5种杀虫剂对青菜黄曲条跳甲的毒力测定及田间药效

为了筛选有效防治青菜黄曲条跳甲的药剂,在室内测定了5种杀虫剂对黄曲条跳甲成虫的毒力,并开展了这5种药剂对黄曲条跳甲的田间药效试验。毒力测定结果表明,10%啶虫脒WP对黄曲条跳甲的毒力最高,28%杀虫·啶虫脒WP毒力最低,LC50分别为7.20 mg/L和18.63 mg/L,5种药剂的毒力大小依次为:10%啶虫脒WP>42%啶虫·哒螨灵WP>5%鱼藤酮SL>15%哒螨灵EC>28%杀虫·啶虫脒WP。田间药效试验结果表明,42%啶虫·哒螨灵WP和15%哒螨灵EC的防效最优,10%啶虫脒WP、28%杀虫·啶虫脒WP和5%鱼藤酮SL 3种药剂总体防效相当,但低于42%啶虫·哒螨灵WP和15%哒螨灵EC。综合来看,建议使用42%啶虫·哒螨灵WP 126~189 g/hm2、15%哒螨灵EC 90~135 g/hm2、28%杀虫·啶虫脒WP 294~420 g/hm2、10%啶虫脒WP 60~90 g/hm2、5%鱼藤酮SL 150~225 g/hm2对青菜黄曲条跳甲进行防治。     

水环境中Ni~(2+)对鲤鱼鳃和肝脏的组织损伤

为研究水环境中Ni~(2+)对鲤鱼鳃和肝脏的组织损伤,将鲤鱼(Cyprinuscarpio)暴露在Ni~(2+)浓度为0、0.55、0.62、0.72、0.83、0.96、1.09、1.25mmol/L的水环境中进行急性毒性试验,并通过组织切片观察鳃和肝脏的组织病理变化。结果显示,Ni~(2+)对鲤鱼的96h半数致死浓度(LC_(50))为0.72 mmol/L,安全浓度(SC)为0.007 2 mmol/L。高浓度Ni~(2+)(1.25 mmol/L)试验组鲤鱼的鳃小片呼吸上皮细胞坏死、脱落,肝血窦淤血,肝细胞核固缩;中低浓度Ni~(2+)(0.72～1.09mmol/L)试验组鲤鱼的鳃小片呼吸上皮水肿浮离、细胞增生,血窦充血,肝细胞胞浆空泡化。表明水环境中的Ni~(2+)浓度高于0.007 2mmol/L时会对鲤鱼的鳃和肝脏造成急性毒性,导致鳃和肝脏出现明显的组织病理变化。     

防治红火蚁触杀型药剂的筛选

测定了9种杀虫剂的触杀活性和其中8种药剂对红火蚁工蚁的致死中浓度,触杀活性测试表明,48%毒死蜱对工蚁的击倒速度和致死率均高,药后0.5 h工蚁死亡率达100%;氨基甲酸酯类药剂药后8 h工蚁的被击倒率达100%;5%氟虫腈10 000倍和10%溴虫腈10 000倍药液处理后工蚁的被击倒速度低,但药后24 h工蚁死亡率达100%;高效氯氰菊酯和杀虫双对工蚁的毒性是可恢复的。毒力测试表明,98%杀螟丹对红火蚁毒力最强,其次是10%溴虫腈和48%毒死蜱,而有机磷类的敌敌畏和氨基甲酸酯类的丁硫克百威毒力表现较差,拟除虫菊酯类的高效氯氰菊酯表现一般。试验结果表明,氟虫腈、溴虫腈、毒死蜱、杀螟丹等药剂可被推荐用于野外红火蚁的灌巢防治。     

Mussel Shells,a Valuable Calcium Resource for the Pharmaceutical Industry

(1) Background: The mussel (Mytilus edulis, Mytilus galloprovincialis) is the most widespread lamellibranch mollusk, being fished on all coasts of the European seas. Mussels are also widely grown in Japan, China, and Spain, especially for food purposes. This paper shows an original technique for mussel shell processing for preparation of calcium salts, such as calcium levulinate. This process involves synthesis of calcium levulinate by treatment of Mytilus galloprovincialis shells with levulinic acid. The advantage of mussel shell utilization results in more straightforward qualitative composition. Thus, the weight of the mineral component lies with calcium carbonate, which can be used for extraction of pharmaceutical preparations. (2) Methods: Shell powder was first deproteinized by calcination, then the mineral part was treated with levulinic acid. The problem of shells generally resulting from the industrialization of marine molluscs creates enough shortcomings, if one only mentions storage and handling. One of the solutions proposed by us is the capitalization of calcium from shells in the pharmaceutical industry. (3) Results: The toxicity of calcium levulinate synthesized from the mussel shells was evaluated by the method known in the scientific literature as the Constantinescu phytobiological method (using wheat kernels, Triticum vulgare Mill). Acute toxicity of calcium levulinate was evaluated; the experiments showed the low toxicity of calcium levulinate. (4) Conclusion: The experimental results highlighted calcium as the predominant element in the composition of mussel shells, which strengthens the argument of capitalizing the shells as an important natural source of calcium.     

7种生物药剂对百香果茎基腐病菌的抑菌效果试验

【目的】明确7种生物药剂对百香果茎基腐病的防治效果,筛选高效安全生物药剂用于指导百香果生产。【方法】采用菌丝生长速率法测定7种生物药剂对百香果茎基腐病菌的毒力效果,观察药剂对病原菌孢子生长及形态的影响,并用离体接种法测定药剂的防治效果。【结果】7种生物药剂处理对菌落生长均有抑制作用,但对孢子的生长和形态的效果不同。室内毒力测试结果显示植物源药剂中抑菌效果最佳为井冈霉素(EC₅₀为7.79 mg/L),其次为春雷霉素(EC₅₀为26.35 mg/L)、乙蒜素(EC₅₀为28.65 mg/L)、苦参碱(EC₅₀为339.13 mg/L)和多抗霉素(EC₅₀为1 150.29 mg/L)。微生物药剂以枯草芽孢杆菌效果较好,EC₅₀为3.2×10⁶ CFU/g。筛选毒力较强的4种生物药剂均可抑制百香果茎基腐病不同菌株生长。离体试验和田间防效试验表明井冈霉素和枯草芽孢杆菌生物药剂对百香果茎基腐病防治效果显著,两者的离体防效分别为58.8%和70...     

尖孢镰孢菌室内生物药剂筛选

在室内选用了6种生物药剂对尖孢镰孢菌进行了毒力测定。结果表明:在供试的药剂中,抑菌效果较好的药剂有低聚糖素、春雷霉素、克菌康,其中低聚糖素对尖孢镰孢菌的抑菌效果最好,EC50为18.20mg·L-1,春雷霉素次之,EC50为20.49mg·L-1。     

敌百虫对三疣梭子蟹幼体的急性毒性研究

试验结果表明,随着三疣梭子蟹幼体的发育,其半致死质量浓度以及安全质量浓度呈上升趋势。三疣梭子蟹Ⅰ期溞状幼体24 h LC50和48 h LC50分别为0.0095 mg/L和0.0082 mg/L,安全质量浓度为0.0018 mg/L;三疣梭子蟹Ⅱ期溞状幼体24 h LC50和48 h LC50分别为0.019 mg/L和0.010 mg/L,安全质量浓度为0.0038 mg/L;三疣梭子蟹Ⅳ期溞状幼体24 h LC50和48 h LC50分别为0.085 mg/L和0.047 mg/L,安全质量浓度为0.0043 mg/L;三疣梭子蟹大眼幼体24 h LC50和48 h LC50分别为0.085mg/L和0.050 mg/L,安全质量浓度为0.0052 mg/L。     

港口疏浚淤泥悬浮物对2种海洋生物的急性毒性试验研究

从上个世纪开始,人们对于海洋悬浮物就予以了高度重视。悬浮物作为海洋中最普遍的污染,对海洋生物造成了很大危害。本文用海洋疏浚淤泥悬浮物对卤虫无节幼体和梭鱼幼鱼进行了急性毒性试验。结果显示,半致死浓度随着时间的延长而逐渐降低;不同密度的海洋生物半致死浓度相差不大。不同水温条件下的梭鱼幼鱼试验表明,水温为24℃时其半致死浓度比21℃时要低,其安全浓度也呈现相同的趋势。