Coleopteran and Lepidopteran Hosts of the Entomopathogenic Genus Cordyceps sensu lato

Entomophthoralean and ascomycetous fungi are the two major groups known to parasitize arthropods in almost every terrestrial habitat of the earth. Within Ascomycota, Cordyceps sensu lato is a large genus with more than 400 spp. described on numerous orders of Arthropoda. Among the hosts of Cordyceps, Coleoptera and Lepidoptera are the two major orders. Out of the estimated 200 Cordyceps spp. recorded on coleopteran and lepidopteran hosts, we have documented 92 spp. based on the available information of their host species. Among coleopteran hosts, Scarabaeidae and Elateridae are the two major families. Similarly, among lepidopterans, Hepialidae is the largest host family. Cordyceps militaris shows the widest host range, extending to 2 orders, 13 families, and 32 spp. We hope such accumulative work will be useful as a quick reference for interested biologists, forest ecologists, biocontrol researchers, and fungal and insect taxonomists to apprehend host range and host specificities of Cordyceps fungi.

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Biological Transmission of Arboviruses: Reexamination of and New Insights into Components, Mechanisms, and Unique Traits as Well as Their Evolutionary Trends

Clinical Microbiology Reviews ◽

10.1128/cmr.18.4.608-637.2005 ◽

2005 ◽

Vol 18 (4) ◽

pp. 608-637 ◽

Cited By ~ 163

Author(s):

Goro Kuno ◽

Gwong-Jen J. Chang

Keyword(s):

Biological Sciences ◽

Host Range ◽

Disease Transmission ◽

Evolutionary Process ◽

Field Research ◽

Diverse Range ◽

Unique Mode ◽

History Of ◽

Mode Of Transmission ◽

Available Information

SUMMARY Among animal viruses, arboviruses are unique in that they depend on arthropod vectors for transmission. Field research and laboratory investigations related to the three components of this unique mode of transmission, virus, vector, and vertebrate host, have produced an enormous amount of valuable information that may be found in numerous publications. However, despite many reviews on specific viruses, diseases, or interests, a systematic approach to organizing the available information on all facets of biological transmission and then to interpret it in the context of the evolutionary process has not been attempted before. Such an attempt in this review clearly demonstrates tremendous progress made worldwide to characterize the viruses, to comprehend disease transmission and pathogenesis, and to understand the biology of vectors and their role in transmission. The rapid progress in molecular biologic techniques also helped resolve many virologic puzzles and yielded highly valuable data hitherto unavailable, such as characterization of virus receptors, the genetic basis of vertebrate resistance to viral infection, and phylogenetic evidence of the history of host range shifts in arboviruses. However, glaring gaps in knowledge of many critical subjects, such as the mechanism of viral persistence and the existence of vertebrate reservoirs, are still evident. Furthermore, with the accumulated data, new questions were raised, such as evolutionary directions of virus virulence and of host range. Although many fundamental questions on the evolution of this unique mode of transmission remained unresolved in the absence of a fossil record, available observations for arboviruses and the information derived from studies in other fields of the biological sciences suggested convergent evolution as a plausible process. Overall, discussion of the diverse range of theories proposed and observations made by many investigators was found to be highly valuable for sorting out the possible mechanism(s) of the emergence of arboviral diseases.

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Host Range of Some Eucalypt Mycorrhizal Fungi

Australian Journal of Botany ◽

10.1071/bt9730103 ◽

1973 ◽

Vol 21 (1) ◽

pp. 103 ◽

Cited By ~ 34

Author(s):

GA Chilvers

Keyword(s):

Host Range ◽

Host Species ◽

Mycorrhizal Fungi ◽

Wide Range ◽

Genus Eucalyptus

Various fungi are shown to form mycorrhizas with a wide range of host species within the genus Eucalyptus. In general, the same fungi do not appear to be capable of forming mycorrhizas with Pinus.

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Specificity

10.1093/oso/9780198832140.003.0007 ◽

2021 ◽

pp. 159-182

Author(s):

Paul Schmid-Hempel

Keyword(s):

Host Range ◽

Host Species ◽

Cross Reactivity ◽

Geographical Range ◽

Immune Memory ◽

Phylogenetic Distance ◽

Immune Priming ◽

Number Of Factors ◽

Ecological Filter ◽

Immune Defences

infect a number of host species. This host range is given by an ecological filter (the possibility of encounter) and a physiological one (the capacity of establishing an infection). Host ranges typically are right-skewed, with most parasites infecting only a few, but few infecting very many hosts. There is no universally valid hypothesis that explains host range. However, a number of factors contribute to host range, such as geographical range, phylogenetic distance, host predictability, and parasite virulence. Specificity and cross-reactivity of immune defences are important mechanisms. Moreover, immune memory is based on specificity; transgenerational immune priming protects offspring when parents have already been exposed to the same or similar parasites.

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Three new species of Scyracepon Tattersall, 1905 (Isopoda: Bopyridae) from Pacific islands, with comments on the rarity of bopyrids parasitizing brachyurans

Zootaxa ◽

10.11646/zootaxa.4851.1.6 ◽

2020 ◽

Vol 4851 (1) ◽

pp. 151-162

Author(s):

JIANMEI AN ◽

WANRUI ZHENG ◽

JIELONG LIANG ◽

GUSTAV PAULAY

Keyword(s):

New Species ◽

Host Species ◽

Pacific Islands ◽

Mariana Islands ◽

New Host ◽

Host Family ◽

Society Islands ◽

Three New Species ◽

Line Islands

Three new species of the bopyrid genus Scyracepon Tattersall, 1905 are described from crabs collected on Pacific Islands: Scyracepon polynesiensis n. sp. from the Society Islands, S. pseudoliomerae n. sp. from the Mariana Islands, and S. biglobosus n. sp. from the Line Islands. The first two were found infesting Xanthias lamarckii and Pseudoliomera sp. (Xanthidae), a new host family for species of Scyracepon, and the last was found parasitizing Schizophrys aspera (Majidae). Scyracepon now includes 11 species, all but one known from single collections, infesting 12 host species in 9 brachyuran families. The discovery of three new species, each rare, suggests that crab parasites are undersampled, and further suggests that the low relative diversity of bopyrids known from brachyurans may partly reflect this undersampling. Keys to all species of Scyracepon and to all 31 genera of Keponinae are provided.

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Nematodes and cestodes of rodents in South Africa: baseline data on diversity and geographic distribution

Journal of Helminthology ◽

10.1017/s0022149x19000403 ◽

2019 ◽

Vol 94 ◽

Author(s):

A. Spickett ◽

K. Junker ◽

G. Froeschke ◽

V. Haukisalmi ◽

S. Matthee

Keyword(s):

South Africa ◽

Host Range ◽

Geographic Distribution ◽

Host Species ◽

Baseline Data ◽

Helminth Species ◽

Rodent Species ◽

Helminth Parasites ◽

Gastrointestinal Helminths ◽

Naturally Occurring

Abstract Currently, descriptive information on the host range and geographic distribution of helminth parasites associated with naturally occurring rodents in South and southern Africa is scant. Therefore, we embarked on a countrywide study to: (1) identify gastrointestinal helminths and their host range, and (2) provide baseline data on the geographic distribution of helminths across the country. Altogether, 55 helminth taxa were recovered from at least 13 rodent species (n = 1030) at 26 localities across South Africa. The helminth taxa represented 25 genera (15 nematodes, nine cestodes and one acanthocephalan). Monoxenous nematodes were the most abundant and prevalent group, while the occurrence of heteroxenous nematodes and cestodes was generally lower. The study recorded several novel helminth–host associations. Single-host-species infections were common, although multiple-host-species infections by helminth species were also recorded. Monoxenous nematodes and some cestodes were recovered countrywide, whereas heteroxenous nematodes were restricted to the eastern regions of South Africa. The study highlights the as yet unexplored diversity of helminth species associated with naturally occurring rodent species and provides initial data on their geographical distribution in South Africa.

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Host range and geographic distribution of Armillaria root rot pathogens in the Canadian prairie provinces

Canadian Journal of Forest Research ◽

10.1139/x90-249 ◽

1990 ◽

Vol 20 (12) ◽

pp. 1859-1863 ◽

Cited By ~ 20

Author(s):

K. I. Mallett

Keyword(s):

Host Range ◽

Geographic Distribution ◽

Host Species ◽

Root Rot ◽

Boreal Forests ◽

Common Species ◽

Canadian Prairie ◽

Armillaria Root Rot ◽

Armillaria Species ◽

Prairie Provinces

A survey to identify Armillaria root rot pathogens, their host range, and geographic distribution was conducted in the Canadian prairie provinces. Collections of basidiocarps and isolates from the wood of gymptomatic or dead trees were made. Armillaria species were identified by interfertility testing and by the L-DOPA method. Three Armillaria species, A. ostoyae (Romagn.) Herink, A. sinapina Bérubé & Dessureault, and A. calvescens Bérubé & Dessureault, were identified. Armillariaostoyae was the most common species in both the subalpine and boreal forests and was found on a wide variety of coniferous and deciduous host species. Armillariasinapina was in both the boreal and subalpine forests but occurred primarily on deciduous host species. Armillariacalvescens was rare and was found only in the boreal forest on both coniferous and deciduous host species.

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Host species of mistletoes (Loranthaceae and Viscaceae) in Australia

Australian Journal of Botany ◽

10.1071/bt19137 ◽

2020 ◽

Vol 68 (1) ◽

pp. 1

Author(s):

Nicole F. Clark ◽

Jen A. McComb ◽

Andrew W. Taylor-Robinson

Keyword(s):

Alien Species ◽

Host Species ◽

Current Knowledge ◽

Sampling Effort ◽

New Host ◽

Host Family ◽

Single Host ◽

New Hosts ◽

Host Families ◽

New Host Species

In order to study the relationships between mistletoes and their host species, comprehensive collections of both mistletoes and hosts are needed. The effect of sampling effort on the estimation of mistletoe host range was demonstrated in a comparison of an inventory of host mistletoe interactions published by Downey in 1998 and a 2019 inventory presented here, which is based on data from collections in the Australian Virtual Herbarium and information in the literature. New hosts were recorded for 93% of the 90 Australian mistletoes. There were 338 previously known hosts recorded to be parasitised by additional mistletoe species, and 317 new host species that were not previously known as mistletoe hosts (25 being alien species). These were from 78 new host genera and 13 new host families. The total number of host species was 1186 within 327 genera from 92 host families. A total of 63% of all Australian mistletoes parasitise species of either Eucalyptus or Acacia or both these genera. The large rise in host species recorded in less than two decades between inventories suggests that current knowledge of hosts is still incomplete, such that further new hosts will be discovered in future. Some mistletoe species show a strong preference to one host family or genus but due to insufficient collecting it is premature to conclude that any of the three species known from a single host are host specific.

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Puccinia subnitens: An Obscure Rust Pathogen Little-Known for More than a Century

Plant Health Progress ◽

10.1094/php-rv-13-0124 ◽

2014 ◽

Vol 15 (3) ◽

pp. 105-111

Author(s):

Robert M. Harveson

Keyword(s):

Life Cycle ◽

Sugar Beet ◽

Host Range ◽

Host Species ◽

Complex Life Cycle ◽

Narrow Host Range ◽

Rust Diseases ◽

Rust Pathogen

Sugar beet seedling rust, caused by Puccinia subnitens, is a rarely occurring but essentially harmless disease in sugar beet production. However, it has caused substantial but sporadic losses to commercial spinach growers. It has the typically complex life cycle of a macrocyclic rust pathogen, but is also unusual because it is one of the few documented heteroecious rust diseases where the early spore stages (pycnial and aecial) occur on the economic host while the normally damaging, repeating, uredial stage is found on the feral, noneconomic host. Most significantly, it was one of the first heteroecious rust diseases recognized to have the ability to infect numerous, distinct host species with the aecial stage while maintaining a relatively narrow host range for its uredial and telial stages. Accepted 6 June 2014. Published 25 July 2014.

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Maximum local helminth parasite community richness in British freshwater fish: a test of the colonization time hypothesis

Parasitology ◽

10.1017/s0031182000074862 ◽

1993 ◽

Vol 106 (1) ◽

pp. 91-100 ◽

Cited By ~ 54

Author(s):

J.-F. Guégan ◽

C. R. Kennedy

Keyword(s):

Species Richness ◽

Host Range ◽

Freshwater Fish ◽

Host Species ◽

Fish Host ◽

Helminth Species ◽

Species Number ◽

Sampling Effort ◽

Component Community ◽

Colonization Time

SUMMARYThe investigation of Price & Clancy (1983), which demonstrated a significant positive correlation between total helminth species number per host species and geographical range of freshwater fish host species in Britain, was re-examined using a different measure of parasite species richness. Re-calculation of the correlations between the two parameters after controlling for the effect of the composition of the list of fish by excluding, on biological and distributional grounds, 2 species of agnathans and 7 species of introduced teleosts, and for the effect of sampling effort by using helminth richness in the richest component community of each fish species rather than check-list data, reveals no significant relationship between helminth species richness and host range. Habitat and an omnivorous host diet now appear more significant determinants of helminth richness than the accumulation of parasites by predation. The findings provide little support for the interpretation of the relationship between helminth species richness and host range in terms of island biogeographic theory, but do support an alternative explanation in terms of the colonization time hypothesis, i.e. that helminth species richness is related to the time since the fish host arrived in Britain.

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Cross-Species Transmission of Coronaviruses in Humans and Domestic Mammals, What Are the Ecological Mechanisms Driving Transmission, Spillover, and Disease Emergence?

10.22541/au.162257830.08215430/v3 ◽

2021 ◽

Author(s):

Nicole Nova

Keyword(s):

Host Range ◽

Host Species ◽

Species Interactions ◽

Host Density ◽

Mammalian Host ◽

The Novel ◽

Disease Emergence ◽

Short Period ◽

Rapid Diversification ◽

Multiple Species

Coronaviruses cause respiratory and digestive diseases in vertebrates. The recent pandemic, caused by the novel severe acute respiratory syndrome coronavirus 2, is taking a heavy toll on society and planetary health, and illustrates the threat emerging coronaviruses can pose to the wellbeing of humans and other animals. Coronaviruses are constantly evolving, crossing host species barriers, and expanding their host range. In the last few decades, several novel coronaviruses have emerged in humans and domestic animals. Novel coronaviruses have also been discovered in captive wildlife or wild populations, raising conservation concerns. The evolution and emergence of novel viruses is enabled by frequent cross-species transmission. It is thus crucial to determine emerging coronaviruses’ potential for infecting different host species, and to identify the circumstances under which cross-species transmission occurs in order to mitigate the rate of disease emergence. Here, I review (broadly across several mammalian host species) up-to-date knowledge of host range and circumstances concerning reported cross-species transmission events of emerging coronaviruses in humans and common domestic mammals. All of these coronaviruses had similar host ranges, were closely related (indicative of rapid diversification and spread), and their emergence was likely associated with high-host-density environments facilitating multi-species interactions (e.g., shelters, farms, and markets) and the health or wellbeing of animals as end- and/or intermediate spillover hosts. Further research is needed to identify mechanisms of the cross-species transmission events that have ultimately led to a surge of emerging coronaviruses in multiple species in a relatively short period of time in a world undergoing rapid environmental change.

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