芬兰真绥螨对苹果全爪螨的捕食作用研究

在实验条件下,系统研究了芬兰真绥螨Euseius finlandicus Oudemans对苹果全爪螨Panony-chus ulmi Koch的控制能力。研究结果表明:(1)在15～32℃的温度条件下,芬兰真绥螨雌成螨的捕食量随着温度的上升呈线型正相关。在15～25℃的温度内芬兰真绥螨的产卵量随温度升高而增加,在15℃下平均单雌产卵0.42粒,25℃时平均单雌产卵2.56粒;当温度升到32℃时单雌产卵下降为1.62粒,雌成螨的产卵量与温度的关系呈抛物线型。(2)在5～15头/叶的猎物密度下,雌成螨的捕食量随着猎物的密度增加呈线型正相关,而当猎物密度达到30头/叶时,芬兰真绥螨雌成螨的捕食量处于平稳状态。在5～15头/叶的猎物密度下,芬兰真绥螨的产卵量和产卵量均与猎物的密度呈线型正相关;当每头雌成螨捕食量为1.8～3.5头时,产卵量为1.0～1.5粒。(3)不同温度下,芬兰真绥螨对猎物的不同密度和虫态的功能反应可用圆盘方程II型进行拟合;在25℃条件下捕食效率最高且喜好捕食的虫态是卵和幼螨。     

Morphology and function of ovipositorial and tarsal sensilla of female Asian citrus psyllid

The Asian citrus psyllid (ACP), Diaphorina citri Kuwayama (Hemiptera:Psyllidae), is one of the most important pests of citrus plants worldwide, due to be the dominant vector of the devastating citrus disease Huanglongbing (HLB). Selection of suitable oviposition site is a crucial event of phytophagous insect life. Usually, the chemical and physical characteristics of a host plant were recognized by sensilla on the ovipositor and tarsi of a phytophagous insect after settling on a plant surface. In this study, the morphology, number, and distribution pattern of the ovipositorial and tarsal sensilla of adult female psyllids, were observed by scanning electron microscopy (SEM) techniques. The effect of these sensilla on oviposition was investigated by sensilla deactivation using hydrochloric acid (HCl). The results showed that sensilla trichoid (ST), sensilla chaetica (ChS) and sensilla basiconica (SB) were distributed on ovipositor, while sensilla trichoid (ST) were distributed on the external genitalia. Sensilla chaetica (ChS) and basiconica (SB) were mainly distributed on the end of the ovipositor back plate, and on the base of the sternum. On tarsus, sensilla trichoid (ST), sensilla chaetica (ChS), sensilla triangular (TeS) and sensilla ear ball (SE) were observed. However, whole tarsal segments were covered with Böhm's mane, which was arranged in a circular line. Oviposition assay revealed that a significantly lower number of eggs were laid on the Murraya paniculata seedlings confined by the psyllids with deactivated ovipositorial sensilla followed by protarsal sensilla, mesotarsal sensilla and hindtarsal sensilla. These results suggested that the ovipositorial and tarsal sensilla of citrus psyllid have an important role in the oviposition.     

橘全爪螨对双甲脒的抗性选育及其P450基因的表达差异分析

为了对双甲脒进行抗性风险评估, 弄清P450基因在橘全爪螨Panonychus citri抗药性中的作用, 在室内用双甲脒对橘全爪螨进行了抗性选育和交互抗性研究, 同时分析了橘全爪螨双甲脒抗性和敏感品系P450基因表达差异。经过12代抗性选育, 获得了橘全爪螨双甲脒抗性品系, 与敏感品系比较, 橘全爪螨对双甲脒的抗性倍数达到26.32倍。抗性风险评估表明, 橘全爪螨对双甲脒抗性遗传力h²为0.148。螺螨酯、 丁醚脲、 炔螨特和三唑锡对抗性品系的LC₅₀分别为敏感品系的16.85, 4.98, 2.13和2.05倍, 表明双甲脒抗性品系对螺螨酯、 丁醚脲、 炔螨特和三唑锡具有明显的交互抗性。阿维菌素、 苯丁锡、 哒螨灵、 矿物油对抗性品系LC₅₀分别为敏感品系的1.10, 1.21, 0.67和0.99倍, 表明双甲脒抗性品系对上述4种药剂没有显著的交互抗性。基因差异性分析发现, 抗性品系中有16条P450基因发生了上调, 27条P450基因发生了下调, 其中CYP389A6上调倍数最高［log₂ratio (RS/SS)=11.526］, CYP389A2下调倍数最高［log2ratio(RS/SS) =-12.683］, 由此推断, CYP389A6上调和CYP389A2下调可能是橘全爪螨对双甲脒产生抗性的重要原因。     

柑橘木虱两地理种群的内共生菌群落组成及传菌能力

柑橘黄龙病（Huanglongbing, HLB）是经柑橘木虱Diaphorina citri传播的最主要柑橘病害之一, 危害严重时能对柑橘产业造成毁灭性的破坏。为了鉴定福建和海南2个地理种群柑橘木虱的内共生菌群落组成, 本研究对16S rRNA部分保守序列进行PCR扩增, 并利用特异性引物对不同内共生菌进行了感染率检测; 另外, 还通过人工接虫的方法, 探索柑橘木虱成虫在带黄龙病菌蕉柑Citrus reticulata cv. Tankan上的获菌能力, 以及带菌柑橘木虱成虫对黄岩蜜橘C. reticulata cv. Subcompressa的传菌能力。研究发现, 这2个地理种群的柑橘木虱含有相同的内共生菌组成, 包括α-Proteobacteria, Wolbachia spp., γ-Proteobacteria, mycetocyte symbionts, β-Proteobacteria, Oxalobacter和β-Proteobacteria, Herbaspirillum, 而且这2个地理种群柑橘木虱的4种内共生菌的携带率均在95%以上。柑橘木虱成虫在带菌蕉柑上饲菌28 d后, 带菌率可达到82%, 而带菌柑橘木虱成虫在黄岩蜜橘上传菌75 d后, 可导致橘树整体带菌。本研究为柑橘木虱的进一步研究和防虫治病途径提供了一些理论依据。     

Amensalism via webs causes unidirectional shifts of dominance in spider mite communities

Competitive displacement is considered the most severe consequence of interspecific competition; if a superior competitor invades the habitat of an inferior species, the inferior species will be displaced. Most displacements previously reported among arthropods were caused by exotic species. The lack of investigation of displacement among native species may be due to their apparently harmonious coexistence, even if it is equivalent to an outcome of interspecific association. A seasonal change in the species composition of spider mites, from Panonychus ulmi to Tetranychus urticae, is observed in apple trees worldwide. Previous laboratory experiments have revealed amensal effects of T. urticae on P. ulmi via their webs. Using manipulation experiments in an orchard, we tested whether this seasonal change in species composition occurred as the result of interspecific competition between these spider mites. Invasion by T. urticae prevented an increase in P. ulmi densities throughout the experimental periods. Degree of overlap relative to the independent distribution on a leaf-surface basis (ω _S) changed from positive to negative with increasing density of T. urticae. T. urticae invasion drove P. ulmi toward upper leaf surfaces (competitor-free space). The niche adjustment by P. ulmi occurred between leaf surfaces but not among leaves. Our findings show that asymmetrical competition between T. urticae and P. ulmi plays an important role in this unidirectional displacement and that the existence of refuges within a leaf produces the apparently harmonious coexistence of the mites and obscures their negative association.     

The solution structure of the outer membrane lipoprotein OmlA from Xanthomonas axonopodis pv. citri reveals a protein fold implicated in protein-protein interaction

The outer membrane lipoprotein A (OmlA) belongs to a family of bacterial small lipoproteins widely distributed across the beta and gamma proteobacteria. Although the role of numerous bacterial lipoproteins is known, the biological function of OmlA remains elusive. We found that in the citrus canker pathogen, Xanthomonas axonopodis pv. citri (X. citri), OmlA is coregulated with the ferric uptake regulator (Fur) and their expression is enhanced when X. citri is grown on citrus leaves, suggesting that these proteins are involved in plant-pathogen interaction. To gain insights into the function of OmlA, its conformational and dynamic features were determined by nuclear magnetic resonance. The protein has highly flexible N- and C- termini and a structurally well defined core composed of three beta-strands and two small alpha-helices, which pack against each other forming a two-layer alpha/beta scaffold. This protein fold resembles the domains of the beta-lactamase inhibitory protein BLIP, involved in protein-protein binding. In conclusion, the structure of OmlA does suggest that this protein may be implicated in protein-protein interactions required during X. citri infection.     

Analyses of binding sequences of the two LexA proteins of <Emphasis Type="Italic">Xanthomonas axonopodis</Emphasis> pathovar citri

Xanthomonas axonopodis pv. citri (X. axonopodis pv. citri) possesses two lexA genes, designated lexA1 and lexA2. Electrophoretic mobility shift data show that LexA1 binds to both lexA1 and lexA2 promoters, but LexA2 does not bind to the lexA1 promoter, suggesting that LexA1 and LexA2 play different roles in regulating the expression of SOS genes. In this study, we have determined that LexA2 binds to a 14-bp dyad-spacer-dyad palindromic sequence, 5'-TGTACAAATGTACA-3', located at nucleotides -41 to -28 relative to the translation start site of lexA2 of X. axonopodis pv. citri. The two spacer nucleotides in this sequence can be changed from AA to TT without affecting LexA2 binding; all other base deletions or substitutions abolish LexA2 binding. The LexA1 binding sequence in the promoter region of lexA2 is TTAGTACTAAAGTTATAA and is located at -133 to -116, and that in the lexA1 gene is AGTAGTAATACTACT located at nucleotides -19 to -5 relative to the translation start site of lexA1. Any base change in the latter sequence abolishes LexA1 binding.