青藏高原几种高寒植物的抗寒生理特性

研究了青藏高原高寒地区3种多年生植物在生长过程中植物叶组织的可溶性糖、脯氨酸和丙二醛（MDA）含量、超氧化物歧化酶（SOD）和过氧化物酶（POD）活性的变化及其生理特性。结果表明;矮嵩草（Kobresia humilis）、垂穗披碱草（Elymus nutans）和黑褐苔草（Carex atro-fusca）叶中的可溶性糖含量随着生长期的进程而增加;脯氨酸含量的变化因植物种类的不同而表现各异,其中在各生长期．垂穗披碱草的脯氨酸含量均高于矮嵩草和黑褐苔草,并在草盛中期表现出明显的差异;3种高寒植物叶片中的丙二醛（MDA）含量随着生长季和气温的变化而呈现不断增加的趋势;3种植物中的超氧化物歧化酶（SOD）和过氧化物酶（POD）活性表现出随生长期和气温变化而改变的趋势,但黑褐苔草的2种膜保护酶活性最高,垂穗披碱草的次之．矮嵩草最低。可见,在不同生长季,这3种高寒植物的抗寒生理反应或低温适应方式可能是多途径的．其中在抗寒物质代谢、膜脂过氧化能力和抗氧化酶系统等方面,有生理反应的共同规律和各自特有的生理抗寒特性．其适应性与抗逆性有所不同,这种差异和生理特性可能与高寒植物的遗传特性和极端高寒低温环境胁迫有关。     

高寒山区植物根抗氧化酶系统的季节变化与抗冷冻关系

在高寒山区（海拔2900m）和选取4种多年生草本植物,即无芒雀麦（Bromus inermis）、草地早熟禾（Poa sphyondylodes）、花誉麦（Bromus sinensis）和垂重申披碱草（Elymus nutans）,测定了秋末、冬初、冬季、春季气温变化过程中其根中丙二醛（MDA）含量和抗氧酶活力（过氧化氢酶（CAT）、过氧化物酶（POD）、超氧物歧化酶（SOD））和抗坏血酸氧化酶（APX）变化,分析了抗氧酶系统在根抗冷适应中的作用,结果表明,随秋末降温植物根中MDA含量增加,尔后下降,在冬季和翌年春季保持相对稳定。从9月初到10月下旬,4种植物根中SOD、CAT、POD活力平均增加170％、130％和56％。在冬季下降,但仍远高于9月,在春季气温上升过程中酶活力上升。根能在组织结冰状况下生存与其具备完善的保护酶系统,能及时清除氧自由基抑制膜脂过氧化维持膜完整性有关,据降温过程中MDA含量和抗氧酶活力变化,可将根冷适应分为两个阶段,即第1阶段平均气温在0℃以上,抗氧酶活力增强,MDA增加阶段,第2阶段平均气温降至0℃以下,最低气温降到－15℃以下,抗氧酶活力下降,MDA无明显变化阶段。     

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。     

生活垃圾堆肥草坪中蚯蚓对植物生长和抗氧化酶系的影响

通过在添加蚯蚓的生活垃圾堆肥基质上培植黑麦草、高羊茅和早熟禾,测定了草坪植物生物量、丙二醛（MDA）含量、超氧化物歧化酶（SOD）、过氧化物酶（POD）和过氧化氢酶（CAT）活性,研究了蚯蚓活动对3种草坪植物生长和抗氧化酶系的影响。结果表明：蚯蚓活动使黑麦草、高羊茅的地上牛物量分别增加了3．53倍和12．17倍,地下生物量分别增加127．45％和148．94％,而早熟禾地上生物量减少42．37％。放入蚯蚓后,黑麦草和高羊茅的MDA含量分别减少了51．30％和87．52％,早熟禾增加了16．74倍。黑麦草、高羊茅和早熟禾的SOD和POD活性在放入蚯蚓后,分别有所下降,SOD活性分别下降了64．93％,13．38％和83．56％,POD活性分别下降41．15％,54．41％和34．09％。黑麦草CAT活性提高了5．61％,而高羊茅和早熟禾分别下降11．73％和33．23％。可见,生活垃圾堆肥草坪中蚯蚓活动对植物生长及抗氧化酶系的影响因植物种类而异。     

不同温湿条件下贮藏的3种禾本科植物花粉活力变化(简报)

测定水稻、玉米和狼见草花粉在低温（5℃）低湿（45％）、低温（5℃）高湿（80％）、高温（35℃）低湿（45％）和高温（35℃）高湿（90％）4种贮藏条件下的活力表明：低温高湿下花粉活力保持的时间最长;狼尾草花粉比水稻、玉米花粉耐贮藏,在低温高湿条件下贮藏30d后,仍有38．3％的萌发率;狼尾草花粉中蛋白质含量较高,淀粉含量较低。     

草莓车轴草的栽培与管理

草莓车轴草（Trifolium fragiferum）为一种豆科多年生草本植物，原产地中海一带，在我国新疆、华北和东北等地均有栽培。由于草莓车轴草的耐盐性和耐寒性很强，可适宜在滨海盐土或高寒地区生长；同时，它的草质鲜嫩，营养丰富，对畜、禽、鱼的适口性好，除了适于放牧利用外，亦可刈割饲喂，是一种理想的优质牧草。另外，这种植物不仅匍匐生长，可耐践踏，适作花园或草坪用草，而且它的花序形似草莓，每枚小叶中部都有一淡绿色的人字形斜纹，其它叶色略呈暗红色，因而具有一定的观赏价值。1生长特性草莓车轴草株高30—50cm，根系发达，…     

冬季融冻过程中白三叶叶片抗氧化酶活力和渗透调节物含量变化与抗冻性的关系

入冬气温大幅变化引起的冻融既是抗冻植物抗冻力形成的重要阶段也是非抗冻植物大量死亡的主要原因,但是抗冻植物为何能在冬季融冻条件下生存的生理机理尚不清楚。以生长在烟台地区抗冻白三叶(Trifolium repens)为材料,分析研究了不同微生态环境下生长的白三叶在冬季融冻过程中叶片抗氧化物酶活性、渗透调节物含量、丙二醛和细胞膜透性的变化,以了解它们在白三叶抗冻中的作用。结果表明:在气温突然下降至零度以下(融-冻阶段),三样地白三叶叶片冻结,叶片细胞膜透性在经历短暂下降后迅速急剧增加2倍,MDA含量增加85%,叶片中脯氨酸和蛋白质含量、抗氧化酶(过氧化氢酶(CAT)、超氧化物歧化酶(SOD)、过氧化物酶(POD))活力增加。在气温上升至日均温零度以上(冻-融阶段), 叶片开始融化,白三叶叶片膜透性、丙二醛和脯氨酸含量、POD和CAT活力先增加后降低,SOD活力和蛋白质含量持续增加。由此可见,快速增强的抗氧化物酶活力和快速增加的渗透调节物及时清除氧自由基防止细胞内膜脂过氧化保护了细胞膜的完整性而使细胞能在冷冻条件下生存,这可能是白三叶能在反复融冻过程中正常生长的重要生理机理。     

高寒山区牧草根中丙二醛、渗透调节物、多胺季节动态与抗冻力关系研究

温带地区的高山多年生草本植物可在－３０℃组织结冰状况下生存,然而人们并不了解其抗冻的生理机理。本研究目的拟通过测定自然生境下生长的４种高寒山区禾本科牧草（无芒雀麦（Ｂｒｏｍｕｓ ｉｎｅｒｍｉｓ Ｌｅｙｓｓ．）、花雀麦（Ｂｒｏｍｕｓ　 ｓｉｎｅｎｓｉｓ　 Ｋｅｎｇ．）、垂穗披碱草（Ｅｌｙｍｕｓ ｎｕｔａｎｓ Ｇｒｉｓｅｂ．）、草地早熟禾（Ｐｏａ ｓｐｈｙｏｎｄｙｌｏｄｅｓ　 Ｔｒｉｎ．）根中渗透调节物、膜脂过氧化产物、多胺含量季节变化,以了解他们与牧草抗冻的关系。结果表明,在晚秋（９月１～１５日）牧草根中ＭＤＡ含量增高,尔后下降,冬季保持恒定。总碳水化合物（ＴＮＣ）,可溶性糖、脯氨酸、可溶性蛋白质含量随晚秋气温下降而增加,在１１月达到最高,尔后下降,且持续到翌年春季。随晚秋气温下降从９月到１１月根中多胺含量迅速增加,４种牧草平均增加１８０％,其中亚精胺（Ｓｐｄ）占多胺含量的５３％。在１１月牧草根中多胺几乎完全消失。上述物质在晚秋入冬增加正好与牧草抗冻锻炼时间相吻合,因而是植物抗冻适应的重要生理响应和植物越冬的低温保护物质。他们在降低细胞冰点、防止细胞结冰引起的膜机械伤害,抑制膜脂过氧化保护膜稳定性方面具有重要作用。     

嫁接对低温弱光下辣椒幼苗膜脂过氧化及抗氧化酶活性的影响

以‘卫士’为砧木,以‘赤峰特选’为接穂进行嫁接,在光照培养箱内对辣椒自根苗(对照)和嫁接苗进行低温 (8 ℃/5 ℃) 弱光(100 μmol·m^-2·s^-1)处理,处理7 d后在正常条件(25 ℃/18 ℃,550～600 μmol·m^-2·s^-1)下恢复3 d,研究低温弱光下辣椒嫁接苗和自根苗电解质渗漏率(EL)、丙二醛(MDA)含量、抗氧化酶活性及根系活力的变化.结果表明：低温弱光胁迫初期,辣椒幼苗叶片与根系的EL、MDA含量和超氧化物歧化酶(SOD)、过氧化物酶(POD)、抗坏血酸过氧化物酶(APX)、谷胱甘肽还原酶(GR)活性均显著升高,而根系活力大幅降低;1～3 d后EL和MDA含量趋于平稳,SOD、POD、APX、GR活性逐渐降低,根系活力呈上升趋势.恢复3 d后,嫁接苗EL、MDA含量、抗氧化酶活性及根系活力多达到或超过胁迫前水平(根系的MDA含量较胁迫前略高);而自根苗的EL和MDA含量仍显著高于胁迫前.与自根苗相比,嫁接苗在各处理阶段的EL和MDA含量显著降低,而SOD、POD、APX、GR活性及根系活力明显升高,说明嫁接可有效降低辣椒植株的膜脂过氧化,减轻低温弱光对其细胞膜的伤害.     

淹水对灰化苔草幼苗生长及抗氧化物酶活性的影响

淹水是影响湿地植物生长繁殖及种群分布的重要因素。为明确淹水对植物生长及生理特性的影响,本研究以灰化苔草(Carex cinerascens)幼苗为研究对象,设对照(常规浇水)、全淹水、1/2淹水和1/4淹水4种处理,测定其在不同淹水条件的形态指标(株高、萌发数)和生理指标(SPAD、MDA、SOD、POD和CAT)的变化。结果表明:淹水胁迫会抑制灰化苔草幼苗生长,表现为株高降低,叶缘发黄;淹水对灰化苔草根茎的萌发也有影响,适度的淹水有利于其萌发;淹水导致灰化苔草幼苗叶片的相对叶绿素含量降低,抑制其光合作用;淹水胁迫加剧灰化苔草叶片的膜脂过氧化程度,促使丙二醛含量增高,对应的抗氧化物酶POD、CAT和SOD含量升高,说明淹水胁迫会破坏植物体内活性氧的产生与清除系统之间的动态平衡;淹水胁迫将加剧膜脂过氧化作用,抑制灰化苔草的正常生长,同时又会加速产生抗氧化物酶来抵抗淹水胁迫带来的不利影响。     

Detection of cold pain, cold allodynia and cold hyperalgesia in freely behaving rats

In mammals, somatosensory input activates feedback and feed-forward inhibitory circuits within the spinal cord dorsal horn to modulate sensory processing and thereby affecting sensory perception by the brain. Conventionally, feedback and feed-forward inhibitory activity evoked by somatosensory input to the dorsal horn is believed to be driven by glutamate, the principle excitatory neurotransmitter in primary afferent fibers. Substance P (SP), the prototypic neuropeptide released from primary afferent fibers to the dorsal horn, is regarded as a pain substance in the mammalian somatosensory system due to its action on nociceptive projection neurons. Here we report that endogenous SP drives a novel form of feed-forward inhibitory activity in the dorsal horn. The SP-driven feed-forward inhibitory activity is long-lasting and has a temporal phase distinct from glutamate-driven feed-forward inhibitory activity. Compromising SP-driven feed-forward inhibitory activity results in behavioral sensitization. Our findings reveal a fundamental role of SP in recruiting inhibitory activity for sensory processing, which may have important therapeutic implications in treating pathological pain conditions using SP receptors as targets.     

Metabolomic profiling of rapid cold hardening and cold shock in Drosophila melanogaster

A short exposure to a mild cold stress is sufficient to increase cold tolerance in many insects. This phenomenon, termed rapid cold hardening (RCH) expands the thermal interval that can be exploited by the insect. To investigate the possible role of altered metabolite levels during RCH, the present study used untargeted (1)H NMR metabolomic profiling to examine the metabolomic response in Drosophila melanogaster during the 72 h following RCH and cold shock treatment. These findings are discussed in relation to the costs and benefits of RCH that are measured in terms of survival and reproductive output. Cold shock caused a persistent disturbance of the metabolite profile that correlated well with a delayed onset of cold shock mortality. The disruption of metabolite homeostasis was smaller following RCH, where control levels were fully recovered after 72 h. RCH improved both survival and reproductive output after a subsequent cold shock but the RCH treatment alone was associated with costs in terms of reduced survival and reproductive output. The most pronounced changes following the RCH treatment were elevated levels of glucose and trehalose. Although, it is difficult to discern if a change in a specific metabolite is linked to physiological processes of adaptive, neutral or detrimental nature we observed that the onset and magnitude of the increased sugar levels correlated tightly with the improved chill tolerance following RCH. These findings suggest a putative role of cryoprotectants during RCH which are discussed in the light of the existing literature on the mechanistic background of RCH.     

Nonshivering thermogenesis and cold resistance in rats under severe cold conditions.

Following either chronic exposure to 6 degrees C, or outdoor winter exposure, or chronic treatment with tyramine rats were exposed to -40 degrees C and their oxygen consumption and colonic temperature monitored. Fall in body temperature with time of exposure followed a sigmoid curve which had an inflection point around 32.9 degrees C. Both the time required for body temperature to reach this point and hypothermic resistance defined as the total O2 consumed up to the inflection time were useful indices of resistance to severe cold; Three days before the cold tests, capacity for norepinephrine-induced nonshivering thermogenesis was measured in all animals by examination of their metabolic response to tyraminemthe magnitude of response to tyramine correlated well with hypothermic resistance only for those rats chroncally treated with tyramine. It is concluded that it is impossible to predict with any reasonable degree of confidence the cold resistance of a rat from its tyramine response. In cold-acclimated rats, factors in addition to norepinephrine sensitivity are significantly involved in cold resistance and deserve further studies.     

Effect of photoperiod and cold acclimation on survival of mice in cold

Male albino mice (Swiss-Webster) were raised at 5 °C under short (8L:16D) and long (16L:8D) light periods. All mice were housed in groups of three to five individuals in plastic mouse cages (16 × 12 × 28 cm) until 42 days of age with food and water ad libitum and cold exposed to ?40 °C between 10:00 am and 4:00 pm to determine survival time or time until loss of righting response occurred (CT min). Under short photo-periods, survival time was 49.3 ± 4.4 min and under long photoperiods it was 38.7 ± 1.9 min (P < 0.05). A second group of mice was maintained from birth at thermoneutral temperature (22 °C) under constant darkness, short day lengths (4L:20D), or constant light in the same fashion as mentioned above. When exposed to ?20 °C survival time was found to be 80.0 ± 5.0 min for the animals kept in constant darkness, 61.1 ± 2.3 min for animals raised in short photo-periods (4L:20D) (P < 0.01), and 52.4 ± 2.3 min for mice raised in constant light (P < 0.05). After 30 min mean rectal temperature was 32.1 ± 0.47 °C for constant-darkness animals, 30.5 ± 0.43 °C for short-day animals (P < 0.02), and 28.5 ± 0.74 °C for animals raised in constant light (P < 0.05). After 60 min mean rectal temperatures for constant-dark, 4L:20D, and constant-light animals were compared and body temperature was found to be 23.7 ± 1.6, 17.3 ± 1.5 (P < 0.01), and 12.8 ± 0.87 °C (P < 0.05), respectively. From these data, it is obvious that photoperiod influences cold resistance at both cold and thermoneutral acclimation temperatures although when considered individually, cold acclimation enhances cold survival to a greater degree than does reduced light exposure.     

Hypohydration and thermoregulation in cold air

O'Brien, Catherine, Andrew J. Young, and Michael N. Sawka.Hypohydration and thermoregulation in cold air.J. Appl. Physiol. 84(1): 185-189, 1998.This study examined the effects of hypohydration onthermoregulation during cold exposure. In addition, the independentinfluences of hypohydration-associated hypertonicity and hypovolemiawere investigated. Nine male volunteers were monitored for 30 min at25°C, then for 120 min at 7°C, under three counterbalancedconditions: euhydration (Eu), hypertonic hypohydration (HH), andisotonic hypohydration (IH). Hypohydration was achieved 12 h beforecold exposure by inducing sweating (HH) or by ingestion of furosemide(IH). Body weight decrease (4.1 ± 0.2%) caused by hypohydrationwas similar for HH and IH, but differences(P < 0.05) were found between HH andIH in plasma osmolality (292 ± 1 vs. 284 ± 1 mosmol/kgH₂O) andplasma volume reduction (8 ± 2 vs. 18 ± 3%).Heat debt (349 ± 14 among) did not differ(P > 0.05) among trials. Mean skintemperature decreased throughout cold exposure during Eu but plateauedafter 90 min during HH and IH. Forearm-fingertemperature gradient tended (P = 0.06)to be greater during Eu (10.0 ± 0.7°C) than during HH or IH(8.9 ± 0.7°C). This suggests weaker vasoconstrictor tone duringhypohydration than during Eu. Final mean skin temperature was higherfor HH than for Eu or IH (23.5 ± 0.3, 22.6 ± 0.4, and 22.9 ± 0.3°C, respectively), and insulation was lower on HH than onIH (0.13 ± 0.01 vs. 0.15 ± 0.01°C · W¹ · m²,respectively), but not with Eu (0.14 ± 0.01°C · W¹ · m²).This provides some evidence that hypertonicity impairs the vasoconstrictor response to cold. Although mild hypohydration did notaffect body heat balance during 2-h whole body exposure to moderatecold, hypohydration-associated hypertonicity may have subtle effects onvasoconstriction that could become important during a more severe coldexposure.

     

Presoaking and cold hardiness in maize

Summary Seed of four inbred sweet corns and one dent hybrid corn were presoaked in tap water prior to receiving 60°F and 40°F treatment. Pre-soaking did not alter their behaviour to cold treatment, although on transference to the warmth, germination was slightly more rapid after pre-soaking.