丝氨酸蛋白酶抑制剂Serpin1对东亚飞蝗酶学免疫的影响

Serpins是东亚飞蝗Locusta migratoria manilensis体内具有免疫调节功能的一类丝氨酸蛋白酶抑制剂.前期研究发现Serpin1能够降低绿僵菌Metarhizium对蝗虫的杀虫效果,本研究旨在从酶学角度明确Serpin1蛋白抑制绿僵菌毒力的原因,进一步揭示Serpins的功能与作用机制.本实验采用饵剂饲喂的方法进一步明确Serpin1蛋白对绿僵菌侵染东亚飞蝗的抑制效果;测定绿僵菌侵染东亚飞蝗过程中,添加Serpin1蛋白对东亚飞蝗体内保护酶(超氧化物歧化酶SOD、过氧化物酶POD、酚氧化酶PO)、解毒酶(多功能氧化酶MFO、谷胱甘肽转移酶GSTs、乙酰胆碱酯酶AchE)共6种酶的影响,以明确Serpin1对东亚飞蝗酶学免疫的调节作用.结果表明,Serpin1能够显著降低绿僵菌对蝗虫的杀虫效果;将Serpin1与绿僵菌混合后处理东亚飞蝗,12 d后其死亡率为63.5％,显著低于绿僵菌单独处理(死亡率为80.6％).酶活测定结果显示,将绿僵菌IMI330189与Serpin1蛋白混合处理后,与绿僵菌处理组相比,东亚飞蝗体内保护酶SOD和PO的活力总体表现为上调,而POD的活力呈现降低的趋势;解毒酶MFO、GSTs的活性呈现升高趋势,AChE的活力呈现先升高后降低的趋势.上述结果表明,Serpin1蛋白能够增强东亚飞蝗体内解毒酶和保护酶的活性,提高东亚飞蝗的酶学免疫,增强对绿僵菌侵染的抵御能力,从而降低东亚飞蝗的死亡率.本研究为进一步揭示Serpins的功能提供了参考.     

不同土壤类型和含水量下金龟子绿僵菌对红火蚁的致病力

[背景]红火蚁是一种危险性入侵生物,虫生真菌对其防治效果会受到外界环境因子的影响。[方法]应用致病力测定的方法研究了不同剂量金龟子绿僵菌M09对红火蚁的毒力,同时研究了含水量和土壤类型对绿僵菌毒力的影响。[结果]红火蚁的死亡率与金龟子绿僵菌的剂量呈正相关,处理4d后LG50为0．37g。金龟子绿僵菌在砂土、壤土和粘土中对红火蚁的致死率均与对照差异显著,其中在砂土中的毒力最强。此外,在不同含水量的土壤中,金龟子绿僵菌的致死率也不相同（P〈0．01）。[结论与意义]土壤类型和土壤湿度会显著影响金龟子绿僵菌M09对红火蚁的防治效果。选择高湿和砂土类型的土壤施用金龟子绿僵菌M09可以达到较好的效果。     

不同土壤类型和含水量下金龟子绿僵菌对红火蚁的致病力

【背景】红火蚁是一种危险性入侵生物,虫生真菌对其防治效果会受到外界环境因子的影响。【方法】应用致病力测定的方法研究了不同剂量金龟子绿僵菌M09对红火蚁的毒力,同时研究了含水量和土壤类型对绿僵菌毒力的影响。【结果】红火蚁的死亡率与金龟子绿僵菌的剂量呈正相关,处理4 d后LC50为0.37 g。金龟子绿僵菌在砂土、壤土和粘土中对红火蚁的致死率均与对照差异显著,其中在砂土中的毒力最强。此外,在不同含水量的土壤中,金龟子绿僵菌的致死率也不相同(P0.01)。【结论与意义】土壤类型和土壤湿度会显著影响金龟子绿僵菌M09对红火蚁的防治效果。选择高湿和砂土类型的土壤施用金龟子绿僵菌M09可以达到较好的效果。     

三株金龟子绿僵菌对红火蚁的致病力测定

本研究在实验室条件下测定了金龟子绿僵菌M09、CQMa117和CQMa128三个菌株对红火蚁的侵染能力。结果表明在1.0×10~8孢子/mL浓度下M09、CQMa128和CQMa117菌株处理后10 d红火蚁的工蚁累计死亡率分别为73.3%、14.6%和55.5%;M09菌株对工蚁的LC50为3.50×106孢子/mL,8.0×107孢子/mL浓度处理LT50为4.35 d。对M09菌株侵染红火蚁幼虫和蛹的能力测定结果显示,1.0×10~8孢子/mL浓度处理后10 d该菌株对幼虫和蛹的累计侵染率为98.9%和100%,对幼虫和蛹LC50分别为6.34×10~4孢子/mL、1.01×10~4孢子/mL。以上研究证实金龟子绿僵菌M09菌株对红火蚁具较强的致病力,致死速度较快,可作为该蚁生物防治的候选菌株。     

绿僵菌与3种杀虫剂混配对樟巢螟的协同作用

采用定量喷雾法测定了绿僵菌、白僵菌以及3种杀虫剂对樟巢螟Orthaga achatina低龄幼虫的室内毒力,并测定了金龟子绿僵菌Ma09与3种杀虫剂混配后的协同作用。结果显示：4种昆虫病原菌菌株均对樟巢螟2~3龄幼虫具有较好的致死效果,用绿僵菌和白僵菌孢悬液处理后,死亡高峰期在3~4 d;白僵菌GDLY9的防治效果最好,处理浓度为1×109孢子/mL下LT50和LT90分别为3.01、3.95 d,金龟子绿僵菌Ma09、3297效果相当,黄绿绿僵菌Mf985的LT50相对低一些,但是LT90优于金龟子绿僵菌Ma09和3297。金龟子绿僵菌Ma09与苯氧威、除虫脲和短稳杆菌混配后均表现出增效作用,协同指数分别为20.43、27.53和33.13。     

莱氏绿僵菌对斜纹夜蛾的致病力及生理效应

【目的】测定莱氏绿僵菌Metarhizium rileyi Nr5772菌株对斜纹夜蛾Spodoptera litura幼虫及蛹的致病能力,研究莱氏绿僵菌侵染后在寄主体内的发育及对寄主的生理效应,探讨莱氏绿僵菌的致病机制。【方法】采用浸渍法测定莱氏绿僵菌孢子对斜纹夜蛾3-6龄幼虫及蛹的致死中浓度(LC_(50))和致死中时(LT_(50))。采用微量注射法接种莱氏绿僵菌虫菌体,在不同时间后采集斜纹夜蛾幼虫血淋巴,在显微镜下检查虫菌体的数量、形态及寄主血细胞数量,并用酶标仪测定寄主血淋巴酚氧化酶(Phenoloxidase,PO)的活性。【结果】M.rileyi孢子对3龄斜纹夜蛾幼虫毒力最强,10 d后LC_(50)=3.12×10~6个孢子/mL,龄期越大,致病力越低;孢子浓度为5×10~9个/mL时,对3龄幼虫的致死速度最快,LT_(50)=4.55 d,致死速度随龄期的增大和浓度的降低逐渐减缓;M.rileyi孢子对蛹的致病力远低于对幼虫的致病力。注射接种虫菌体后,64 h内,虫菌体数量在寄主血腔中以幂函数的形式增长,寄主的血细胞数量没有明显的变化;在侵染初期(接种后44 h内),血淋巴PO活性正常;在侵染后期,虫菌体数量不再增加(55-64 h后),逐渐转化为菌丝体,并快速杀死寄主,PO活性受到抑制。【结论】莱氏绿僵菌Nr5772菌株对斜纹夜蛾幼虫有较强的致病力,应在害虫低龄期应用;莱氏绿僵菌在侵染初期对寄主血细胞和血淋巴PO无影响,后期则完全抑制PO活性。     

黄氏枝膜叶蜂生物学特性及金龟子绿僵菌对其幼虫的致病力

【目的】黄氏枝膜叶蜂Cladiucha huangbki是新发现的叶蜂科(Tenthredinidae)枝膜叶蜂属Cladiucha种类,以幼虫取食危害乳源木莲Manglietia yuyuanensis叶片,虫口密度大, 严重影响乳源木莲的生长。本研究旨在明确该虫的生物学特性,并筛选出对该虫具有高致病力的金龟子绿僵菌Metarhizium anisopliae菌株,为高效治理该虫提供理论基础和生物防治资源。【方法】以林间调查和室内饲养观察相结合的方式,观察黄氏枝膜叶蜂的各发育阶段形态特征和生物学特性(寄主植物、分布和生活史);采用孢子悬浮液喷雾法筛选高致病力金龟子绿僵菌菌株。【结果】林间和室内观察结果表明,黄氏枝膜叶蜂幼虫取食木兰科木莲属植物,在福建永安市一年发生1代,以老熟幼虫(预蛹)在土室中越夏、越冬;翌年3月上旬化蛹,3月下旬成虫羽化,4月上旬为雌虫产卵高峰期,4月中旬幼虫出现,4月下旬至5月上旬为幼虫危害高峰期,5月中旬老熟幼虫开始入土做土室,入土深度30~150 mm。室内金龟子绿僵菌不同菌株对黄氏枝膜叶蜂幼虫致病力测定结果表明,以1×10⁷孢子/mL悬浮液喷雾11 d后,不同菌株对其幼虫的校正死亡率均超过85%,其中MaQZ-01, MaYTTR-04-05, Ma3和MaFZ-13 4个菌株感染的叶蜂幼虫校正死亡率为100%。菌株MaFZ-08感染引起的黄氏枝膜叶蜂僵虫率最高,为60%;其次是MaYTTR-04-05,引起的僵虫率为50%。金龟子绿僵菌各菌株对黄氏枝膜叶蜂幼虫的致死中时间(LT₅₀)相差不大,在6 d左右,其中MaYTTR-04-05菌株的LT₅₀最短,为5.090 d。【结论】黄氏枝膜叶蜂在福建永安一年发生1代,5月中、下旬老熟幼虫入土做土室化为预蛹越夏越冬。本研究筛选出对黄氏枝膜叶蜂幼虫致病力强的金龟子绿僵菌MaYTTR-04-05菌株,在其防治上有良好的应用前景。     

球孢白僵菌和金龟子绿僵菌不同菌株对黑足角胸叶甲成虫的致病力评价

本研究在测定不同球孢白僵菌Beauveria bassiana和金龟子绿僵菌Metarhizium anisopliae菌株的生长速率与产孢量的基础上, 采用孢悬液浸渍法进行了对油茶新害虫--黑足角胸叶甲Basilepta melanopus成虫的生物测定, 旨在筛选出感染该成虫的高致病力菌株, 为防治该虫提供新的生物资源。结果表明： 不同菌株生长速率和产孢量间存在显著差异, MaYTTR-04, BbFZ-17, MaZPTR-01和BbTK-01生长速率和产孢量均显著高于其他菌株。接种后, 叶甲成虫累积死亡率随时间的增加而逐渐增高, 接种白僵菌7 d后, 成虫校正死亡率全部达到100%; 接种MaZPTR-01和MaYTTR-04两个绿僵菌菌株14 d后, 成虫死亡率分别为80.3%和78.8%。而且接种白僵菌后, 叶甲成虫的僵虫率显著较绿僵菌高, 尤其以BbTK-01和BbFZ-17两个菌株较好, 分别达到85.7%和75.8%。BbXJ-01, BbFZ-17和BbTK-01 3个白僵菌菌株的LT₅₀最小, 分别为3.0, 3.3和3.4 d; MaYTTR-04和MaZPTR-01两个绿僵菌的LT₅₀分别为6.0和6.2 d。结果说明, 白僵菌对叶甲成虫的致病力较强, 尤其是BbTK-01和BbFZ-17两个菌株, 不仅致死率高, 且致死速度快, 僵虫率高, 同时这2个菌株生长速度快、 产孢量大, 具有优良的生产特性, 在黑足角胸叶甲的生物防治中将有重要的应用价值。     

不同寄主及地理来源的16株绿僵菌对桃蚜的毒力比较

害虫生防真菌绿僵菌的不同种及变种被广泛应用于害虫微生物防治,但罕见以蚜虫等同翅目刺吸式害虫作为靶标。从两种绿僵菌的4个变种中精选16个不同寄主及地理来源的菌株,用喷塔接种桃蚜(Myzus persicae)无翅成蚜并在25±1℃和12L∶12D条件下饲养观察,所获生物测定数据进行时间-剂量-死亡率模型模拟分析。结果显示,高接种剂量(~1000个孢子/mm2)下7d内死亡率达67%~100%的10个菌株均为金龟子绿僵菌Metarhiziumanisopliae(Ma)及其金龟子变种M.anisopliaevar.anisopliae(Maa);而高剂量处理下仅感染致死个别或少数蚜虫的菌株包括金龟子绿僵菌及其金龟子变种、大孢变种M.anisopliaevar.majus和蝗变种M.anisopliaevar.acridum以及黄绿绿僵菌小孢变种M.flavoviridevar.minus。杀蚜活性优异的2个菌株分别为Ma 456和Maa 3332,接种后第4天的LC50分别为113和260个孢子/mm2,第5天为32和43个孢子/mm2,第6天为17和26个孢子/mm2,第7天仅11.4和19.9个孢子/mm2。这两个菌株具有用于蚜虫微生物防治的良好开发潜力。     

东亚飞蝗感染绿僵菌后的组织病理变化

将人工培养的绿僵菌分生孢子配制成浓度为 1× 1 0 8分生孢子 mL的孢子油剂 ,涂抹在供试东亚飞蝗Locustamigratoriamanilensis(Meyen)幼虫的腹侧部。通过组织切片研究表明 ,绿僵菌主要是从东亚飞蝗体表侵入的 ,72h后可见体腔内有菌丝和组织病变 ,侵入体内的菌丝在血腔中不断增殖 ,使得脂肪体、肌肉组织、马氏管和消化道发生病变解体。 96h后 ,肠壁细胞结构开始疏松、内膜解体。 1 2 0h后 ,多数幼虫死亡 ,消化道内外布满菌丝。     

改治结合,根除蝗害的关键因子是“水”!

改治结合,根除蝗害的关键因子是“水”。其主要原因为:(1)水灾是为东亚飞蝗创造发生地和转移到临近地区危害的关键因子;(2)东亚飞蝗产卵的适宜的土壤含水量为10%～20%(沙土为10%～12%,壤土为15%～18%,粘土为18%～20%);(3)先涝后旱,飞蝗成片;(4)黄(河)患是东亚飞蝗蝗害发生的源泉。南水北调东线工程的实施,有利于滨湖(库)蝗区东亚飞蝗的持续控制。     

Integration and Potential Application Ability of Culturable Functional Microorganism in Oil Tea Camellia

Oil tea Camellia is a major woody oil plant, which has a positive influence on alleviating the contradiction between supply and demand of edible oil in China. Microbial fertilizer for Oil tea Camellia is urgently needed in current production, and it is of great significance to improve the yield and quality. Culturable functional microorganisms are the basis of research and development for microbial fertilizer. In this study, culturable microorganisms which had abilities of antagonism, growth promotion, phosphorus solubility, nitrogen fixation and drought resistance, were integrated from oil tea literature. And the strains potential application ability were evaluated in terms of functionality, safety and adaptability, culture characteristics, suitable conditions and colonization or infection ability of strains. The results showed that the strains with strongest antagonistic ability were Bacillus amyloliquefaciens D2WM and Bacillus subtilis Y13. Beauveria bassiana BbTK-01 and Metarhizium anisopliae FJMa201101 had the strongest insect resistant ability. Glomus versiforme and Glomus intraradices can promote oil tea fastest growth. Phosphorus dissolving ability of Bacillus aryabhattai NC285 and Burkholderia cepacia 6-Y-09 were strongest. The strains with strongest Nitrogen fixing ability were Azomonas N7-3 and Sphingobium B7-7, and the strains with strongest improving drought resistance ability were Glomus versiforme and Glomus intraradices. Comprehensive evaluation of strains showed that Bacillus subtilis Y13 and Azomonas N7-3 had a good applied potential ability. This study would save time-consuming of isolate, purify and identify repetitively for the researchers of functional bacteria of oil tea Camellia. Meanwhile it provides a research basis for selecting targeted strains and constructing the combination of functional strains, therefore provides data support for fertilizer efficiency.     

Screening for Virulent Isolates of Entomopathogenic Fungi Against the Desert Locust, Schistocerca gregaria Forskal

The pathogenicity of 159 isolates of Metarhizium and Beauveria spp. was screened using Schistocerca gregaria adults. The median lethal time MLT , the average survival time and its standard deviation SD were used to describe the rate of kill from the cumulative observed response curve over time, following the application of conidia in bioassays. All screens included a standard strain of Metarhizium sp. from a single spore of IMI 330189ss , which gave an average MLT value of 4.4 days SD 0.4 in 46 assays. Approximately 50 isolates, all belonging to the genus Metarhizium, showed virulence that was comparable with this strain. Two previously unreported preliminary tests were carried out. The first test assessed the response to the standard isolate by an established laboratory stock of desert locusts compared with a recently introduced locust stock from Niger. There were insignificant differences in MLT and LD50 on day 5 between the different locust strains. The second test assessed the effects of inoculation at different times after the final ecdysis. This similarly had little effect, although applications before day 10 appeared to minimize the risk of control mortality. A computer program was developed to store bioassay results in a standardized format and to produce quick estimates of these statistics.     

A locust witness of a trans-oceanic Oligocene migration between Arabia and Iran (Orthoptera: Acrididae)

Fossil insects are very rarely found in sediments of deep marine origin. Nevertheless they can be of great interest to trace past events such as trans-oceanic migrations. Here we document the first fossil insects from Iran, viz. several alate ants dead during mating swarms and a migratory locust, found in the pelagic Oligocene sediments of the Zagros Mountains. This locust represents the first putative indication of insect migrations between the Arabian-African and Asiatic continents through the Parathetys, probably in relation with the development of open grassland biotas in these areas.     

水产源芽胞杆菌的分离鉴定及生物学功能分析

筛选具有较好生物学功能的芽胞杆菌(Bacillus),用以改善池塘养殖过程饲料等有机物降解、抑制水体中的病原菌,对从健康养殖鱼虾塘水体中分离的菌株,进行生化试验和16S rDNA序列分子鉴定;通过产酶、耐酸、耐高温试验,抑菌试验以及安全性试验研究分离菌株的生物学功能。试验共筛选出8株细菌,经生化试验及16S rDNA序列的分子鉴定,确定菌株ZHX17、ZHX18、ZHX31为贝莱斯芽胞杆菌（Bacillus velezensis）,菌株ZHX14、ZHX15为地衣芽胞杆菌（Bacillus licheniformis）、菌株NSX4、NSX7、NSX9为枯草芽胞杆菌（Bacillus subtilis）。试验结果表明,8株芽胞杆菌均具有较强的耐酸、耐高温特性,其中3株贝莱斯芽胞杆菌具有较强的分泌淀粉酶、纤维素酶、蛋白酶的能力,抑菌效果好于其他5株芽胞杆菌。安全性试验结果表明,8株芽胞杆菌对草鱼、罗非鱼相对安全。8株芽胞杆菌同时具备分泌淀粉酶、纤维素酶和蛋白酶3种胞外酶的能力,其中贝莱斯芽胞杆菌具有较强的病原菌抑菌能力,可以作为病原拮抗益生菌做进一步研究。     

昆虫病原微生物及其在蝗灾治理中的应用

本文重点介绍了蝗虫痘病毒、蝗虫微孢子虫、蝗噬虫霉、绿僵菌、白僵菌、米曲霉等的生物学特性、侵染机制、流行病学和应用潜力。蝗虫痘病毒和蝗噬虫霉分别由于生产成本过高和分生孢子在离体条件下存活时间过短而难以开发应用;蝗虫微孢子虫和绿僵菌已广泛应用到蝗灾治理中,有关绿僵菌致病机理的研究最深入全面;白僵菌也已成功应用到蝗灾治理中;介绍了一种新病原——米曲霉对飞蝗的毒力以及产孢量和耐热性等生物学特性。最后,提出蝗虫新病原微生物资源的开发、提高生产工艺水平、研发新的制剂和延长储存时间等是今后蝗虫微生物农药的发展方向。     

滇蔗茅杂交F_1双抗SCSMV和SrMV鉴定与评价

以我国蔗区甘蔗花叶病的2种主要病原甘蔗条纹花叶病毒分离物(SCSMV-JP1,Gen Bank登录号JF488064)和高粱花叶病毒分离物(Sr MV-HH,Gen Bank登录号DQ530434)为接种毒源,采用人工切茎接种和RT-PCR检测相结合的方法,于2015-2016年2次对由热带种路打士与滇蔗茅云滇95-19杂交获得的41份滇蔗茅杂交F_1及亲本进行了双抗SCSMV和Sr MV鉴定与评价。结果表明,41份滇蔗茅杂交F_1及亲本中,对SCSMV表现1级高抗到3级中抗的有23份,占53.49%,4级感病到5级高感的有20份,占46.51%;对Sr MV表现1级高抗到3级中抗的有31份,占72.09%,4级感病到5级高感的有12份,占27.91%。综合分析结果显示,10份滇蔗茅杂交F_1对SCSMV和Sr MV均表现1~2级抗病,占23.26%,其中云09-604、云09-607、云09-619、云09-633、云09-656、云滇95-19等6份滇蔗茅杂交F_1对2种病毒均表现为1级高抗,占13.95%。研究结果明确了41份滇蔗茅杂交F_1及亲本对甘蔗花叶病2种主要致病病原的抗性,筛选出10份双抗SCSMV和Sr MV的滇蔗茅杂交F_1,为深入开展抗甘蔗花叶病育种提供了优良抗源种质和参考依据。     

HISTORICAL EVIDENCE FOR POPULATION DYNAMICS OF TIBETAN MIGRATORY LOCUST AND THE FORECAST OF ITS OUTBREAK*

Abstract The Tibetan migratory locust (Locusta migratoria tibetensis Chen) is the highest altitude distributed subspecies among the 10 subspecies of migratory locusts. It was discovered and described as new subspecies in 1963. It is mostly distributed above an elevation of 3 000 m, with the highest up to 4 600 m, on the “Roof of the World,” viz. the Qinghai-Xizang Plateau in southwestern China. Recent study on the historic literature revealed ancient records of locust plagues caused by Locusta migratoria tibetensis Chen in many regions of Xizang (Tibet). These disasters took place during 124 years stretching from 1828 to 1952. Forty-five places were infested by locust swarms, and from 1846 to 1857 locust disasters occurred sucessively in 12 years, and affected 18 places of Xizang. At the severe disaster regions crops were damaged by locusts in such a degree that there was no harvest at all. At the same time, locust plagues due to another subspecies also occurred in the plains between the Yellow River and Huaihe and Haihe Rivers in East China. The disasters in Xizang were caused by the Tibetan migratory locust, while in Huang-Huai-Hai Plain disasters were due to the Oriental migratory locust Locusta migratoria manilensis (Meyen). This study not only provides the evidence that the Tibetan migratory locust has been existing as a separate subspecies with a long history, but also reveals the relevant years of locust plagues, their regional distribution and intermittent rules of locust plagues. It also offers a scientific basis for forecasting Tibetan migratory locust disasters and related monitoring strategies; as well as understanding the close relationship between the outbreak of the migratory locust and drought.