以电导法配合Log istic方程确定茶梅‘小玫瑰’的抗寒性

 摘　要: 以不同处理时间、不同低温处理下茶梅‘小玫瑰’叶片的电解质外渗率(REC) 变化作曲线,并结合Logistic方程分别计算茶梅的半致死温度(LT50 ) , 结果发现在低温处理6 h以上, 茶梅叶片的REC均随着处理温度的降低而呈“S”形上升, 由此计算出“S”形拐点对应的温度即为茶梅叶片的LT50 , 其温度值在- 1215℃至- 14℃之间, 这可认为是茶梅抗寒能力的重要指标。关键词:     

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。     

Estimation of Crown Temperature of Winter Wheat and the Effect on Simulation of Frost Tolerance

Accurate estimation of winter wheat frost kill in cold‐temperate agricultural regions is limited by lack of data on soil temperature at wheat crown depth, which determines winter survival. We compared the ability of four models of differing complexity to predict observed soil temperature at 2 cm depth during two winter seasons (2013‐14 and 2014‐15) at Ultuna, Sweden, and at 1 cm depth at Ilseng and Ås, Norway. Predicted and observed soil temperature at 2 cm depth was then used in FROSTOL model simulations of the frost tolerance of winter wheat at Ultuna. Compared with the observed soil temperature at 2 cm depth, soil temperature was better predicted by detailed models than simpler models for both seasons at Ultuna. The LT50 (temperature at which 50 % of plants die) predictions from FROSTOL model simulations using input from the most detailed soil temperature model agreed better with LT50 FROSTOL outputs from observed soil temperature than what LT50 FROSTOL predictions using temperature from simpler models did. These results highlight the need for simpler temperature prediction tools to be further improved when used to evaluate winter wheat frost kill.     

不同方式接种绿僵菌后松墨天牛带菌量及致死率的比较

对松墨天牛成虫采用爬行、跗节、喷雾3种方式接种金龟子绿僵菌MaYTTR-04后的带菌量和死亡率进行了比较试验,结果表明:不同接种方式松墨天牛体的带菌量间差异极显著(F=79.179,P=0.0001),其中爬行接种的接种量最大,达到(5.60±0.49)×106孢子.成虫-1,是跗节接种的4倍多;接种后15 d,各处理天牛累计死亡率均达100%;模拟各处理毒力回归方程发现,爬行接种的方程的斜率最大,说明处理后天牛在致死中时(LT50)后期死亡速率较快,爬行、喷雾、跗节接种的LT50分别为5.3 d、6.8 d和6.9 d。综合分析表明,3种方式接种绿僵菌后松墨天牛的致死率非常高,其中爬行接种效果最好。可为松墨天牛的生物防治提供有效的施菌技术。     

低温胁迫对淡竹2个抗寒性生理指标的影响

选择13个区域的淡竹叶片为试材,分别在0、-5、-10、-15、-20、-25℃下进行低温胁迫处理,测定其电导率和脯氨酸含量的变化,电导率结合Logistic方程计算出淡竹的半致死温度。通过脯氨酸含量分析和半致死温度的计算,综合分析不同区域淡竹抗寒性的生理生化指标,推测其抗寒性强弱:来源于烟台林科院、烟台昆嵛山、潍坊的淡竹抗寒性较强,来源于日照、沂源、东营、济南、临沂、胶南、泰安的淡竹抗寒性中等,来自浙江、江西、江苏的淡竹抗寒性最弱。     

Stimulation of ROS-scavenging systems in squash (Cucurbita pepo L.) plants by compost supplementation under normal and low temperature conditions

The beneficial effect of compost, the final product of aerobic biodegradation of organic matter, on growth, lipid peroxidation [as malondialdehyde (MDA], hydrogen peroxide (H₂O₂) and superoxide anion (O₂^•−), activities of superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX) and glutathione reductase (GR), as well as reduced ascorbate (ASC) and glutathione (GSH) and their oxidized forms was investigated in squash (Cucurbita pepo L. cv. Eskandarany) plants exposed to normal and low temperature (LT) conditions. LT stress of 8 °C significantly reduced the plant growth of untreated plants, but compost alleviated the adverse effect of stress and significantly increased the fresh and dry weights under normal and stress conditions. LT also induced accumulation of H₂O₂ and O₂^•− and resulted in increased lipid peroxidation, pointing out to cellular oxidative stress. Under compost application, such reactive oxygen species (ROS) and peroxidized lipids were markedly reduced, but SOD, CAT, APX and GR activities, key enzymes of ROS-scavenging systems, were significantly increased. Data also indicated that there were general reductions in total ascorbate and glutathione pool in LT control plants, but compost-treated ones considerably have maintained higher levels of such redox metabolites. Significantly higher ratios of ASC/DHA (dehydroascorbate) and GSH/GSSG (glutathione disulfide) were generally found in compost-treated plants than in untreated-ones. It is evident that compost induced enhancement of LT tolerance was related to up-regulation of enzymatic and non-enzymatic antioxidant systems. Such enhancement would eventually protect plant cells from LT-induced oxidative stress reactions via scavenging ROS.     

Toxicity and neurophysiological effects of selected insecticides on the mole cricket, Scapteriscus vicinus (Orthoptera: Gryllotalpidae)

Mole crickets (Scapteriscus spp.) are severe subterranean pests of turfgrasses, commonly targeted with neurotoxic insecticides. Ideally insecticides used against mole crickets should induce quick knockdown or mortality to minimize damage caused by their tunneling. However, neurophysiological effects of insecticides on mole crickets are mostly unknown. The aims of this study were to investigate neurophysiological and toxic effects of several insecticides on tawny mole cricket (Scapteriscus vicinus Scudder) adults and nymphs, and potential synergy between pyrethroid and neonicotinoid insecticides. Bifenthrin, fipronil, and the combination of bifenthrin + imidacloprid provided the fastest median mortality when injected. The combination of bifenthrin + imidacloprid elicited faster toxicity than either active ingredient alone. Imidacloprid, bifenthrin, and bifenthrin + imidacloprid caused immediate knockdown, whereas fipronil immobilized mole crickets within 1-2 h. Acephate, bifenthrin, fipronil, imidacloprid, and bifenthrin + imidacloprid caused significant neuroexcitation. Bifenthrin + imidacloprid resulted in greater increases of spontaneous neural activity than the additive effects of imidacloprid and bifenthrin alone. Excitatory compounds acting at sodium and chloride channels (bifenthrin and fipronil) were the most toxic against S. vicinus. Combining a sodium channel toxin (bifenthrin) and a synaptic toxin (imidacloprid) led to greater than additive neurophysiological and toxic effects, which to our knowledge provides the first documented evidence of synergistic neurological “potentiation”.     

4个百子莲品种的抗寒性鉴定

为给百子莲的引种、推广提供理论和实践依据,以百子莲属(Agapanthus)中的白花、龙之花、海德伯恩杂交和白花4个品种的叶片和根为试验材料,通过测定降温处理过程中百子莲叶片和根的相对电导率,结合Logistic方程计算的半致死温度(LT50),评价4个百子莲品种在不同降温时期的抗寒性。结果表明:随着低温胁迫的加强,叶片和根的电解质渗出率呈不规则的S形上升;白花抗寒性最强,其叶片和根的LT50分别为-10.97℃和23.18℃,大花的抗寒性最差,其叶片和根的LT50分别为-4.29℃和-18.38℃。抗寒性依次为叶片,白花龙之花大花;根,白花龙之花海德伯恩杂交大花。与田间调查基本吻合。     

香橼优良单株半同胞家系子代抗寒性研究

在南京六合地区对3年生24个香橼优良单株半同胞家系子代进行抗寒性测定研究,结果表明家系子代间抗寒性存在着显著的差异。田间观测-11℃自然低温下春江4#和香橼4#的抗寒性最强,受冻株率分别为86.67%和100%,平均受冻级别均为Ⅰ级,耐寒指数均为2.00;新世纪8#、春江7#和新世纪2#的抗寒性最差,受冻株率均为100%,平均受冻级别均达Ⅲ级,耐寒指数均大于3.00。室内抗寒力测定供试家系子代的半致死温度在-14.84℃～-7.05℃之间。春江4#和香橼4#的抗寒力最强,半致死温度分别为-14.84℃和-13.94℃;春江7#和新世纪2#的抗寒力最差,半致死温度分别为-7.91℃和-7.05℃。抗寒性评估结果一致。根据半致死温度,结合田间抗寒性观测,供试香橼家系子代抗寒性评估排序为春江4#>香橼4#>春江6#>春江5#>新世纪9#>新世纪10#>新世纪3#>香橼1#>新世纪7#>香橼7#>新世纪8#>香橼6#>香橼5#>春江3#>新世纪4#>新世纪6#>香橼2#>春江8#>新世纪5#>春江1#>新世纪1#>春江2#>春江7#>新世纪2#。