25 research outputs found
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Vetufebrus ovatus n. gen., n. sp (Haemospororida: Plasmodiidae) vectored by a streblid bat fly (Diptera: Streblidae) in Dominican amber
Background: Both sexes of bat flies in the families Nycteribiidae and Streblidae (Diptera: Hippoboscoidea) reside in the hair or on the wing membranes of bats and feed on blood. Members of the Nycteribiidae transmit bat malaria globally however extant streblids have never been implemented as vectors of bat malaria. The present study shows that during the Tertiary, streblids also were vectors of bat malaria.
Results: A new haemospororidan, Vetufebrus ovatus, n. gen., n. sp., (Haemospororida: Plasmodiidae) is described from two oocysts attached to the midgut wall and sporozoites in salivary glands and ducts of a fossil bat fly (Diptera: Streblidae) in Dominican amber. The new genus is characterized by ovoid oocysts, short, stubby sporozoites with rounded ends and its occurrence in a fossil streblid. This is the first haemosporidian reported from a streblid bat fly and shows that representatives of the Hippoboscoidea were vectoring bat malaria in the New World by the mid-Tertiary.
Conclusions: This report is the first evidence of an extant or extinct streblid bat fly transmitting malaria. Discovering a mid-tertiary malarial parasite in a fossil streblid that closely resembles members of a malarial genus found in nycteribiid bat flies today shows how little we know about the vector associations of streblids. While no malaria parasites have been found in extant streblids, they probably occur and it is possible that streblids were the earliest lineage of flies that transmitted bat malaria to Chiroptera.Keywords: Fossil bat malaria, Vetufebrus ovatus, Dominican Republic ambe
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Halophilanema prolata n. gen., n. sp. (Nematoda: Allantonematidae), a parasite of the intertidal bug, Saldula laticollis (Reuter)(Hemiptera: Saldidae) on the Oregon coast
Background: It is rare to find terrestrial nematode lineages parasitizing arthropods inhabiting the intertidal or littoral zone of the oceans. During an ecological study along the Oregon dunes, an allantonematid nematode
(Tylenchomorpha: Allantonematidae) was discovered parasitizing the intertidal shore bug, Saldula laticollis (Reuter)
(Hemiptera: Saldidae). This shore bug is adapted to an intertidal environment and can survive short periods of
submergence during high tides. The present study describes the nematode parasite and discusses aspects of its
development, ecology and evolution.
Methods: Adults and last instar nymphs of S. laticollis (Hemiptera: Saldidae) were collected from the high intertidal
zone among clumps of Juncus L. (Juncaceae) plants at Waldport, Oregon on October 3, 2011. The bugs were
dissected in 1% saline solution and the nematodes killed in 1% Ringers solution and immediately fixed in 5%
formalin (at 20°C). Third stage juveniles removed from infected hosts were maintained in 1% saline solution until
they matured to the adult stage, molted and mated.
Results: Halophilanema prolata n. gen., n. sp. (Nematoda: Allantonematidae) is described from last instar nymphs
and adults of the intertidal bug, Saldula laticollis on the Oregon coast. The new genus can be distinguished from
other genera in the Allantonematidae by a stylet lacking basal knobs in both sexes, an excretory pore located
behind the nerve ring, ribbed spicules, a gubernaculum, the absence of a bursa and the elongate-tubular shape of
the ovoviviparous parasitic females. Studies of the organogenesis of Halophilanema showed development to third
stage juveniles in the uterus of parasitic females. Maturation to the free-living adults and mating occurred in the
environment. The incidence of infection of S. laticollis ranged from 0% to 85% depending on the microhabitat in
the intertidal zone.
Conclusions: Based on the habitat and morphological characters, it is proposed that Halophilanema adapted a
parasitic existence fairly recently, evolutionarily speaking. It was probably a free-living intertidal or shore nematode
that fed on microorganisms, especially fungi, in the intertidal habitat and became parasitic after saldids entered the
environment. Halophilanema represents the first described nematode parasite of an intertidal insect.KEYWORDS: Halophilanema prolata n. gen., n. sp., intertidal parasite, Saldidae, Allantonematida
Halophilanema prolata n. gen., n. sp. (Nematoda: Allantonematidae), a parasite of the intertidal bug, Saldula laticollis (Reuter)(Hemiptera: Saldidae) on the Oregon coast
This is the publisher’s final pdf. The published article is copyrighted by BioMed Central and can be found at: http://www.biomedcentral.com/.Background: It is rare to find terrestrial nematode lineages parasitizing arthropods inhabiting the intertidal or\ud
littoral zone of the oceans. During an ecological study along the Oregon dunes, an allantonematid nematode\ud
(Tylenchomorpha: Allantonematidae) was discovered parasitizing the intertidal shore bug, Saldula laticollis (Reuter)\ud
(Hemiptera: Saldidae). This shore bug is adapted to an intertidal environment and can survive short periods of\ud
submergence during high tides. The present study describes the nematode parasite and discusses aspects of its\ud
development, ecology and evolution.\ud
Methods: Adults and last instar nymphs of S. laticollis (Hemiptera: Saldidae) were collected from the high intertidal\ud
zone among clumps of Juncus L. (Juncaceae) plants at Waldport, Oregon on October 3, 2011. The bugs were\ud
dissected in 1% saline solution and the nematodes killed in 1% Ringers solution and immediately fixed in 5%\ud
formalin (at 20°C). Third stage juveniles removed from infected hosts were maintained in 1% saline solution until\ud
they matured to the adult stage, molted and mated.\ud
Results: Halophilanema prolata n. gen., n. sp. (Nematoda: Allantonematidae) is described from last instar nymphs\ud
and adults of the intertidal bug, Saldula laticollis on the Oregon coast. The new genus can be distinguished from\ud
other genera in the Allantonematidae by a stylet lacking basal knobs in both sexes, an excretory pore located\ud
behind the nerve ring, ribbed spicules, a gubernaculum, the absence of a bursa and the elongate-tubular shape of\ud
the ovoviviparous parasitic females. Studies of the organogenesis of Halophilanema showed development to third\ud
stage juveniles in the uterus of parasitic females. Maturation to the free-living adults and mating occurred in the\ud
environment. The incidence of infection of S. laticollis ranged from 0% to 85% depending on the microhabitat in\ud
the intertidal zone.\ud
Conclusions: Based on the habitat and morphological characters, it is proposed that Halophilanema adapted a\ud
parasitic existence fairly recently, evolutionarily speaking. It was probably a free-living intertidal or shore nematode\ud
that fed on microorganisms, especially fungi, in the intertidal habitat and became parasitic after saldids entered the\ud
environment. Halophilanema represents the first described nematode parasite of an intertidal insect
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History of Entomopathogenic Nematology
The history of entomopathogenic nematology is briefly reviewed. Topic selections include early descriptions of members
of Steinernema and Heterorhabditis, how only morphology was originally used to distinguish between the species; descriptions of the
symbiotic bacteria and elucidating their role in the nematode- insect complex, including antibiotic properties, phase variants, and
impeding host defense responses. Other topics include early solutions regarding production, storage, field applications and the first
commercial sales of entomopathogenic nematodes in North America. Later studies centered on how the nematodes locate insect
hosts, their effects on non-target organisms and susceptibility of the infective juveniles to soil microbes. While the goals of early
workers was to increase the efficacy of entomopathogenic nematodes for pest control, the increasing use of Heterorhabditis and
Photorhabdus as genetic models in molecular biology is noted.Keywords: Heterorhabditis spp., Entomopathogenic nematodes, Steinernema spp., Histor
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A mid-Cretaceous ambrosia fungus, Paleoambrosia entomophila gen. nov. et sp. nov. (Ascomycota: Ophiostomatales) in Burmese (Myanmar) amber, and evidence for a femoral mycangium
An ambrosia fungus is described from filamentous sporodochia adjacent to a wood-boring ambrosia beetle (Coleoptera: Curculionidae: Platypodinae) in mid-Cretaceous Burmese amber. Yeast-like propagules and hyphal fragments of Paleoambrosia entomophila gen. nov. et sp. nov. occur in glandular sac mycangia located inside the femur of the beetle. This is the first record of a fossil ambrosia fungus, showing that symbiotic associations between wood-boring insects and ectosymbiotic fungi date back some 100 million years ago. The present finding moves the origin of fungus-growing by insects from the Oligocene to the mid-Cretaceous and suggests a Gondwanan origin. Published by Elsevier Ltd on behalf of British Mycological Society
Vetufebrus ovatus n. gen., n. sp. (Haemospororida: Plasmodiidae) vectored by a streblid bat fly (Diptera: Streblidae) in Dominican amber
This is the publisher’s final pdf. The published article is copyrighted by BioMed Central Ltd. and can be found at: http://www.parasitesandvectors.com/.Background: Both sexes of bat flies in the families Nycteribiidae and Streblidae (Diptera: Hippoboscoidea) reside in\ud
the hair or on the wing membranes of bats and feed on blood. Members of the Nycteribiidae transmit bat malaria\ud
globally however extant streblids have never been implemented as vectors of bat malaria. The present study\ud
shows that during the Tertiary, streblids also were vectors of bat malaria.\ud
Results: A new haemospororidan, Vetufebrus ovatus, n. gen., n. sp., (Haemospororida: Plasmodiidae) is described\ud
from two oocysts attached to the midgut wall and sporozoites in salivary glands and ducts of a fossil bat fly\ud
(Diptera: Streblidae) in Dominican amber. The new genus is characterized by ovoid oocysts, short, stubby\ud
sporozoites with rounded ends and its occurrence in a fossil streblid. This is the first haemosporidian reported from\ud
a streblid bat fly and shows that representatives of the Hippoboscoidea were vectoring bat malaria in the New\ud
World by the mid-Tertiary.\ud
Conclusions: This report is the first evidence of an extant or extinct streblid bat fly transmitting malaria.\ud
Discovering a mid-tertiary malarial parasite in a fossil streblid that closely resembles members of a malarial genus\ud
found in nycteribiid bat flies today shows how little we know about the vector associations of streblids. While no\ud
malaria parasites have been found in extant streblids, they probably occur and it is possible that streblids were the\ud
earliest lineage of flies that transmitted bat malaria to Chiroptera
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A case of mistaken identification of an amber fossil male strepsipteran (Insecta: Strepsiptera)
A well preserved specimen of amber Strepsiptera was erroneously described as Stylops neotropicallis Kogan and Poinar, 2010. The taxonomic position of the species was based on a count of 6 antennomeres (typical of the Stylopidae), however, further observations showed that there are actually 7 antennomeres, which places the fossil in the family Myrmecolacidae, and it is herein re-described in the genus Palaeomyrmecolax Kulicka, 2001. Furthermore, nuclear magnetic resonance spectroscopy analysis of a sample of the amber piece containing the fossil revealed that it was Baltic rather than Dominican amber as originally thought. The fossil was compared to another specimen from Baltic amber in the Poinar collection, which shows close affinity to P. succineus Kulicka, 2001, the type species of the genus. P. neotropicallis (n.comb.) differs from that specimen and seems to differ also from the other 4 species in the genus Palaeomyrmecolax.Keywords: Palaeomyrmecolax succineus, Palaeomyrmecolax, Baltic amber, Stylops neotropicalis, Myrmecolacida
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First record of the genus Pseudopilolabus Legalov, 2003 (Coleoptera: Attelabidae) in Dominican amber
A new weevil species (urn:lsid:zoobank.org: act:2D5E9E4A-A250-4D0A-AF69-CF4753436686), Pseudopilolabus othnius Poinar, Brown and Legalov, sp. nov. (Coleoptera: Attelabidae), is described from Dominican amber. The new species is close to the extant P. viridanus (Gyllenhal, 1839) and P. splendens (Gyllenhal, 1839) but differs by having a bronzed body, narrower and more convex elytral intervals, long antennae reaching the middle of the pronotum, and weakly convex eyes; from P. rugiceps (Voss, 1925) it differs by having a smoother pronotum without transverse rugosity; from P. chiriquensis (Hamilton, 1994) it differs by having indistinctly protuberant humeri and the elytra nearly parallel from the humeri to the midpoint. The fossil weevil is the first record of the tribe Pilolabini (Attelabidae) from the West Indies and the first record of the Attelabidae from any amber source
Description of an early Cretaceous termite (Isoptera: Kalotermitidae) and its associated intestinal protozoa, with comments on their co-evolution
Upper Eocene robber flies of the genus \u3ci\u3eOmmatius\u3c/i\u3e (Diptera: Asilidae) in Dominican Amber
Ommatius fimbriatus and O. subtus are based upon four specimens embedded in Dominican amber from the El Mamey Formation in the Dominican Republic. The amber is from the Lower Oligocene - Upper Eocene, originating between 25 and 40 million years ago. The specimens are the first reported fossils of Ommatius. Both species are described and compared with modern species. Significant characters are illustrated and/or photographed