2,124 results on '"Blattodea"'
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2. Classifying Cockroaches According to Forewings: Pitfalls and Implications for Fossil Systematics
- Author
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Xin-Ran Li
- Subjects
biostratigraphy ,Blattaria ,Blattodea ,Dictyoptera ,fossil ,Holopandictyoptera ,Biology (General) ,QH301-705.5 - Abstract
A reliable character system is crucial to taxonomy and systematics, and it promises valid downstream inferences, e.g., estimates of diversity and disparity, reconstruction of evolutionary history, and even stratigraphic correlations. Modern taxonomy and systematics of extant cockroaches requires an integrative study involving multiple lines of evidence with emphasis on genital and reproductive characteristics and molecular data. In contrast, many fossil cockroach taxa published recently are based solely on forewings. Many studies have shown that forewing-based taxa are questionable. In order to find out how much of the phylogenetic signal we could ascertain from venational similarity, and how confident we could be, this study used forewing characters to reconstruct phylogenies of the genera of well-recognized family-group taxa. The intuitively reconstructed phylogeny of 75 extant genera failed to recover those taxa or their relationships. Parsimony analyses of various datasets all yielded strong polyphyly and chaotic relationships. In conclusion, the forewing of cockroaches is not a universally competent character system. The underlying causes are the complicated nature of veins and the limitations of current analytical techniques. The uncertainty in forewing-based taxonomy and systematics has been underestimated in the literature. Forewing-based fossil taxa warrant re-evaluation; some of them are herein deemed nomina dubia in their current state.
- Published
- 2024
- Full Text
- View/download PDF
3. Classifying Cockroaches According to Forewings: Pitfalls and Implications for Fossil Systematics.
- Author
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Li, Xin-Ran
- Subjects
- *
STRATIGRAPHIC correlation , *DICTYOPTERA , *COCKROACHES , *BIOSTRATIGRAPHY , *FOSSILS - Abstract
A reliable character system is crucial to taxonomy and systematics, and it promises valid downstream inferences, e.g., estimates of diversity and disparity, reconstruction of evolutionary history, and even stratigraphic correlations. Modern taxonomy and systematics of extant cockroaches requires an integrative study involving multiple lines of evidence with emphasis on genital and reproductive characteristics and molecular data. In contrast, many fossil cockroach taxa published recently are based solely on forewings. Many studies have shown that forewing-based taxa are questionable. In order to find out how much of the phylogenetic signal we could ascertain from venational similarity, and how confident we could be, this study used forewing characters to reconstruct phylogenies of the genera of well-recognized family-group taxa. The intuitively reconstructed phylogeny of 75 extant genera failed to recover those taxa or their relationships. Parsimony analyses of various datasets all yielded strong polyphyly and chaotic relationships. In conclusion, the forewing of cockroaches is not a universally competent character system. The underlying causes are the complicated nature of veins and the limitations of current analytical techniques. The uncertainty in forewing-based taxonomy and systematics has been underestimated in the literature. Forewing-based fossil taxa warrant re-evaluation; some of them are herein deemed nomina dubia in their current state. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
4. A new cockroach (Blattodea, Rhipidoblattinidae) from the Toarcian (Lower Jurassic) of Alderton Hill, Gloucestershire, UK, and the earliest likely occurrence of aposematic colouration in cockroaches.
- Author
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Swaby, Emily J., Coe, Angela L., and Ross, Andrew J.
- Subjects
GLOBAL environmental change ,MARINE ecology ,APOSEMATISM ,PALEOECOLOGY ,VEINS - Abstract
We describe the seventh valid species of cockroach, Alderblattina simmsi gen. et sp. nov., from insect‐rich strata recording the Toarcian Oceanic Anoxic Event (T‐OAE). The T‐OAE represents a period of extreme global warming and environmental change that drove palaeoecological pressures and evolutionary changes in marine and terrestrial ecosystems. Here, for the first time, we present evidence that this event may also be the driver for the evolution of aposematic colouration, a predator deterrent, in cockroaches. The specimen, an isolated compressed tegmen, was collected at Alderton Hill, Gloucestershire, UK, and is assigned to a new genus and species, based on the following unique combination of characteristics: small forewing; 15 branches of R and 11 branches of M + CuA; strong cross‐vein between R and M; intercalaries; and two well‐defined subspherical maculae (spots) and colouration at the wing tip. Alderblattina simmsi is assigned to the family Rhipidoblattinidae Rohdendorf, primarily based on its small size and the presence of branched anal veins in the clavus. The colouration present on A. simmsi represents the first recorded likely occurrence of aposematism in cockroaches, and provides evidence for the evolution of colour patterning in Blattodea. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Ants (Hymenoptera: Formicidae) and termites (Blattodea: Termitoidae) in the diet of wild white‐bellied pangolin (Phataginus tricuspis) in forest‐savanna habitats of Cameroon.
- Author
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Difouo, Ghislain F., Simo, Franklin T., Kekeunou, Sévilor, Fokou, Oscar R., Ndoh, Lyiong Giscard, and Olson, David
- Abstract
The white‐bellied pangolin Phataginus tricuspis (Rafinesque 1821) is a semiarboreal species occurring in tropical sub‐Saharan Africa. It is the world's most trafficked African pangolin species based on volumes recorded in seizures. Reintroduction of confiscated live pangolins and ex‐situ rearing are being explored worldwide as a conservation action. However, the husbandry of seized animals is challenging as the diet of the white‐bellied pangolin is poorly known and little studied. We analyzed the stomach contents of dead white‐bellied pangolins from two forest‐savanna protected areas. Stomach content samples from 13 white‐bellied pangolin specimens contained ~165,000 Arthropoda, mostly Hymenoptera (60.34%) and Blattodea (39.66%). Overall, we identified 39 termite and 105 ant species consumed as prey by pangolins. Individual pangolins examined had fed on a maximum of 31 ant species and 13 termite species. The termite and ant species richness varied significantly across the pangolins' last consumed meal. We recorded 24 ant genera dominated by Crematogaster (relative importance [RI] = 17.28). Out of 18 termite genera recorded, the genus Pseudacanthotermes (RI = 17.21) was the most important prey. Ten ant species were preferentially eaten by white‐bellied pangolin, with Crematogaster acis being the most common prey species. Four species of termite were most frequently eaten with Pseudacanthotermes militaris being the most abundant. The mean abundance of ants and termites varied among pangolin individuals. The season did not influence the mean abundance of termites eaten by pangolin individuals. However, ant abundance in stomach contents was significantly higher in the dry season. An improved understanding of pangolin feeding behavior and prey selection may help inform conservation husbandry efforts. For example, nutritional analysis of the food eaten by wild pangolins can guide the development of nutritional diets for captive pangolins. Highligths: Reintroduction of confiscated live pangolins is being explored as a conservation action; however, husbandry of seized animals is challenging as the diet of pangolins is poorly known and little studied.We analyzed stomach contents of 13 dead white‐bellied pangolins from two forest‐savanna protected areas aiming to inform pangolin husbandry practices.Overall ~165,000 Arthropoda, mostly Hymenoptera (60.34%) and Blattodea (39.65%) were recorded including 39 termite and 105 ant species identified.The season significantly affects mean abundance of termite species eaten by pangolin individuals; likewise, ant abundance in stomach contents was significantly higher in the dry season. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
6. Amitermes rhizophagus Belyaeva, 1974 – a new genus and species of termites (Blattodea: Termitidae) in the fauna of Uzbekistan
- Author
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Kakhramon D. Rustamov, Gulnara S. Mirzaeva, Bakhtiyor R. Kholmatov, Vakhidjon N. Akhmedov, Natalya I. Lebedeva, Zumrad A. Ganieva, and Mukhabbat Kh. Khashimova
- Subjects
fauna ,blattodea ,new species ,amitermes rhizophagus ,uzbekistan ,Biology (General) ,QH301-705.5 - Abstract
Turkmenistan is considered to be the habitat of termites of the genus Amitermes Silvestri, 1901 in the CIS countries. In Uzbekistan, as it turned out, they are very rare and were found for the first time for the fauna of the republic in 2024 in the south of the republic. A single species Amitermes rhizophagus Belyaeva, 1974 is registered within the genus Amitermes. Morphological features of nymphs, soldiers and workers with corresponding illustrations are described. A map of the place where the species was found is presented.
- Published
- 2024
- Full Text
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7. Pervasive relaxed selection in termite genomes.
- Author
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Ewart, Kyle M., Ho, Simon Y. W., Chowdhury, Al-Aabid, Jaya, Frederick R., Kinjo, Yukihiro, Bennett, Juno, Bourguignon, Thomas, Rose, Harley A., and Lo, Nathan
- Subjects
- *
GENETIC load , *EUSOCIALITY , *POST-translational modification , *TERMITES , *COCKROACHES - Abstract
Genetic changes that enabled the evolution of eusociality have long captivated biologists. More recently, attention has focussed on the consequences of eusociality on genome evolution. Studies have reported higher molecular evolutionary rates in eusocial hymenopteran insects compared with their solitary relatives. To investigate the genomic consequences of eusociality in termites, we analysed nine genomes, including newly sequenced genomes from three non-eusocial cockroaches. Using a phylogenomic approach, we found that termite genomes have experienced lower rates of synonymous substitutions than those of cockroaches, possibly as a result of longer generation times. We identified higher rates of non-synonymous substitutions in termite genomes than in cockroach genomes, and identified pervasive relaxed selection in the former (24–31% of the genes analysed) compared with the latter (2–4%). We infer that this is due to reductions in effective population size, rather than gene-specific effects (e.g. indirect selection of caste-biased genes). We found no obvious signature of increased genetic load in termites, and postulate efficient purging of deleterious alleles at the colony level. Additionally, we identified genomic adaptations that may underpin caste differentiation, such as genes involved in post-translational modifications. Our results provide insights into the evolution of termites and the genomic consequences of eusociality more broadly. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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- View/download PDF
8. Variation in the contribution of macroinvertebrates to wood decomposition as it progresses.
- Author
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Taylor, Melanie K., Ulyshen, Michael D., Horn, Scott, Poole, Emilee M., and Callaham, Mac A.
- Subjects
WOOD ,INVERTEBRATES ,WOOD decay ,TERMITES - Abstract
Although necromass decay rates are limited by the slowest portions to decompose, most decomposition studies examine only the earliest stage of decay. As such, these studies run the risk of yielding misleading results regarding the relative contributions of different decomposers. For example, the contributions of macroinvertebrates to wood decomposition remain mostly unknown beyond the first 50% of mass lost, despite drastic changes in substrate conditions over time. We sought to clarify how the macroinvertebrate contribution to decay changes over the course of wood decomposition in the Southeastern United States—a region with a long history of wood decomposition research. To this end, we (1) compiled data from published studies comparing wood decay with and without macroinvertebrates; and (2) conducted a field study assessing wood mass loss, with and without macroinvertebrate access, at three sites across the region over four years. With these combined data, we analyzed macroinvertebrate contribution as decay progressed, revealing a quadratic relationship, wherein macroinvertebrate contribution increased early in decomposition and then began to decline as decay progressed. Strong local site effects, particularly the abundance and activity of termites, determine the time required for wood to reach this point of mass loss. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
9. Effects of biphenyl on Blaberus craniifer (Blattodea, Blaberidae) cockroaches and their parasites – gregarines and nematodes
- Author
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O. V. Parhomenko and V. V. Brygadyrenko
- Subjects
blattodea ,thelastomatidae ,eugregarinorida ,food supplements ,gregarines ,xenobiotics ,biphenyl ,parasitic system ,insect parasites. ,Science - Abstract
In natural ecosystems, parasites and their hosts are subject to xenobiotics, which overall weaken either a host or its parasites. There has been no laboratory study of this process on the example of cockroaches and their parasites. In accurately controlled conditions, we examined the influence of a food supplement – biphenyl – on cockroaches and their three parasites. In the conditions of our experiment, Blaberus cranifer (Blattodea, Blaberidae) cockroaches significantly reduced the rates of anabolism even while consuming the lowest biphenyl concentration in their diet. While the control group was observed to have a 59.4 mg/day increase in body mass, the mass of the cockroaches given biphenyl in the dose of 0.5% of diet mass decreased by 3.4 mg/day on average. Subject to high dosages of biphenyl (0.5–16.0% of fodder mass), body mass of the cockroaches decreased on average by 1.1–9.4 mg/day. The insects consumed their diet at the same rate, no matter the biphenyl concentration given. The number of gregarines Blabericola cubensis (Eugregarinorida, Blabericolidae) and Protomagalhaensia granulosae did not change even at the highest concentration (16.0% of fodder mass) added to the B. craniifer cockroaches’ diet. We observed no significant changes in the amount of larvae of the Cranifera cranifera (Oxyurida, Thelastomatidae) nematodes, while the adult nematodes tended to decline in number when subject to increased concentration of the food supplement in the cockroaches’ food. The number of P. granulosae gregarines did not significantly increase with body-mass gains of their hosts – cockroaches, that is despite increase in volume of their living environment (the midgut of cockroaches) and extension of the period during which the cockroaches consumed gregarine oocysts from the environment with food. Similarly, the number of B. cubensis gregarines also did not significantly change with increased food consumption by the cockroaches. However, we observed a tendency towards greater numbers of this gregarine in the cockroach larvae that were losing mass during the experiment. The greatest mass loss during the experiment was observed in the cockroaches that consumed biphenyl in the diet and had the largest number of C. cranifera nematodes in the hindgut. We observed no significant negative correlation between the numbers of B. cubensis and P. granulosae gregarines. A cockroach that was found to have 70 specimens of B. cubensis in the midgut, had no P. granulosae gregarines. In contrast, when the intestines of a cockroach contained over 10–15 specimens of P. granulosae, some B. cubensis were always present. The number of C. cranifera nematodes in the cockroaches’ hindgut did not depend on the number of B. cubensis or P. granulosae gregarines in their hosts’ midgut. Perhaps, this was related to absence of competition for the intestinal section among them. The regularities we found are different from what we expected to see in the parasitic system prior to the experiment. Gregarines did not compete with nematodes. Neither of them died from biphenyl, though the cockroaches ceased to normally gain weigh when eating biphenyl. That is, the host suffered from biphenyl more than the parasites, even when consuming the lowest concentration of the xenobiotic we tested.
- Published
- 2023
- Full Text
- View/download PDF
10. Body-weight gains in Blaberus craniifer cockroaches and the intensity of their infection with gregarines and nematodes
- Author
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O. V. Parhomenko, O. T. Lagutenko, N. V. Lebedynets, and V. V. Brygadyrenko
- Subjects
blattodea ,thelastomatidae ,eugregarinorida ,parasitic nematodes ,gregarines of insects ,body-weight gain ,effects of parasite on its host. ,Science - Abstract
Intestinal parasites are considered to be able to hinder growth of the host animals, reducing the extent of food metabolism, damaging the intestines’ integrity by filling it with products of their metabolism. However, a long co-evolution can mitigate the negative impact of a parasite on the host organism. To study how parasites – nematodes Cranifera cranifera (Chitwood, 1932) Kloss, 1960 (Oxyurida, Thelastomatidae) and gregarines Protomagalhaensia granulosae Peregrine, 1970 and Blabericola cubensis (Peregrine, 1970) Clopton, 2009 (Eugregarinorida, Blabericolidae) – afffect the growth rates of cockroaches, we performed an experiment on 200 larvae of Blaberus craniifer Burmeister, 1838 (Blattodea, Blaberidae), varying in weight and age. We monitored changes in their body weight, intensity of food consumption, and after the experiment we counted gregarines in the midgut and nematodes in the hindgut. As a result, we found that 100% of the cockroaches were infected with two species of gregarines and one species of nematodes. The intestines of small cockroach larvae (weighing 300–400 mg) contained 16–18 specimens of gregarines on average. Large larvae had a weak tendency towards increase in the intensity of gregarine infestation. Similarly, there occurred changes in the intensity of nematode invasion: young larvae were infected on average by 8–10 specimens of nematodes and large larvae had an average of 12–14 nematodes. At the level of tendency, nematodes were observed to enhance the cockroaches’ growth rates following increase in intensity of the parasitic infection. We found that the two groups of parasites had no effect on one another: the number of gregarines had no effect on the number of specimens of nematodes and vice-versa, the number of nematodes had no effect on the number of gregarine specimens. Perhaps, this is related to different localizations of the parasites: gregarines for most of their life feed in the small intestine, while nematodes feed in the large intestine. Therefore, growth rates of the cockroaches in our experiment have not changed due to the parasites. This indicates minimization of negative effects of gregarines in the midgut and nematodes in the hindgut on the host’s life cycle, developed over long co-evolution.
- Published
- 2023
- Full Text
- View/download PDF
11. Variation in the contribution of macroinvertebrates to wood decomposition as it progresses
- Author
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Melanie K. Taylor, Michael D. Ulyshen, Scott Horn, Emilee M. Poole, and Mac A. Callaham Jr.
- Subjects
Blattodea ,carbon cycling ,carbon storage ,ecosystem service ,insects ,saproxylic ,Ecology ,QH540-549.5 - Abstract
Abstract Although necromass decay rates are limited by the slowest portions to decompose, most decomposition studies examine only the earliest stage of decay. As such, these studies run the risk of yielding misleading results regarding the relative contributions of different decomposers. For example, the contributions of macroinvertebrates to wood decomposition remain mostly unknown beyond the first 50% of mass lost, despite drastic changes in substrate conditions over time. We sought to clarify how the macroinvertebrate contribution to decay changes over the course of wood decomposition in the Southeastern United States—a region with a long history of wood decomposition research. To this end, we (1) compiled data from published studies comparing wood decay with and without macroinvertebrates; and (2) conducted a field study assessing wood mass loss, with and without macroinvertebrate access, at three sites across the region over four years. With these combined data, we analyzed macroinvertebrate contribution as decay progressed, revealing a quadratic relationship, wherein macroinvertebrate contribution increased early in decomposition and then began to decline as decay progressed. Strong local site effects, particularly the abundance and activity of termites, determine the time required for wood to reach this point of mass loss.
- Published
- 2024
- Full Text
- View/download PDF
12. A new species of termite, Prorhinotermes cotym (Blattodea: Isoptera: Rhinotermitidae: Prorhinotermitinae), from the Kerala part of the western ghats, India.
- Author
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Joseph, Edwin, Amina, Poovoli, Thomas B S, Sarath, Jayan, Namitha, and Mathew, Jobin
- Subjects
- *
CYTOCHROME oxidase , *SPECIES distribution , *SPECIES , *CASTE - Abstract
Genus Prorhinotermes Silvestri (Isoptera: Rhinotermitidae) is very rare in India, known by single species Prorhinotermes flavus. After three decades, a new species Prorhinotermes cotym Joseph, Amina and Mathew sp.nov, is described from the Kerala part of the Western Ghats, India. The genus Prorhinotermes is documented for the first time from Kerala. Morphological measurements of the soldiers and workers are given with suitable illustrations. Cytochrome oxidase II gene subunit was sequenced based on which phylogenetic analysis was carried out. A revised key to the species of Prorhinotermes (based on soldier caste) found in India with the species distribution map is provided. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
13. INTERSEXUAL DIFFERENCES IN BODY TRAITS IN SELECTED COCKROACH SPECIES.
- Author
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Kaźmierczak, Sandra, Pojasek, Aleksander, and Górecki, Marcin Tadeusz
- Subjects
COCKROACHES ,SEXUAL dimorphism ,INSECT size ,BLABERUS ,INSECT diversity - Abstract
In cockroaches sexual dimorphism in body size is common and all patterns are exhibited, however female size bias predominates. The aim of present study was to evaluate intersexual differences in body dimensions and weight in 12 cockroach species: Blaberus craniifer Burmeister, Blaberus discoidalis Serville, Blaberus boliviensis Princis, Eublaberus posticus (Erichson), Eublaberus distanti (Kirby), Archimandrita tessellata Rehn, Blaptica dubia (Serville), Panchlora nivea (L.), Nauphoeta cinerea (Olivier), Phoetalia pallida (Brunner von Wattenwyl), Shelfordella lateralis (Walker) and Periplaneta americana (L.). Fifty male and 50 female adults of each species were weighted and their body length, length and width of pronotum and lengths of antennae and tegmina were measured. In all species female-biased sexual size dimorphism was present: females were significantly heavier and their pronota were longer and wider. Also females body length had higher values in 10 out 12 species. In other two species intersexual differences in body length appeared to be insignificant. On the other hand, male antennae were significantly longer in majority of studied species, with exception of P. nivea, P. pallida and N. cinerea. Thus, in majority of studied species, males had longer antennae in spite of their smaller sizes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
14. Assessing the Australian Termite Diversity Anomaly: How Habitat and Rainfall Affect Termite Assemblages
- Author
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Clement, RA, Flores-Moreno, H, Cernusak, LA, Cheesman, AW, Yatsko, AR, Allison, SD, Eggleton, P, and Zanne, AE
- Subjects
Isoptera ,community assembly ,ecosystem engineers ,Blattodea ,termite community assembly ,carbon cycle ,Australian tropical forest ,savanna ,Ecology ,Evolutionary Biology - Abstract
Termites are important ecosystem engineers in tropical habitats, with different feeding groups able to decompose wood, grass, litter, and soil organic matter. In most tropical regions, termite abundance and species diversity are assumed to increase with rainfall, with highest levels found in rainforests. However, in the Australian tropics, this pattern is thought to be reversed, with lower species richness and termite abundance found in rainforest than drier habitats. The potential mechanisms underlying this pattern remain unclear. We compared termite assemblages (abundance, activity, diversity, and feeding group composition) across five sites along a precipitation gradient (ranging from ∼800 to 4,000 mm annual rainfall), spanning dry and wet savanna habitats, wet sclerophyll, and lowland and upland rainforests in tropical North Queensland. Moving from dry to wet habitats, we observed dramatic decreases in termite abundance in both mounds and dead wood occupancy, with greater abundance and activity at savanna sites (low precipitation) compared with rainforest or sclerophyll sites (high precipitation). We also observed a turnover in termite species and feeding group diversity across sites that were close together, but in different habitats. Termite species and feeding group richness were highest in savanna sites, with 13 termite species from wood-, litter-, grass-, dung-, and soil-feeding groups, while only five termite species were encountered in rainforest and wet sclerophyll sites—all wood feeders. These results suggest that the Australian termite diversity anomaly may be partly driven by how specific feeding groups colonized habitats across Australia. Consequently, termites in Australian rainforests may be less important in ecosystem processes, such as carbon and nutrient cycling during decomposition, compared with termites in other tropical rainforests.
- Published
- 2021
15. Assessing the Australian Termite Diversity Anomaly: How Habitat and Rainfall Affect Termite Assemblages
- Author
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Clement, Rebecca A, Flores-Moreno, Habacuc, Cernusak, Lucas A, Cheesman, Alexander W, Yatsko, Abbey R, Allison, Steven D, Eggleton, Paul, and Zanne, Amy E
- Subjects
Climate Change Impacts and Adaptation ,Biological Sciences ,Ecology ,Environmental Sciences ,Life Below Water ,Isoptera ,community assembly ,ecosystem engineers ,Blattodea ,termite community assembly ,carbon cycle ,Australian tropical forest ,savanna ,Evolutionary Biology ,Evolutionary biology ,Ecological applications - Abstract
Termites are important ecosystem engineers in tropical habitats, with different feeding groups able to decompose wood, grass, litter, and soil organic matter. In most tropical regions, termite abundance and species diversity are assumed to increase with rainfall, with highest levels found in rainforests. However, in the Australian tropics, this pattern is thought to be reversed, with lower species richness and termite abundance found in rainforest than drier habitats. The potential mechanisms underlying this pattern remain unclear. We compared termite assemblages (abundance, activity, diversity, and feeding group composition) across five sites along a precipitation gradient (ranging from ∼800 to 4,000 mm annual rainfall), spanning dry and wet savanna habitats, wet sclerophyll, and lowland and upland rainforests in tropical North Queensland. Moving from dry to wet habitats, we observed dramatic decreases in termite abundance in both mounds and dead wood occupancy, with greater abundance and activity at savanna sites (low precipitation) compared with rainforest or sclerophyll sites (high precipitation). We also observed a turnover in termite species and feeding group diversity across sites that were close together, but in different habitats. Termite species and feeding group richness were highest in savanna sites, with 13 termite species from wood-, litter-, grass-, dung-, and soil-feeding groups, while only five termite species were encountered in rainforest and wet sclerophyll sites—all wood feeders. These results suggest that the Australian termite diversity anomaly may be partly driven by how specific feeding groups colonized habitats across Australia. Consequently, termites in Australian rainforests may be less important in ecosystem processes, such as carbon and nutrient cycling during decomposition, compared with termites in other tropical rainforests.
- Published
- 2021
16. Distributional range extension of Nyctibora tetrasticta Hebard, 1922 (Blattodea: Ectobiidae: Nyctiborinae) in Mexico.
- Author
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Hopkins, Heidi, Van Devender, Thomas R., Palting, John D., and Hromádka, Jiří
- Subjects
- *
ALTITUDES , *HABITATS , *COCKROACHES , *SPECIES - Abstract
The Blattodea species Nyctibora tetrasticta Hebard, 1922 was previously known only from Sinaloa, Mexico at low elevations in tropical vegetation. It is here documented considerably further north in Sonora, Mexico, at much higher elevations and in a variety of habitats. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
17. Diversity and Biology of Terrestrial Orthopteroids (Insecta) in the Republic of Mordovia (Russia).
- Author
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Aleksanov, Victor V., Karmazina, Inessa O., Ruchin, Alexander B., Esin, Mikhail N., Lukiyanov, Sergei V., Lobachev, Evgeniy A., Artaev, Oleg N., and Ryzhov, Maxim K.
- Subjects
- *
BIODIVERSITY , *INSECTS , *NUMBERS of species , *PITFALL traps , *EARWIGS - Abstract
Orthopteroidea is an ecologically diverse group of incompletely transformed insects that includes several insect orders similar in development and structure. Many species from Dermaptera, Orthoptera, Mantodea, and Blattodea are sensitive to anthropogenic influences and are indicators of the external environment. Some species cause damage to agriculture and forestry; others are inhabitants of human dwellings and pests of food supplies. The aim of this study is to describe fauna of some orders of Orthopteroidea in the Republic of Mordovia, in the central part of European Russia. This study was conducted in April–October 1971, 1984, 1995, 1996, 1998, 2000, 2001, and 2004–2023. All possible habitats were studied using a variety of methods (entomological traps, pitfall traps, pan traps, etc.). An acoustic method of species identification was also used. For each observation, the coordinates of location, abundance, and dates were recorded. The dataset contains 4865 occurrences. In total, 16,644 specimens of Orthopteroidea were studied. The dataset contains 71 species including Dermaptera (4), Orthoptera (62), Mantodea (1), and Blattodea (4). Of these, 13 species are identified for the first time in the region; these mainly inhabit steppe areas. The presence of two Orthoptera species has not been confirmed yet during our studies; these species are noted in this paper according an old published paper. The biodiversity of Mordovia includes 73 species from four orders. The biology of numerous species, their seasonal dynamics, and some descriptions of biotopes and number of new species are described. Dataset: https://doi.org/10.15468/cmr3yy. Dataset License: Creative Commons Attribution (CC-BY) 4.0 License [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
18. Reproductive biology and embryonic development oi Noeticola sp. (Blattodea: Nocticolidae)
- Author
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Fujita, M, Lee, CY, and Machida, R
- Subjects
Blattodea ,Nocticolidae ,reproductive biology ,mating behavior ,ootheca ,egg ,embryonic development ,Evolutionary Biology ,Zoology - Abstract
. Reproductive biology, including the mating behavior, ootheca rotation and deposition, and the embryonic development of a nocticolid cockroach Nocticola sp. were examined and described, and the phylogenetic issues regarding Nocticolidae and Blattodea were discussed. The abdominal terga II to IV are specialized in males, relating to the tergal glands, although they are less specialized in macropterous males. The (brachypterous) males display a wing-flapping behavior around the female before mating. The female delivers the ootheca with its keel upward, and several hours later, rotates it clockwise by 90° viewed from the female's side, into a horizontal position. After carrying the ootheca for a few days holding it by its flange, the female deposits it on the ground. The ootheca is pear-shaped, and contains only four eggs. About a dozen micropyles are localized on the posterior region of the ventral side of the egg. The aggregation of symbiotic bacteria ("mycetome") is not detected in the eggs. The embryo undergoes the blastokinesis of the "non-reversion type," maintaining the original orientation in the egg. Similar to the recent combined and phylogenomic analyses, the information on the reproductive biology obtained in the present study, including the manner of handling of ootheca, mode of mating behavior, egg structure, and type of blastokinesis, may suggest close affinity between Nocticolidae and Corydiidae, thus the monophyletic Corydioidea.
- Published
- 2020
19. A new Eocene cockroach species from the Green River Formation of Colorado, U.S.A.
- Author
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Barna, Peter, Zelagin, David, and Šmídová, Lucia
- Subjects
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EOCENE Epoch , *COCKROACHES , *AMERICAN cockroach , *SPECIES , *CENOZOIC Era - Abstract
New species ?Periplaneta smithiae sp. n. is recorded from the Eocene Green River Formation. The new species possibly widens the Cenozoic range of this genus to the Americas. In the case this categorization is not precise and the new species represents the closest relative to the genus, it is apparent that the same genus is known from the Eocene Messel Lägerstatte (?P. eocaenica Meunier, 1921 and ?P. relicta Meunier, 1921). Periplaneta Burmeister, 1838 (Blattodea: Blattidae) is one of the most widely distributed living synanthropic cockroach genera. In any case, autapomorphies of Periplaneta are the characteristic shape of the only partially sclerotized forewing and its venation, the sharp angle of the descending veins and also characteristic leg carination. It fully fits the present taxonomical concept of the genus. As a relative to its Messel sister-species, it represents further support for cosmopolitan (or at least Eurasian-American) distribution during the Eocene of the American cockroach assemblages. [ABSTRACT FROM AUTHOR]
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- 2023
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20. Possibly Oxfordian (Upper Jurassic) cockroach assemblage (Insecta: Blattaria) from the Phra Wihan Formation in Thailand.
- Author
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Kováčová, Zuzana, Majtaník, Matej, and Quicke, Donald L. J.
- Subjects
- *
INSECTS , *COCKROACHES , *FOSSIL insects , *FOSSILS , *MIDDLE age - Abstract
The Jurassic is the most explored time period regarding the cockroach fossil record, with roughly 15,000 cockroach specimens already collected. Here we report a new assemblage from the Phra Wihan Formation of Thailand comprising four new species: Falcatusiblatta kohringi sp. n. (n = 17), Raphidiomima predlzena sp. n. (n = 1), Elisamoides cudak sp. n. (n = 2) and Praeblattella krzeminskii sp. n. (n = 1). The composition of this assemblage suggests the Upper Jurassic age (contemporaneous with the Karatau Lagerstätte in Kazakhstan), confirmed with the presence of predominantly Oxfordian spinicaudatan, Pseudograpta Novojilov, 1954, although, a Middle Jurassic age cannot be excluded. The low diversity of cockroach fossils encountered is surprising considering the tropical position of ancient Thailand. The taphocoenosis only contains disarticulated wings while mutations expressed as vein deformities are extremely rare. [ABSTRACT FROM AUTHOR]
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- 2023
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21. Two new cockroaches (Insecta: Blattaria: Vitisma, Nuurcala) from the Lower Cretaceous sediments of Shar-Tologoy in Mongolia.
- Author
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Kováčová, Zuzana
- Subjects
- *
INSECTS , *COCKROACHES , *FOSSIL insects , *SEDIMENTS , *BIOTIC communities - Abstract
Despite the abundance of cockroaches (n = 593 specimens of 18 genera and 30 species) in the Mongolian Cretaceous, there is a single formally established and four reported species of Blattaria from the Shar-Tologoy (Valditermes acutipennis Ponomarenko, 1988; Liadoblattina mongolica Vršanský, 2003; Archimesoblatta altera Vršanský, 1997; Praeblattella dichotoma Vršanský, 2003; Cretophotina mongolica Gratshev and Zherikhin, 1993). Nuurcala coloris and Vitisma okata spp. n. are reported here from Early Cretaceous, which represent genera restricted to Laurasia. These fossil genera were documented from Early Cretaceous of Asia (Russian Baissa; Mongolian Bon Tsagaan, Sharin-Gol, Khulirt, Bakhar; Chinese Meitian, Yixian, Daohugou; Japanese Fukui) and Europe (Montsec, Spain). Samples with well-preserved venation and coloration provided correct systematic position with categorization of Shar-Tologoy to northern Laurasian biota (Baissa biota with all Cretaceous Mongolian sites) rather than to southern Jehol biota, and with transitional taxa. This evidences obscured long-lasting (> 50 Ma) isolated occurrences of certain abundant insect groups within narrow areas within Laurasia. [ABSTRACT FROM AUTHOR]
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- 2023
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22. Evolution of Linoleic Acid Biosynthesis Paved the Way for Ecological Success of Termites.
- Author
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Macháček, Stanislav, Tupec, Michal, Horáček, Natan, Halmová, Martina, Roy, Amit, Machara, Aleš, Kyjaková, Pavlína, Lukšan, Ondřej, Pichová, Iva, and Hanus, Robert
- Subjects
BIOLOGICAL fitness ,TERMITES ,BIOSYNTHESIS ,COCKROACHES ,SITE-specific mutagenesis ,OLEIC acid ,LINOLEIC acid - Abstract
Termites are dominant animals of tropical terrestrial ecosystems. Their success is due to their eusocial organization as well as their ability to digest dead plant tissues. While being extremely abundant, the termite diet is poor in crucial nutrients, such as fatty acids. Linoleic acid (LA) is a precursor for many vital biomolecules, and most animals depend on its dietary supply. Termites count among the exceptions known to produce LA de novo, presumably via the action of an unknown Δ12 fatty acyl desaturase (FAD) introducing the second double bond into monounsaturated oleic acid. Here, we search for the evolutionary origin of LA biosynthesis in termites. To this end, we compile the repertoire of FAD homologs from 57 species of termites and their closest relatives, the cockroaches, analyze FAD phylogeny, and identify a potential Δ12 FAD branch, which arose through duplication of a likely Δ9 FAD. We functionally characterize both paralogs and identify the Δ9 activity in the ancestral FAD-A1a and the Δ12 activity responsible for LA biosynthesis in FAD-A1b. Through the combination of homology modeling and site-directed mutagenesis, we pinpoint structural features possibly contributing to the distinct functions, regiospecificities, and substrate preferences of the two enzymes. We confirm the presence of both paralogs in all 36 studied species of the Blattoidea lineage (Blattidae, Lamproblattidae, Cryptocercidae, and termites) and conclude that we identified an evolutionary event important for the ecological success of termites, which took place in their cockroach ancestors roughly 160 My and remained conserved throughout termite diversification into 3,000 extant species. [ABSTRACT FROM AUTHOR]
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- 2023
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23. Mitochondrial COI based molecular identification of harvester termite, Anacanthotermes ochraceus (Burmeister, 1839) in Riyadh Region, the Kingdom of Saudi Arabia
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Mureed Husain, Khawaja G. Rasool, Mostafa R. Sharaf, Muhammad Tufail, Koko D. Sutanto, Waleed S. Al-Waneen, and Abdulrahman S. Aldawood
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Isoptera ,Blattodea ,DNA barcoding ,Anacanthotermes ochraceus ,Riyadh ,Science (General) ,Q1-390 - Abstract
Objective: Termites are well known for being the most destructive pests of household commodities as well as agricultural crops around the globe. The termite fauna (Isoptera) has about 2650 described species worldwide. Several species are the pests of crops and cause damage to wood structures. Methods: In the present study, 29 specimens of termites collected from different localities of the Riyadh region were identified using mitochondrial gene cytochrome c oxidase subunit I (COI) deoxyribonucleic acid (DNA) sequence. COI gene was PCR amplified using universal primers (LCO 1490 and HCO 2198). MEGA7 software was used for phylogenetic tree construction which showed that all 29 specimens grouped together in a single clade indicated close relatedness of all specimens. Results: All the obtained sequences were submitted into Genbank database and accession numbers were obtained. Phylogenetic analysis showed that all specimens of present research grouped together into a single monophyletic clade, were confirmed to be highly closely related to one another, and proved to be members of the same species. Pairwise nucleotide sequence divergence analysis showed that there was less divergence among all specimens ranging from 0% to 7.8%. Sequence analysis revealed the confirmed precise identification of 29 samples of Anacanthotermes ochraceus with COI barcode analysis. Conclusions: Molecular data analysis has confirmed morphological identification of all 29 studied samples of A. ochraceus. However, this technology offers strong support for identification of cryptic species which are difficult to identify on the basis of morphological features. Further studies of complete mitogenome can be helpful for accurate identification of termites at species level.
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- 2023
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24. Editorial: Advances in the evolutionary ecology of termites, volume II
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Daniel Aguilera-Olivares, Solange Issa, and Alberto Arab
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eusociality ,Blattodea ,nest ,task allocation ,symbiosis ,ecosystem engineers ,Evolution ,QH359-425 ,Ecology ,QH540-549.5 - Published
- 2023
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25. The Specific Richness of Forest Cockroach Communities in The Region of Aflou (Laghouat; Algeria)
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Fatiha Masna, Siham Bounadji, Saliha Benhissen, Zakaria Hedjouli, Abdelmadjid Yagoub Asloum, Sarra Habbachi, and Waffa Habbachi
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blattodea ,cockroaches ,forest ,inventory ,Environmental sciences ,GE1-350 ,Ecology ,QH540-549.5 - Abstract
Forest cockroaches are among the insects that play an important and effective role in forest formations, they are insects with incomplete metamorphosis belonging to the order of Blattodea. This work is a contribution to the knowledge of Blattoptera species existing in the forest environments of Aflou’s region (Laghouat; Algeria).The inventory was carried out monthly in the El-Khnegue Forest (Aflou) from February 2019 to May 2019. It revealed the presence of six species of forest Cockroaches, which belongs to 4 genera of the Blattelidae family. After identification, it was demonstrated that, these species were: Dziriblatta nigriventris (Chopard, 1936), Dziriblatta stenoptera (Chopard, 1937), Loboptera ovolobata (Bohn, 1991), Loboptera decipiens (Germar, 1817), Phyllodromica zebra (Rhen, 1903) and Ectobius sp. (Stephens, 1835). Our results showed also that the soil and the thin layers of litter provide favorable habitat for the development of different species. The litters are composed mainly of leaves, which give very high organic carbon content with little humidity.
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- 2022
26. Potential use of synthetic and natural aromatic mixtures in prevention from Shelfordella lateralis сockroaches
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O. V. Parhomenko, S. V. Kolomiichuk, D. D. Omelianov, and V. V. Brygadyrenko
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synanthrophic insects ,blattodea ,blattidae ,repellers ,attractors ,aromatic mixtures ,vaping mixtures ,combating insect pests ,sense of smell in insects ,repelling insects ,traps for insects. ,Science - Abstract
Attractive and repellent properties of many household chemicals may be used to combat synantrophic insects, such as cockroaches. In the natural environment, Shelfordella lateralis (Walker, 1868) (Blattodea, Blattidae) lives in the area spanning Central Asia to North Africa. Furthermore, in many tropical and subtropical countries, it is common in human accomodations. In the laboratory conditions, we determined reaction of cockroaches to aromatic mixtures and medicinal plants often used in households. Attractiveness coefficient was the lowest for cosmetic mixtrures Tutti-fruti and Verbena and Bamboo; other cosmetic aromatizers did not repell this insect (Lilac, Mango) or repelled it poorly (Grapefruit, Amaretto, Pine). Food additives that significantly repelled Sh. lateralis are Apricot, Barberry and Kiwi and lower effects were produced by Biscuit, whereas Vanilla flavouring had no repellent effect. Mixtures for vaping Strawberry pie, Pear, Frozen forest, Irish Cream and Blue Magic exerted strong repellent effects on cockroaches. Low repellent effect on Sh. lateralis were exerted by vaping mixtures Pancakes with Honey, Turkish Tobacco and Grapefruit. No significant effects on the number of cockroaches were exerted by vaping mixtures Vanilla, Club Ice Cream, Blueberry Smoke, Mojito, Chocolate, Apple, Mint and Walnut. Out of the fishing lures, the strongest repellent effects on Sh. lateralis were taken by Blood Worm, Onion and Honey, and weaker effects were exerted by Corn and Vanilla. Imagoes of Sh. lateralis were most significantly repelled by essential oils from jojoba, eucalyptus, daisy, tee tree, Cao Sao Vang balsam, and also fir essential oil. Neither luring nor repellent effects on imagoes of Sh. lateralis were displayed by essential oils from lemon, aloe, peppermint and mandarin. Dry medicinal plants repelled imagoes of Sh. lateralis: inflorescences of Calendula officinalis, leaves of Artemisia absinthium, flowers of Jasminum officinale, leaves of Origanum vulgare, inflorescences of Matricaria chamomilla, inflorescences of Crataegus monogyna, leaves of Mentha x piperita, inflorescences of Achillea millefolium, leaves of Hypericum perforatum, leaves of Aristolochia clematitis and inflorescences of Tanacetum vulgare. No repellent effects on Sh. lateralis were exerted by Chelidonium majus, inflorescences of Tilia cordata and inflorescences of Helichrysum arenarium. Thus, most (40 of 58, or 69.0%) of the tested aromatic substances and medicinal plants repelled synantrophic Turkestan cockroach, while a much smaller share (31.0%) neither significantly lured nor repelled them. No aromatic mixtures attracted Sh. lateralis in our experiment.
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- 2022
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27. Conserved orthology in termite chemosensory gene families
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Jibin Johny, Souleymane Diallo, Ondřej Lukšan, Mayuri Shewale, Blanka Kalinová, Robert Hanus, and Ewald Große-Wilde
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evolution ,olfaction ,Blattodea ,transcriptome ,Isoptera ,Evolution ,QH359-425 ,Ecology ,QH540-549.5 - Abstract
Termites are eusocial insects known to use a variety of pheromones in tasks necessary for maintenance of their societies. As such, olfaction and pheromone communication in termites has been an object of intense study; trail-following pheromones (TFPs) and sex-pairing pheromones (SPPs), for example, have been identified in many termite species. In contrast, the molecular basis of olfactory detection is understudied in the group. Here, we present chemosensory genes of three species of termites belonging to three distinct lineages, Neotermes cubanus (Kalotermitidae), Prorhinotermes simplex (Rhinotermitidae), and Inquilinitermes inquilinus (Termitidae). Using antennal transcriptome screening of termite workers, we identified the chemosensory genes, which allowed us to perform phylogenetic analysis. We found a comparatively large repertoires of odorant receptors (ORs), gustatory receptors (GRs), ionotropic receptors (IRs), odorant binding proteins (OBPs), chemosensory proteins (CSPs), and sensory neuron membrane proteins (SNMPs). The evolutionary analysis of termite chemosensory genes revealed Isoptera-specific expansions with a 1:1 orthologous pattern, indicating the existence of conserved olfactory functions. Our findings on basal eusocial insects will further enhance our understanding of the molecular underpinnings of eusociality and the evolution of olfactory communication in termites.
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- 2023
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28. Coevolution of Metabolic Pathways in Blattodea and Their Blattabacterium Endosymbionts, and Comparisons with Other Insect-Bacteria Symbioses
- Author
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Yukihiro Kinjo, Thomas Bourguignon, Yuichi Hongoh, Nathan Lo, Gaku Tokuda, and Moriya Ohkuma
- Subjects
Blattabacterium ,Blattodea ,co-evolution ,co-metabolism ,endosymbiosis ,insects ,Microbiology ,QR1-502 - Abstract
ABSTRACT Many insects harbor bacterial endosymbionts that supply essential nutrients and enable their hosts to thrive on a nutritionally unbalanced diet. Comparisons of the genomes of endosymbionts and their insect hosts have revealed multiple cases of mutually-dependent metabolic pathways that require enzymes encoded in 2 genomes. Complementation of metabolic reactions at the pathway level has been described for hosts feeding on unbalanced diets, such as plant sap. However, the level of collaboration between symbionts and hosts that feed on more variable diets is largely unknown. In this study, we investigated amino acid and vitamin/cofactor biosynthetic pathways in Blattodea, which comprises cockroaches and termites, and their obligate endosymbiont Blattabacterium cuenoti (hereafter Blattabacterium). In contrast to other obligate symbiotic systems, we found no clear evidence of “collaborative pathways” for amino acid biosynthesis in the genomes of these taxa, with the exception of collaborative arginine biosynthesis in 2 taxa, Cryptocercus punctulatus and Mastotermes darwiniensis. Nevertheless, we found that several gaps specific to Blattabacterium in the folate biosynthetic pathway are likely to be complemented by their host. Comparisons with other insects revealed that, with the exception of the arginine biosynthetic pathway, collaborative pathways for essential amino acids are only observed in phloem-sap feeders. These results suggest that the host diet is an important driving factor of metabolic pathway evolution in obligate symbiotic systems. IMPORTANCE The long-term coevolution between insects and their obligate endosymbionts is accompanied by increasing levels of genome integration, sometimes to the point that metabolic pathways require enzymes encoded in two genomes, which we refer to as “collaborative pathways”. To date, collaborative pathways have only been reported from sap-feeding insects. Here, we examined metabolic interactions between cockroaches, a group of detritivorous insects, and their obligate endosymbiont, Blattabacterium, and only found evidence of collaborative pathways for arginine biosynthesis. The rarity of collaborative pathways in cockroaches and Blattabacterium contrasts with their prevalence in insect hosts feeding on phloem-sap. Our results suggest that host diet is a factor affecting metabolic integration in obligate symbiotic systems.
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- 2022
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29. Analysis of termite diversity (Blattodea: Isoptera) in the Gourma Province in Eastern Burkina Faso.
- Author
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Ilboudo, Mayouré Edith, Waongo, Antoine, Ndiaye, Abdoulaye Baïla, Sankara, Aboulaye, Roisin, Yves, Sankara, Fernand, Traore, Fousséni, Ilboudo, Zakaria, and Sanon, Antoine
- Subjects
- *
BIODIVERSITY conservation , *SPECIES distribution , *ENDANGERED species , *HARVESTING , *FUNCTIONAL analysis - Abstract
Termites are insects found in tropical regions where they play a major ecological role. The objective of this study was to inventory termite species present in the Gourma province in eastern Burkina Faso in relation to habitat variations in order to contribute to the conservation of biodiversity. For this purpose, we sampled nine sites from three habitats (savannahs, fields, and fallows), i.e. three sites per habitat, using a standard rapid harvesting method for two weeks in August 2018. From this sampling, we identified 1285 individuals from which 18 termite species, 11 genera and 2 families. Our collections documented five species and one genus (Schedorhinotermes) recorded for the first time in Burkina Faso. The analysis of occurrence indices revealed that Macrotermes bellicosus was a constant savannah species, and Nasutitermes sp. and Schedorhinotermes sp. were accessory species whereas the majority of the species were rare. The Shannon and equitability indices showed that savannah supported a greater richness of termites (sixteen species) and a more equitable distribution of species, likely because savannah was less disturbed compared with crop fields and fallows and was therefore richer in food resources. Statistical analysis of functional groups revealed significant variation in termite in groups II and IV abundance among sampled habitats probably in relation to soil, vegetation, climate and anthropic disturbances. Our study has provided an update to the list of termite species and highlighted the ecological importance of this taxonomic group in Burkina Faso. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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30. Predators or Herbivores: Cockroaches of Manipulatoridae Revisited with a New Genus from Cretaceous Myanmar Amber (Dictyoptera: Blattaria: Corydioidea).
- Author
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Li, Xinran and Huang, Diying
- Subjects
- *
DICTYOPTERA , *COCKROACHES , *HERBIVORES , *AMBER , *PREDATORY animals , *MANTODEA - Abstract
Simple Summary: There are many more wild cockroaches than household species, but they mostly live a similar life to the latter, feeding on dead and inactive organic material, and hiding in confined spaces. Most of the fossil cockroaches are similar to modern ones in their general appearance, so the lifestyle of the fossil species is probably similar to that of modern cockroaches. Years ago, a unique fossil cockroach, Manipulator modificaputis Vršanský and Bechly, 2015, was discovered from Cretaceous Myanmar amber. This species somewhat resembles mantises and was speculated to be a predator. However, this hypothesis is debatable. In the present study, we redescribe Manipulator modificaputis based on new material, and describe a closely related new species, Manipulatoides obscura gen. & sp. nov. We discuss the feeding habit of these species, and consider that they tend to live around and feed on flowers (as occasionally do some modern cockroaches), instead of hunting for prey. So far, no cockroaches specialized in predation have been affirmed. Manipulator modificaputis Vršanský and Bechly, 2015 (Manipulatoridae, Corydioidea) is a purported predatory cockroach from Cretaceous Myanmar amber, based on a single male. It is distinctive by the nimble head, elongate pronotum and legs, and particularly by the extraordinarily long maxillary palpi. In the present study, we redescribe Manipulator modificaputis based on six new fossils including males and females, and comment on the original description. The closely related Manipulatoides obscura gen. & sp. nov. is proposed on the basis of five fossils, including males and females. It differs from Manipulator in weaker spination of the legs, including the type-C forefemoral spination instead of the type-A of Manipulator. Some undetermined adults and nymphs are also described. We discuss the ethology of Manipulatoridae and speculate that they might feed on flowers. They are unlikely to be specialized predators since they lack necessary weaponry for capturing prey; in contrast, their unique morphotype appears to be suitable for efficient foraging and locomotion amid flowering twigs. The possibility of being kleptoparasites of the spider-web is also discussed. In addition, regenerated four-segmented tarsi are found from the new species. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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31. First overview of Laboulbeniomycetes (Ascomycota) of Ukraine with new records for the country.
- Author
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MISHUSTIN, RUSLAN I., DARMOSTUK, VALERII V., and KHODOSOVTSEV, ALEXANDER YE.
- Subjects
- *
SOUND recordings , *FLAGELLATA , *EARWIGS , *SPECIES , *DIPTERA - Abstract
The first overview of the Laboulbeniomycetes of Ukraine is presented and includes 37 species belonging to 16 genera, 2 families (Laboulbeniaceae and Herpomycetaceae) and 2 orders (Laboulbeniales and Herpomycetales). Among them, Amorphomyces italicus, Botryandromyces heteroceri, Dimorphomyces myrmedoniae, Distolomyces forficulae, Herpomyces stylopygae, H. ectobiae, Hesperomyces virescens, Laboulbenia egens, L. flagellata, L. hyalopoda, L. luxurians, L. thaxteri, L. uncinata, L. vulgaris, Monoicomyces drusillae and M. labiatus are newly reported for Ukraine. All genera above, except for Laboulbenia, are reported for the first time from Ukraine. New records for Cantharomyces italicus, Laboulbenia cristata, L. pedicellata, L. rougetii, Misgomyces dyschirii and Rickia peyerimhoffii are also mentioned. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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32. Blattodea Karyotype Database
- Author
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Marek JANKÁSEK, Zuzana KOTYKOVÁ VARADÍNOVÁ, and František ŠŤÁHLAVSKÝ
- Subjects
blattodea ,isoptera ,cockroach ,termite ,chromosome number ,karyotype ,meiosis ,sex chromosome system ,online database ,Zoology ,QL1-991 - Abstract
We present an open (publicly available) and updatable database of the karyotypes of Blattodea which is available at http://web.natur.cuni.cz/zoologie/arthropods/blattodeadatabase/index.html. This database currently contains data on chromosome numbers and sex chromosome systems for 355 (209 cockroaches and 146 termites) cytogenetically and/or geographically distinct populations of 229 species (138 cockroaches and 91 termites). When available, data on chromosome morphology and fundamental number are also included. As this summary of the data on Blattodea cytogenetics follows current taxonomy and phylogeny it enabled us to discuss hypotheses on karyotype evolution. We also point out some cytogenetically interesting phenomena such as extensive karyotype differentiation at low taxonomic levels in some lineages and the change from the X0 sex chromosome system, which is present in cockroaches, to systems with multiple neo-sex chromosomes, present in termites. We encourage the use of modern cytogenetic methods in research on Blattodea cytogenetics to uncover more detailed mechanisms of karyotype evolution in this insect order. We also provide a brief summary of the history of cytogenetic research in Blattodea.
- Published
- 2021
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33. Natural variation in colony inbreeding does not influence susceptibility to a fungal pathogen in a termite
- Author
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Carlos M. Aguero, Pierre‐André Eyer, Jason S. Martin, Mark S. Bulmer, and Edward L. Vargo
- Subjects
Blattodea ,diversity ,Metarhizium ,Reticulitermes flavipes ,Rhinotermitidae ,social immunity ,Ecology ,QH540-549.5 - Abstract
Abstract Reduced genetic diversity through inbreeding can negatively affect pathogen resistance. This relationship becomes more complicated in social species, such as social insects, since the chance of disease transmission increases with the frequency of interactions among individuals. However, social insects may benefit from social immunity, whereby individual physiological defenses may be bolstered by collective‐level immune responses, such as grooming or sharing of antimicrobial substance through trophallaxis. We set out to determine whether differences in genetic diversity between colonies of the subterranean termite, Reticulitermes flavipes, accounts for colony survival against pathogens. We sampled colonies throughout the United States (Texas, North Carolina, Maryland, and Massachusetts) and determined the level of inbreeding of each colony. To assess whether genetically diverse colonies were better able to survive exposure to diverse pathogens, we challenged groups of termite workers with two strains of a pathogenic fungus, one local strain present in the soil surrounding sampled colonies and another naïve strain, collected outside the range of this species. We found natural variation in the level of inbreeding between colonies, but this variation did not explain differences in susceptibility to either pathogen. Although the naïve strain was found to be more hazardous than the local strain, colony resistance was correlated between two strains, meaning that colonies had either relatively high or low susceptibility to both strains regardless of their inbreeding coefficient. Overall, our findings may reflect differential virulence between the strains, immune priming of the colonies via prior exposure to the local strain, or a coevolved resistance toward this strain. They also suggest that colony survival may rely more upon additional factors, such as different behavioral response thresholds or the influence of a specific genetic background, rather than the overall genetic diversity of the colony.
- Published
- 2021
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34. Diversity and Biology of Terrestrial Orthopteroids (Insecta) in the Republic of Mordovia (Russia)
- Author
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Victor V. Aleksanov, Inessa O. Karmazina, Alexander B. Ruchin, Mikhail N. Esin, Sergei V. Lukiyanov, Evgeniy A. Lobachev, Oleg N. Artaev, and Maxim K. Ryzhov
- Subjects
Dermaptera ,Orthoptera ,Mantodea ,Blattodea ,seasonal dynamics ,data paper ,Biology (General) ,QH301-705.5 - Abstract
Orthopteroidea is an ecologically diverse group of incompletely transformed insects that includes several insect orders similar in development and structure. Many species from Dermaptera, Orthoptera, Mantodea, and Blattodea are sensitive to anthropogenic influences and are indicators of the external environment. Some species cause damage to agriculture and forestry; others are inhabitants of human dwellings and pests of food supplies. The aim of this study is to describe fauna of some orders of Orthopteroidea in the Republic of Mordovia, in the central part of European Russia. This study was conducted in April–October 1971, 1984, 1995, 1996, 1998, 2000, 2001, and 2004–2023. All possible habitats were studied using a variety of methods (entomological traps, pitfall traps, pan traps, etc.). An acoustic method of species identification was also used. For each observation, the coordinates of location, abundance, and dates were recorded. The dataset contains 4865 occurrences. In total, 16,644 specimens of Orthopteroidea were studied. The dataset contains 71 species including Dermaptera (4), Orthoptera (62), Mantodea (1), and Blattodea (4). Of these, 13 species are identified for the first time in the region; these mainly inhabit steppe areas. The presence of two Orthoptera species has not been confirmed yet during our studies; these species are noted in this paper according an old published paper. The biodiversity of Mordovia includes 73 species from four orders. The biology of numerous species, their seasonal dynamics, and some descriptions of biotopes and number of new species are described.
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- 2023
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35. Potential use of synthetic and natural aromatic mixtures in prevention from Shelfordella lateralis сockroaches.
- Author
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Parhomenko, O. V., Kolomiichuk, S. V., Omelianov, D. D., and Brygadyrenko, V. V.
- Subjects
- *
BLATTIDAE , *MEDICINAL plants , *INSECT baits & repellents - Abstract
Attractive and repellent properties of many household chemicals may be used to combat synantrophic insects, such as cockroaches. In the natural environment, Shelfordella lateralis(Walker, 1868) (Blattodea, Blattidae) lives in the area spanning Central Asia to North Africa. Furthermore, in many tropical and subtropical countries, it is common in human accomodations. In the laboratory conditions, we determined reaction of cockroaches to aromatic mixtures and medicinal plants often used in households. Attractiveness coefficient was the lowest for cosmetic mixtrures Tutti-fruti and Verbena and Bamboo; other cosmetic aromatizers did not repell this insect (Lilac, Mango) or repelled it poorly (Grapefruit, Amaretto, Pine). Food additives that significantly repelled Sh. lateralis are Apricot, Barberry and Kiwi and lower effects were produced by Biscuit, whereas Vanilla flavouring had no repellent effect. Mixtures for vaping Strawberry pie, Pear, Frozen forest, Irish Cream and Blue Magic exerted strong repellent effects on cockroaches. Low repellent effect on Sh. lateralis were exerted by vaping mixtures Pancakes with Honey, Turkish Tobacco and Grapefruit. No significant effects on the number of cockroaches were exerted by vaping mixtures Vanilla, Club Ice Cream, Blueberry Smoke, Mojito, Chocolate, Apple, Mint and Walnut. Out of the fishing lures, the strongest repellent effects on Sh. lateralis were taken by Blood Worm, Onion and Honey, and weaker effects were exerted by Corn and Vanilla. Imagoes of Sh. lateralis were most significantly repelled by essential oils from jojoba, eucalyptus, daisy, tee tree, Cao Sao Vang balsam, and also fir essential oil. Neither luring nor repellent effects on imagoes of Sh. lateralis were displayed by essential oils from lemon, aloe, peppermint and mandarin. Dry medicinal plants repelled imagoes of Sh. lateralis: inflorescences of Calendula officinalis, leaves of Artemisia absinthium, flowers of Jasminum officinale, leaves of Origanum vulgare, inflorescences of Matricaria chamomilla, inflorescences of Crataegus monogyna, leaves of Mentha x piperita, inflorescences of Achillea millefolium, leaves of Hypericum perforatum, leaves of Aristolochia clematitis and inflorescences of Tanacetum vulgare. No repellent effects on Sh. lateralis were exerted by Chelidonium majus, inflorescences of Tilia cordata and inflorescences of Helichrysum arenarium. Thus, most (40 of 58, or 69.0%) of the tested aromatic substances and medicinal plants repelled synantrophic Turkestan cockroach, while a much smaller share (31.0%) neither significantly lured nor repelled them. No aromatic mixtures attracted Sh. lateralisin our experiment. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
36. Termites have wider thermal limits to cope with environmental conditions in savannas.
- Author
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Woon, Joel S., Atkinson, David, Adu‐Bredu, Stephen, Eggleton, Paul, and Parr, Catherine L.
- Subjects
- *
SAVANNAS , *INSECT societies , *TROPICAL forests , *LOW temperatures , *TROPICAL conditions , *COLD-blooded animals - Abstract
The most diverse and abundant family of termites, the Termitidae, evolved in African tropical forests. They have since colonised grassy biomes such as savannas. These open environments have more extreme conditions than tropical forests, notably wider extremes of temperature and lower precipitation levels and greater temporal fluctuations (of both annual and diurnal variation). These conditions are challenging for soft‐bodied ectotherms, such as termites, to survive in, let alone become as ecologically dominant as termites have.Here, we quantified termite thermal limits to test the hypothesis that these physiological limits are wider in savanna termite species to facilitate their existence in savanna environments.We sampled termites directly from mound structures, across an environmental gradient in Ghana, ranging from wet tropical forest through to savanna. At each location, we quantified both the Critical Thermal Maxima (CTmax) and the Critical Thermal Minima (CTmin) of all the most abundant mound‐building Termitidae species in the study areas. We modelled the thermal limits in two separate mixed‐effects models against canopy cover at the mound, temperature and rainfall, as fixed effects, with sampling location as a random intercept.For both CTmax and CTmin, savanna species had significantly more extreme thermal limits than forest species. Between and within environments, areas with higher amounts of canopy cover were significantly associated with lower CTmax values of the termite colonies. CTmin was significantly positively correlated with rainfall. Temperature was retained in both models; however, it did not have a significant relationship in either. Sampling location explained a large proportion of the residual variation, suggesting there are other environmental factors that could influence termite thermal limits.Our results suggest that savanna termite species have wider thermal limits than forest species. These physiological differences, in conjunction with other behavioural adaptations, are likely to have enabled termites to cope with the more extreme environmental conditions found in savanna environments and facilitated their expansion into open tropical environments. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
37. Rescue Strategy in a Termite: Workers Exposed to a Fungal Pathogen Are Reintegrated Into the Colony
- Author
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Megan N. Moran, Carlos M. Aguero, Pierre-André Eyer, and Edward L. Vargo
- Subjects
Reticulitermes flavipes ,social immunity ,social insect ,Blattodea ,rhinotermitidae ,Metarhizium ,Evolution ,QH359-425 ,Ecology ,QH540-549.5 - Abstract
Social insect colonies are characterized by an efficient division of labor, allowing high-value individuals (i.e., reproductives and brood) to be sheltered from tasks associated with increased risk of pathogen exposure, such as foraging or corpse disposal. This social organization helps limit the transmission of disease throughout the colony. Further, individuals can actively respond to imminent disease threats by altering their behaviors as a means of social immunity. In subterranean termites, although workers typically avoid detected pathogens, they can be attracted to pathogen cues when a nestmate is infected. Infected termites are usually groomed, but they may instead be cannibalized if the infection has already become lethal. The mechanisms governing these changes in behavior are unclear. We set out to examine immediate changes in individual behaviors, investigating the role that the infected individual plays in communicating its infection status to nestmates. We also assessed gradual changes in social organization after the re-introduction of an infected termite to the colony. Our results reveal that infected termites likely do not signal their infection status to nestmates through shaking behaviors and reduced movements, suggesting the occurrence of other mechanisms used in communicating infection. We also found that infected termites do not self-isolate and may travel to the densest part of the colony, where they can potentially benefit from grooming by large groups of nestmates. These results provide new insights into how individual changes in immune behaviors contribute to overall colony health, highlighting that, at early stages of infection, termites favor a rescuing strategy rather than isolation and/or cannibalization.
- Published
- 2022
- Full Text
- View/download PDF
38. Termite Valkyries: Soldier-Like Alate Termites From the Cretaceous and Task Specialization in the Early Evolution of Isoptera
- Author
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Corentin Jouault, Michael S. Engel, Diying Huang, Juliette Berger, Philippe Grandcolas, Evgeny E. Perkovsky, Frédéric Legendre, and André Nel
- Subjects
insecta ,Blattodea ,evolution ,eusociality ,soldiers ,phylogeny ,Evolution ,QH359-425 ,Ecology ,QH540-549.5 - Abstract
In several insect eusocial lineages, e.g., some aphids, thrips, ants, some stingless bees, and termites, task specialization is brought to its climax with a sterile soldier caste solely devoted to colony defense. In Isoptera, while the reproductives are defenseless, the soldiers have unique morpho-physiological specializations whose origin and evolution remain unresolved. Here we report on two instances of Cretaceous fossil termite reproductives belonging to different families († Valkyritermes inopinatus gen. et sp. nov. and an unpublished specimen from the Crato Formation), with intriguing phragmotic soldier-like heads and functional wings. These individuals, herein called Valkyries, are the first termite reproductives known with defensive features and suggest that phragmosis arose at least in the Early Cretaceous. Valkyries resemble modern neotenic soldiers except for their complete wings. Their discovery supports the hypothesis that the division between reproductive (indicated by the winged condition of Valkyries) and defensive tasks (indicated by the phragmotic head) has not always been complete in termite history. We explore two alternative scenarios regarding the origin of Valkyries (i.e., relatively recent and convergent origins vs. plesiomorphic condition) and discuss how they might relate to the development of soldiers. We argue that, in both cases, Valkyries likely evolved to face external threats, a selective pressure that could also have favored the origin of soldiers from helpers. Valkyries highlight the developmental flexibility of termites and illustrate the tortuous paths that evolution may follow.
- Published
- 2022
- Full Text
- View/download PDF
39. Evidence of sodium limitation in ants and termites in a Neotropical savanna.
- Author
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Clay, Natalie A., Shepard, Donald B., Garda, Adrian A., Mesquita, Daniel O., and Vasconcellos, Alexandre
- Abstract
Nutritional ecology of ropical ecosystems like Neotropical savannas, which are of high conservation concern, is understudied. Sodium is essential for heterotrophs but availability often falls short relative to plant consumer requirements. Savanna plant consumers like ants and termites should be sodium-limited due to high temperatures, nutrient-poor soils, and lack of oceanic sodium deposition. We tested the hypothesis that Neotropical savanna ants and termites are sodium-limited. Termites were tested by supplementing 0.25 m
2 plots with H2 O (control), 0.1%, 0.5%, or 1.0% NaCl and measuring termite presence and artificial substrate mass loss after 1 week. Ants were tested by collecting ants that recruited to H2 O (control), 0.1%, 0.5%, and 1.0% NaCl and 1.0%, 10%, and 20% sugar baits on paired diurnal–nocturnal transects. Termites were 16 times more likely to occur on 1% NaCl than H2 O plots and wood-feeding termites were most frequent. However, the decomposition rate did not differ among treatments. Ant bait use increased with increasing NaCl concentration and 1% NaCl usage was similar to sugar bait usage. Ants were 3.7 times more active nocturnally than diurnally, but contrary to predictions bait type (water, sugar or NaCl) usage did not differ between day and night. Together, these results provide strong evidence of sodium limitation in Neotropical savannas. [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
- View/download PDF
40. Lubrication in the joints of insects (Arthropoda: Insecta).
- Author
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Nadein, K. and Gorb, S.
- Subjects
- *
INSECTS , *ARTHROPODA , *HYDROPHILIDAE , *BEETLES , *GROUND beetles , *TENEBRIONIDAE , *COCKROACHES - Abstract
Femoro‐tibial leg joint, head–prothorax joint (gular area) and occipital region of the head were examined using scanning electron microscopy in insects from the orders Blattodea and Coleoptera. Lubricating substances and corresponding pore openings were found in Argentinean Wood Roach Blaptica dubia and in the beetles from families Carabidae, Hydrophilidae, Silphidae, Scarabaeidae, Elateridae, Tenebrionidae and Curculionidae. Lubricant on the contacting surfaces were found on femoral and tibial counterparts of leg joints of different beetle species and cockroaches, in the gular region of the head in beetles, and in the occipital region of the head of the cockroach. Typical pore opening was on an average 1 µm in diameter (ranging from 0.5 µm to 10.0 µm). The amount of pore openings in a joint varies from a few pores to hundreds. The lubricant is found to be strongly variable in its appearance usually in the form of a single elongated filiform flow, as well as long or short drops, often forming accumulations or spreading over the surface. The supposed function of the lubricant in studied joints is discussed and assumed as friction and wear minimization. The presence of a high amount of the lubricant in leg joints of insects with intense leg locomotion is presumed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
41. Phylogeny and age of cockroaches: a reanalysis of mitogenomes with selective fossil calibrations.
- Author
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Xin-Ran Li
- Subjects
- *
COCKROACHES , *FOSSILS , *TIME perception , *PHYLOGENY , *CALIBRATION - Abstract
In spite of big data and new techniques, the phylogeny and timing of cockroaches remain in dispute. Apart from sequencing more species, an alternative way to improve the phylogenetic inference and time estimation is to improve the quality of data, calibrations and analytical procedure. This study emphasizes the completeness of data, the reliability of genes (judged via alignment ambiguity and substitution saturation), and the justification for fossil calibrations. Based on published mitochondrial genomes, the Bayesian phylogeny of cockroaches and termites is recovered as: Corydiinae + (((Cryptocercidae + Isoptera) + ((Anaplectidae + Lamproblattidae) + (Tryonicidae + Blattidae))) + (Pseudophyllodromiinae + (Ectobiinae + (Blattellinae + Blaberidae)))). With two fossil calibrations, namely, Valditermes brenanae and Piniblattella yixianensis, this study dates the crown Dictyoptera to early Jurassic, and crown Blattodea to middle Jurassic. Using the ambiguous 'roachoid' fossils to calibrate Dictyoptera+sister pushes these times back to Permian and Triassic. This study also shows that appropriate fossil calibrations are rarer than considered in previous studies. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
42. Genome size evaluations in cockroaches: new entries
- Author
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Manuela Monti, CarloAlberto Redi, and Ernesto Capanna
- Subjects
genome size ,C-DNA content ,cockroaches ,Blattodea ,Biology (General) ,QH301-705.5 - Abstract
In this paper, we report genome size (GS) values for nine cockroaches (order Blattodea, families Blattidae, Blaberidae and Ectobiidae, ex Blattelidae,), three of which are original additions to the ten already present in the GS database: the death’s head roach (Blaberus craniifer), the Surinam cockroach (Pycnoscelus surinamensis) and the Madeira cockroach (Leucophaea maderae). Regarding the American cockroach (Periplaneta americana), the GS database contains two contrasting values (2.72 vs 3.41 pg); likely, the 2.72 pg value is the correct one as it is strikingly similar to our sperm DNA content evaluation (2.80 ± 0.11 pg). Also, we suggest halving the published GS of the Argentine cockroach Blaptica dubia and the spotted cockroach (the gray cockroach) Nauphoeta cinerea discussing (i) the occurrence of a correlation between increasing 2N chromosome number and GS within the order Blattodea; and (ii) the possible occurrence of a polyploidization phenomenon doubling a basic GS of 0.58 pg of some termite families (superfamily Blattoidea, epifamily Termitoidae).
- Published
- 2022
- Full Text
- View/download PDF
43. The hidden RNA viruses in Blattodea (cockroaches and termites).
- Author
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Wu H, Li W, Fan J, Jiang S, Li J, Hu P, Yu Z, Li Y, Pang R, and Wu H
- Subjects
- Animals, Insect Viruses genetics, Insect Viruses classification, Insect Viruses isolation & purification, RNA Viruses genetics, RNA Viruses isolation & purification, RNA Viruses classification, Isoptera virology, Genome, Viral, Phylogeny, Cockroaches virology
- Abstract
The insect order Blattodea (cockroaches and termites) has drawn substantial research attention for their dietary habits and lifestyle of living with or around humans. In the present study, we focused on the discovery of RNA viruses hidden in Blattodea insects using the publicly available RNA sequencing datasets. Overall, 136 distinctive RNA viruses were identified from 36 Blattodea species, of which more than 70 % were most closely related to the invertebrate-associated viral groups within Picornavirales , Sobelivirales , Bunyaviricetes , Jingchuvirales , Durnavirales , Lispiviridae , Orthomyxoviridae , Permutotetraviridae , Flaviviridae and Muvirales . Several viruses were associated with pathogens of vertebrates ( Paramyxoviridae ), plants ( Tymovirales ), protozoa ( Totiviridae ), fungi ( Narnaviridae ) and bacteria ( Norzivirales ). Collectively, 93 complete or near-complete viral genomes were retrieved from the datasets, and several viruses appeared to have remarkable temporal and spatial distributions. Interestingly, the newly identified Periplaneta americana dicistrovirus displayed a remarkable distinct bicistronic genome arrangement from the well-recognized dicistroviruses with the translocated structural and non-structural polyprotein encoding open reading frames over the genome. These results significantly enhance our knowledge of RNA virosphere in Blattodea insects, and the novel genome architectures in dicistroviruses and other RNA viruses may break our stereotypes in the understanding of the genomic evolution and the emergence of potential novel viral species.
- Published
- 2024
- Full Text
- View/download PDF
44. The role of mandible morphology in termite inquilinism.
- Author
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Clemente, Lara Oliveira, Constantino, Reginaldo, Costa, Diogo Andrade, and DeSouza, Og
- Subjects
- *
TERMITES , *MORPHOLOGY , *INFORMATION technology , *TEETH , *SPECIES , *MANDIBLE - Abstract
In heterospecific termite–termite (Blattodea, Isoptera) cohabitation, defensive morphologies are more evident in inquiline soldiers than in the workers. Nevertheless, these latter are prone to present defensive adaptations as well. After all, by living and feeding inside the nest of other species, such workers would suffer less pressure from building and foraging, but more demand for defensive adaptations. Interestingly, these three functions – building, foraging, and defense – can be exerted by a single structure, the mandibles. Providing that, in inquilines, defensive needs may prevail over building and foraging, it seems adaptive for inquiline termite workers to have mandibles modified for defense. Here we report on a significant correlation between mandibular modifications in termite workers and their propensity to inquilinism. Using behavioral assays, we show these adaptations to play relevant roles in the defense/attack dynamics of guests and hosts. We show that, in termite workers, the size and position of the apical tooth relative to the marginal teeth may arm termite hosts and termite inquilines with an effective defensive weapon. Hosts may also use it as a weapon to attack inquilines. The latter, however, are unable to do so, confirming previous reports on peaceful behavior as a typical strategy for termite inquilines. We argue that mandibular patterns in termites (as measured by the left mandible index, LMI), more than a product of feeding habit selective pressure, may also serve to mediate nest heterospecific cohabitation. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
45. Taxonomy and distribution of termite fauna (Isoptera) in Riyadh Province, the Kingdom of Saudi Arabia, with an updated list of termite species on the Arabian Peninsula.
- Author
-
Sharaf, Mostafa R., Husain, Mureed, Rasool, Khawaja Ghulam, Tufail, Muhammad, and Aldawood, Abdulrahman S.
- Abstract
The present study shows an updated synoptic list of the 30 known Isoptera of the Arabian Peninsula which are classified under four families and nine genera. Twenty-seven species are hitherto known from the Kingdom of Saudi Arabia (KSA). The present inventory of the termites of Riyadh Province (KSA) indicated three species, Anacanthotermes ochraceous (Burmeister 1839), Psammotermes hypostoma Desneux, 1902 and a rare species, Coptotermes heimi (Wasmann 1902). We present an illustrated key to species based on the soldier caste. Anacanthotermes ochraceous , and P. hypostoma are widely distributed Palearctic species whereas C. heimi seems rare and is a new record for KSA. Distribution maps for the three species are provided based on recently collected material and literature records and remarks on species habitat preference are given. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
46. Termites Identification
- Author
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Arumugam, Nivaarani, Mohd Kori, Nurul Syuhaddah, Rahman, Homathevi, Ciancio, Aurelio, Series Editor, Khan, Md. Aslam, editor, and Ahmad, Wasim, editor
- Published
- 2018
- Full Text
- View/download PDF
47. Blattodea Karyotype Database.
- Author
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JANKÁSEK, MAREK, VARADÍNOVÁ, ZUZANA KOTYKOVÁ, and ŠŤÁHLAVSKÝ, FRANTIŠEK
- Subjects
- *
SEX chromosomes , *KARYOTYPES , *INSECT evolution , *CYTOGENETICS , *CHROMOSOMES , *COCKROACHES , *TERMITES - Abstract
We present an open (publicly available) and updatable database of the karyotypes of Blattodea which is available at http://web.natur.cuni.cz/zoologie/arthropods/blattodeadatabase/index.html. This database currently contains data on chromosome numbers and sex chromosome systems for 355 (209 cockroaches and 146 termites) cytogenetically and/or geographically distinct populations of 229 species (138 cockroaches and 91 termites). When available, data on chromosome morphology and fundamental number are also included. As this summary of the data on Blattodea cytogenetics follows current taxonomy and phylogeny it enabled us to discuss hypotheses on karyotype evolution. We also point out some cytogenetically interesting phenomena such as extensive karyotype differentiation at low taxonomic levels in some lineages and the change from the X0 sex chromosome system, which is present in cockroaches, to systems with multiple neo-sex chromosomes, present in termites. We encourage the use of modern cytogenetic methods in research on Blattodea cytogenetics to uncover more detailed mechanisms of karyotype evolution in this insect order. We also provide a brief summary of the history of cytogenetic research in Blattodea. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
48. CURRENT STATE OF KNOWLEDGE OF COCKROACHES, ORDER BLATTARIA BURMEISTER, 1829
- Author
-
Anna Clara Balbina Silva and Afonso Pelli
- Subjects
blattodea ,mechanical vectors ,public health ,Science ,Social Sciences - Abstract
Cockroaches are insects of the Order Blattaria, Burmeister, 1829 or Blattodea, Brunner, 1882 (synonym) and have a wide geographical distribution. It corresponds to an ancient group of insects, known since the Lower Carboniferous. After incomplete metamorphosis they reach maturity, presenting high reproductive capacity and adapting to different environments. The research was carried out in peer-reviewed journals, in the PubMed and Capes databases, for the last 60 months with the keyword Blattaria "and" Blaberidae, when the text was complete and available. The books used were those available in the collection of the Federal University of the Triângulo Mineiro. The theoreticalframework deals with biology, sexual behavior and biodiversity. There is extensive knowledge about the physiology, taxonomy and ethology of this order because they are vectors of diseases and have a significant impact in the public health area. However, there is still a lot of research to be done, since various aspects of biology and life history are still unknown.
- Published
- 2019
49. Predators or Herbivores: Cockroaches of Manipulatoridae Revisited with a New Genus from Cretaceous Myanmar Amber (Dictyoptera: Blattaria: Corydioidea)
- Author
-
Xinran Li and Diying Huang
- Subjects
Blattodea ,Corydiidae ,ecology ,flower-visiting ,fossil ,kleptoparasite ,Science - Abstract
Manipulator modificaputis Vršanský and Bechly, 2015 (Manipulatoridae, Corydioidea) is a purported predatory cockroach from Cretaceous Myanmar amber, based on a single male. It is distinctive by the nimble head, elongate pronotum and legs, and particularly by the extraordinarily long maxillary palpi. In the present study, we redescribe Manipulator modificaputis based on six new fossils including males and females, and comment on the original description. The closely related Manipulatoides obscura gen. & sp. nov. is proposed on the basis of five fossils, including males and females. It differs from Manipulator in weaker spination of the legs, including the type-C forefemoral spination instead of the type-A of Manipulator. Some undetermined adults and nymphs are also described. We discuss the ethology of Manipulatoridae and speculate that they might feed on flowers. They are unlikely to be specialized predators since they lack necessary weaponry for capturing prey; in contrast, their unique morphotype appears to be suitable for efficient foraging and locomotion amid flowering twigs. The possibility of being kleptoparasites of the spider-web is also discussed. In addition, regenerated four-segmented tarsi are found from the new species.
- Published
- 2022
- Full Text
- View/download PDF
50. Editorial: Advances in the Evolutionary Ecology of Termites
- Author
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Alberto Arab, Solange Issa, and Daniel Aguilera-Olivares
- Subjects
eusociality ,Blattodea ,nest ,task allocation ,symbiosis ,ecosystem engineers ,Evolution ,QH359-425 ,Ecology ,QH540-549.5 - Published
- 2021
- Full Text
- View/download PDF
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