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1.
昆虫耐寒性研究   总被引:37,自引:4,他引:33  
景晓红  康乐 《生态学报》2002,22(12):2202-2207
昆虫是变温动物,气候变化是造成种群季节消长的基本原因之一。尤其在不良的低温环境中,昆虫耐寒力的高低是其种群存在与发展的种要前提,昆虫对低温的适应能力及其机理也因而成为昆虫生态学和生物进化研究中的一个深受重视的问题,本文论述了与耐寒性直接相关的过冷却点昆虫的抗寒对策,明确了昆虫耐寒性的一些基本概念,一方面从环境影响昆虫的角度对耐寒性的一般规律,如季节性变化,地理变异快速冷驯化的作用等做了简要的概念括,另一方面阐述了昆虫适应环境的生理生化机制,包括低分子量的抗冻物质的产生,冰核剂的作用及抗冻蛋白的功能等做了简要的概括,另一方面简单述了昆虫适应环境的生理生化机制,包括低分子量的抗冻物质的产生,冰核剂的作用及抗冻蛋白的功能等。强调昆虫与环境相互作用过程中的生态生理适应,并指出昆虫耐寒性应当与生活史中别的因素联系起来,这样才能对耐寒性有一个更加全面的理解。  相似文献   

2.
戴素明  成新跃  肖启明  谢丙炎 《生态学报》2006,26(11):3885-3890
对于分布在温带和寒带的线虫,它们只有战胜冬季寒冷的挑战,才能有利于种群的存在与发展。因此,耐寒性是线虫生物学研究中不可忽视的内容。综述了关于线虫在低温胁迫下的耐寒性测定方法、耐寒对策及耐寒机制等方面的研究进展。线虫的耐寒性和昆虫一样,可通过过冷却点和低温存活率两种指标进行评价,但在具体的实验方法上,线虫耐寒性研究有其不同之处。线虫的耐寒对策和耐寒机制具有多样化。耐寒对策主要有耐冻和避冻,二者能共同渗透于线虫的耐寒过程中。耐寒机制包括特殊发育阶段的形成、低温驯化作用、低分子量抗冻物质的聚集、以及高分子量抗冻蛋白和热休克蛋白的产生,等等。此外,还强调应从多个角度研究线虫的耐寒性,如寒冷敏感型线虫的研究、寄生线虫的耐寒对策研究以及交叉胁迫的研究。  相似文献   

3.
昆虫冷驯化机制研究进展   总被引:1,自引:1,他引:0  
孔璐  郭建英  周忠实  万方浩 《昆虫知识》2012,49(6):1664-1669
昆虫耐寒性强弱决定其种群的发生、扩散和分布,因此低温胁迫下昆虫的抗寒对策成为近期研究的热点领域。冷驯化作为一种非常有效的耐寒策略,可显著增强昆虫的耐寒性。本文论述了冷驯化的2种基本形式:快速冷驯化和长时冷驯化,明确了二者在提升昆虫耐寒性中的作用;并从宏观到微观的角度概述了冷驯化的作用机制,如组织和细胞水平的特异性,低分子量抗冻保护剂的产生,热休克蛋白的表达及功能,以及阻止细胞程序性死亡的潜在机理等;讨论了不同研究方法所引起的结果差异性,并强调了冷驯化作用机制的整体效益和综合效益。最后通过分析2种冷驯化形式的联系与区别,以期较为全面地阐明昆虫冷驯化的潜在机制。  相似文献   

4.
论昆虫空间生态学研究   总被引:16,自引:1,他引:15  
空间特征是昆虫生态学研究的热点之一 ,具有重要的理论与应用意义。该文从理论、尺度、时空动态模型、技术手段及研究热点几个方面概述近期昆虫空间生态学研究进展。主要理论包括概率及统计模型、地学统计学、景观生态学、集合种群生态学 ;研究技术涉及地理信息系统、遥感、计算机辅助分析等。简要论述研究的空间尺度问题 ,介绍空间分子生态、进化生态等新研究热点在昆虫空间生态领域的发展 ,并分析昆虫空间生态学存在的问题和发展趋势。  相似文献   

5.
肠道微生物与昆虫的共生关系   总被引:11,自引:2,他引:9  
昆虫肠道栖息着大量的微生物。随着近年来研究肠道微生物的方法不断进步,尤其是基于16S rDNA的分子生物学方法的应用,人们对肠道微生物的了解逐渐加深。昆虫肠道对于微生物的拓殖存在一定的选择作用。肠道微生物对昆虫寄主的作用包括提供营养、利用拓殖抗性抵抗外来微生物侵袭、参与多重营养关系、引起昆虫免疫反应。长期进化过程中肠道微生物与昆虫发展出紧密的共生关系,微生物发展出一系列手段适应昆虫肠道环境。文章从以上几个方面对近年来的研究进展进行总结,并对昆虫肠道微生态学的实践意义和将来可能的研究热点进行展望。  相似文献   

6.
《环境昆虫学报》2014,(5):805-813
昆虫是变温动物,温度对其生长发育、基本行为及进化途径都会产生很大的影响,种群的繁衍面临如何安全度过漫长而寒冷的冬季的挑战。通过长时间的进化,昆虫获得一系列完整的耐寒策略。绝大多数的昆虫都是耐寒昆虫,在陆地寒冷温度刺激下,昆虫受抗寒基因的调控,体内产生大量抗寒物质,如海藻糖、甘油、山梨醇、抗冻蛋白、热激蛋白等,提高昆虫的耐寒能力,使其得以在低温寒冷的条件下成功越冬。同样,经过冷驯化后的昆虫能显著提高昆虫的耐寒力。近年来,关于昆虫耐寒性、抗寒类蛋白的研究不断开展,研究内容涉及昆虫的耐寒性、抗寒基因HSPs和AFPs的调控、冷驯化诱导抗寒等方面。本文综述了昆虫耐寒性、主要耐寒策略及冷驯化诱发昆虫耐寒性增强等研究内容。有助于全面认识昆虫耐寒性及其作用机制,为天敌昆虫低温储存和提高生物防治等应用打下坚实的基础。  相似文献   

7.
昆虫是变温动物,种群的繁衍面临如何安全度过漫长而寒冷的冬季的挑战.为了安全越冬,昆虫必须适应冬季的低温,增强耐寒能力是昆虫的一种重要的季节适应机制.近年来,关于昆虫耐寒性的研究不断开展,研究内容涉及影响耐寒性的因素、耐寒性的机制等方面.影响昆虫耐寒性的因素包括环境因素,如气候的季节变化、纬度或海拔的差异等,以及昆虫自身的发育阶段、滞育发生等.  相似文献   

8.
昆虫抗冻耐寒能力因其理论意义和实践价值成为当前生物学和生态学的重要研究内容。尤其昆虫抗冻耐寒能力的测定与分析是昆虫低温生物学的热点问题。本文从昆虫生态,及生理生化层面阐述了昆虫抗冻策略和耐寒机制类型。进一步介绍了昆虫抗冻耐寒能力的测定与分析方法:一方面,以昆虫种群为对象,分析低温对种群存活的胁迫作用,如低温实验中种群的存活率,致死中温度或致死中时间,冷伤害上限温度,冷害低温总和,以及低温冷伤害的死亡速率等。另一方面,以昆虫个体为对象,测定个体为适应低温环境而采取响应机制,如昆虫个体过冷却点、含水量、能量物质、抗冻小分子物质和抗冻蛋白含量等。在未来,从微观上看随着低温生物学拓展到基因组、转录组、蛋白质组及代谢组层次的研究,从宏观上看随着越冬代昆虫种群数量动态及其迁飞转移行为规律与栖息地微环境气候和区域性景观格局特征等的关系研究,有利于更全面地和深入地了解昆虫类群的抗冻策略或耐寒机制,从而为更系统地建立昆虫抗冻耐寒能力的测定与分析方法体系提供可靠指标。  相似文献   

9.
耐寒性的高低极大程度上影响螨类的越冬存活以及分布扩散情况。螨类耐寒性评估的主要指标是过冷却点以及低温胁迫下的致死温度和致死时间。螨类耐寒性通常具有可塑性,不同发育时期、滞育、季节变化以及冷驯化均会影响耐寒性,而耐寒性的变化涉及复杂的分子水平以及生理生化物质的变化。本文简要介绍了目前评估螨类耐寒性的生物学指标以及影响螨类的耐寒性的因素,总结了螨类耐寒性变化所涉及的生理生化和分子机制,探讨了目前螨类耐寒性需要进一步研究的科学问题,并对螨类耐寒性研究的生态学意义进行了展望。以期对螨类耐寒性的深入研究提供参考,促进害螨的综合防治和天敌捕食螨的开发利用。  相似文献   

10.
快速冷耐受作为一种非常有效的耐寒策略,可在短时间内显著增强昆虫的耐寒性,使得昆虫能够在全球气候变暖的大背景下应对更加频繁的气候波动,具有重要的生态意义.快速冷耐受现象在昆虫中首次发现以来,得到了广泛的研究,尤其近年来,在其内在机制研究方面取得了很大进展.本文综述了近年来快速冷耐受现象的研究进展,对快速冷耐受的特征、生理生化和分子机制,以及生态学意义等进行了总结、归纳与分析,为昆虫快速冷耐受的研究提供参考.  相似文献   

11.
Olive growth and productivity are limited by low temperatures mainly during winter, but sometimes also in spring and fall. The most effective way to avoid these damages in areas subjected to these climatic conditions is to select least susceptible varieties, but the choice of the right method to determine cold hardiness is extremely difficult. The aims of the work were (1) to assess LT50 (lethal temperature at which 50% of damage in plants subjected to low temperatures occurs) of some olive varieties in two seasons (summer and winter) and (2) to assess the reliability of different methods to evaluate cold hardiness. LT50 was determined on 21 different olive (Olea europaea L.) Italian varieties by leaf and shoot electrolyte leakage, shoot impedance spectroscopy and leaf color determination of fractal spectrum. All the experiments were conducted on non-acclimated and cold-acclimated plants. Our results showed that all the three methods were able to detect damages on olive plants after exposure to low temperatures, with leaves appearing more sensitive to cold stress than shoots. Among these methods, fractal analysis could be very useful in assessing cold hardiness of plants on the basis of visible injury, without sophisticated or expensive instruments and in a reliable and cost-effective way, using only a scanning device, a personal computer and dedicated freeware software.  相似文献   

12.
Supercooling point studies were used to investigate the factors influencing the cold hardiness of the peach-potato aphid Myzus persicae, a freezing-susceptible insect. Overwintering adults lost cold hardiness as winter progressed, with a variable proportion showing a marked reduction in supercooling ability. Cold hardiness increased in spring so that all individuals demonstrated extensive supercooling ability typical of aphids reared in the laboratory at 20°C with a long photoperiod; these levels of cold hardiness were maintained in the field during summer and early autumn. First instar nymphs demonstrated considerable cold hardiness all year. Surface moisture caused inoculative freezing in some first instar nymphs and adults when supercooled, but the majority were unaffected. In the laboratory, adults starved for 7 days at 5°C showed distinct losses of supercooling potential equivalent to those observed in the field during mid to late winter. No loss of cold hardiness was found in first instar nymphs starved under the same conditions. The results demonstrate that the cold hardiness characteristics of M. persicae are atypical of those observed in other freezing-susceptible insects and it is suggested that continued feeding during mild winter conditions allows maintenance of cold hardiness particularly in adult aphids, and provides a possible explanation for the successful anholocyclic overwintering of M. persicae during such winters.  相似文献   

13.
The cold hardiness of arthropods is an important characteristic associated with overwintering success. Cold‐tolerant stages affect overwintering strategy, especially in arthropods that continuously feed on evergreen host plants in temperate regions. However, cold hardiness to mildly low temperature is rarely investigated. In the present study, we estimate the stage‐specific cold hardiness of a population of the spider mite Stigmaeopsis longus (Saito) (Acari: Tetranychidae) occurring on evergreen Sasa bamboo in a temperate area (Kochi City, southwestern Japan). Individuals of each stage developing under diapause‐inducing conditions (LD 10 : 14 h at 20 °C) are maintained at 4 °C (approximating the mean daily minimum temperature for December in Kochi City) for 30 days (eggs are cooled immediately, without short‐day development first). They are then returned to the initial conditions to assess survival rates. The survival rate of adult females (i.e. the diapausing stage) is high (99.5%), as is that of adult males and deutonymphs of both sexes (84.2–98.7% and 89.7–89.8%, respectively). The survival rate of mobile immature stages tends to increase toward adulthood in both sexes, whereas the survival rate of the eggs and quiescent stages is extremely low (16–23% and 0–20%, respectively). The poor cold hardiness of the eggs and quiescent stages presumably prevents the normal development of immature individuals during winter.  相似文献   

14.
Abstract. 1. For many species of insect, cold hardiness is an important trait that enables a population to develop in the next season and to extend its range. To elucidate the role of cold hardiness of the migratory locust Locusta migratoria L. in its outbreak and distribution areas, egg cold hardiness was examined in locusts derived from four locations from latitude 18°23'N to latitude 41°10'N in eastern China.
2. The supercooling points of eggs from different geographic populations did not differ significantly for the first development stage, with an average ± SE of −24.5 ± 0.51 °C, or for the second stage, −22.06 ± 0.68 °C, however there was a significant difference for the embryonic development phase among the four geographical populations. The egg supercooling point increased gradually from neonatal egg to old egg; eggs prior to hatching always had a much higher supercooling point.
3. Comparisons of the cold hardiness of four populations were carried out by validating the close correlation between latitude and the effects of cold on hatching, low lethal temperature (Ltemp50), and low lethal time (Ltime50). There were significant differences among the four populations; the northern population was more cold hardy than the southern population, and the two mid-latitude populations were intermediately cold hardy.
4. The cold hardiness of all populations was enhanced to various degrees by short-term cold acclimation at 0 °C and 5 °C. For most populations, a 2-day acclimation period seemed to be optimal.  相似文献   

15.
The inheritance of frost hardiness and cold acclimation potential traits was studied in three segregating populations derived from a cross betweenSolanum commersonii Dun. PI 243503 (cmm) andSolanum cardiophyllum Lindl., PI 184762 (cph), two parental genotypes with contrasting frost hardiness and cold acclimation potential. The levels of frost hardiness and cold acclimation potential were expressed as the LT50, the temperature at which 50% of the cells in leaf discs were killed, as measured by the ion leakage method, following a controlled freeze test There was considerable variation in both frost hardiness and cold acclimation potential in all three segregating populations (F1 F1 xcmm, and F1 xcph). Frost hardiness and cold acclimation potential were not correlated, suggesting that these two traits are under independent genetic control. The analysis of generation means indicated that the variation for both traits could be best explained by an additive-dominance model, with additive gene effects the most important Broad-sense heritability was 0.73 and 0.74 in the F1 population, for frost hardiness and cold acclimation potential, respectively, and was 0.85 for either trait in the F1 xcmm population, indicating that these two traits are highly inheritable. Our results suggest that it should be possible to incorporate the frost hardiness and cold acclimation traits from S.commersonii into cultivated potato species.  相似文献   

16.
李娜  周晓榕  庞保平 《生态学杂志》2014,25(7):2099-2104
采用热电偶法,在室内测定了宽翅曲背蝗卵的过冷却能力及抗寒性.结果表明: 土壤含水量对滞育前卵的含水量有显著影响, 而对卵过冷却点(SCP)的影响不显著,卵含水量随着土壤含水量的升高而上升.不同发育时期卵的SCP、含水量和脂肪含量存在显著差异.随着卵的发育,其含水量从产卵当天的51.5%下降至120 d的46.8%,脂肪含量从10.5%(鲜质量)/19.0%(干质量)上升到14.5%(鲜质量)/28.9%(干质量),而SCP从-23.5 ℃下降至-30.0 ℃;卵SCP与其含水量及脂肪含量存在显著相关关系;深度滞育卵的SCP显著低于滞育前和滞育初期卵的SCP.不同低温强度和处理时间对滞育卵的存活率有显著影响.滞育卵暴露12 h的致死温度为-27.3 ℃,在-25 ℃低温处理的致死时间为22.73 d.滞育卵的SCP与致死温度相近,说明宽翅曲背蝗卵为不耐结冰类型,且SCP是衡量其抗寒性的可靠指标.  相似文献   

17.
In this paper we demonstrate how broad scale comparative physiology has an important role to play in informing a variety of assumptions made in macroecology. We do so by examining large-scale geographic variation in insect development, thermal tolerance and metabolic rate. From these studies, and those from the literature on insect water loss and thermoregulation, we show that there is often a bias to the geographic extent of available empirical data. Studies of cold hardiness are most usually undertaken at high latitudes, while investigations of upper thermal tolerances and water loss are most common in warm arid regions. Likewise, we demonstrate that much variation in insect physiological tolerances is partitioned at higher taxonomic levels, which has important implications for comparative physiology. Intriguingly, data on the full range of variables we review are available for only three species. We also show that, despite its importance, body size is regularly reported in only some kinds of investigations (metabolic rate, water loss rate), whereas in others (upper lethal temperature, cold hardiness, development) this variable is often ignored. In short, although large-scale comparative physiology can contribute considerable understanding to both physiology and ecology, there is much that remains to be done.  相似文献   

18.
桔小实蝇自然种群蛹和越冬成虫的耐寒性   总被引:8,自引:2,他引:6  
任璐  陆永跃  曾玲 《昆虫学报》2007,50(6):588-596
本文通过过冷却点和低温耐寒能力的测定,研究了我国桔小实蝇Boctrocera dorsalis (Hendel)不同季节种群和地理种群蛹的耐寒性规律。结果表明:桔小实蝇自然种群蛹的低温存活力有明显的季节规律,冬前种群的耐寒性显著强于夏季种群。如在0℃低温下暴露2天,夏季种群基本全部死亡,而冬前种群存活率仍为61.4%。2005-2006年不同月份桔小实蝇1日龄蛹过冷却点差异明显,以2月份均值最高,为-9.26℃,8月份最低,为-15.20℃;且2月份桔小实蝇蛹个体过冷却点值出现明显的分化现象,分别在-15℃左右和-6℃左右出现两个明显的聚集区。所研究的5个桔小实蝇地理区域种群没有出现明显的耐寒性分化。结合本文结果,文中还就桔小实蝇自然种群耐寒性影响因素进行了讨论。  相似文献   

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