Your search keyword '"Multiple hosts"' showing total 28 results

1. Studying the aggressiveness of Sclerotinia sclerotiorum (Lib.) De Bary isolates from multiple hosts on tomato cultivars

Author

Bhatt, Bhagyashree and Sharma, Geeta

Published

2024

2. Eight challenges in modelling disease ecology in multi-host, multi-agent systems

Author

Buhnerkempe, Michael G, Roberts, Mick G, Dobson, Andrew P, Heesterbeek, Hans, Hudson, Peter J, and Lloyd-Smith, James O

Subjects

Aetiology, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Communicable Diseases, Ecology, Food Chain, Host-Pathogen Interactions, Humans, Life Cycle Stages, Models, Statistical, Population Dynamics, Multiple hosts, Multiple pathogens, Community ecology, Maintenance, Food webs, Clinical Sciences, Public Health and Health Services

Abstract

Many disease systems exhibit complexities not captured by current theoretical and empirical work. In particular, systems with multiple host species and multiple infectious agents (i.e., multi-host, multi-agent systems) require novel methods to extend the wealth of knowledge acquired studying primarily single-host, single-agent systems. We outline eight challenges in multi-host, multi-agent systems that could substantively increase our knowledge of the drivers and broader ecosystem effects of infectious disease dynamics.

Published

2015

3. Hemiparasite Phtheirospermum japonicum growth benefits from a second host and inflicts greater host damage with exogenous N supply.

Author

Frederica, Clarissa Frances and Irving, Louis John

Subjects

*ALFALFA, *HOST plants, *HOST-parasite relationships, *PARASITISM

Abstract

While parasites are likely to connect to multiple host plants in nature, parasitism dynamics under multiple association conditions remain unclear and are difficult to separate from competitive effects. In this study, a five-compartment split root-box was constructed to allow a single facultative root hemiparasite, Phtheirospermum japonicum , to connect to zero, one or two Medicago sativa hosts while maintaining constant plant number and independently controlling nutrient supply. In the first experiment, we found that P. japonicum derived equal, additive benefits from attachment to a second host irrespective of parasite N status. In the second experiment, parasites were grown at four N levels in either parasitic or control conditions. Attachment caused a constant, absolute increase in parasite mass at all N levels, while host damage increased at higher parasite N levels despite an apparent decrease in host to parasite N transfer. Our findings suggest that host damage caused by P. japonicum may be strengthened by exogenous nitrogen supply to the parasite. Parasites benefit from multiple hosts when competitive effects are controlled. Parasite N supply increased host damage but did not enhance/increase parasitic benefits. [ABSTRACT FROM AUTHOR]

Published

2024

4. Eight challenges in modelling disease ecology in multi-host, multi-agent systems

Author

Michael G. Buhnerkempe, Mick G. Roberts, Andrew P. Dobson, Hans Heesterbeek, Peter J. Hudson, and James O. Lloyd-Smith

Subjects

Multiple hosts, Multiple pathogens, Community ecology, Maintenance, Food webs, Infectious and parasitic diseases, RC109-216

Abstract

Many disease systems exhibit complexities not captured by current theoretical and empirical work. In particular, systems with multiple host species and multiple infectious agents (i.e., multi-host, multi-agent systems) require novel methods to extend the wealth of knowledge acquired studying primarily single-host, single-agent systems. We outline eight challenges in multi-host, multi-agent systems that could substantively increase our knowledge of the drivers and broader ecosystem effects of infectious disease dynamics.

Published

2015

5. Bacillus thuringiensis Is an Environmental Pathogen and Host-Specificity Has Developed as an Adaptation to Human-Generated Ecological Niches

Author

Ronaldo Costa Argôlo-Filho and Leandro Lopes Loguercio

Subjects

Bacillus ecology, multiple hosts, virulence factors, pathogenicity, Science

Abstract

Bacillus thuringiensis (Bt) has been used successfully as a biopesticide for more than 60 years. More recently, genes encoding their toxins have been used to transform plants and other organisms. Despite the large amount of research on this bacterium, its true ecology is still a matter of debate, with two major viewpoints dominating: while some understand Bt as an insect pathogen, others see it as a saprophytic bacteria from soil. In this context, Bt’s pathogenicity to other taxa and the possibility that insects may not be the primary targets of Bt are also ideas that further complicate this scenario. The existence of conflicting research results, the difficulty in developing broader ecological and genetics studies, and the great genetic plasticity of this species has cluttered a definitive concept. In this review, we gathered information on the aspects of Bt ecology that are often ignored, in the attempt to clarify the lifestyle, mechanisms of transmission and target host range of this bacterial species. As a result, we propose an integrated view to account for Bt ecology. Although Bt is indeed a pathogenic bacterium that possesses a broad arsenal for virulence and defense mechanisms, as well as a wide range of target hosts, this seems to be an adaptation to specific ecological changes acting on a versatile and cosmopolitan environmental bacterium. Bt pathogenicity and host-specificity was favored evolutionarily by increased populations of certain insect species (or other host animals), whose availability for colonization were mostly caused by anthropogenic activities. These have generated the conditions for ecological imbalances that favored dominance of specific populations of insects, arachnids, nematodes, etc., in certain areas, with narrower genetic backgrounds. These conditions provided the selective pressure for development of new hosts for pathogenic interactions, and so, host specificity of certain strains.

Published

2013

6. A Comparative Assessment of Epidemiologically Different Cutaneous Leishmaniasis Outbreaks in Madrid, Spain and Tolima, Colombia: An Estimation of the Reproduction Number via a Mathematical Model

Author

Anuj Mubayi, Marlio Paredes, and Juan Ospina

Subjects

cutaneous leishmaniasis, visceral leishmaniasis, mathematical modeling, SIR model, transmission dynamics of CL, health disparities, movement of individuals, multiple hosts, Medicine

Abstract

Leishmaniasis is a neglected tropical disease caused by the Leishmania parasite and transmitted by the Phlebotominae subfamily of sandflies, which infects humans and other mammals. Clinical manifestations of the disease include cutaneous leishmaniasis (CL), mucocutaneous leishmaniasis (MCL) and visceral leishmaniasis (VL) with a majority (more than three-quarters) of worldwide cases being CL. There are a number of risk factors for CL, such as the presence of multiple reservoirs, the movement of individuals, inequality, and social determinants of health. However, studies related to the role of these factors in the dynamics of CL have been limited. In this work, we (i) develop and analyze a vector-borne epidemic model to study the dynamics of CL in two ecologically distinct CL-affected regions—Madrid, Spain and Tolima, Colombia; (ii) derived three different methods for the estimation of model parameters by reducing the dimension of the systems; (iii) estimated reproduction numbers for the 2010 outbreak in Madrid and the 2016 outbreak in Tolima; and (iv) compared the transmission potential of the two economically-different regions and provided different epidemiological metrics that can be derived (and used for evaluating an outbreak), once R0 is known and additional data are available. On average, Spain has reported only a few hundred CL cases annually, but in the course of the outbreak during 2009–2012, a much higher number of cases than expected were reported and that too in the single city of Madrid. Cases in humans were accompanied by sharp increase in infections among domestic dogs, the natural reservoir of CL. On the other hand, CL has reemerged in Colombia primarily during the last decade, because of the frequent movement of military personnel to domestic regions from forested areas, where they have increased exposure to vectors. In 2016, Tolima saw an unexpectedly high number of cases leading to two successive outbreaks. On comparing, we estimated reproduction number of the Madrid outbreak to be 3.1 (with range of 2.8–3.9), which was much higher than reproduction number estimates of the Tolima first outbreak 1.2 (with range of 1.1–1.3), and the estimate for the second outbreak in Tolima of 1.019 (with range of 1.018–1.021). This suggests that the epidemic outbreak in Madrid was much more severe than the Tolima outbreak, even though Madrid was economically better-off compared to Tolima. It indicates a potential relationship between urban development and increasing health disparities.

Published

2018

7. Modeling transmission dynamics of lyme disease: Multiple vectors, seasonality, and vector mobility

Author

Naveen K. Vaidya, Aileen Nguyen, and Joseph M. Mahaffy

Subjects

Peromyscus, 030231 tropical medicine, Zoology, Biology, Odocoileus, Tick, Multiple hosts, 34G20, 03 medical and health sciences, 0302 clinical medicine, Lyme disease, parasitic diseases, 34K13, 92D30, medicine, 030212 general & internal medicine, Original Research Article, Tick's host preference, Migration, Mathematical models, Transmission (medicine), Applied Mathematics, Health Policy, Seasonality, medicine.disease, biology.organism_classification, bacterial infections and mycoses, Infectious Diseases, Ixodes scapularis, Ixodes, Basic reproduction number

Abstract

Lyme disease is the most prevalent tick-borne disease in the United States, which humans acquire from an infected tick of the genus Ixodes (primarily Ixodes scapularis). While previous studies have provided useful insights into various aspects of Lyme disease, the tick's host preference in the presence of multiple hosts has not been considered in the existing models. In this study, we develop a transmission dynamics model that includes the interactions between the primary vectors involved: blacklegged ticks (I. scapularis), white-footed mice (Peromyscus leucopus), and white-tailed deer (Odocoileus virginianus). Our model shows that the presence of multiple vectors may have a significant impact on the dynamics and spread of Lyme disease. Based on our model, we also calculate the basic reproduction number, R 0 , a threshold value that predicts whether a disease exists or dies out. Subsequent extensions of the model consider seasonality of the tick's feeding period and mobility of deer between counties. Our results suggest that a longer tick peak feeding period results in a higher infection prevalence. Moreover, while the deer mobility may not be a primary factor for short-term emergence of Lyme disease epidemics, in the long-run it can significantly contribute to local infectiousness in neighboring counties, which eventually reach the endemic steady state.

Published

2019

8. Eight challenges in modelling disease ecology in multi-host, multi-agent systems.

Author

Buhnerkempe, Michael G., Roberts, Mick G., Dobson, Andrew P., Heesterbeek, Hans, Hudson, Peter J., and Lloyd-Smith, James O.

Abstract

Many disease systems exhibit complexities not captured by current theoretical and empirical work. In particular, systems with multiple host species and multiple infectious agents (i.e., multi-host, multi-agent systems) require novel methods to extend the wealth of knowledge acquired studying primarily single-host, single-agent systems. We outline eight challenges in multi-host, multi-agent systems that could substantively increase our knowledge of the drivers and broader ecosystem effects of infectious disease dynamics. [ABSTRACT FROM AUTHOR]

Published

2015

9. Reprint of: Saprolegnia strains isolated from river insects and amphipods are broad spectrum pathogens.

Author

Sarowar, Mohammad Nasif, van den Berg, Albert Hendrik, McLaggan, Debbie, Young, Mark R., and van West, Pieter

Subjects

*SAPROLEGNIA, *AMPHIPODA, *AQUATIC organisms, *PATHOGENIC microorganisms, *FISH phylogeny, *XENOPUS laevis

Abstract

Saprolegnia species are destructive pathogens to many aquatic organisms and are found in most parts of the world. Reports based on phylogenetic analysis suggest that Saprolegnia strains isolated from aquatic animals such as crustaceans and frogs are close to Saprolegnia strains isolated from infected fish or fish eggs and vice versa . However, it has often been assumed that host specificity occurs for each individual isolate or strain. Here we demonstrate that Saprolegnia spp. can have multiple hosts and are thus capable of infecting different aquatic organisms. Saprolegnia delica , Saprolegnia hypogyna , and 2 strains of Saprolegnia diclina were isolated from aquatic insects and amphipods while S. delica , Saprolegnia ferax , Pythium pachycaule , and a Pythium sp. were isolated from the water of a medium to fast flowing river. The ITS region of the rRNA gene was sequenced for all isolates. In challenge experiments, all four isolates from insects were found to be highly pathogenic to eggs of Atlantic salmon ( Salmo salar ) and embryos of the African clawed frog ( Xenopus laevis ). We found that Saprolegnia spp. isolated from salmon eggs were also able to successfully establish infection in nymphs of stonefly ( Perla bipunctata ) and embryos of X. laevis ). These results suggest that Saprolegnia spp. are capable of infecting multiple hosts, which may give them an advantage during seasonal variation in their natural environments. [ABSTRACT FROM AUTHOR]

Published

2014

10. Bacillus thuringiensis Is an Environmental Pathogen and Host-Specificity Has Developed as an Adaptation to Human-Generated Ecological Niches.

Author

Argôlo-Filho, Ronaldo Costa and Loguercio, Leandro Lopes

Subjects

*BACILLUS thuringiensis, *PATHOGENIC microorganisms, *ECOLOGICAL niche, *BIOPESTICIDES, *GENETIC code

Abstract

Bacillus thuringiensis (Bt) has been used successfully as a biopesticide for more than 60 years. More recently, genes encoding their toxins have been used to transform plants and other organisms. Despite the large amount of research on this bacterium, its true ecology is still a matter of debate, with two major viewpoints dominating: while some understand Bt as an insect pathogen, others see it as a saprophytic bacteria from soil. In this context, Bfa pathogenicity to other taxa and the possibility that insects may not be the primary targets of Bt are also ideas that liirther complicate this scenario. The existence of conflicting research results, the difficulty in developing broader ecological and genetics studies, and the great genetic plasticity of this species has cluttered a definitive concept. In this review, we gathered information on the aspects of Bt ecology that are often ignored, in the attempt to clarify the lifestyle, mechanisms of transmission and target host range of this bacterial species. As a result. We propose an integrated view to account lor Bt ecology. Although Bt is indeed a pathogenic bacterium that possesses a broad arsenal tor virulence and defense mechanisms, as well as a wide range of target hosts, this seems to be an adaptation to specific ecological changes acting on a versatile and cosmopolitan environmental bacterium. Bt pathogenicity and host-specificity was tavored evolutionarily by increased populations of certain insect species (or other host animals), whose availability for colonization were mostly caused by anthropogenic activities. These have generated the conditions for ecological imbalances that favored dominance of specific populations of insects, arachnids, nematodes, etc., in certain areas, with narrower genetic backgrounds. These conditions provided the selective pressure for development of new hosts for pathogenic interactions, and so. host specificity of certain strains. [ABSTRACT FROM AUTHOR]

Published

2014

11. Saprolegnia strains isolated from river insects and amphipods are broad spectrum pathogens.

Author

Sarowar, Mohammad Nasif, van den Berg, Albert Hendrik, McLaggan, Debbie, Young, Mark R., and van West, Pieter

Subjects

*SAPROLEGNIA, *AMPHIPODA, *INSECT-fungus relationships, *PATHOGENIC microorganisms, *AQUATIC organisms, *PHYLOGENY

Abstract

Abstract: Saprolegnia species are destructive pathogens to many aquatic organisms and are found in most parts of the world. Reports based on phylogenetic analysis suggest that Saprolegnia strains isolated from aquatic animals such as crustaceans and frogs are close to Saprolegnia strains isolated from infected fish or fish eggs and vice versa. However, it has often been assumed that host specificity occurs for each individual isolate or strain. Here we demonstrate that Saprolegnia spp. can have multiple hosts and are thus capable of infecting different aquatic organisms. Saprolegnia delica, Saprolegnia hypogyna, and 2 strains of Saprolegnia diclina were isolated from aquatic insects and amphipods while S. delica, Saprolegnia ferax, Pythium pachycaule, and a Pythium sp. were isolated from the water of a medium to fast flowing river. The ITS region of the rRNA gene was sequenced for all isolates. In challenge experiments, all four isolates from insects were found to be highly pathogenic to eggs of Atlantic salmon (Salmo salar) and embryos of the African clawed frog (Xenopus laevis). We found that Saprolegnia spp. isolated from salmon eggs were also able to successfully establish infection in nymphs of stonefly (Perla bipunctata) and embryos of X. laevis). These results suggest that Saprolegnia spp. are capable of infecting multiple hosts, which may give them an advantage during seasonal variation in their natural environments. [Copyright &y& Elsevier]

Published

2013

12. Asymmetric exploitation of two echinoid host species by a parasitic pea crab and its consequences for the parasitic life cycle.

Author

De Bruyn, C., David, B., De Ridder, C., and Rigaud, T.

Subjects

PARASITISM, HOST-parasite relationships, PINNOTHERIDAE, HOSTS (Biology), CRAB reproduction, PARASITE life cycles, LAGOONS, SCUBA diving

Abstract

The article presents a study on the asymmetric parasitism hypothesis in parasitic pea crab Dissodactylus primitivus on its two host species such as Meoma ventricosa and Plagiobrissus grandis, collected through Self-Contained Underwater Breathing Apparatus (SCUBA) diving from the Discovery Bay lagoon, north coast of Jamaica. It states that the host choice experiments manifest that juvenile and adult pea crabs were capable of settling on the two hosts. It mentions that the results manifest no significant difference on the adult crab characteristics between the two hosts but the female crabs settling on P. grandis establish higher fecundity. Results show that the adult parasites infecting the hosts manifest different relative fitnesses in the asymmetric life cycle.

Published

2010

13. Modeling fish health to inform research and management: Renibacterium salmoninarum dynamics in Lake Michigan.

Author

Fenichel, Eli P., Tsao, Jean I., and Jones, Michael L.

Subjects

CHINOOK salmon, PATHOGENIC microorganisms, FISHES, SALMONIDAE, ONCORHYNCHUS, RESEARCH, ANIMAL health

Abstract

The article presents a research regarding the health condition of the Chinook salmon residing in the Lake Michigan. It looks on the effects of the fish pathogens, to the health condition of these salmon and cites how the researchers exerted their efforts in assessing the condition of these fishes by creating an approach in order to assess the total health condition of the fishes while interacting with the said fish pathogens. In addition, the newly-hatched fishes' health and their survivability are also determined.

Published

2009

14. Does multiple hosts mean multiple parasites? Population genetic structure of Schistosoma japonicum between definitive host species

Author

Wang, T.P., Shrivastava, J., Johansen, M.V., Zhang, S.Q., Wang, F.F., and Webster, J.P.

Subjects

*GENETIC polymorphisms, *MICROSATELLITE repeats, *DOMESTIC animals, *POLYMORPHISM (Zoology)

Abstract

Abstract: Multi-host parasites, those capable of infecting more than one species of host, are responsible for the majority of all zoonotic, emerging or persistent human and animal diseases and are considered one of the major challenges for the biomedical sciences in the 21st century. We characterized the population structure of the multi-host parasite Schistosoma japonicum in relation to its definitive host species by genotyping miracidia collected from humans and domestic animals across five villages around the Yangtze River in Anhui Province, mainland China, using microsatellite markers. High levels of polymorphisms were observed and two main genetic clusters were identified which separated water buffalo, cattle and humans from goats, pigs, dogs and cats. We thereby believe that we present the first evidence of definitive host-based genetic variation in Schistosoma japonicum which has important epidemiological, evolutionary, medical and veterinary implications. [Copyright &y& Elsevier]

Published

2006

15. A Comparative Assessment of Epidemiologically Different Cutaneous Leishmaniasis Outbreaks in Madrid, Spain and Tolima, Colombia: An Estimation of the Reproduction Number via a Mathematical Model

Author

Marlio Paredes, Juan Ospina, and Anuj Mubayi

Subjects

0301 basic medicine, medicine.medical_specialty, Phlebotominae, 030231 tropical medicine, lcsh:Medicine, 03 medical and health sciences, cutaneous leishmaniasis, 0302 clinical medicine, Cutaneous leishmaniasis, Epidemiology, medicine, visceral leishmaniasis, movement of individuals, Natural reservoir, health disparities, General Immunology and Microbiology, biology, multiple hosts, lcsh:R, Public Health, Environmental and Occupational Health, mathematical modeling, Tropical disease, Outbreak, Leishmaniasis, transmission dynamics of CL, medicine.disease, biology.organism_classification, 030104 developmental biology, Infectious Diseases, Visceral leishmaniasis, Geography, SIR model, Demography

Abstract

Leishmaniasis is a neglected tropical disease caused by the Leishmania parasite and transmitted by the Phlebotominae subfamily of sandflies, which infects humans and other mammals. Clinical manifestations of the disease include cutaneous leishmaniasis (CL), mucocutaneous leishmaniasis (MCL) and visceral leishmaniasis (VL) with a majority (more than three-quarters) of worldwide cases being CL. There are a number of risk factors for CL, such as the presence of multiple reservoirs, the movement of individuals, inequality, and social determinants of health. However, studies related to the role of these factors in the dynamics of CL have been limited. In this work, we (i) develop and analyze a vector-borne epidemic model to study the dynamics of CL in two ecologically distinct CL-affected regions—Madrid, Spain and Tolima, Colombia; (ii) derived three different methods for the estimation of model parameters by reducing the dimension of the systems; (iii) estimated reproduction numbers for the 2010 outbreak in Madrid and the 2016 outbreak in Tolima; and (iv) compared the transmission potential of the two economically-different regions and provided different epidemiological metrics that can be derived (and used for evaluating an outbreak), once R0 is known and additional data are available. On average, Spain has reported only a few hundred CL cases annually, but in the course of the outbreak during 2009–2012, a much higher number of cases than expected were reported and that too in the single city of Madrid. Cases in humans were accompanied by sharp increase in infections among domestic dogs, the natural reservoir of CL. On the other hand, CL has reemerged in Colombia primarily during the last decade, because of the frequent movement of military personnel to domestic regions from forested areas, where they have increased exposure to vectors. In 2016, Tolima saw an unexpectedly high number of cases leading to two successive outbreaks. On comparing, we estimated reproduction number of the Madrid outbreak to be 3.1 (with range of 2.8–3.9), which was much higher than reproduction number estimates of the Tolima first outbreak 1.2 (with range of 1.1–1.3), and the estimate for the second outbreak in Tolima of 1.019 (with range of 1.018–1.021). This suggests that the epidemic outbreak in Madrid was much more severe than the Tolima outbreak, even though Madrid was economically better-off compared to Tolima. It indicates a potential relationship between urban development and increasing health disparities.

Published

2018

16. A schistosomiasis model with an age-structure in human hosts and its application to treatment strategies

Author

Zhang, Pei, Feng, Zhilan, and Milner, Fabio

Subjects

*SCHISTOSOMIASIS, *DRUG therapy, *DISTOMATOSIS, *HELMINTHIASIS

Abstract

Abstract: We study a system of partial differential equations which models the disease transmission dynamics of schistosomiasis. The model incorporates both the definitive human hosts and the intermediate snail hosts. The human hosts have an age-dependent infection rate and the snail hosts have an infection-age-dependent cercaria releasing rate. The parasite reproduction number is computed and is shown to determine the disease dynamics. Stability results are obtained via both analytic and numerical studies. Results of the model are used to discuss age-targeted drug treatment strategies for humans. Sensitivity and uncertainty analysis is conducted to determine the role of various parameters on the variation of . The effects of various drug treatment programs on disease control are compared in terms of both and the mean parasite load within the human hosts. [Copyright &y& Elsevier]

Published

2007

17. Host use pattern of the pea crab Afropinnotheres monodi: potential effects on its reproductive success and geographical expansion

Author

Alberto M. Arias, José A. Cuesta, Elena Marco-Herrero, Maria Dulce Subida, and Pilar Drake

Subjects

animal structures, Pea crab, Cerastoderma glaucum, Ecology, biology, Afropinnotheres monodi, Reproductive success, Host (biology), Life cycle, Symbiotic crabs, food and beverages, Scrobicularia plana, Aquatic Science, biology.organism_classification, Multiple hosts, body regions, Mytilus galloprovincialis, Ecology, Evolution, Behavior and Systematics

Abstract

The successful settlement of the African pea crab Afropinnotheres monodi in the Bay of Cadiz was analysed to gain new insights into the evolution of pea crab parasite life history traits. The pea crab lives symbiotically and with high prevalence in the bivalves Cerastoderma glaucum and Mytilus galloprovincialis, and with low prevalence in Scrobicularia plana. A remarkable monopolisation of the host (1 crab per bivalve) occurred irrespective of host species and crab demographic categories (males, hard females, soft females), probably as an optimisation of resources in small hosts. However, there was a clear asymmetry in host use by the different crab categories. A 1:1 sex ratio was found in crabs harboured by C. glaucum and S. plana, with most of the female crabs being small and hard specimens, whereas crabs inhabiting M. galloprovincialis were primarily large reproductive females. Ovigerous females were found throughout the year in M. galloprovincialis, and there was a strong correlation between female size and fecundity, suggesting that the females harboured by this host were the major contributors to the reproductive effort of the studied population. Conversely, most of the new crabs recruiting to the population were harboured by the remaining 2 host species. We hypothesise that such a generalist but asymmetrical usage of bivalve hosts by pea crabs may have clear benefits for species such as A. monodi, that are undergoing geographical expansion, facilitating their dispersal to new locations and their successful settlement in sheltered systems, such as the Bay of Cadiz. © Inter-Research 2014., This research work was funded by remnant funds of the PAI RNM108 research group.

Published

2014

18. Bacillus thuringiensis Is an Environmental Pathogen and Host-Specificity Has Developed as an Adaptation to Human-Generated Ecological Niches

Author

Leandro Lopes Loguercio and Ronaldo Costa Argôlo-Filho

Subjects

Ecological niche, Phenotypic plasticity, biology, Ecology, Host (biology), Ecology (disciplines), multiple hosts, virulence factors, Virulence, Context (language use), Review, biology.organism_classification, Insect Science, Bacillus thuringiensis, pathogenicity, lcsh:Q, Adaptation, lcsh:Science, Bacillus ecology

Abstract

Bacillus thuringiensis (Bt) has been used successfully as a biopesticide for more than 60 years. More recently, genes encoding their toxins have been used to transform plants and other organisms. Despite the large amount of research on this bacterium, its true ecology is still a matter of debate, with two major viewpoints dominating: while some understand Bt as an insect pathogen, others see it as a saprophytic bacteria from soil. In this context, Bt's pathogenicity to other taxa and the possibility that insects may not be the primary targets of Bt are also ideas that further complicate this scenario. The existence of conflicting research results, the difficulty in developing broader ecological and genetics studies, and the great genetic plasticity of this species has cluttered a definitive concept. In this review, we gathered information on the aspects of Bt ecology that are often ignored, in the attempt to clarify the lifestyle, mechanisms of transmission and target host range of this bacterial species. As a result, we propose an integrated view to account for Bt ecology. Although Bt is indeed a pathogenic bacterium that possesses a broad arsenal for virulence and defense mechanisms, as well as a wide range of target hosts, this seems to be an adaptation to specific ecological changes acting on a versatile and cosmopolitan environmental bacterium. Bt pathogenicity and host-specificity was favored evolutionarily by increased populations of certain insect species (or other host animals), whose availability for colonization were mostly caused by anthropogenic activities. These have generated the conditions for ecological imbalances that favored dominance of specific populations of insects, arachnids, nematodes, etc., in certain areas, with narrower genetic backgrounds. These conditions provided the selective pressure for development of new hosts for pathogenic interactions, and so, host specificity of certain strains.

Published

2013

19. The role of non-viraemic transmission on the persistence and dynamics of a tick borne virus ? Louping ill in red grouse (Lagopus lagopus scoticus) and mountain hares (Lepus timidus)

Author

David Ross, Peter J. Hudson, Rachel Norman, and M. Karen Laurenson

Subjects

Population Dynamics, Population, Animals, Wild, Tick, Models, Biological, Disease-Free Survival, Encephalitis Viruses, Tick-Borne, Host-Parasite Interactions, law.invention, Birds, Species Specificity, law, Disease Transmission, Infectious, Red grouse, medicine, Animals, co-feeding, Viremia, Birth Rate, education, Disease Reservoirs, coupled differential equations, education.field_of_study, Tick-borne disease, Sheep, Ixodes, biology, Bird Diseases, Host (biology), Applied Mathematics, multiple hosts, Hares, biology.organism_classification, medicine.disease, tick borne disease, Agricultural and Biological Sciences (miscellaneous), Virology, Transmission (mechanics), Scotland, Tick-Borne Diseases, Modeling and Simulation, Lagopus, Louping Ill, Arachnid Vectors, Algorithms, Louping ill

Abstract

There exist many tick borne infections that are of either economic or public health interest. Mathematical models have previously been used to describe the dynamics of these infections. However it has recently come to light that there is an alternative mechanism for the transmission of these diseases that has not been considered in a modelling framework. This is transmission through ticks co-feeding on non-viraemic hosts. This paper extends a simple mathematical model to include this alternative transmission mechanism. The model is used to describe the dynamics of Louping ill virus in red grouse (the viraemic host) and hares (the non-viraemic host). However, these results are applicable to many other systems. The model is analysed using joint threshold density curves. It is found that the presence of a non-viraemic host allows the virus to persist more readily than it would in the presence of a host that simply amplified the tick population. More importantly, if the level of non-viraemic transmission is high enough the virus can persist in the absence of the viraemic host. This result has important implications for the control of tick borne diseases.

Published

2004

20. Eight challenges in modelling disease ecology in multi-host, multi-agent systems

Author

Buhnerkempe, MG, Roberts, MG, Dobson, AP, Heesterbeek, H, Hudson, PJ, and Lloyd-Smith, JO

Subjects

Maintenance, Multiple pathogens, Food webs, Community ecology, Multiple hosts

Abstract

© 2014 The Authors. Many disease systems exhibit complexities not captured by current theoretical and empirical work. In particular, systems with multiple host species and multiple infectious agents (i.e., multi-host, multi-agent systems) require novel methods to extend the wealth of knowledge acquired studying primarily single-host, single-agent systems. We outline eight challenges in multi-host, multi-agent systems that could substantively increase our knowledge of the drivers and broader ecosystem effects of infectious disease dynamics.

Published

2014

21. The role of non-viraemic transmission on the persistence and dynamics of a tick borne virus – Louping ill in red grouse (Lagopus lagopus scoticus) and mountain hares (Lepus timidus)

Author

Norman, Rachel, Ross, David, Karen Laurenson, M., and Hudson, Peter J.

Published

2004

22. Host use pattern of the pea crab Afropinnotheres monodi: Potential effects on its reproductive success and geographical expansion

Author

Drake, Pilar, Marco-Herrero, Elena, Subida, María Dulce, Arias, Alberto M., Cuesta, José A., Drake, Pilar, Marco-Herrero, Elena, Subida, María Dulce, Arias, Alberto M., and Cuesta, José A.

Abstract

The successful settlement of the African pea crab Afropinnotheres monodi in the Bay of Cadiz was analysed to gain new insights into the evolution of pea crab parasite life history traits. The pea crab lives symbiotically and with high prevalence in the bivalves Cerastoderma glaucum and Mytilus galloprovincialis, and with low prevalence in Scrobicularia plana. A remarkable monopolisation of the host (1 crab per bivalve) occurred irrespective of host species and crab demographic categories (males, hard females, soft females), probably as an optimisation of resources in small hosts. However, there was a clear asymmetry in host use by the different crab categories. A 1:1 sex ratio was found in crabs harboured by C. glaucum and S. plana, with most of the female crabs being small and hard specimens, whereas crabs inhabiting M. galloprovincialis were primarily large reproductive females. Ovigerous females were found throughout the year in M. galloprovincialis, and there was a strong correlation between female size and fecundity, suggesting that the females harboured by this host were the major contributors to the reproductive effort of the studied population. Conversely, most of the new crabs recruiting to the population were harboured by the remaining 2 host species. We hypothesise that such a generalist but asymmetrical usage of bivalve hosts by pea crabs may have clear benefits for species such as A. monodi, that are undergoing geographical expansion, facilitating their dispersal to new locations and their successful settlement in sheltered systems, such as the Bay of Cadiz. © Inter-Research 2014.

Published

2014

23. Modeling transmission dynamics of lyme disease: Multiple vectors, seasonality, and vector mobility.

Author

Nguyen A, Mahaffy J, and Vaidya NK

Abstract

Lyme disease is the most prevalent tick-borne disease in the United States, which humans acquire from an infected tick of the genus Ixodes (primarily Ixodes scapularis ). While previous studies have provided useful insights into various aspects of Lyme disease, the tick's host preference in the presence of multiple hosts has not been considered in the existing models. In this study, we develop a transmission dynamics model that includes the interactions between the primary vectors involved: blacklegged ticks ( I. scapularis ), white-footed mice ( Peromyscus leucopus ), and white-tailed deer ( Odocoileus virginianus ). Our model shows that the presence of multiple vectors may have a significant impact on the dynamics and spread of Lyme disease. Based on our model, we also calculate the basic reproduction number, R 0 , a threshold value that predicts whether a disease exists or dies out. Subsequent extensions of the model consider seasonality of the tick's feeding period and mobility of deer between counties. Our results suggest that a longer tick peak feeding period results in a higher infection prevalence. Moreover, while the deer mobility may not be a primary factor for short-term emergence of Lyme disease epidemics, in the long-run it can significantly contribute to local infectiousness in neighboring counties, which eventually reach the endemic steady state.

Published

2019

24. Asymmetric exploitation of two echinoid host species by a parasitic pea crab and its consequences for the parasitic life cycle

Author

C. De Ridder, Bruno David, Thierry Rigaud, C. De Bruyn, Laboratoire de Biologie marine, Université Libre de Bruxelles [Bruxelles] ( ULB ), Biogéosciences [Dijon] ( BGS ), Université de Bourgogne ( UB ) -AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Centre National de la Recherche Scientifique ( CNRS ), Work supported by a doctoral grant from the Belgian National Science Association (FRIA) and by research grants from the Fonds de la Recherche Scientifique (FNRS) and Région Bourgogne., Université libre de Bruxelles (ULB), Biogéosciences [UMR 6282] [Dijon] (BGS), and Centre National de la Recherche Scientifique (CNRS)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement

Subjects

0106 biological sciences, [ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology, Aquatic Science, Plagiobrissus grandis, 010603 evolutionary biology, 01 natural sciences, Population density, Multiple hosts, Ecto-parasitism, Meoma ventricosa, [ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology, environment/Symbiosis, Juvenile, Parasite hosting, [SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology, Ecology, Evolution, Behavior and Systematics, [ SDE.BE ] Environmental Sciences/Biodiversity and Ecology, Pea crab, Ecology, biology, Host (biology), 010604 marine biology & hydrobiology, food and beverages, Fecundity, biology.organism_classification, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis

Abstract

Exploitation of more than one host species may increase fitness of parasites, but it also shapes their life cycle and evolution. During its post-metamorphic stages, the pea crab Dissodactylus primitivus parasitizes the echinoids Meoma ventricosa and Plagiobrissus grandis with high prevalence. However, the present study provides evidence that P. grandis is infected by adult crabs only, attesting to an unusual asymmetry in host exploitation. Because of its low population densities, P. grandis could be a secondarily acquired host, and its addition to the crab life cycle could be adaptive. The latter hypothesis is tested in this study. Choice experiments revealed that adult and juvenile crabs were equally attracted to and able to settle on the 2 hosts. Most adult crab characteristics were not significantly different between the host species, but females living on P. grandis had higher fecundity. This asymmetric life cycle, where adult parasites infecting the 2 hosts show different relative fitnesses, looks like a transitory stage as predicted in models which predict the evolution of parasitic complex life cycles. However, this parasite asymmetric exploitation may also be a stable state, which occurs due to insufficient differences in crab fitness between the 2 hosts and the absence of host preference.

Published

2010

25. Multi-host multi-patch mathematical epidemic models for disease emergence with applications to hantavirus in wild rodents

Author

McCormack, Robert K., Roeger, Lih-Ing W., Allen, Edward J., and Allen, Linda J. S.

Subjects

SIS models, SIR models, Multiple hosts, Hantavirus, Stochastic, Epidemic models

Abstract

Most zoonotic pathogens are capable of infecting multiple hosts. These animal hosts can often move through a large territory and many different landscapes. In this investigation, we formulate and analyze multi-host and multi-patch mathematical models for disease emergence. In particular, we examine SIS and SIR epidemic models. We determine under what conditions the disease can emerge. In the multi-host models, we examine a single pathogen that can infect n different hosts. In the multi-patch models, a single host moves through n different patches. For the multi-host models, it is shown that the basic reproduction number increases with the number of hosts. Therefore, the possibility for disease emergence increases with the number of infected hosts. In the multi-patch models, the basic reproduction number for the system lies between the basic reproduction numbers for each disconnected patch. Therefore, connection of patches may or may not lead to disease emergence. It is shown that as the mobility of hosts between patches increases, the basic reproduction number approaches a limiting value. We also examine a three-patch model which supports two hosts. The basic reproduction number is found for this model. For each type of model, we also formulate a set of stochastic differential equations. These stochastic models introduce variability through the demographic changes. Numerical examples illustrate the dynamics of each of the models. The models have applications to Hantavirus in wild rodents as well as other zoonotic diseases with multiple hosts.

Published

2006

26. A Comparative Assessment of Epidemiologically Different Cutaneous Leishmaniasis Outbreaks in Madrid, Spain and Tolima, Colombia: An Estimation of the Reproduction Number via a Mathematical Model.

Author

Mubayi A, Paredes M, and Ospina J

Abstract

Leishmaniasis is a neglected tropical disease caused by the Leishmania parasite and transmitted by the Phlebotominae subfamily of sandflies, which infects humans and other mammals. Clinical manifestations of the disease include cutaneous leishmaniasis (CL), mucocutaneous leishmaniasis (MCL) and visceral leishmaniasis (VL) with a majority (more than three-quarters) of worldwide cases being CL. There are a number of risk factors for CL, such as the presence of multiple reservoirs, the movement of individuals, inequality, and social determinants of health. However, studies related to the role of these factors in the dynamics of CL have been limited. In this work, we (i) develop and analyze a vector-borne epidemic model to study the dynamics of CL in two ecologically distinct CL-affected regions-Madrid, Spain and Tolima, Colombia; (ii) derived three different methods for the estimation of model parameters by reducing the dimension of the systems; (iii) estimated reproduction numbers for the 2010 outbreak in Madrid and the 2016 outbreak in Tolima; and (iv) compared the transmission potential of the two economically-different regions and provided different epidemiological metrics that can be derived (and used for evaluating an outbreak), once R ₀ is known and additional data are available. On average, Spain has reported only a few hundred CL cases annually, but in the course of the outbreak during 2009⁻2012, a much higher number of cases than expected were reported and that too in the single city of Madrid. Cases in humans were accompanied by sharp increase in infections among domestic dogs, the natural reservoir of CL. On the other hand, CL has reemerged in Colombia primarily during the last decade, because of the frequent movement of military personnel to domestic regions from forested areas, where they have increased exposure to vectors. In 2016, Tolima saw an unexpectedly high number of cases leading to two successive outbreaks. On comparing, we estimated reproduction number of the Madrid outbreak to be 3.1 (with range of 2.8⁻3.9), which was much higher than reproduction number estimates of the Tolima first outbreak 1.2 (with range of 1.1⁻1.3), and the estimate for the second outbreak in Tolima of 1.019 (with range of 1.018⁻1.021). This suggests that the epidemic outbreak in Madrid was much more severe than the Tolima outbreak, even though Madrid was economically better-off compared to Tolima. It indicates a potential relationship between urban development and increasing health disparities., Competing Interests: The authors declare no conflict of interest.

Published

2018

27. Bacillus thuringiensis Is an Environmental Pathogen and Host-Specificity Has Developed as an Adaptation to Human-Generated Ecological Niches.

Author

Argôlo-Filho RC and Loguercio LL

Abstract

Bacillus thuringiensis (Bt) has been used successfully as a biopesticide for more than 60 years. More recently, genes encoding their toxins have been used to transform plants and other organisms. Despite the large amount of research on this bacterium, its true ecology is still a matter of debate, with two major viewpoints dominating: while some understand Bt as an insect pathogen, others see it as a saprophytic bacteria from soil. In this context, Bt's pathogenicity to other taxa and the possibility that insects may not be the primary targets of Bt are also ideas that further complicate this scenario. The existence of conflicting research results, the difficulty in developing broader ecological and genetics studies, and the great genetic plasticity of this species has cluttered a definitive concept. In this review, we gathered information on the aspects of Bt ecology that are often ignored, in the attempt to clarify the lifestyle, mechanisms of transmission and target host range of this bacterial species. As a result, we propose an integrated view to account for Bt ecology. Although Bt is indeed a pathogenic bacterium that possesses a broad arsenal for virulence and defense mechanisms, as well as a wide range of target hosts, this seems to be an adaptation to specific ecological changes acting on a versatile and cosmopolitan environmental bacterium. Bt pathogenicity and host-specificity was favored evolutionarily by increased populations of certain insect species (or other host animals), whose availability for colonization were mostly caused by anthropogenic activities. These have generated the conditions for ecological imbalances that favored dominance of specific populations of insects, arachnids, nematodes, etc., in certain areas, with narrower genetic backgrounds. These conditions provided the selective pressure for development of new hosts for pathogenic interactions, and so, host specificity of certain strains.

Published

2013

28. Eight challenges in modelling disease ecology in multi-host, multi-agent systems

Author

Buhnerkempe, Michael G, Roberts, Mick G, Dobson, Andrew P, Heesterbeek, Hans, Hudson, Peter J, Lloyd-Smith, James O, Dep Gezondheidszorg Landbouwhuisdieren, LS Theoretische Epidemiologie, FAH SIB, Strategic Infection Biology, Dep Gezondheidszorg Landbouwhuisdieren, LS Theoretische Epidemiologie, FAH SIB, and Strategic Infection Biology

Subjects

0106 biological sciences, Food Chain, Epidemiology, Maintenance, Population Dynamics, Clinical Sciences, Biology, Communicable Diseases, 010603 evolutionary biology, 01 natural sciences, Microbiology, Multiple hosts, Article, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Models, Multiple pathogens, Virology, 2.1 Biological and endogenous factors, Humans, lcsh:RC109-216, Community ecology, Aetiology, 030304 developmental biology, Life Cycle Stages, 0303 health sciences, Empirical work, Models, Statistical, Ecology, Multi-agent system, Public Health, Environmental and Occupational Health, Disease ecology, Food webs, Statistical, Data science, Good Health and Well Being, Infectious Diseases, 13. Climate action, Infectious disease (medical specialty), Host-Pathogen Interactions, Public Health and Health Services, Parasitology, Infection

Abstract

© 2014 The Authors. Many disease systems exhibit complexities not captured by current theoretical and empirical work. In particular, systems with multiple host species and multiple infectious agents (i.e., multi-host, multi-agent systems) require novel methods to extend the wealth of knowledge acquired studying primarily single-host, single-agent systems. We outline eight challenges in multi-host, multi-agent systems that could substantively increase our knowledge of the drivers and broader ecosystem effects of infectious disease dynamics.