Aerosol distribution and efficacy in a commercial food warehouse

A series of field trials were conducted in a commercial food storage facility to evaluate exposure of stored‐product insects to aerosol formulations of synergized pyrethrins and the insect growth regulator methoprene. When adults of Tribolium castaneum (Herbst), the red flour beetle, and Tribolium confusum (Jacqueline DuVal), the confused flour beetle were exposed with and without a food source to synergized pyrethrin aerosol, there was no difference in adult mortality with respect to availability of food at either 7 or 14 days after exposure (P≥ 0.05). However, mortality was lower in T. confusum (40.4% and 79.3% with flour at 7 and 14 days, 38.9% and 84.8% without flour at 7 and 14 days) compared to T. castaneum (96.5% and 99.8% with flour at 7 and 14 days, 91.0% and 98.7% without flour at 7 and 14 days). Few late‐stage larvae and pupae of either species exposed to the pyrethrin aerosol emerged as adults. In tests with methoprene aerosol, adult emergence of exposed 3‐and 4‐week‐old larvae of T. confusum was less than 2%. Only 0.3% of 4‐week‐old larvae of T. castaneum exposed in open and obstructed areas emerged as adults. Emergence of adults from eggs of Plodia interpunctella (Hübner), the Indianmeal moth, embedded in culture media and exposed to the methoprene aerosol was 13.2%± 3.5%. Results show that the aerosols evaluated in our study could give effective control of some of the major stored‐product insect pests in commercial food storage facilities, and may offer an alternative to fumigation.     

The effects of various carbohydrate diets on Aedes aegypti infected with Dirofilaria immitis.

Aedes aegypti infected with Dirofilaria immitis and uninfected mosquitoes were maintained on various carbohydrate diets (glucose, galactose, fructose, sucrose, trehalose, maltose, and melibiose). The value of each of these sugars in supporting survival of adult A. aegypti, and in supporting egg production, viability of eggs, and development of third-stage larvae of D. immitis in A. aegypti was analyzed. Fructose, glucose, maltose, sucrose, and trehalose provided the strongest support for survival of adult male, and infected and uninfected adult female A. aegypti. Galactose and melibiose provided the least support for survival of all groups of mosquitoes. The mean number of eggs laid per uninfected adult female A. aegypti was greatest when mosquitoes were maintained on glucose, melibiose, maltose, fructose, sucrose, and trehalose. The same was true for female mosquitoes infected with D. immitis; except for melibiose which provided poor support for egg production. In both Dirofilaria-infected and in uninfected mosquitoes, galactose supported the production of low mean numbers of eggs per adult female A. aegypti. High percentages of eggs laid by uninfected and by infected female mosquitoes fed glucose, melibiose, maltose, sucrose, and trehalose hatched. While galactose supported a high percentage of hatching in eggs laid by uninfected A. aegypti, a much lower percentage of eggs laid by infected female mosquitoes maintained on this same carbohydrate hatched. The lowest percentages of eggs that hatched were from among those laid by infected and by uninfected females fed fructose. The highest mean number of D. immitis larvae (L₃) were recovered from adult A. aegypti fed glucose, maltose, fructose, and sucrose; the second best sugar in this regard was trehalose. The lowest mean number of D. immitis larvae were isolated from female A. aegypti fed galactose and melibiose.     

Harmaline ingestion effect on development,metabolites and midgut of the red flour beetle,Tribolium castaneum

Alkaloids constitute an interesting family of molecules synthesized and accumulated by certain plants and it suggested that they participate in plant defences. In this study, we determined the ingestion effect of the alkaloid, harmaline, on the insect pest Tribolium castaneum Herbst (Coleoptera: Tenebrionidae). When incorporated into the diet at 400, 1000, and 2000 ppm, harmaline provoked larval weight loss, larval mortality and adult emergence inhibition. Spectrophotometric analyses showed that harmaline ingestion caused a significant diminution in the rate of protein, glycogen and lipid. Besides, the activity of the enzyme α-amylase was also significantly reduced in treated larvae. In addition, by using the optical and electron microscopy, we have showed that harmaline ingestion induced a marked cytotoxic effect on the midgut epithelial cells. They exhibited rare microvilli and an extensive disorganization and vacuolisation of the cytoplasm and the nucleus. In conclusion, the results obtained from this study prove and show potent insecticidal effect of Alkaloids such as harmaline on Tribolium castaneum.     

Effect of gut bacterial isolates from Apis mellifera jemenitica on Paenibacillus larvae infected bee larvae

The probiotic effects of seven newly isolated gut bacteria, from the indegenous honey bees of Saudi Arabia were investigated. In vivo bioassays were used to investigate the effects of each gut bacterium namely, Fructobacillus fructosus (T1), Proteus mirabilis (T2), Bacillus licheniformis (T3), Lactobacillus kunkeei (T4), Bacillus subtilis (T5), Enterobacter kobei (T6), and Morganella morganii (T7) on mortality percentage of honey bee larvae infected with P. larvae spores along with negative control (normal diet) and positive control (normal diet spiked with P. larvae spores). Addition of gut bacteria to the normal diet significantly reduced the mortality percentage of the treated groups. Mortality percentage in all treated groups ranged from 56.67% up to 86.67%. T6 treated group exhibited the highest mortality (86.67%), whereas T4 group showed the lowest mortality (56.67%). Among the seven gut bacterial treatments, T4 and T3 decreased the mortality 56.67% and 66.67%, respectively, whereas, for T2, T6, and T7 the mortality percentage was equal to that of the positive control (86.67%). Mortality percentages in infected larval groups treated with T1, and T5 were 78.33% and 73.33% respectively. Most of the mortality occurred in the treated larvae during days 2 and 3. Treatments T3 and T4 treatments showed positive effects and reduced mortality.     

Identification and functional characterization of methyl-CpG binding domain protein from Tribolium castaneum

Methyl-CpG binding domain proteins (MBD) can specifically bind to methylated CpG sites and play important roles in epigenetic gene regulation. Here, we identified and functionally characterized the MBD protein in Tribolium castaneum. T. castaneum genome encodes only one MBD protein: TcMBD2/3. RNA interference targeting this gene at different developmental stages caused lethal phenotypes including metamorphosis deficiency in larvae and pupae, gastrointestinal system problems and fecundity deficiency in adult. Moreover, Tcmbd2/3 knockdown adult showed progressive reduced locomoter activity, a typical neurodegeneration phenotype. This is a common feature of DNA methylation in mammals and has not been found in other insects. However, band shift assays demonstrated that TcMBD2/3 could not bind to methylated DNA, indicating the essential roles of TcMBD2/3 is independent of DNA methylation. Our study provides Tcmbd2/3 plays important roles in T. castaneum and gives new insights into the potential mechanism of action of MBD proteins in insect.     

Eimeria pragensis infection alters the gut microenvironment to favor extrinsic shiga toxin-producing Escherichia coli O157:H7 colonization in mice

We examined the effects of Eimeria pragensis infection on intestinal peristalsis, goblet cell proliferation and intestinal flora in C57BL/6 mice. Intestinal peristalsis was evaluated by radiography using barium at 7 days post-infection (p.i.). The intestinal peristalsis of E. pragensis-infected mice was significantly suppressed compared with uninfected control mice. Twenty-three mice were divided into 5 groups of 4 or 5 mice each; 2 groups of mice were infected with E. pragensis and the others were kept uninfected. At 7 days p.i., E. pragensis-infected and -uninfected mice were sacrificed to examine goblet cell numbers in the intestines, and significant decreases were observed only in the infected mice. Shiga toxin-producing Escherichia coli (STEC) O157:H7 was inoculated orally in mice both infected and uninfected with E. pragensis at 7 days p.i., with the remaining mice used as uninoculated controls. When mice were sacrificed at 2 days after STEC inoculation, STEC was only detected in the intestines of E. pragensis-infected mice. Colonization of STEC was also confirmed by immunohistochemistry on the surface of epithelial cells in concurrently infected/inoculated mice. Also, an overgrowth of residential E. coli was observed only in E. pragensis-infected mice. These results suggest that E. pragensis induces the suppression of intestinal peristalsis and modifies the intestinal environment to facilitate artificially introduced STEC colonization and multiplication, in addition to residential E. coli overgrowth.     

Maturation of locust corpora allata during the reproductive cycle: Effect of reserpine on allatotropic activity,juvenile hormone-III biosynthesis,and oocyte development

Reserpine, at doses of 20–175 μg per g body weight, severely retards oogenesis in newly emerged adult female migratory locusts (Locusta migratoria migratorioides) but does not increase mortality during the first 9 days and only slightly delays somatic growth. Total protein, and hemolymph vitellogenin content particularly, are significantly reduced in reserpine-treated locusts. The synthesis of juvenile hormone III (JH-III) following adult emergence, essential for induction of vitellogenesis and subsequent oogenesis, is dependent on the maturation and activation of the corpora allata (CA). CA of 7- to 8-day-old female locusts, treated with reserpine at day 1 after adult emergence, are only marginally active in vitro and are only slightly stimulated by an allatotropic factor. The basal activity and response of CA from the reserpine-treated locusts resembles that of newly emerged locusts, suggesting that reserpine specifically retards the initial maturation of the locust CA. Recovery of basal CA activity is evident on days 12–13 in reserpine-treated locusts, but responsiveness to the allatotropic factor is not recovered. Starvation of newly emerged females for 3 days and subsequent feeding did not effect ooctye development or CA activity. Cerebral content of the allatotropic factor, assayed on days 7–8, is not reduced by the reserpine treatment.     

Activities of modified Cry3A‐type toxins on the red flour beetle,Tribolium castaneum (Herbst)

Bacillus thuringiensis (Bt) is a commonly used bioagent in insect pest control. Its toxicity is largely due to the crystalline (Cry) proteins that act selectively on insects and/or nematodes. Some insects, such as the stored product pest Tribolium castaneum, are relatively resistant to any natural Cry toxin. In attempt to find a Cry protein sufficiently toxic to this beetle, we prepared 18 recombinant modifications of Cry3A protoxins and tested them on the penultimate instar larvae of T. castaneum. Larvae were transferred to diet containing 0, 14, 28, 56 or 112 ppm of a Cry protein and their body growth and mortality were evaluated after 10 days. Cumulative mortality reached 25%, and the growth was nearly halted with 112 ppm of the natural Cry3Aa. The mortality was lower and the body weight increased by 15% of the control value in larvae receiving the recombinant Cry3Aa. Several structural derivatives of Cry3A also caused significant growth reduction and enhanced mortality. As both the natural and the recombinant Cry3Aa were more active than any of the tested Cry3A derivatives, we conclude that structural modifications of Cry3Aa are unlikely to increase toxicity to T. castaneum.     

Evaluation of inhibitor of apoptosis genes as targets for RNAi-mediated control of insect pests

Apoptosis has been widely studied from mammals to insects. Inhibitor of apoptosis (IAP) protein is a negative regulator of apoptosis. Recent studies suggest that iap genes could be excellent targets for RNA interference (RNAi)-mediated control of insect pests. However, not much is known about iap genes in one of the well-known insect model species, Tribolium castaneum. The orthologues of five iap genes were identified in T. castaneum by searching its genome at NCBI ( https://www.ncbi.nlm.nih.gov/ ) and UniProt ( https://www.uniprot.org/ ) databases using Drosophila melanogaster and Aedes aegypti IAP protein sequences as queries. RNAi assays were performed in T. castaneum cell line (TcA) and larvae. The knockdown of iap1 gene induced a distinct apoptotic phenotype in TcA cells and induced 91% mortality in T. castaneum larvae. Whereas, knockdown of iap5 resulted in a decrease in cell proliferation in TcA cells and developmental defects in T. castaneum larvae which led to 100% mortality. Knockdown of the other three iap genes identified did not cause a significant effect on cells or insects. These data increase our understanding of iap genes in insects and provide opportunities for developing iap1 and iap5 as targets for RNAi-based insect pest control.     

Romanomermis culicivorax parasitism and the development, growth, and feeding rates of two mosquito species

The dry weight, development, and feeding rates of Culex pipiens and Toxorhynchites amboinensis larvae infected with the nematode, Romanomermis culicivorax, were measured and gross conversion efficiences were calculated. The weight of C. pipiens larvae infected at two different inoculum levels did not differ significantly from controls until day 6 postinfection (PI). Infected larvae of T. amboinensis were significantly lighter than controls at days 2, 4, and 6 PI. The rate of larval mosquito development was slowed after day 3 in parasitized individuals of both mosquito species. Infection significantly retarded the interval feeding rate of the filter-feeding C. pipiens throughout development. Infected T. amboinensis larvae consumed significantly fewer prey larvae of C. pipiens than controls. Calculation of gross conversion efficiency (GCE) showed that lightly infected C. pipiens larvae had an elevated GCE early in the infection but were less efficient relative to controls after 4 days PI. Lightly parasitized T. amboinensis had a lower total GCE than controls.     

Dietary mixtures of cysteine and serine proteinase inhibitors exhibit synergistic toxicity toward the red flour beetle,Tribolium castaneum

1. Combinations of a cysteine proteinase inhibitor (CPI) and serine proteinase inhibitors (SPI) in wheat germ diets were toxic to larvae of the red flour beetle, Tribolium castaneum, when tested at levels where individual inhibitors were nontoxic.2. Mixtures of 0.1% (w/w) CPI (E-64) plus 1% of either of three plant SPIs (soybean Kunitz trypsin inhibitor, soybean Bowman-Birk trypsin-chymotrypsin inhibitor, or lima bean trypsin inhibitor) inhibited T. castaneum growth, resulting in 82–97% reduction in larval weight gain 17 days after hatching and 40–60% mortality.3. Supplemention of diet containing 0.1% E-64 plus 1% soybean Kunitz trypsin inhibitor (STI) with a mixture of amino acids at 7% caused a partial reversal of the growth inhibition, with 91% of the larvae surviving.4. Diet containing 0.1% E-64 plus either 5 or 10% STI resulted in 100% mortality of the larvae during the first or second instar.5. Addition of a mixture ofamino acids at 20% to the 0.1% E-64 plus 10% STI diet allowed 89% of the larvae to develop into adults.6. The synergism between different classes of proteinase inhibitors in the insect's diet that enhances growth inhibition and toxicity demonstrates the potential for an insect pest management strategy involving the coordinated manipulation of two or more types of digestive enzyme inhibitor genes in plants.     

Effect of microsporidian infection in Lacanobia oleracea (Lep., Noctuidae) on prey selection and consumption by the spined soldier bug Podisus maculiventris (Het., Pentatomidae)

Abstract:  The predatory behaviour of Podisus maculiventris was investigated when this bug was presented with Lacanobia oleracea larvae infected with the microsporidian pathogen Vairimorpha necatrix . In choice tests, adult predatory bugs attacked V. necatrix -infected L. oleracea prey in similar numbers to uninfected larvae. Exposure to infected prey during nymphal development increased the rate at which adult bugs attacked diseased L. oleracea larvae. Fifth instar P. maculiventris nymphs, however, attacked infected prey in the majority of cases (>80% of occasions). Consumption of healthy and infected prey was measured for both adult and nymphal bugs. Over the course of 1 week, the mean number of V. necatrix -infected prey eaten by P. maculiventris adults (7.0 ± 0.82) was approximately twice the number of uninfected prey consumed (3.8 ± 0.42). Similarly, the number of prey larvae attacked by the bug over the course of the final nymphal stadium was also increased, with 2.9 ± 0.42 uninfected larvae eaten as opposed to 4.9 ± 0.27 V. necatrix -infected prey. However, small-scale investigations into the rate of P. maculiventris reduced small populations of L. oleracea indicated that the combination of the predator and pathogen would produce, at best, an additive effect.     

Comparison of wild type and genetically engineered nuclear polyhedrosis viruses of Autographa californica for mortality, virus replication and polyhedra production in Trichoplusia ni larvae

Virus replication and polyhedra production of two polyhedron-positive recombinant nuclear polyhedrosis viruses of Autographa californica, AcJHE.KK and AcAaIT which encode juvenile hormone esterase and scorpion toxin, respectively, were compared with those of a plaque purified wild-type nuclear polyhedrosis virus, AcMNPV-C6, in Trichoplusia ni larvae. Though average times required to kill the T. ni larvae increased with the age of the larvae, killing time by either recombinant virus was significantly shorter than that by wild-type virus. Killing time was reduced ca. 30% for AcAaIT-infected larvae and 5 to 8% for AcJHE.KK-infected larvae as compared to that for AcMNPV-C6-infected larvae. The average weight of larvae infected with AcAaIT was significantly lower than that of larvae infected with AcJHE.KK and AcMNPV-C6. The mean numbers of polyhedra produced in each larva inoculated with AcAaIT and AcJHE.KK were ca. 20% and 60%, respectively, of those for AcMNPV-C6. Total virus titers in AcMNPV-C6-infected larvae were significantly higher than those in AcJHE.KK- and AcAaIT-infected larvae until 2 days post infection.     

Contact toxicity and transcriptomic analysis of terpinen‐4‐ol exposure in Tribolium castaneum

The terpene, terpinen-4-ol (T4ol), exhibits contact toxicity in Tribolium castaneum. However, the molecular mechanisms underlying this toxicity have not been elucidated. This study examined changes in the expression of four classic enzymes after exposure of T. castaneum to T4ol. Acetylcholinesterase and glutathione S-transferase activities were markedly inhibited after exposure to T4ol, while that of the detoxifying enzyme cytochrome oxidase P450 increased markedly. Carboxylesterase activity did not show significant changes. Furthermore, RNA sequencing revealed 260 differentially expressed genes (DEG) between the T4ol-treated and control samples, and qRT-PCR was used to validate the RNA-Seq data. The Gene Ontology analysis classified the DEGs into 36 functional groups, including the immune system processes, response to stimulus, and developmental processes. T4ol altered the response to stimulus and the immune system process of beetles by inducing the expression of the genes Stabilin-1, Attacin 1, and Defensin 1. Furthermore, the DEGs receptor tyrosine kinase Torso-like protein (RTKTsl), Frizzled 4 (Fz4), Protein Wnt-5b, Ecdysone-induced protein 78C (E78), Zinc finger protein GLIS1 (ZFPGLIS1) were classified as participating in beetle development, and Fz4 and Protein Wnt-5b also mapped to the Wnt signaling pathway. This indicated that pathways associated with development are inhibited after exposure to T4ol. T4ol also induced CYP9Z6/GSTs7 overexpression, and RNAi targeting these genes significantly increased larvae mortality on T4ol exposure, supporting the participation of CYP9Z6/GSTs7 in the response to T4ol in T. castaneum. The results of this study will facilitate understanding of the toxic mechanisms of T4ol and provide a basis for controlling the pests of stored products.     

Comparative virulence of Nosema plodiae and Nosema heterosporum in the Indian meal moth, Plodia interpunctella

When larvae of the Indian meal moth, Plodia interpunctella, were fed diets containing spores of Nosema plodiae, the number that survived to the adult stage decreased and the rate of adult emergence was retarded as the concentration of spores was increased; all surviving adults were infected. Also, when larvae were reared on diets containing spores of Nosema heterosporum, the number that survived to the adult stage decreased as the concentration of spores was increased; however, no relationship was apparent between concentration of spores and the rate of adult emergence. The LC₅₀'s of N. plodiae and N. heterosporum were 8.09 × 10⁶ and 4.52 × 10³ spores/g diet, respectively, which confirmed preliminary observations regarding the relative virulence of the two species of Nosema to Indian meal moth larvae.     

Trichinella spiralis: skeletal muscle membrane potentials in infected and uninfected mice

Male albino mice were infected orally with 400 ± 10 excysted Trichinella spiralis larvae. Skeletal muscle resting membrane potentials were recorded from the tibialis anterior muscles of infected and uninfected mice on the following days postinfection (PI): 1–15, 18, 20, 24, 28, 30–60 (at 5-day intervals), 90, 120, 150, and 180. The membrane potentials were significantly (P < 0.05) lower in infected muscle (82 vs 85 mV) on Day 30 PI. On Days 60, 90, 120, 150, and 180 PI the mean membrane potential in infected muscle (62 mV) was about 23 mV lower than the mean for uninfected muscle (85 mV) and this difference was highly significant (P < 0.001). These findings are discussed in relationship to other physiological alterations known to occur in skeletal muscles infected with T. spiralis larvae.     

Trichinella spiralis Infection Suppressed Gut Inflammation with CD4+CD25+Foxp3+ T Cell Recruitment

In order to know the effect of pre-existing Trichinella spiralis infection on experimentally induced intestinal inflammation and immune responses, we induced colitis in T. spiralis-infected mice and observed the severity of colitis and the levels of Th1, Th2, and regulatory cytokines and recruitment of CD4⁺CD25⁺Foxp3⁺ T (regulatory T; T_reg) cells. Female C57BL/6 mice were infected with 250 muscle larvae; after 4 weeks, induction of experimental colitis was performed using 3% dextran sulfate sodium (DSS). During the induction period, we observed severity of colitis, including weight loss and status of stool, and evaluated the disease activity index (DAI). A significantly low DAI and degree of weight loss were observed in infected mice, compared with uninfected mice. In addition, colon length in infected mice was not contracted, compared with uninfected mice. We also observed a significant increase in production of pro-inflammatory cytokines, IL-6 and IFN-γ, in spleen lymphocytes treated with DSS; however, such an increase was not observed in infected mice treated with DSS. Of particular interest, production of regulatory cytokines, IL-10 and transforming growth factor (TGF)-β, in spleen lymphocytes showed a significant increase in mice infected with T. spiralis. A similar result was observed in mesenteric lymph nodes (MLN). Subsets of the population of T_reg cells in MLN and spleen showed significant increases in mice infected with T. spiralis. In conclusion, T. spiralis infection can inhibit the DSS-induced colitis in mice by enhancing the regulatory cytokine and T_reg cells recruitment.     

Nosema whitei,a microsporidan pathogen of some species ofTribolium

The pathogenicity ofNosema whitei was studied using a dose-mortality technique; larvae ofTribolium castaneum were reared for the duration of each experiment in flour mixed with known numbers of spores. The susceptibility of each of the first 5 larval instars was compared. The LD₅₀ (for mortality after 20 days) increased consistently from the first instar (1.8×10⁶ spores/g) to the fifth instar (1.0×10¹⁰ spores/g). The slopes of the probit lines increased consistently as age increased (from b=1.1 to b=3.9). Two factors which reduce the development time ofT. castaneum, high temperature and high humidity, both reduced the pathogenicity ofN. whitei. Thus pathogenicity decreased as the temperature was increased fram 25°C (LD₅₀=4.2×10⁶) through 30°C (LD₅₀=1.3×10⁷) to 35°C (LD₅₀=3.2×10⁶), also pathogenicity decreased consistently as humidity was increased fram 10%, through 30, 50, 70% to 90% R.H. Adults, emerging fromNosema free larvae, became infected only when exposed to a very high dose (2×10¹⁰ spores/g for 14 days from the day of emergence). Infected larvae were treated for 1 hr. at 45°C in an attempt to cure the infection. The infected larvae were not cured, rather the treatment had an adverse alfect on their survival.

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Résumé La pathogénicité deNosema whitei a été étudiée en élevant des larves deT. castaneum dans de la farine mélangée à des quantités connues de spores. La sensibilité des larves diminue uniformément en fonction de l'age; La DL₅₀ varie de 1,8×10⁶/g (1^er stade) à 1,0×10¹⁰ spores/g (5^e stade). Deux facteurs, qui accélèrent le développement deT. castaneum, des températures et des humidités élevées, réduisent tous les deux la pathogénicité deN. whitei. Les adultes ne peuvent être infectés qu'en les exposant à la dose extrêmement élevée de 2×10¹⁰ spores/g. Un traitement par la chaleur (45°C pendant une heure) n'a pas réussi à guérir les larves.

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This work financed by a Science Research Council (U.K.) studentship is based on a thesis submitted for a degree of Ph. D. at the University of Newcastle-upon-Tyne.     

Pathophysiologic alterations in Biomphalaria glabrata infected with Angiostrongylus costaricensis

Hemolymph glucose, alkaline phosphatase, lactic dehydrogenase, and creatine phosphokinase in Biomphalaria glabrata infected with Angiostrongylus costaricensis were significantly higher on day 27 postinfection (PI) than in uninfected snails. Hemolymph total calcium from infected snails was less on days 6, 12, and 27 PI than that from controls. Total hemolymph protein was similar for controls and infected animals during the entire study. Throughout the study the mean number of amoebocytes/mm³ hemolymph from infected snails was significantly less than that for controls. Mean total wet weights of digestive gland and foot muscle from infected and uninfected snails was similar throughout the study. Mean μg glycogen/mg wet weight of digestive gland from infected snails was significantly greater on days 24, 27, and 28 PI than that from controls. Mean μg glycogen/mg wet weight of foot muscle from infected snails was significantly reduced between days 12 and 28 PI from that of uninfected snails. It is suggested that hemolymph glucose and digestive gland glycogen in infected snails are augmented by glycogen breakdown in the foot muscle of parasitized animals. Elevations in hemolymph enzymes are due to tissue destruction by larvae emerging from the foot muscle of infected snails. Parasite-induced derangements in shell metabolism underlie observed changes in hemolymph calcium in infected snails.