致死温度

菌丝的致死温度为60℃30min。

The lethal temperature for the mycelium was 60 ℃ for 30 min.

致死温度55～56℃，10min。

The lethal temperature is 55 ~ 56 ℃ .

三维抛物方程方法中海底边界条件改进处理的能量守恒方法应用Logistic方程确定三种桉树的低温半致死温度

Improvement of Bottom Boundary Condition Expressions in 3D PE on the principle of energy conservation ; Low Temperature LT50 of Three Eucalyptus Seedlings with Electrical Conductivity Method and Logistic Equation

孢子的致死温度为65℃，10min。

The spore could be killed at 65 ℃ for 10 min.

结果表明，两种动物的起始致死温度（TL（50））和最高临界温度（CTM）随驯化温度的升高而增大；

The results showed that both incipient lethal temperature ( TL50 ) and critical temperature maximum ( CTM ) increased as the acclimation temperature increased .

菌丝和孢子的致死温度分别是45℃30min和50℃15min。

The lethal temperature for the spores and the mycelium was 50 ℃ 15 min and 45 ℃ 30 min.

该菌生长的最适温度为30℃，最适pH值为7，最适培养基为PDA，60℃5min为致死温度。

The optimal condition for the growth of the pathogen is 30 ℃, pH 7 , and with the media of PDA , the lethal high temperature is 60 ℃ for 5 min.

菌丝和分生孢子的致死温度分别为55℃10min和60℃10min。

The lethal temperature for mycelial growth and spores gemination were respectively 55 ℃ and 60 ℃ for 10 min.

分生孢子的致死温度为50℃10min或55℃5min。

The lethal temperature for the conidiophore was 50 ℃ for 10 min or 55 ℃ for 5 min.

孢子萌发最适pH6～8，pH低于2和高于10孢子不能萌发；孢子致死温度为60℃。

The optimum pH was 6 ~ 8 . The spore could not germinate at pH lower than 2 or higher than 10 . The lethal temperature of conidia was 60 ℃ .

温度胁迫可以提高对亚致死温度（－15℃、3h）的耐受性。对于存活率的提高，冷休克处理比热休克处理更有效。

Temperature shocks enhanced the ability to endure subzero temperature ( - 15 ℃, 3 h ), and the cold shock treatment had more significant effect on maintaining larval survival than that of heat shock .

菌丝、菌核的致死温度分别是55℃10min，60℃10min。

The temperature of causing death on the hypha and the sclerotium are 10 min in 55 ℃ and 10 min in 60 ℃ respectively .

菌丝生长发育最适温度范围25~28℃，30℃下培养生长较好；分生孢子致死温度为55℃10min；

As for hyphae growth temperature , the optimum was 25 ~ 28 ℃, grew well under the 30 ℃ condition , lethal temperature was 55 ℃;

外施GA3能够提高仁用杏电解质渗出率、半致死温度和MDA含量，降低可溶性糖、可溶性蛋白质含量，抑制SOD、POD酶活性，导致仁用杏抗寒性减弱。

To spraying GA3 in kernel apricot could enhance the electrolyte-leakage ratio , the half lethal temperature and the content of MDA , and reduce the content of soluble sugar , soluble protein and the activity of SOD and POD , and weaken the cold resistance of kernel apricot .

在pH59范围内均可生长，以pH6.57.5为最适。湿热致死温度，分生孢子为52℃，10分钟；

The growth of pH ranged from 5 to 9 , with an optimum 6.5 & 7.5.The thermal death point of conidiospores tested in the hot water was at 52 ℃ for 10 min.

本文研究了低温和干旱锻炼对杂交粳稻无性系在低温下的存活率，叶片致死温度（LT50），叶绿素含量，净光合速率和电解质渗漏率的影响。

The effects of chill and drought hardening on survival % , leaf lethal temperature ( LT_ ( 50 )), chlorophyll content , electrolyte leakage % and photosynthetic rale in the clones of hybrid japonica ( Nannong 521 ) at low temperature were studied .

浮游动物的耐热性强于浮游植物，并存在种间差异，由于半致死温度（LT50）与自然适应水温的跨度较大，温排水造成的海域温升基本不影响受纳海域的浮游动物存活。

The tolerance of zooplankton is stronger than that of phytoplankton , which is different among species . Temperature elevation in receiving sea area generally has no impact on the survival of zooplankton because of the large span between semi-lethal temperature ( LT50 ) and natural living temperature .

稚贝对低温（5℃至2℃）有很强的忍耐性，致死温度上限是40℃。

The upper lethal temperature of the spat was 40 ℃ .

5℃低温是咖啡叶细胞的致死温度。

Temperature below 5 ℃ was lethal for Coffea arabica leaves .

曼地亚红豆杉的半致死温度与对低温的适应性

Semilethal Low Temperature and Low Temperature Adaptability of Tow Taxus Media Species

20℃下温度对孢子的存活有利，分生孢子的致死温度为44℃。

The lethal temperature for the spore was 44 ℃ .

通过研究明确了两菌菌丝生长、产孢和分生孢子萌发的条件范围和最适条件及致死温度。

The range and lethal temperature of mycelia and conidia were determined .

亚致死温度是低温诱导多倍体的合适温度。

Sublethal temperature might be suitable for polyploid inducement of cold shocks .

菌丝和分生孢子生命力顽强，致死温度均超过50℃。

The lethal temperature of mycelium and conidiospore exceeded 50 ℃ 3 .

分生孢子致死温度接近50℃。

The lethal temperature for conidia was about 50 ℃ .

其致死温度为95～100℃。

The lethal temperature of the virus was 95 ℃ to 100 ℃ .

2种紫花苜蓿高温半致死温度与耐热性研究

Detection of Semi-lethal High Temperature and Heat Tolerance for Two Cultivars of Alfalfa

致死温度为55℃。

Lethal temperature of spores was 55 C .

稻瘟病菌孢子保存技术该菌孢子的致死温度为55℃。

Preservation Technique of Pyricularia oryzae Conidia The fatal temperature for the pathogen was 55 ℃ .

自然降温过程中曼地亚红豆杉叶片膜保护系统的变化与低温半致死温度的关系

The Relation Between the Membrane Protective System and Semilethal Temperature of Taxus Media Leaves as Temperature Fell