Growth of Musca domestica (Diptera: Muscidae) and Sarcophaga dux (Diptera: Sarcophagidae) larvae in poultry and livestock manures: Implication for animal waste management

Natural diets commonly exploited by the flies are animal manures including production from the poultry and livestock facilities. The larvae of the common filth flies such as Musca domestica and Sarcophaga dux are known as voracious feeders and may thus be used to convert manures into non-polluted residue. This study was conducted to observe the impact on flies' growth rate and capability of the larvae to process animal manures using chicken, goat and cow manures. One hundred newly hatched larvae of M. domestica and S. dux were introduced separately into 150?g manures under laboratory conditions. The initial wet mass and larvae length were recorded while mortality rate and dry mass were measured after the larvae were placed into the manures. The results showed that the manure types give significant effects (p?<?.05) on the growth of M. domestica and S. dux larvae. Cow manures and chicken manures contributed the highest growth for M. domestica and S. dux respectively. This result confirmed by the mean increment in wet mass and larvae length. In contrast, M. domestica greatly reduced 59.9?±?4% chicken manures while 25.0?±?1.8% goat manures reduced by S. dux. The potential of M. domestica and S. dux larvae to reduce animal waste products were further discussed in this study.     

Interactions between rye (Secale cereale) root border cells (RBCs) and pathogenic and nonpathogenic rhizosphere strains of Fusarium culmorum

Interactions of rye (Secale cereale) root border cells (RBCs), generated during plant growth and surrounding the root cap, with nonpathogenic rhizosphere Fusarium culmorum isolates: DEMFc2 (PGPF) and DEMFc5 (DRMO), and a pathogenic strain DEMFc37 were studied in test tube experiments. The effect of water-suspended RBCs released from the rye root cap on the rate of macroconidia germination and hyphae (mycelial) growth of F. culmorum strains was also examined. It was found that root caps of 3-d-old rye seedlings (with the root length of 20 mm) were surrounded with a layer of RBCs generated in a number specific for this plant species of 1980 ± 30. Introduction of the macroconidia of the tested F. culmorum strains into the root zone of 3-d-old seedlings resulted, after 3 d of incubation, in the formation of mantle-like structures only in the rhizosphere of plants inoculated with the pathogenic DEMFc37 strain. The macroconidia were suspended in (1) water, (2) a water mixture with root caps deprived of RBCs, (3) Martin medium, (4) malt extract broth, and (5) a water mixture with rye RBCs, and their percentage germination was determined during 96-h incubation at 20 °C. Germination of the macroconidia of all the tested F. culmorum strains suspended in the rich growth media (Martin and malt extract broth) and in the mixture with RBCs was significantly speeded up. While only an average of 16.6 % of macroconidia suspended in water germinated after 96-h incubation, more than 90 % of those suspended in the growth media or in the mixture with RBCs germinated after 24 h of incubation. In all the treatments, the highest rate of macroconidia germination was found in suspensions of the pathogenic strain and the lowest in macroconidial suspensions of the PGPF strain. The stimulatory effect of RBCs was not specific to the pathogenic strain. Nevertheless, microscopic observation revealed that it was only in the suspension containing a mixture of rye RBCs and macroconidia of the pathogenic strain that after 48-h incubation compact clusters of hyphae and RBCs, resembling mantle-like structures found in the root zone of plants inoculated only with the pathogenic strain but not inoculated with DRMO and PGPF strain, were formed.     

The calcified puparium of the face fly, Musca autumnalis (Diptera: Muscidae)

The general composition of the calcified puparium of Musca autumnalis was determined. Ash-weight analyses show that 62% of the puparium is inorganic material. The major components of the puparium are calcium, magnesium, phosphate and carbonate. Calcium and magnesium phosphate are the predominant salts in the puparium, with a lesser contribution by their respective carbonates. Scanning electron microscopy revealed that the exocuticle was the site of calcification in the puparium. Inorganic analyses of the insoluble salt isolated from face fly larvae showed it to be compositionally identical with the puparial salt. Major organic components of the puparium are lipid, chitin and protein. The presence of carbonic anhydrase and alkaline phosphatase activity in post-feeding larvae was confirmed.     

Histopathology of Aedes aegypti (Diptera: Culicidae) larvae parasitized by Reesimermis nielseni (Nematoda: Mermithidae)

Histological observations were made of Aedes aegypti larvae parasitized for 2, 4, and 6 days by Reesimermis nielseni. Little difference was detected between the tissues of uninfected and nematode-parasitized larvae 4 days after infection, at which time most hosts were in the early fourth instar and their fat bodies were well developed containing abundant storage materials. Nematodes grew most rapidly between day 4 and day 6 of parasitism, depleting host metabolites, reducing the fat body and other host storage tissues while accumulating storage material in their trophosomes. Development of host imaginal discs was inhibited during this period. The severity of the nematodes upon host tissues depended upon intensity of infection. Dry weight measurements of nematode and host supported histological observations that the nematode developed most rapidly 4–6 days post-infection, thus causing most serious effects upon the host at that time.     

Nutritional value of fresh and composted poultry manure for house fly (Diptera: Muscidae) larvae.

A sand dilution assay was developed to study how composting affects the nutritional value of stored laying hen manure for larvae of the house fly, Musca domestica L. Equal numbers of eggs were inoculated into graded amounts of stock manure and incubated under standardized moisture conditions. Survival and mass per emerging adult diminished with progressively lower supplies of manure per larva, whether the manure was diluted into clean, white sand or placed on top of an equal volume of sand. Mass of adults per original egg was an increasing linear function of log, manure supply, with extrapolated lower supply threshold, S(L) = 0.06 g per egg. It is proposed that S(L) is a measure of a substrate's nutritional value--the greater the threshold, the lower its value. Dilution of the same stock manure in loam or sandy loam reduced the manure's apparent nutritional value, and dehydration of the stock manure to 20% water before rehydration to 70% also reduced nutritional value. Assays of bulk samples from replicated piles of laying hen manure mixed with sunflower hulls indicated the mixture was nutritionally equivalent to the stock manure, but that 3-4 wk of subsequent aerobic, thermophilic composting reduced it to approximately 10% of its initial value. These results suggest that composting may be a useful technique for reducing the fly breeding potential of laying hen manure and other substrates that must be stored before spreading and incorporation on crop land.     

A behavioral method for separation of house fly (Diptera: Muscidae) larvae from processed pig manure

A behavioral method applicable in biodegradation facilities for separation of house fly (Musca domestica L.) larvae from processed pig manure is presented. The method is based on placing a cover over the larval rearing tray, while escaping larvae are collected in collection trays. Separation units must be placed in a dark room to avoid negative phototactic responses of the larvae. After 24 h of separation, over 70% of the larvae escaped from processed manure and were collected in collection trays. Most of the larvae pupated within 48 h after separation. Mean weight of pupae recovered from manure residue was not significantly different from mean weight of pupae of separated individuals. Eclosion rate of pupae recovered from manure residue was significantly lower than eclosion of separated individuals, and was strongly related to separation success. Factors responsible for escape behavior of larvae are discussed.     

Steady-state fluorescence anisotropy changes of 1,6-diphenyl-1,3,5,-hexatriene in membranes from Bacillus megaterium spores

The steady-state fluorescence anisotropy of 1,6-diphenyl-1,3,5-hexatriene incorporated into isolated Bacillus megaterium spore membranes was measured. Compounds capable of triggering spore germination in vivo caused an increase in the anisotropy of diphenylhexatriene. These increases in anisotropy of diphenylhexatriene in spore membranes are likely to represent at least a portion of the trigger mechanism for spore germination based on the following observations. First, there was an exceptional positive correlation between compounds that both triggered germination in vivo and caused changes in anisotropy in vitro. Second. the capacity of membranes to respond to germinants by increases in anisotropy was unique to membranes from spores but disappeared after germination. Third, alteration of spores chemically or genetically to block the in vivo triggering of germination by l-proline also blocked the in vitro anisotropy change with l-proline but not d-glucose. Finally, there was no correlation between the transport activities of specific compounds and the ability of these compounds to either trigger germination or alter the anisotropy of diphenylhexatriene in the membranes. Although we do not known the nature of the molecular interactions giving rise to the anisotropy changes, we hypothesize that they are due to changes in protein conformation that alter protein-protein and/or protein-lipid interactions. Such modifications of membrane structures could account for the rapid release of small molecular weight compounds such as K⁺ and Ca²⁺ early in germination.     

The oxygen consumption of non-dormant and dormant larvae of Chironomus plumosus (Diptera)

The physiological expression of a short-day-induced dormancy (Oligopause) of 4th-instar Chironomus plumosus larvae was investigated by measuring the oxygen consumption. By means of a polarographic continuous-flow respirometer the oxygen consumption of single larvae or groups of larvae (up to 5) could be measured continuously over a period of several hours. The oxygen consumption of dormant larvae is lower than in non-dormant larvae: in relation to the individual it is reduced by about $\text{1}\text{3}$, in relation to 1 g of dry weight by about $\text{1}\text{2}$. Dormant larvae are heavier than non-dormant larvae. In the dormant larvae, the proportion of dry weight to total weight is higher than in the non-dormant larvae. The increased proportion of dry weight is composed of a size-specific (dormancy-independent) and a dormancy-specific component. Independent of the sex and dormancy state, the larger larvae have a lower oxygen consumption per weight unit than the smaller larvae. A sex-specific difference can be observed: when animals with identical oxygen consumption per weight unit are compared, the females are considerably heavier than the males.     

The Paxillus involutus (Boletales, Paxillaceae) complex in Europe: Genetic diversity and morphological description of the new species Paxillus cuprinus, typification of P. involutus s.s., and synthesis of species boundaries

Paxillus involutus is a model species for ecological or physiological studies of ectomycorrhizal agaricomycetes. Three to six groups or species linked to it have been ecologically and morphologically distinguished. Phylogenetic studies have revealed the existence of four species in Europe: Paxillus ammoniavirescens, Paxillus obscurisporus, P. involutus, and a fourth as yet not described species. We studied 47 collections from 24 French and Italian locations, supplemented with GenBank data, in order to genetically and taxonomically delineate these species. Phylogenetic analyses of three nuclear DNA regions (rDNA internal transcribed spacer (ITS), tef1-α, and gpd) confirmed the four European species. Morphology, culture, and ecology features allowed us to delineate species boundaries and to describe the fourth species we named Paxillus cuprinus since it turns coppery with age. As there is no existing original herbarium specimen for P. involutus, one of our collections was chosen as the epitype. The low genetic diversity found in P. cuprinus correlates with stable morphological traits (basidiome colour, ovoid–amygdaliform spores with an apical constriction) and with ecological preferences (association with Betulaceae in open and temperate areas). In contrast, P. ammoniavirescens is characterized by a high genetic diversity and a high variation of its morphological and ecological features.     

A possible role of ecdysteroids in pre-ecdysial tanning in larvae of Sarcophaga bullata (Diptera: Sarcophagidae)

The levels of ecdysteroids in Sarcophaga bullata were determined by radioimmunoassay (RIA) from the time of larviposition (0 hr) to after the 2nd ecdysis and from late larval to pupal development. Two distinct peaks of ecdysteroid activity were recorded mid-way through the first and second stadia (14 and 34 hr) and two smaller peaks occurred a few hours prior to each ecdysis. A large release of ecdysteroids occurred from 8 hr before and up to 18 hr after formation of the white prepupa. This peak initiated the formation of the prepupa, the tanning of the puparium, larval/pupal apolysis and secretion of the pupal cuticle.Assays for the cuticle tanning hormone, bursicon, in pre-ecdysial larvae were not positive and a possible role for ecdysone in pre-ecdysial tanning of larval cuticular structures is proposed.     

Taxonomy of the genus Lispe Latreille (Diptera: Muscidae) in Korea

In this paper, a total of four species of the genus Lispe are treated. Of these, L. assimilis Wiedemann and L. litorea Fallén are reported for the first time in Korea. A key to the Korean species, their domestic localities, and some illustrations are given.     

Effects of horn fly and house fly (Diptera: Muscidae) larvae on the development of parasitic nematodes in bovine dung

Laboratory studies were conducted to determine the effects of horn fly, Haematobia irritans (L.), and house fly, Musca domestica L., larvae on the development of a mixed population of parasitic nematodes in compressed and crumbled bovine dung. Fresh dung (100 g per sample) from a single calf passing trichostrongyle type eggs was infested with 150 horn fly or 150 house fly eggs. After 14-15 d, more horn flies and house flies had emerged from the compressed dung than from the crumbled dung, but more third stage parasitic nematode larvae were recovered from the crumbled dung containing either fly species than from dung containing no flies.     

Food preferences of tanypodinae larvae (Diptera: Chironomidae)

Analyses of the gut contents of larvae of three species of Tanypodinae, collected from four sites in north-east England and Scotland, invariably showed small particles (1–10 µm²), predominantly of detritus, to be more abundant than large particles (10–100 µm²), mostly algae and diatoms. No animal remains, such as carapaces, head capsules and chaetae, or vascular plant fragments were found in any of the intestines. In contrast, food-choice and growth experiments suggested that animal food (particularly Tubificidae and Chironominae larvae) was important in the tanypod diet. In the food-choice experiments, six different foods offered to small (4–7 mm long) and to large (8–12 mm long) larvae of Procladius choreus Meigen, were chosen in the following order: live Tubificidae spp.; detritus; live Chironominae larvae; a mixture of algae and diatoms; live Ostracoda spp.; and live Cladocera spp. However, when the results of the individual choices were examined, it was clear that the small larvae had consumed greater amounts of the small types of food (i.e. detritus, algae and diatoms) in comparison to the large larvae. In the growth experiment, those larvae of P. choreus reared solely on Tubificidae, detritus or Chironominae larvae thrived, while those fed on algae and diatoms, ostracods or cladocerans grew more slowly and fewer survived the experimental period.It was concluded that although Tanypodinae larvae are primarily predators with definite food preferences in ideal foraging conditions, in adverse conditions they will utilize a range of available stand-by foods, the most important of which appears to be detritus.     

Ecological and morphological seed traits of Polygala sardoa and P. sinisica: A comparative study on two endemic species of Sardinia

Polygala sardoa Chodat and P. sinisica Arrigoni (Polygalaceae) are two exclusive endemics to Sardinia and P. sinisica is affiliated under “Critically Endangered” in the IUCN Red Lists. In this work comparative studies on two populations of P. sardoa and in the only one of P. sinisica were carried out. In particular, seed output calculations and morphometric measurements on seed and elaiosome sizes were carried out. The effect of chipping, constant (15 °C) and alternating (25/10 °C) temperature regimes and light (8 h irradiance/day and dark) on germination were investigated. Seedling vigor assessments and a study on seed persistence in the soil were also carried out. P. sinisica had a higher seed output than P. sardoa and P. sinisica seeds were smaller than those of P. sardoa, with lower elaiosome area and elaiosome ratio values. Neither species had alternating temperature or light requirements for germination. P. sardoa achieved high germination percentages (> 80%) at all the tested conditions. P. sinisica had a lower maximum germination (<60%), suggesting the presence of physiological dormancy, and took more than twice as long to reach the maximum germination percentage. Seedlings of P. sardoa were larger than those of P. sinisica, and neither species formed a persistent soil seed bank. These new data may help implement effective conservation measures for these two species and, more generally, for threatened endemic species of this genus.     

Locomotory rhythms and burrowing habits of Penaeus semisulcatus (de Haan) and P. Monodon (Fabricius) (Crustacea: Penaeidae)

The locomotor activity of adult Penaeus semisulcatus (de Haan) and P. monodon (Fabricius) has been studied. The former was reared entirely, and the latter partly under artificial conditions. Both species display circadian activity rhythms in response to light entrainment. Light appears to be a major synchronizer, although the results indicate that feeding also has a certain synchronizing effect in starved prawns.The expression of endogenous activity rhythms in both species is affected by their substratum requirements and burrowing habits. Choice experiments show that both P. semisulcatus and P. monodon select a fine grade sand for burrowing, although the burrowing frequency of the latter species is always low. In a non-choice situation, P. semisulcatus will readily enter a coarse substratum whereas P. monodon will very seldom do so.The effects of various light regimes on the activity patterns of P. semisulcatus and P. monodon were examined and the results show that for both species an imposed long photoperiod regime (18:6 LD) induced 6-h periods of brief but intense activity, alternating with 18-h periods of almost complete inactivity. This activity pattern is discussed in relation to feeding and energy expenditure.