bean germplasm for freezing tolerance.     

低温驯化对南方小花蝽冷藏的影响

为探讨低温驯化对南方小花蝽雌成虫冷藏的影响，在室内15℃下饲养7 d作为低温驯化处理，研究了驯化后与未驯化的南方小花蝽雌成虫分别在4、6和10℃下冷藏其寿命、存活率和致死中时间（LT₅₀）的异同。结果表明，无论是否进行低温驯化，南方小花蝽雌成虫的寿命都显著大于对照（25℃下饲养）。在10℃冷藏条件下，是否经过低温驯化对南方小花蝽雌成虫寿命没有明显影响，但在4℃和6℃条件下，低温驯化能明显延长雌成虫的寿命，分别延长了80.7%和83.7%。南方小花蝽雌成虫存活率均随冷藏时间的延长而下降，在同一低温冷藏温度下经低温驯化处理的南方小花蝽存活率比未驯化的高。经低温驯化的南方小花蝽雌成虫在4、6和10℃冷藏时，其LT₅₀分别比未经驯化的延长了30.0%、57.8%和40.4%。以上结果表明南方小花蝽的寿命具有可塑性，低温驯化有利于南方小花蝽的冷藏，6℃可作为南方小花蝽长期储藏的温度。     

Temperature Before Cold Acclimation Affects Cold Tolerance and Photoacclimation in Timothy (Phleum pratense L.), Perennial Ryegrass (Lolium perenne L.) and Red Clover (Trifolium pratense L.)

The expected temperature rise in late summer/early autumn can change the conditions for acclimation and affect the winter survival of perennial crops. This study examined the effect of the temperature just before the onset of cold acclimation (pre‐acclimation) on freezing tolerance of timothy (Phleum pratense L.), perennial ryegrass (Lolium perenne L.) and red clover (Trifolium pratense L.) populations (both cultivars and breeding populations) adapted to either northern or southern parts of Norway. Using phytotron experiments, we studied whether increasing pre‐acclimation temperature delays growth cessation, affects photoacclimation and reduces freezing tolerance. Furthermore, we assessed whether these effects were related to the latitudinal adaptation of the plant material. The results showed that a rise in pre‐acclimation temperature decreased both cold acclimation capacity and photoacclimation in these species. This affected the freezing tolerance, which was reduced significantly more in northern‐adapted population of timothy and perennial ryegrass compared with southern‐adapted populations. Red clover was less affected by temperature changes than the grasses.     

低温驯化的黑荆树悬浮培养细胞中可溶性蛋白质含量变化*

低温驯化能够诱导黑荆树悬浮培养细胞增强抗冻性，ＬＴ５０从－４．３℃下降到－８．２℃。低温驯化诱可溶性蛋白质含量增加，其增加的时间进程与细胞抗冻性发育呈平行关系。环已亚胺抑制可溶性蛋白质含量增加，同时也抑制细胞抗冻性发育。在低温驯化期不同时间加入环已亚胺抑制抗冻性发育，表明低温驯化１０ｄ后抗浆性发育接近完成。糖对增加驯化细胞中可溶性蛋白质有促进作用，加快增加含量的时间进程，但对最终提高蛋白质含量水平     

毛白杨抗冻性低温诱导过程中糖的效应(英文)

在低温锻炼和结合蔗糖处理的低温锻炼下 ,对毛白杨 (Populustomentosa)幼苗枝条和叶片的可溶性糖含量 ,以及幼苗存活率和抗冻性分别进行了测定 .结果表明 ,低温锻炼明显提高了幼苗枝条和叶片的可溶性糖含量 ,同时也提高了幼苗的存活率和抗冻性 .2 0 %蔗糖处理对上述低温锻炼的作用有加强的效果 .进一步分析发现 ,无论是单纯的低温锻炼还是结合蔗糖预处理的低温锻炼 ,幼苗枝条中可溶性糖含量的提高程度均较叶片明显 ,而且它们的含量增加与幼苗抗冻性的提高密切相关 .这表明低温锻炼所引起的可溶性糖积累可能参与了幼苗抗冻性的诱导     

Ultrastructural and Extracellular Protein Changes in Cell Suspension Cultures of Populus euphratica Associated with Low Temperature-induced Cold Acclimation

Populus euphratica Olive is the only tree species that can grow in the saline land and also survive cold winters in northwest China, and it plays a very important role in stabilizing the vulnerable ecosystem there. A cell suspension culture was initiated from callus derived from plantlets of Populus euphratica. Cold acclimation was induced (LT50 of-17.5 ℃) in cell suspension at 4-5 ℃ in the dark for 30 days and the freezing tolerance increased from LT50 of-12.5 ℃ in nonacclimated cells to LT50 of-17.5 ℃ in cold-acclimated cells. Microvacuolation, cytoplasmic augmentation and accumulation of starch granules were observed in cells that were cold-acclimated by exposure to low temperatures. Several qualitative and quantitative changes in proteins were noted during cold acclimation. Antibodies to carrot extracellular (apoplastic) 36 kD antifreeze protein did not cross react on immunoelectroblots with extracellular proteins in cell suspension culture medium of Populus euphratica, indicating no common epitopes in the carrot 36 kD antifreeze protein and P euphratica extracellular proteins. The relationship of these changes to cold acclimation in Populus euphratica cell cultures was discussed.     

在低温锻炼中毛白杨幼苗可溶性总蛋白、RNA、DNA、RNase及抗冻性的变化

低温锻炼不仅提高了毛白杨幼苗存活率和抗冻性以及RNA和可溶性总蛋白的含量 ,降低了RNase活性 ,而且能减轻低温胁迫引起的RNA和可溶性总蛋白含量的下降程度和RNase活性的提高 ,有利于幼苗在恢复过程中RNA和可溶性总蛋白水平的迅速回升以及RNase活性的降低 .进一步研究发现 ,DNA含量无论在低温锻炼中还是在低温胁迫下或是在随后的恢复生长期均保持相对稳定 ;低温锻炼所引起的RNA含量的增加 ,与RNase活性的降低呈明显的负相关 ,与可溶性总蛋白含量的增加以及幼苗抗冻性的提高成正相关 .这表明低温锻炼可能抑制RNase活性 ,有效地促进RNA含量的增加 ,而RNA可能参与了可溶性总蛋白的合成及抗冻性的诱导     

低温锻炼对冷胁迫下油茶幼苗光合速率与抗氧化酶活性的影响

以油茶品种"杂优闽1"为试验材料,以未经低温锻炼的油茶幼苗为对照,研究了油茶幼苗在(10±0.5)℃低温锻炼、(2±0.5)℃冷胁迫和常温恢复期间的光合速率和抗氧化酶活性的变化。结果表明:低温锻炼3 d可明显提高油茶幼苗的抗寒性;冷胁迫3 d,经低温锻炼后的油茶幼苗叶片净光合速率和相对含水量明显高于对照;且其在常温下的恢复也较对照迅速。在低温锻炼和冷胁迫期间,油茶幼苗叶片脯氨酸和可溶性糖含量明显增加,且丙二醛(MDA)含量明显低于对照;经低温锻炼的油茶幼苗叶片超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和抗坏血酸过氧化物酶(APX)活性则均明显高于未经低温锻炼的油茶幼苗,说明渗透调节物质含量增加和保护酶活性增强在低温锻炼诱导油茶幼苗的抗寒性上发挥着重要的作用。     

Impact of waterlogging and temperature on autumn growth,hardening and freezing tolerance of timothy (Phleum pratense)

Precipitation has generally increased in Norway during the last century, and climate projections indicate a further increase. The growing season has also become longer with higher temperatures, particularly in autumn. Previous studies have shown negative effects of high temperatures and, depending upon temperature conditions, contrasting effects of waterlogging on hardening capacity of timothy. We studied effects of waterlogging on seedlings of timothy (Phleum pratense, cv. Noreng) under three pre-acclimation temperatures: 3°C, 7°C, 12°C, and in autumn natural light in a phytotron at Holt, Tromsø (69°N). After temperature treatments, all plants were cold acclimated at 2°C for three weeks under continued waterlogging treatments. Freezing tolerance was determined by intact plants being frozen in pots at incremental temperature decreases in a programmable freezer. Waterlogging resulted in a higher probability of death after freezing, and a significantly reduced regrowth after three weeks at 18°C, 24 hrs light in a greenhouse. Increasing pre-acclimation temperatures also had a clear negative effect on freezing tolerance, but there was no interaction between temperatures and waterlogging. The results indicate that waterlogging may have negative implications for hardening of timothy and may contribute to reduced winter survival under the projected increase in autumn temperatures and precipitation.     

Laboratory and on‐farm evaluation of low‐cost salt mixtures for use during salinity acclimation and the nursery phase of Pacific white shrimp (Litopenaeus vannamei)

The current study evaluates the efficacy of a low‐cost salt mixture (LCSM) to replace expensive reconstituted sea salt (RSS) in the salinity acclimation and nursery phase of Pacific white shrimp under laboratory and farm conditions. LCSM was formulated to yield sodium, potassium, calcium and magnesium concentrations closely comparable to that of diluted seawater. Laboratory‐based nursery trials were conducted at 2, 6 and 15 g/L salinities, incrementally replacing RSS with LCSM (25%, 50%, 75% and 100%) at four replicates per treatment. Thirty postlarvae were reared for 7 days in 24‐L aquaria during the 2 and 6 g/L trials, while the nursery trial for 15 g/L salinity was conducted for 21 days with 400 postlarvae stocked in 150‐L tanks. On‐farm evaluation of LCSM was carried out in two tank‐based systems installed on levees adjacent to shrimp production ponds. RSS was incrementally replaced with LCSM (0%, 50%, 75% and 100%) and 100 postlarvae stocked into each 800‐L tank. Salinity acclimation was done from 30 g/L to 6 or 1.5 g/L within 2–3 days by pumping water from adjacent shrimp production ponds. Following salinity acclimation, the S4 system maintained flow‐through at 1.5 g/L, while N10 system was maintained static at 6 g/L salinity. At the conclusion, no significant differences were observed for either survival or growth of shrimp postlarvae between RSS and LCSM treatments at all salinities examined. Results reflect the potential use of LCSM to replace RSS, which could be an excellent solution to bring down the cost of production in inland shrimp aquaculture.