Histopathological changes of Ceroplastes japonicus infected by Lecanicillium lecanii

The infection process and pathological changes of Japanese wax scale, Ceroplastes japonicus Green, by the hyphomycete Lecanicillium lecanii (Zimmermann) Gams & Zare were investigated by light, scanning and transmission electron microscopy. The results showed that L. lecanii generally infected the wax scale by penetrating the integument. The anal area, the body margin, around the base of mouthparts and legs, over the stigmatic furrow and the area around the vulva were susceptible places, while the wax test had an inhibitory effect on L. lecanii. Within 24 h after inoculation, conidia became attached to the cuticle, and within 48 h, hyphae adhered to the integument of the scale and their tips differentiated into specialized infection pegs. Penetration of the cuticle occurred within 72 h of inoculation; the fungus caused the insect cuticle to rupture and hyphae entered the insect body through these openings. Within 72 h after inoculation, L. lecanii entered the hemocoele of the scale and formed blastospores. After 96 h, blastospores were dispersed throughout the hemolymph and completely disrupted the hemocytes, resulting in damage of the cell nucleus and agglutination of chromatin. Concomitant to colonization of the hemolymph, the internal organs and tissues, e.g., tracheae, malpighian tubules and muscle fibers, were also infected. As the infection progressed, the wax test and body changed color from white and red, respectively, to yellowish. After 144 h, the internal tissue structure was totally compromised and the insects died. After this time, new conidiophores bearing conidia were produced on the surface of the cadavers.     

Morphological Alterations of Metarhizium anisopliae During Penetration of Boophilus microplus Ticks

Chronological histological alterations of Metarhizium anisopliae during interaction with the cattle tick Boophilus microplus were investigated by light and scanning electron microscopy. M. anisopliae invades B. microplus by a process which involves adhesion of conidia to the cuticle, conidia germination, formation of appressoria and penetration through the cuticle. Twenty-four hours post-infection conidia are adhered and germination starts on the surface of the tick. At this time, the conidia differentiate to form appressoria exerting mechanical pressure and trigger hydrolytic enzyme secretion leading to penetration. Massive penetration is observed 72 h post-inoculation, and after 96 h, the hyphae start to emerge from the cuticle surface to form conidia. The intense invasion of adjacent tissues by hyphae was observed by light microscopy, confirming the ability of M. anisopliae to produce significant morphological alterations in the cuticle, and its infective effectiveness in B. microplus.     

Pathogenicity of Three Entomopathogenic Fungi to Matsucoccus matsumurae

Matsucoccus matsumurae (Kuwana) (Hemiptera: Coccoidea: Matsucoccidae) is an invasive alien species and a destructive pest of two native Chinese pines, Pinus tabulaeformis Carr. and P. massoniana Lamb., throughout the eastern regions of China. The pathogenicity of three entomopathogenic fungi, Lecanicillium lecanii strain V3.4504 and V3.4505, Fusarium incarnatum-equiseti strain HEB01 and Lecanicillium fungicola strain HEB02, against M. matsumurae was tested in four instars, to evaluate their potential as a biological control agent. The results showed that the four strains caused disease and death of the scale insect, among which the L. lecanii strains V3.4504 and V3.4505 displayed stronger virulence than the F. incarnatum-equiseti strains HEB01 and L. fungicola strain HEB02 to M. matsumurae in the 2^nd-instar nymphs and the adult females. Furthermore, L. lecanii V3.4505 was most virulent to M. matsumurae. The adult females and the male 3^rd-instar nymphs of M. matsumurae were susceptible to L. lecanii V3.4505; the adult females were more susceptible at LT₅₀ = 1.96 than the 3^rd-instar nymphs at LT₅₀ = 5.67. The body surface structure, cuticle thickness and wax secretions of M. matsumurae impacted the fungal infection. L. lecanii is a promising biocontrol agent, and newly emerged male 3^rd-instar nymphs and adult females are a crucial period of the insect’s life cycle for M. matsumurae biocontrol.     

Infection process of Colletotrichum dematium on mulberry leaves: An unusual method of sporulation

Abstract

The pre-penetration and infection process of Colletotrichum dematium on mulberry leaf was investigated by scanning electron microscope. Conidia produced on germination appressoria directly or at the end of short germ tubes. Appressoria were formed mostly over cuticle, but sometimes over stomata also. At 72 h post-inoculation, an extensive network of sub-cuticular runner hyphae (RH) was produced. The RH were traceable by the cuticular bulgings on leaf surface. The RH emerged to leaf surface through ruptured cuticle to form secondary infection hyphae (SIH). The SIH re-entered the leaf tissue by sending penetration branches through stomata. Conidia were formed singly on short conidiophores from the RH and SIH, at short intervals. The conidia developed on RH were exposed to leaf surface through ruptured cuticle. Some times conidia were released through stomata also. The RH and SIH had thick knots from which hyphal branches and conidia were developed. Definite acervuli were not developed.     

The infection process, sporulation and survival of Alternaria helianthi on sunflower

Electron microscopy was used to study the infection of sunflower leaves by Alternaria helianthi. Conidia germinated by producing one to many germ tubes which grew across the leaf surface before forming appressoria. The fungus directly penetrated its host through the cuticle and epidermis. Entry into the host through wounds and stomates was also observed. Extracellular sheaths were found to be associated with germ tubes and intercellular hyphae of A. helianthi. Conidiophores developed through collapsed stomates, from leaf veins, trichomes and also from mycelium growing across the host leaf surface. Microcylic conidia were produced directly from parent conidia under certain conditions. Studies using a volumetric spore trap showed that the airborne spore concentration followed a distinct periodicity with peaks occurring between 0900 and 1100 h each day. Laboratory studies showed that safflower, noogoora burr and bathurst burr could serve as alternative hosts for A. helianthi. The pathogen was readily isolated from sunflower crop debris from a diseased crop that had been harvested 1 yr earlier.     

Mode of Infection of Phyllosticta maculata on Banana as Revealed by Scanning Electron Microscopy

The initial infection stages of Phyllosticta maculata on banana were studied using scanning electron microscopy. Conidial germination on the banana leaf surface commenced within 3 h postinoculation to produce a long and slender germ tube. The hyphae developed secondary branches and mostly grew randomly across the leaf surface. Appressoria were formed at the apex of the germ tubes within 18 h postinoculation and were variable in shape. A layer of an extracellular matrix surrounded the appressoria at the pathogen–host interface. On the fruit surface, conidia germinated to produce predominantly swollen germ tubes which functioned as lateral appressoria together with some slender ones. These germ tubes were formed within 3 h postinoculation. There was no stomatal penetration apparent on the leaf; instead, direct penetration through the cuticle with and without the formation of appressoria was observed. Cuticular degradation on the leaf surface was evident with a circular, darkened area around the point of penetration by hyphae or appressoria. The significant role of pycnidia and conidia in the epidemiology of the disease was further demonstrated in naturally infected leaf samples.     

An unusual method of development and sporulation of Colletotrichum gloeosporioides on castor leaf – an SEM account

Development and sporogenesis of Colletotrichum gloeosporioides on castor leaf differed from that on other known host plants. C. gloeosporioides had three kinds of hyphae on castor leaf: primary infection hyphae (PIH), runner hyphae (RH) and secondary infection hyphae (SIH). The PIH originated from conidia, grew on leaf surface and entered the leaf by direct penetration of the cuticle without forming appressoria. The RH were sub-cuticular hyphae, the track of which was traceable by the bulgings on the leaf surface, and the SIH were the hyphae that emerged to leaf surface from RH through the cuticle or stomata. Conidia were initiated as small protrusions along the lengths of RH and SIH that got differentiated into distinct conidia, each born on a short stumpy conidiophore without forming any congregation. The protrusions from RH emerged to the leaf surface by piercing the cuticle, and they developed into distinct conidia on the leaf surface. The conidia developed from RH and SIH were identical in size and shape. Even though conidia were occasionally found emerged through stomata, that appeared to be random than a preferred route for the discharge of conidia. The penetration and sporogenesis of C. gloeosporioides on castor leaf differed from that reported on mulberry leaf.     

Persistence and Viability of Lecanicillium lecanii in Chinese Agricultural Soil

The entomopathogenic fungus L. lecanii has been developed as biopesticides and used widely for biological control of several insects in agricultural practice. Due to the lack of isolation/count methods for L. lecanii in soil, the persistence of this fungus in soil appears to have attracted no attention. A selective medium and count method for L. lecanii in soil based on cetyl trimethyl ammonium bromide (CTAB) was developed, and then the persistence and viability of this fungus in soil were investigated under field conditions between 2012 and 2014. The results showed that the rate of recovery for L. lecanii in soil on the selective CTAB medium was satisfactory. The minimum CFUs for L. lecanii on the selective medium (0.5 g/L CTAB) was about 10² conidia/g soil. The L. lecanii density in soil declined quickly in the first month after inoculation with fungal conidia, kept stable for 6 to 10 months, and then decreased gradually until undetectable. L. lecanii could persist for at least 14 months in the agricultural soil of northern China. The colony growth, conidia yield and germination rate on plates, as well as the median lethal concentration or times (LC₅₀ or LT₅₀) to aphids, mycelium growth in aphids and sporulation on aphids of L. lecanii did not change significantly during the persistence in soil. In general, the count method developed here was a very useful tool for monitoring the dynamics of natural or introduced L. lecanii populations in soil, and the data on the persistence of L. lecanii in soil reported here were helpful for biological control and environmental risk assessment.     

Surface Ultrastructural Studies on the Germination,Penetration and Conidial Development of Aspergillus Flavus Link : Fries Infecting Silkworm,Bombyx Mori Linn

Aspergillosis is a common disease of the silkworm Bombyx mori Linn., caused by an insect mycopathogen Aspergillus flavus Link:Fries. The present study reveals the germination, penetration and conidial development of A. flavus on the larval integument of B. mori under SEM. Four different strains (NB18, KA, NB4D2 and NB7) of B. mori was surface inoculated with ca. of 1 x 10(6) conidia/ml. Each conidium germinated on the cuticle approximately 6 h after inoculation, forming a humpy or suctorial appressoria within 24 h. The hyphae which entered into haemocoel 2 day post-inoculation, grew and multiplied extensively, forming a mycelial complex, causing death of the host larva in about 4-5 days. This occurred with minimal breakdown of the internal tissues. Death of the host was followed by ramification of the fungus through the mesodermal and epidermal tissues, leading to larval mummification about 5-6 days after inoculation. Extensive fungal growths on the entire larval body followed, consisting of aerial hyphae, which developed branched conidiophores. The aerial hyphae with abundant conidiophores formed a confluent yellowish green fungal mat over the entire larval body in 6-7 days of post-inoculation. The tip of each emerging conidiophores gradually dilated and developed to become a bulbous head known as the vesicle. A large number of conidiogenous cells were produced over the entire surface of vesicle, which later developed into finger-like projections termed as sterigmata or phialides. The phialides matured within 2 days after the aerial hyphae emerged as evidenced by chains of conidia at their tips. The conidia were globose with externally roughened walls. The life cycle of the fungus on B. mori was completed in six to seven days.     

In Vitro and <Emphasis Type="Italic">In Planta</Emphasis> Compatibility of Insecticides and the Endophytic Entomopathogen, <Emphasis Type="Italic">Lecanicillium lecanii</Emphasis>

In an attempt to clarify the potential role of endophytic fungi in integrated pest management, the compatibility of an endophytic isolate of Lecanicillium lecanii (Zimmermann) Gams & Zare (Hyphomycetes) with nine insecticides used against Aphis gossypii Glover (Homoptera : Aphididae) was examined both in vitro over 14 days and in planta. In the laboratory, most insecticides partially or completely inhibited the germination of conidia and growth of hyphae in nutrient-rich conditions. Endosulfan completely inhibited the germination of conidia and hyphal growth. In contrast, all insecticides were compatible with L. lecanii in planta, and the fungus was readily recovered from inoculated, colonized leaves. These data support the hypothesis that endophytic L. lecanii will be unaffected by insecticides and could be integrated in the management of pests in cotton.     

The time--mortality response of mosquito larvae infected with the fungus Culicinomyces

In laboratory experiments with Culicinomyces, the time of death of infected Anopheles hilli larvae decreased as the concentration of conidia to which they were exposed increased. At a concentration of 10³ conidia/ml, most first instar and third instar larvae died later than 2 days after exposure and the majority of dead specimens developed external sporulation on the exterior cuticle. On the other hand, at a concentration of 10⁵ conidia/ml, more than 60% of first and third instar larvae died within 2 days of exposure. Very few of these larvae developed external sporulation and it appears that most of them died after penetration by the fungus through the gut cuticle but before the hemocoel was colonized by mycelium. The reason for this rapid death at high concentrations of inoculum is not known, but it is thought that it may be caused by toxic substances associated with the invading hyphae which only attain a lethal titer when massive invasion originates from large numbers of conidia.     

菜青虫感染蜡蚧轮枝菌后的组织病理变化

对感病菜青虫Pieris rapae组织切片的观察研究表明, 蜡蚧轮枝菌Verticillium lecanii主要通过昆虫的体壁侵染虫体。菜青虫各龄幼虫在体壁接菌12 h后,附着在虫体表面的孢子即可萌发。2～3龄幼虫,蜡蚧轮枝菌菌丝24 h就可穿透体壁进入血腔,48 h可见脂肪体等器官发生病变; 4～5龄幼虫,36 h菌丝才可穿透体壁,48 h可见虫体内有部分菌丝体。侵入虫体内的菌丝对寄生组织没有选择性。菌丝首先在入侵的血腔中生长,然后侵入脂肪体和肌肉,随菌丝在虫体内的增殖,中肠、马氏管、丝腺等相继被侵染。受侵的组织器管均发生明显的病变,如体壁分离,脂肪体变形、溶解,肌纤维排列松散,中肠上皮细胞脱落并出现许多空泡等。     

Infection Process of Plectosporium tabacinum on False Cleavers (Galium spurium)

A native fungus, Plectosporium tabacinum (van Beyma) M. E. Palm, W. Gams et Nirenberg, has potential as a bioherbicide for the control of both herbicide-resistant and herbicide-susceptible false cleavers. Limited information is available on the infection process of P. tabacinum. P. tabacinum spore distribution pattern, germination, penetration, and colonization on false cleavers leaves were examined using confocal, light, and scanning electron microscopy. The results demonstrated that conidia were distributed over the entire surface of leaves and cotyledons. More than 90% of the conidia germinated on the leaf surface 6-8 h after inoculation. Penetration of the leaf epidermis by conidia started 8-10 h after inoculation. Histological observation showed that no appressoria were formed by P. tabacinum, but its hyphae produced appressed club-like structures that penetrated the cuticle and epidermal layers. No stomata or other natural openings were observed on the upper leaf surface of false cleavers seedlings. Penetration occurs directly on epidermal cells with more frequent intercellular penetrations. Hyphal penetration was visualized at a depth of 30 and 40 üm after 8 and 16 h of incubation, respectively. Secondary hyphae colonized mesophyll cells 16 h after inoculation. Even spore distribution, short spore germination time, club-like infection structure formation, direct penetration, quick colonization, and mucous secretion on false cleavers leaves may contribute to the kill of false cleavers by P. tabacinum. Slow spore germination and germ tube growth, low spore germination numbers, and no infection structure formation on Brassica napus leaves may be factors affecting the host selectivity of P. tabacinum.     

Response of eastern hemlock looper hemocytes to selected stages of Entomophthora egressa and other foreign particles

Indirect evidence for the natural existence of the free-protoplast stage of the fungus Entomophthora egressa in the eastern hemlock looper, Lambdina fiscellaria fiscellaria, is presented. The protoplasts were viable after 72 hr postinjection and subsequent development in the host produced conidia characteristic of E. egressa. The hemocytes studied (plasmatocytes, granular cells, and spherule cells) did not adhere to the protoplasts either in vivo or in vitro. Cells of Escherichia coli and sporangiospores of Absidia repens adhered to the granular cells in vitro. The granular cells adhered to the hyphae of Rhizopus nigricans in vitro. The spherule cells strongly adhered to the hyphae and hyphal bodies of E. egressa in vitro. The protoplasts, hyphae, and conidia of E. egressa and the hemocytes of L. fiscellaria fiscellaria adhered to positively charged DEAE-Sephadex beads and not to negatively charged CM-Sephadex beads. Aspects of active and passive strategies for protoplast evasion of host hemocytes are discussed with some emphasis on hemocyte-protoplast electrostatic repulsion and active secretion of hemocyte inhibitors by the protoplasts.     

Ultrastructural studies on the fungus,Nomuraea rileyi,infecting the velvetbean caterpillar,Anticarsia gemmatalis

Combined scanning and transmission electron microscopy was used to study the fine structure of the developmental stages of Nomuraea rileyi infecting host larvae of Anticarsia gemmatalis. Larvae were dusted with large numbers of fungal conidia, which germinated and penetrated the cuticle within 6 hr post-treatment. Within 24 hr, penetration hyphae had reached the cuticular epidermis and, via a budding process, initiated the hyphal body stage in the hemocoel. The hyphal bodies, suspended in hemolymph, multiplied and spread throughout the host larvae. By 6–7 days post-treatment, the majority of larvae were mummified. Within 12 hr postmortem numerous conidiophores emerged producing a confluent mycelial mat over the entire cuticular surface. Numerous hydrophobic conidia were formed on phialides present on the aerial conidiophores.     

Association of melanin content with conidiogenesis in Bipolaris Sorokiniana of barley (Hordeum vulgare L.)

Sixty-seven isolates of Bipolaris sorokiniana of barley, belonging to three groups (black, white and mixed) were studied to find an association of melanin with the spore production of the fungus. Conidiogenesis in black, white and mixed subpopulation of B. sorokiniana was positively correlated with melanin content/g of mycelium. Primary hyphae of black and mixed subpopulation differentiated into secondary hyphal structures which subsequently produced conidiophores and conidia. Primary hyphae could not differentiate into secondary hyphae and subsequently conidiophores and conidia in white subpopulation. A melanin containing mutant developed from white subpopulation regained its ability to differentiate into secondary hyphae, conidiophores and conidia. Results showed that melanization of mycelia B. sorokiniana mycelia is an important factor for conidia production.     

The life cycle of the insect pathogenic fungus Metarhizium anisopliae in the termite Nasutitermes exitiosus

In in vitro and in vivo studies the mode of penetration from Metarhizium anisopliae through the termite integument is elucidated. Serial sections and haemolymph studies elucidate the infective cycle within the host.Conidia germinate and penetrate the cuticle after a not-obligate formation of one or more appressoria. A penetration plate or hyphal bodies between cuticle layers form the base for the invasion of the body cavity, where the haemolymph distributes the multiplicating hyphal bodies. After the death of the insect due to various fungal toxins, organs and tissues are penetrated. Before the gut is invaded, the fungus breaks through to the outside and grows with a special air mycelium, which forms the conidiophores. From these structures the conidia, which stick together in bunches of chains, develope. These conidia can infect the nest mates.     

An Entomopathogenic Strain of Beauveria bassiana against Frankliniella occidentalis with no Detrimental Effect on the Predatory Mite Neoseiulus barkeri: Evidence from Laboratory Bioassay and Scanning Electron Microscopic Observation

Among 28 isolates of Beauveria bassiana tested for virulence against F. occidentalis in laboratory bioassays, we found strain SZ-26 as the most potent, causing 96% mortality in adults at 1×10⁷ mL⁻¹conidia after 4 days. The effect of the strain SZ-26 on survival, longevity and fecundity of the predatory mite Neoseiulus (Amblyseius) barkeri Hughes were studied under laboratory conditions. The bioassay results showed that the corrected mortalities were less than 4 and 8% at 10 days following inoculation of the adult and the larvae of the predator, respectively, with 1×10⁷ conidia mL⁻¹ of SZ-26. Furthermore, no fungal hyphae were found in dead predators. The oviposition and postoviposition durations, longevity, and fecundity displayed no significant differences after inoculation with SZ-26 using first-instar larvae of F. occidentalis as prey in comparison with untreated predator. In contrast, the preoviposition durations were significantly longer. Observations with a scanning electron microscope, revealed that many conidia were attached to the cuticles of F. occidentalis at 2 h after treatment with germ tubes oriented toward cuticle at 24 h, penetration of the insect cuticle at 36 h, and finally, fungal colonization of the whole insect body at 60 h. In contrast, we never observed penetration of the predator''s cuticle and conidia were shed gradually from the body, further demonstrating that B. bassiana strain SZ-26 show high toxicity against F. occidentalis but no pathogenicity to predatory mite.     

Formvar membrane laid on artificial medium induces haustorium-like structure formation in powdery mildew fungi

We aimed to develop an artificial membrane system to observe the infection process of the obligate biotrophic powdery mildew fungi without the use of living plant cells. The conidia of Blumeria graminis and Erysiphe pisi conidia were inoculated on a formvar membrane laid on an artificial medium. Germinated conidia frequently formed appressoria and then penetrated the membrane to form haustorium-like structures in the artificial medium. Secondary hyphae elongation was also observed after the formation of haustorium-like structures. These results suggested that the formvar membrane laid on artificial medium induced the formation of haustorium-like structures that have roles in the formation of secondary hyphae.     

Productionin vitro of appressoria by the entomopathogenic fungusMetarhizium anisopliae

Germination on complex media induced conidia of the entomopathogenMetarhizium anisopliae to produce infection structures (appressoria and penetration hyphae) when the germ tube contacted a hard surface. The morphology of the infection structures and their rate of formation are very similar to those observed for blowfly cuticle. Differentiation frequencies were greater (more than 70% as compared with less than 40%) on hydrophobic surfaces [Teflon, polyvinyl chloride, polystyrene, polypropylene, polyester (GelBond), aluminum foil] than on hydrophilic surfaces (agarose-coated polyester and cellophane). Differentiation frequencies were similar on both positively and negatively charged surfaces. Differentiationin vitro was stimulated by low levels of complex nitrogenous nutrients. Analysis of one- or multicomponent media suggested that amino acids and the lipid component of epicuticle act in combination with the hydrophobic cuticle surface to stimulate differentiation during pathogenesis. Thigmotropic and chemical stimuli for production of appressoria appear to be translated primarily during the second round of nuclear division because inhibitors of DNA and RNA synthesis do not prevent germination but block differentiation if applied before the second nuclear division. Inhibition of protein synthesis blocked both germination and differentiation.