4,319 results on '"ISOPTERA"'
Search Results
2. Genomic data provide insights into the classification of extant termites.
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Hellemans, Simon, Rocha, Mauricio, Wang, Menglin, Romero Arias, Johanna, Aanen, Duur, Bagnères, Anne-Geneviève, Buček, Aleš, Carrijo, Tiago, Chouvenc, Thomas, Cuezzo, Carolina, Constantini, Joice, Constantino, Reginaldo, Dedeine, Franck, Deligne, Jean, Eggleton, Paul, Evans, Theodore, Hanus, Robert, Harrison, Mark, Harry, Myriam, Josens, Guy, Jouault, Corentin, Kalleshwaraswamy, Chicknayakanahalli, Kaymak, Esra, Korb, Judith, Lee, Chow-Yang, Legendre, Frédéric, Li, Hou-Feng, Lo, Nathan, Lu, Tomer, Matsuura, Kenji, Maekawa, Kiyoto, McMahon, Dino, Mizumoto, Nobuaki, Oliveira, Danilo, Poulsen, Michael, Sillam-Dussès, David, Su, Nan-Yao, Tokuda, Gaku, Vargo, Edward, Ware, Jessica, Šobotník, Jan, Scheffrahn, Rudolf, Cancello, Eliana, Roisin, Yves, Engel, Michael, and Bourguignon, Thomas more...
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Isoptera ,Animals ,Phylogeny ,Genomics ,Genome ,Insect - Abstract
The higher classification of termites requires substantial revision as the Neoisoptera, the most diverse termite lineage, comprise many paraphyletic and polyphyletic higher taxa. Here, we produce an updated termite classification using genomic-scale analyses. We reconstruct phylogenies under diverse substitution models with ultraconserved elements analyzed as concatenated matrices or within the multi-species coalescence framework. Our classification is further supported by analyses controlling for rogue loci and taxa, and topological tests. We show that the Neoisoptera are composed of seven family-level monophyletic lineages, including the Heterotermitidae Froggatt, Psammotermitidae Holmgren, and Termitogetonidae Holmgren, raised from subfamilial rank. The species-rich Termitidae are composed of 18 subfamily-level monophyletic lineages, including the new subfamilies Crepititermitinae, Cylindrotermitinae, Forficulitermitinae, Neocapritermitinae, Protohamitermitinae, and Promirotermitinae; and the revived Amitermitinae Kemner, Microcerotermitinae Holmgren, and Mirocapritermitinae Kemner. Building an updated taxonomic classification on the foundation of unambiguously supported monophyletic lineages makes it highly resilient to potential destabilization caused by the future availability of novel phylogenetic markers and methods. The taxonomic stability is further guaranteed by the modularity of the new termite classification, designed to accommodate as-yet undescribed species with uncertain affinities to the herein delimited monophyletic lineages in the form of new families or subfamilies. more...
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- 2024
Catalog
3. The challenge of estimating global termite methane emissions
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Law, Stephanie J, Allison, Steven D, Davies, Andrew B, Flores‐Moreno, Habacuc, Wijas, Baptiste J, Yatsko, Abbey R, Zhou, Yong, Zanne, Amy E, and Eggleton, Paul
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Climate Change Impacts and Adaptation ,Environmental Sciences ,Generic health relevance ,Climate Action ,Life on Land ,Isoptera ,Methane ,Animals ,Climate Change ,Greenhouse Gases ,deadwood ,methane budget ,methane emissions ,methane oxidation ,methanotrophs ,termite mesocosm ,termites ,tree stems ,Biological Sciences ,Ecology ,Biological sciences ,Earth sciences ,Environmental sciences - Abstract
Methane is a powerful greenhouse gas, more potent than carbon dioxide, and emitted from a variety of natural sources including wetlands, permafrost, mammalian guts and termites. As increases in global temperatures continue to break records, quantifying the magnitudes of key methane sources has never been more pertinent. Over the last 40 years, the contribution of termites to the global methane budget has been subject to much debate. The most recent estimates of termite emissions range between 9 and 15 Tg CH4 year-1, approximately 4% of emissions from natural sources (excluding wetlands). However, we argue that the current approach for estimating termite contributions to the global methane budget is flawed. Key parameters, namely termite methane emissions from soil, deadwood, living tree stems, epigeal mounds and arboreal nests, are largely ignored in global estimates. This omission occurs because data are lacking and research objectives, crucially, neglect variation in termite ecology. Furthermore, inconsistencies in data collection methods prohibit the pooling of data required to compute global estimates. Here, we summarise the advances made over the last 40 years and illustrate how different aspects of termite ecology can influence the termite contribution to global methane emissions. Additionally, we highlight technological advances that may help researchers investigate termite methane emissions on a larger scale. Finally, we consider dynamic feedback mechanisms of climate warming and land-use change on termite methane emissions. We conclude that ultimately the global contribution of termites to atmospheric methane remains unknown and thus present an alternative framework for estimating their emissions. To significantly improve estimates, we outline outstanding questions to guide future research efforts. more...
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- 2024
4. A conversion proposal for biomass estimates in termites.
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Silva, Israel S. and Vasconcellos, Alexandre
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NUMBERS of species , *BIOMASS conversion , *TERMITES , *BIOMASS , *SPECIES - Abstract
Termites (Isoptera) constitute a considerable fraction of the global animal biomass. Conventionally, termite dry biomass estimates (g) range between 1:3 and 1:6 of fresh biomass (g). But estimates are often based on a few species or coarse taxonomic resolution. In this study, we (1) calculated the fresh and dry mass of 15 widely distributed Neotropical termite species (three families) and (2) established the conversion ratio for dry mass, which is indispensable for biomass estimates. Workers and soldiers were sampled in their colonies and quickly weighed in the laboratory to obtain the fresh mass. Then, the individuals were placed in 80% alcohol for 5 days and weighed. Finally, the samples were dried at 60°C for 24 h and weighed again. Our results suggest an average ratio of 1:4.2 (dry‐to‐fresh mass), with a mean (±SE) conversion ratio of 0.24 ± 0.06, for estimating termite biomass at local, regional, and global scales. Moreover, our results demonstrate that values from termites preserved in alcohol could still be used to estimate biomass. Specifically, after insertion in alcohol, the termites lost 16.9%–56% of their water content, with an average of 26.5%. While this represents a source of bias in estimates using samples from biological collections, dry mass was significantly related to fresh mass (Radj2 = 0.99; dry mass = 0.000055 + 0.22 × fresh mass), and to the mass of termites in alcohol (Radj2 = 0.97; dry mass = 0.00014 + 0.26 × mass in alcohol). Applying our results to data from the literature indicates that global termite dry biomass ranges from 89 to 106 Mt. [ABSTRACT FROM AUTHOR] more...
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- 2024
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5. How inquilinism shaped breeding systems in a termite host‐inquiline relationship.
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Timmermans, Johanne, Hellemans, Simon, Křivánek, Jan, Kaymak, Esra, Fontaine, Nicolas, Bourguignon, Thomas, Hanus, Robert, and Roisin, Yves
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INSECT societies , *MICROSATELLITE repeats , *TERMITES , *NEST building , *PARTHENOGENESIS - Abstract
Social insects have developed a broad diversity of nesting and foraging strategies. One of these, inquilinism, occurs when one species (the inquiline) inhabits the nest built and occupied by another species (the host). Obligatory inquilines must overcome strong constraints upon colony foundation and development, due to limited availability of host colonies. To reveal how inquilinism shapes reproductive strategies in a termite host‐inquiline dyad, we carried out a microsatellite marker study on Inquilinitermes inquilinus and its host Constrictotermes cavifrons. The proportion of simple, extended and mixed families was recorded in both species, as well as the presence of neotenics, parthenogenesis and multiple foundations. Most host colonies (95%) were simple families and all were monodomous. By contrast, the inquiline showed a higher proportion of extended (30%) and mixed (5%) families, and frequent neotenics (in 25% of the nests). This results from the simultaneous foundation in host nests of numerous incipient colonies, which, as they grow, may compete, fight, or merge. We also documented the use of parthenogenesis by female–female pairs. In conclusion, the classical monogamous colony pattern of the host species suggests uneventful development of simple foundations dispersed in the environment, in accordance with the wide distribution of their resources. By contrast, the multiple reproductive patterns displayed by the inquiline species reveal strong constraints on foundation sites: founders first concentrate into host nests, then must attempt to outcompete or absorb the neighbouring foundations to gain full control of the resources provided by the host nest. [ABSTRACT FROM AUTHOR] more...
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- 2024
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6. Corpse Management Strategies in Social Insects
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Asokan, Anusree, Ramesha, Barikkad, Seena, S M, Anooj, S S, and Sreekumar, K M
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- 2024
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7. A new species of an endemic termite Ampoulitermes zacharia sp.nov (Blattodea: Isoptera: Termitidae: Nasutitermitinae) from Idukki, Kerala, India
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Joseph, Edwin, Joseph, Sony, Sandra, V. P., Jerin, M. D., Binu, Anita, Radhika, B., Samyuktha, S., Renjith, Liz Merin, and Mathew, Jobin
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- 2024
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8. Extended longevity of termite kings and queens is accompanied by extranuclear localization of telomerase in somatic organs and caste‐specific expression of its isoforms.
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Pangrácová, Marie, Křivánek, Jan, Vrchotová, Markéta, Sehadová, Hana, Hadravová, Romana, Hanus, Robert, and Lukšan, Ondřej
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TELOMERASE , *ALTERNATIVE RNA splicing , *LONGEVITY , *TERMITES , *RNA splicing , *TELOMERES , *GONADS - Abstract
Kings and queens of termites are endowed with an extraordinary longevity coupled with lifelong fecundity. We recently reported that termite kings and queens display a dramatically increased enzymatic activity and abundance of telomerase in their somatic organs when compared to short‐lived workers and soldiers. We hypothesized that this telomerase activation may represent a noncanonical pro‐longevity function, independent of its canonical role in telomere maintenance. Here, we explore this avenue and investigate whether the presumed noncanonical role of telomerase may be due to alternative splicing of the catalytic telomerase subunit TERT and whether the subcellular localization of TERT isoforms differs among organs and castes in the termite
Prorhinotermes simplex . We empirically confirm the expression of four in silico predicted splice variants (psTERT1‐A ,psTERT1‐B ,psTERT2‐A ,psTERT2‐B ), defined by N‐terminal splicing implicating differential localizations, and C‐terminal splicing giving rise to full‐length and truncated isoforms. We show that the transcript proportions of thepsTERT are caste‐ and tissue‐specific and that the extranuclear full‐length isoformTERT1‐A is relatively enriched in the soma of neotenic kings and queens compared to their gonads and to the soma of workers. We also show that extranuclear TERT protein quantities are significantly higher in the soma of kings and queens compared to workers, namely due to the cytosolic TERT. Independently, we confirm by microscopy the extranuclear TERT localization in somatic organs. We conclude that the presumed pleiotropic action of telomerase combining the canonical nuclear role in telomere maintenance with extranuclear functions is driven by complex TERT splicing. [ABSTRACT FROM AUTHOR] more...- Published
- 2024
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9. Social immune response reflects infection progression in a soldierless termite
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da Silva, Luiza Helena Bueno, Goes, Aryel C., Rodrigues, Andre, Fourcassié, Vincent, McMahon, Dino, and Haifig, Ives
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- 2025
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10. Primitive new termites (Blattodea, Termitoidae) in Cretaceous amber from Myanmar.
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Jiang, Yurong, Deng, Xinru, Shih, Chungkun, Zhao, Yunyun, Ren, Dong, and Zhao, Zhipeng
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CENOZOIC Era , *MESOZOIC Era , *INSECT societies , *ANTENNAS (Electronics) - Abstract
Mastotermitidae, the first-diverging extant family of termites, has only one relic extant species; however, this family had greater richness during the Mesozoic and Cenozoic eras. Fossil termites from the Cretaceous provide information on the early evolution of termites and the transition between extinct families. Herein, two new Mastotermitidae species found in upper Cretaceous (Cenomanian) Kachin amber are reported. One is a female imago described as Angustitermes reflexus gen. et sp. nov. and assigned to the subfamily Mastotermitinae. The other is Mastotermes reticulatus sp. nov., which is described from an isolated forewing. With the comparison especially of the antenna and venation, these new mastotermitids further increase our knowledge of the diversity and morphology of Mastotermitidae during the Mesozoic. [ABSTRACT FROM AUTHOR] more...
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- 2024
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11. Diversidade de Cupins em Áreas de Savana, Submetidas a Diferentes Regimes de Fogo
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Otávio Peres Filho, Keila Sandra de Oliveira, Marcelo Dias de Souza, and Alberto Dorval
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isoptera ,cerrado ,ecologia do fogo ,Termitrap. ,Forestry ,SD1-669.5 - Abstract
RESUMO O trabalho teve como objetivos coletar, identificar e quantificar as espécies de cupins que ocorrem em três áreas de savana submetidas à ação do fogo em diferentes épocas. O estudo foi realizado no município de Cuiabá, estado de Mato Grosso, no período de maio de 2004 a março de 2005. Foram amostradas três áreas distintas quanto à ação do fogo: área 1 - um ano sem ocorrência de fogo; área 2-10 anos sem ocorrência de fogo; área 3-17 anos sem a ocorrência de fogo. Foram utilizadas 20 armadilhas por área, modelo Termitrap. As armadilhas foram dispostas em forma de cruz, permanecendo enterradas no solo por 15 dias a cada período de coleta. As amostras foram levadas ao laboratório, onde foram triadas, quantificadas e acondicionadas em álcool 70%, para identificação. Foram coletados 167.316 indivíduos, distribuídos em 13 espécies, sendo a espécie Heterotermes tenuis a mais representativa quantitativamente nas áreas estudadas. Os cupins apresentaram preferência significativa pela área com 10 anos sem a ausência de fogo e o período de coleta no início das chuvas foi significativamente maior em quantidade de indivíduos, porém com menor quantidade de espécies. more...
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- 2023
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12. Lifespan prolonging mechanisms and insulin upregulation without fat accumulation in long-lived reproductives of a higher termite.
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Séité, Sarah, Harrison, Mark, Sillam-Dussès, David, Lupoli, Roland, Van Dooren, Tom, Robert, Alain, Poissonnier, Laure-Anne, Lemainque, Arnaud, Renault, David, Acket, Sébastien, Andrieu, Muriel, Viscarra, José, Sul, Hei, de Beer, Z, Bornberg-Bauer, Erich, and Vasseur-Cognet, Mireille more...
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Aging ,Animals ,DNA Repair ,Fertility ,Insulin ,Isoptera ,Longevity ,Reproduction ,Up-Regulation - Abstract
Kings and queens of eusocial termites can live for decades, while queens sustain a nearly maximal fertility. To investigate the molecular mechanisms underlying their long lifespan, we carried out transcriptomics, lipidomics and metabolomics in Macrotermes natalensis on sterile short-lived workers, long-lived kings and five stages spanning twenty years of adult queen maturation. Reproductives share gene expression differences from workers in agreement with a reduction of several aging-related processes, involving upregulation of DNA damage repair and mitochondrial functions. Anti-oxidant gene expression is downregulated, while peroxidability of membranes in queens decreases. Against expectations, we observed an upregulated gene expression in fat bodies of reproductives of several components of the IIS pathway, including an insulin-like peptide, Ilp9. This pattern does not lead to deleterious fat storage in physogastric queens, while simple sugars dominate in their hemolymph and large amounts of resources are allocated towards oogenesis. Our findings support the notion that all processes causing aging need to be addressed simultaneously in order to prevent it. more...
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- 2022
13. Cell type specific polyploidization in the royal fat body of termite queens
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Tomonari Nozaki, Eisuke Tasaki, and Kenji Matsuura
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Somatic polyploidy ,Social insects ,Caste differentiation ,Isoptera ,Queen fecundity ,Fat body ,Zoology ,QL1-991 - Abstract
Abstract Tissue-specific endopolyploidy is widespread among plants and animals and its role in organ development and function has long been investigated. In insects, the fat body cells of sexually mature females produce substantial amounts of egg yolk precursor proteins (vitellogenins) and exhibit high polyploid levels, which is considered crucial for boosting egg production. Termites are social insects with a reproductive division of labor, and the fat bodies of mature termite queens exhibit higher ploidy levels than those of other females. The fat bodies of mature termite queens are known to be histologically and cytologically specialized in protein synthesis. However, the relationship between such modifications and polyploidization remains unknown. In this study, we investigated the relationship among cell type, queen maturation, and ploidy levels in the fat body of the termite Reticulitermes speratus. We first confirmed that the termite fat body consists of two types of cells, that is, adipocytes, metabolically active cells, and urocytes, urate-storing cells. Our ploidy analysis using flow cytometry has shown that the fat bodies of actively reproducing queens had more polyploid cells than those of newly emerged and pre-reproductive queens, regardless of the queen phenotype (adult or neotenic type). Using image-based analysis, we found that not urocytes, but adipocytes became polyploid during queen differentiation and subsequent sexual maturation. These results suggest that polyploidization in the termite queen fat body is associated with sexual maturation and is regulated in a cell type-specific manner. Our study findings have provided novel insights into the development of insect fat bodies and provide a basis for future studies to understand the functional importance of polyploidy in the fat bodies of termite queens. more...
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- 2023
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14. Identification of termites from Gabon using MALDI-TOF MS
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Bouthaina Hasnaoui, Adama Zan Diarra, Patrice Makouloutou-Nzassi, Jean-Michel Bérenger, Afaf Hamame, Barthelemy Ngoubangoye, Mapenda Gaye, Bernard Davoust, Oleg Mediannikov, Jean Bernard Lekana-Douki, and Philippe Parola more...
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MALDI-TOF MS ,Termites ,Isoptera ,Gabon ,Pseudacanthotermes militaris ,Macrotermes bellicosus ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Termites are one of the most common pests that damage wood and other cellulosic materials. Although Africa has more varieties of termite species than any other continent, few entomological studies have been conducted in Gabon. Identifying termites poses significant difficulties for entomologists. The aim of this study was to evaluate the reliability and confirm the significance of MALDI-TOF MS in identifying fresh termites collected in equatorial Africa.A total of 108 termites were collected from 13 termite nests during a field mission in 2021 in Lekedi and Bongoville, Gabon. Termites were morphologically identified and subjected to MALDI-TOF MS, then molecular analyses using the COI and 12S rRNA genes.Four termite species were morphologically identified in this study: Pseudacanthotermes militaris, Macrotermes muelleri, Macrotermes nobilis, and Noditermes indoensis. However, when using molecular biology, only three species were identified, namely Macrotermes bellicosus, P. militaris, and N. indoensis, because the specimens initially identified as M. muelleri and M. nobilis were found to be M. bellicosus.The MALDI-TOF MS spectral profiles of the termites were all of good quality, with intra-species reproducibility and inter-species specificity. The spectra of 98 termites were blind tested against our upgraded database, which included the spectra of ten termite specimens. All tested spectra were correctly matched to their respective species, with log score values (LSVs) ranging from 1.649 to 2.592. The mean LSV was 2.215 ± 0.203, and the median was 2.241. However, 95.91% (94/98) of our spectra had LSVs above 1.8. This study demonstrates how a proteomic approach can overcome termites' molecular and morphological identification limitations and serve as a useful taxonomic tool. more...
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- 2024
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15. Resource adaptation drives the size–complexity rule in termites.
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Pequeno, Pedro A. C. L.
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The size–complexity rule posits that the evolution of larger cooperative groups should favour more division of labour. Examples include more cell types in larger multicellular organisms, and more polymorphic castes in larger eusocial colonies. However, a correlation between division of labour and group size may reflect a shared response of both traits to resource availability and/or profitability. Here, this possibility was addressed by investigating the evolution of sterile caste number (worker and soldier morphotypes) in termites, a major clade of eusocial insects in which the drivers of caste polymorphism are poorly understood. A novel dataset on 90 termite species was compiled from the published literature. The analysis showed that sterile caste number did increase markedly with colony size. However, after controlling for resource adaptations and phylogeny, there was no evidence for this relationship. Rather, sterile caste number increased with increasing nest–food separation and decreased with soil-feeding, through changes in worker (but not soldier) morphotype number. Further, colony size increased with nest–food separation, thus driving the false correlation between sterile caste number and colony size. These findings support adaptation to higher energy acquisition as key to the rise of complex insect societies, with larger size being a by-product. [ABSTRACT FROM AUTHOR] more...
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- 2024
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16. DIVERSITY AND DISTRIBUTION OF TERMITES (BLATTODEA: ISOPTERA) IN BHIWANI, HARYANA, INDIA.
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Kumar, Amit, Kalleshwaraswamy, C. M., Sharma, Radhika, and Poonia, Asha
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TERMITES , *ECOLOGICAL regions , *ALLUVIAL plains , *ECOLOGICAL resilience , *ECOLOGICAL niche , *SAND dunes , *SPECIES diversity , *ECOSYSTEMS - Abstract
A comprehensive study was undertaken by collecting 51 samples of termites between July and October 2021 in three distinct zones within the Bhiwani district to analyze the termite diversity of the Bhiwani, Haryana region. The interplay of aeolian dunes characterizes the Bhiwani district’s ecological landscape. Nestled within the Indo-Gangetic alluvial plain, the Loharu Banger zone, and the ruggedness of the Aravalli Hills provide three distinct niches for termite diversity. The study sheds light on the intricate tapestry of termite life inhabiting these diverse ecological niches. Sample identification exhibited termites’ affiliations to two prominent families, Termitidae and Rhinotermitidae and three subfamilies, Amitermitinae, Macrotermitinae, and Coptotermitinae. Further, delving into the taxonomy unveiled a total of ten termite species inhabiting the various locations across the three ecological regions of Bhiwani district including Coptotermes sp., Microtermes mycophagus Desneux, Odontotermes gurdaspurensis Holmgren and Holmgren, Odontotermes redemanni (Wasmann), Odontotermes obesus, Coptotermes kishori, Amitermes belli (Desneux), Microcerotermes sp., Odontotermes guptai Roonwal and Bose, and Odontotermes vaishno Bose. Various diversity indices, including species richness, Simpson’s diversity index, Shannon-Weaver index, and Pielou’s evenness index, were used to determine the relative abundance and distribution of termite species within each zone. These indexes offer a comprehensive view of termite community structure and ecosystem resilience. This pioneering research marks the first-ever documented record of termite biodiversity in Bhiwani district, Haryana. In a region where the study of termites had hitherto been scarce, this endeavor opens doors to a deeper understanding of these soil-dwelling architects of nature. It lays the foundation for future research and pest management strategies in this dynamic ecosystem. [ABSTRACT FROM AUTHOR] more...
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- 2023
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17. Termites from the Northern Atlantic Forest, Brazil: Ecology and Conservation
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Vasconcellos, Alexandre, Cancello, Eliana Marques, da Silva Moura, Flávia Maria, Constantini, Joice Paulo, Ernesto, Matilde Vasconcelos, de Oliveira Couto, Alane Ayana Vieira, da Silva Neto, Antônio Carvalho, Pereira Filho, Gentil Alves, editor, França, Frederico Gustavo Rodrigues, editor, Alves, Rômulo Romeu Nóbrega, editor, and Vasconcellos, Alexandre, editor more...
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- 2023
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18. The Termite Fungal Cultivar Termitomyces Combines Diverse Enzymes and Oxidative Reactions for Plant Biomass Conversion.
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Schalk, Felix, Gostinčar, Cene, Kreuzenbeck, Nina, Conlon, Benjamin, Sommerwerk, Elisabeth, Rabe, Patrick, Burkhardt, Immo, Krüger, Thomas, Kniemeyer, Olaf, Brakhage, Axel, Gunde-Cimerman, Nina, de Beer, Z, Dickschat, Jeroen, Poulsen, Michael, and Beemelmanns, Christine more...
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Termitomyces ,biodegradation ,lignin degradation ,lignocellulose ,metabolites ,redox chemistry ,redox proteins ,secondary metabolism ,symbiosis ,Animals ,Biomass ,Ecosystem ,Gastrointestinal Microbiome ,Gene Expression Profiling ,Genome ,Fungal ,Isoptera ,Lignin ,Oxidation-Reduction ,Oxidative Stress ,Plants ,Symbiosis ,Termitomyces - Abstract
Macrotermitine termites have domesticated fungi in the genus Termitomyces as their primary food source using predigested plant biomass. To access the full nutritional value of lignin-enriched plant biomass, the termite-fungus symbiosis requires the depolymerization of this complex phenolic polymer. While most previous work suggests that lignocellulose degradation is accomplished predominantly by the fungal cultivar, our current understanding of the underlying biomolecular mechanisms remains rudimentary. Here, we provide conclusive omics and activity-based evidence that Termitomyces employs not only a broad array of carbohydrate-active enzymes (CAZymes) but also a restricted set of oxidizing enzymes (manganese peroxidase, dye decolorization peroxidase, an unspecific peroxygenase, laccases, and aryl-alcohol oxidases) and Fenton chemistry for biomass degradation. We propose for the first time that Termitomyces induces hydroquinone-mediated Fenton chemistry (Fe2+ + H2O2 + H+ → Fe3+ + •OH + H2O) using a herein newly described 2-methoxy-1,4-dihydroxybenzene (2-MH2Q, compound 19)-based electron shuttle system to complement the enzymatic degradation pathways. This study provides a comprehensive depiction of how efficient biomass degradation by means of this ancient insects agricultural symbiosis is accomplished. IMPORTANCE Fungus-growing termites have optimized the decomposition of recalcitrant plant biomass to access valuable nutrients by engaging in a tripartite symbiosis with complementary contributions from a fungal mutualist and a codiversified gut microbiome. This complex symbiotic interplay makes them one of the most successful and important decomposers for carbon cycling in Old World ecosystems. To date, most research has focused on the enzymatic contributions of microbial partners to carbohydrate decomposition. Here, we provide genomic, transcriptomic, and enzymatic evidence that Termitomyces also employs redox mechanisms, including diverse ligninolytic enzymes and a Fenton chemistry-based hydroquinone-catalyzed lignin degradation mechanism, to break down lignin-rich plant material. Insights into these efficient decomposition mechanisms reveal new sources of efficient ligninolytic agents applicable for energy generation from renewable sources. more...
- Published
- 2021
19. Assessing the Australian Termite Diversity Anomaly: How Habitat and Rainfall Affect Termite Assemblages
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Clement, RA, Flores-Moreno, H, Cernusak, LA, Cheesman, AW, Yatsko, AR, Allison, SD, Eggleton, P, and Zanne, AE
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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. more...
- Published
- 2021
20. Limited evidence of C4 plant consumption in mound building Macrotermes termites from savanna woodland chimpanzee sites
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Phillips, Seth, Scheffrahn, Rudolf H, Piel, Alex, Stewart, Fiona, Agbor, Anthony, Brazzola, Gregory, Tickle, Alexander, Sommer, Volker, Dieguez, Paula, Wessling, Erin G, Arandjelovic, Mimi, Kühl, Hjalmar, Boesch, Christophe, and Oelze, Vicky M more...
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Climate Change Impacts and Adaptation ,Physical Geography and Environmental Geoscience ,Biological Sciences ,Ecology ,Earth Sciences ,Environmental Sciences ,Climate Change Science ,Africa ,Animals ,Behavior ,Animal ,Carbon ,Carbon Isotopes ,Diet ,Feeding Behavior ,Forests ,Grassland ,Isoptera ,Nitrogen ,Nitrogen Isotopes ,Pan troglodytes ,Plants ,General Science & Technology - Abstract
Stable isotope analysis is an increasingly used molecular tool to reconstruct the diet and ecology of elusive primates such as unhabituated chimpanzees. The consumption of C4 plant feeding termites by chimpanzees may partly explain the relatively high carbon isotope values reported for some chimpanzee communities. However, the modest availability of termite isotope data as well as the diversity and cryptic ecology of termites potentially consumed by chimpanzees obscures our ability to assess the plausibility of these termites as a C4 resource. Here we report the carbon and nitrogen isotope values from 79 Macrotermes termite samples from six savanna woodland chimpanzee research sites across equatorial Africa. Using mixing models, we estimated the proportion of Macrotermes C4 plant consumption across savanna woodland sites. Additionally, we tested for isotopic differences between termite colonies in different vegetation types and between the social castes within the same colony in a subset of 47 samples from 12 mounds. We found that Macrotermes carbon isotope values were indistinguishable from those of C3 plants. Only 5 to 15% of Macrotermes diets were comprised of C4 plants across sites, suggesting that they cannot be considered a C4 food resource substantially influencing the isotope signatures of consumers. In the Macrotermes subsample, vegetation type and caste were significantly correlated with termite carbon values, but not with nitrogen isotope values. Large Macrotermes soldiers, preferentially consumed by chimpanzees, had comparably low carbon isotope values relative to other termite castes. We conclude that Macrotermes consumption is unlikely to result in high carbon isotope values in either extant chimpanzees or fossil hominins. more...
- Published
- 2021
21. 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
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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. more...
- Published
- 2021
22. Cell type specific polyploidization in the royal fat body of termite queens.
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Nozaki, Tomonari, Tasaki, Eisuke, and Matsuura, Kenji
- Subjects
- *
INSECT societies , *TERMITES , *PROTEIN precursors , *FAT cells , *MORPHOGENESIS , *INSECT development - Abstract
Tissue-specific endopolyploidy is widespread among plants and animals and its role in organ development and function has long been investigated. In insects, the fat body cells of sexually mature females produce substantial amounts of egg yolk precursor proteins (vitellogenins) and exhibit high polyploid levels, which is considered crucial for boosting egg production. Termites are social insects with a reproductive division of labor, and the fat bodies of mature termite queens exhibit higher ploidy levels than those of other females. The fat bodies of mature termite queens are known to be histologically and cytologically specialized in protein synthesis. However, the relationship between such modifications and polyploidization remains unknown. In this study, we investigated the relationship among cell type, queen maturation, and ploidy levels in the fat body of the termite Reticulitermes speratus. We first confirmed that the termite fat body consists of two types of cells, that is, adipocytes, metabolically active cells, and urocytes, urate-storing cells. Our ploidy analysis using flow cytometry has shown that the fat bodies of actively reproducing queens had more polyploid cells than those of newly emerged and pre-reproductive queens, regardless of the queen phenotype (adult or neotenic type). Using image-based analysis, we found that not urocytes, but adipocytes became polyploid during queen differentiation and subsequent sexual maturation. These results suggest that polyploidization in the termite queen fat body is associated with sexual maturation and is regulated in a cell type-specific manner. Our study findings have provided novel insights into the development of insect fat bodies and provide a basis for future studies to understand the functional importance of polyploidy in the fat bodies of termite queens. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
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23. A new species of termite, Prorhinotermes cotym (Blattodea: Isoptera: Rhinotermitidae: Prorhinotermitinae), from the Kerala part of the western ghats, India.
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Joseph, Edwin, Amina, Poovoli, Thomas B S, Sarath, Jayan, Namitha, and Mathew, Jobin
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- *
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] more...
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- 2023
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24. A new primitive termite from the lower cretaceous (Albian) Jinju Formation of Korea.
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Jouault, Corentin and Nam, Gi-Soo
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SPECIES - Abstract
A new genus and species of termite is described and figured from the Jinju Formation as Sclerotermes samsiki gen. et sp. nov. This new genus and species is left without family attribution because of the lack of information for body characters (e.g., tarsus configuration, pronotum shape). This new taxon differs from all other termites, inter alia, owing to its forewing with RA with four main branches and its forewing scale heavily sclerotised. This new species is the first termite described from the Jinju Formation. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
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25. Amazonian forest termites: a species checklist from the State of Acre, Brazil.
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Rodrigues Ferreira, Renan, de Lucena, Emanuelly Félix, Koroiva, Ricardo, Almeida deAzevedo, Renato, Haugaasen, Torbjørn, Peres, Carlos A., Hawes, Joseph E., and Vasconcellos, Alexandre
- Subjects
- *
TERMITES , *FOREST plants , *TROPICAL forests , *SCIENCE publishing , *SPECIES , *FOREST reserves - Abstract
The Brazilian state of Acre is located in the southwestern Amazon and it is characterized by a humid tropical forest vegetation that covers plains and mountains. Up to this point, the composition of termite species in the state is not known. The aim of this study was to provide a checklist of termite species or recognizable taxonomic units for the state of Acre. Sampling was conducted through field expeditions at the Serra do Divisor National Park, Chandless State Park, Humaitá Forest Reserve, and Chico Mendes Environmental Park using a standardized rapid termite inventory protocol in the first two areas and active searching collections in the others, without a specific protocol. This study also included occurrence records published in the scientific literature. A total of 128 species and morphospecies of termites were found in Acre, distributed across 59 genera and four families. The most frequently occurring species in Acre was Heterotermes tenuis (Hagen, 1858). The study also identified six new species records for Brazil. The predominant feeding groups were soil-feeders and wood-feeders, as expected from data obtained from surveys in humid tropical forests. Despite the significant number of new records for Acre (112), it is concluded that a larger sampling effort is still required, as many areas of the state have not yet been studied for termites. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
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26. Boosting landfill gas production from lignin-containing wastes via termite hindgut microorganism
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Rahimi, Hoda, Sattler, Melanie L, Hossain, MD Sahadat, and Rodrigues, Jorge LM
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Environmental Management ,Built Environment and Design ,Engineering ,Environmental Sciences ,Chemical Engineering ,Building ,Responsible Consumption and Production ,Animals ,Isoptera ,Lignin ,Methane ,Refuse Disposal ,Waste Disposal Facilities ,Landfill gas ,Municipal solid waste ,Greenhouse gases ,Renewable energy ,Termite microorganism ,Lignocellulose ,Environmental Engineering ,Chemical engineering ,Environmental management - Abstract
Lignocellulose comprises a significant portion of municipal solid waste (MSW) - 40-70% in developed countries, including paper, wood, and yard waste. Cellulose and hemicellulose are often shielded by lignin, posing a barrier to waste decomposition and landfill gas generation. Unfortunately, lignin is resistant to microbial degradation under low-oxygen conditions that normally occur in MSW landfills. The bacterium strain TAV5, microaerophilic and member of phylum Verrucomicrobia, isolated from the hindgut of the Reticulitermes flavipes termite, the most widely distributed subterranean termite in North America. Its genome contains genes associated with methylotrophic competency which code for enzymes that structurally modify lignin. The overall goal of this research was to use TAV5 to modify lignin and boost methane production from MSW. Batch-scale reactors (125 mL) were filled with paper, yard, or wood waste, and four ratios of mixed of waste. Reactors were seeded with different ratios of TAV5 to anaerobic digester (AD) microorganisms (representing landfill anaerobic microorganisms). Based on batch tests, optimal ratios of TAV5 to AD microorganisms were used to seed wastes (mixed, yard, and wood) in 6-gallon reactors. Addition of TAV5 increased methane production from mixed waste, yard waste, and wood, by 49%, 34%, and 297%, respectively. TAV5 decreased acid soluble lignin by 7-39%, depending on waste type. TAV5 grown under aerobic conditions and room temperature (not requiring a heated anaerobic chamber) was found to remain viable and increase methane production under low-level oxygen conditions (1-2%). This finding will potentially lessen costs for growing large volumes of it for seeding landfills. more...
- Published
- 2020
27. Evidence of cospeciation between termites and their gut bacteria on a geological time scale.
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Arora, Jigyasa, Buček, Aleš, Hellemans, Simon, Beránková, Tereza, Romero Arias, Johanna, Fisher, Brian L., Clitheroe, Crystal, Brune, Andreas, Kinjo, Yukihiro, Šobotník, Jan, and Bourguignon, Thomas
- Subjects
- *
GEOLOGICAL time scales , *TERMITES , *COCKROACHES , *BACTERIAL genes , *GUT microbiome , *COMMUNITIES - Abstract
Termites host diverse communities of gut microbes, including many bacterial lineages only found in this habitat. The bacteria endemic to termite guts are transmitted via two routes: a vertical route from parent colonies to daughter colonies and a horizontal route between colonies sometimes belonging to different termite species. The relative importance of both transmission routes in shaping the gut microbiota of termites remains unknown. Using bacterial marker genes derived from the gut metagenomes of 197 termites and one Cryptocercus cockroach, we show that bacteria endemic to termite guts are mostly transferred vertically. We identified 18 lineages of gut bacteria showing cophylogenetic patterns with termites over tens of millions of years. Horizontal transfer rates estimated for 16 bacterial lineages were within the range of those estimated for 15 mitochondrial genes, suggesting that horizontal transfers are uncommon and vertical transfers are the dominant transmission route in these lineages. Some of these associations probably date back more than 150 million years and are an order of magnitude older than the cophylogenetic patterns between mammalian hosts and their gut bacteria. Our results suggest that termites have cospeciated with their gut bacteria since first appearing in the geological record. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
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28. Termite exocrine systems: a review of current knowledge.
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Costa‐Leonardo, Ana Maria, da Silva, Iago Bueno, and Laranjo, Lara Teixeira
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EXOCRINE glands , *DIGESTIVE enzymes , *SPECIES diversity , *CHEMICAL species , *GLANDS - Abstract
In this review, we summarize the 22 exocrine glands hitherto described for termites (Isoptera), highlighting their distribution, morphological features, and likely function. The secretion from such glands displays a very important role in termite communication, but is also attributed to many other activities performed by these insects, including defense, building, and foraging, as well as physiological processes such as the synthesis of digestive enzymes, and antiseptic and lubricant compounds. Here, glands are divided into those associated with termite mouthparts and other head appendages, tegumentary glands with epithelial arrangement, those related to the reproductive apparatus, and glands which do not fit into these divisions. The exocrine systems in termites may be composed of classes 1, 2, and 3 secretory cells, which differ in how the glandular secretion is released. Moreover, they may exhibit a varied composition of secretory cell classes. Different glands may be involved in specific tasks and therefore produce specific compounds, although there are cases in which the same content is secreted by different glands, suggesting a functional plasticity. The chemical nature of these secretions and their role are well known for some glands, such as the frontal, salivary, tergal, and sternal ones. On the other hand, such aspects remain speculative or completely unknown for other glands. The number of termite exocrine glands is extremely low when compared to those described for eusocial Hymenoptera, and is a likely consequence of the higher diversity of species and chemical communication in the latter group. Moreover, vibroacoustic signals represent an important type of communication in termites. Further studies are encouraged to provide new insights into the occurrence and function of the exocrine systems in termites and how they modulate the different activities displayed by them. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
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29. Salivary gland substances of the arboreal termite Nasutitermes corniger induce worker aggregation and gnawing of food substrate.
- Author
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Gazal, Vinícius, Bailez, Omar, and Viana‐Bailez, Ana Maria
- Subjects
- *
SALIVARY glands , *INSECT societies , *FORAGING behavior , *EMPLOYEE recruitment , *COLLECTIVE behavior - Abstract
In social insects, collective behavior is regulated by substances secreted by various glands of different members of society. In this study, we investigate whether salivary glands of the arboreal termite Nasutitermes corniger (Motschulsky) (Isoptera: Termitidae) contain substances that regulate the intensity of foraging behavior. Foraging arenas of N. corniger nests maintained under laboratory conditions received the addition of two filter paper substrates, one impregnated with salivary gland extract from third‐instar small workers (SW3) (treatment) and the other impregnated with distilled water (control). A similar experiment was conducted using salivary gland extract from fourth‐instar large workers (LW4). Occurrences of initial exploration, mass recruitment, and substrate gnawing behaviors, as well as numbers of recruited and gnawing workers, were recorded. There was a higher rate of mass recruitment to treated substrates than to the control (SW3: 80 vs. 25%; LW4: 90 vs. 25%). Gnawing behavior also occurred at higher rates on treated substrates (SW3: 95 vs. 35%; LW4: 100 vs. 45%). The number of workers recruited to and gnawing on treated substrate was significantly higher than the number of workers recruited to and gnawing on control substrate. The higher rates of worker recruitment, as well as the higher numbers of recruited and gnawing workers, show that salivary glands of last‐instar workers contain substances with arresting and/or phagostimulating pheromonal actions or substances that release compounds with these properties. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
- Full Text
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30. Mating mediates morphophysiological changes in the spermathecae of Coptotermes gestroi queens.
- Author
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da Silva, Iago Bueno and Costa‐Leonardo, Ana Maria
- Subjects
- *
QUEEN honeybees , *SECRETORY granules , *MITOCHONDRIAL proteins , *SPERMATHECA , *TERMITES , *ELECTRON density - Abstract
Insect spermathecae play a crucial role in sperm storage and maintenance prior to egg fertilization. Within eusocial insects, this structure is well studied in the Hymenoptera, whose queens copulate during a short period early in life and store sperm for up to decades. Within Isoptera, sperm storage and maintenance inside the spermatheca are poorly understood, especially due to the presence of a sperm‐providing king. Here, we compared the morphometric and morphophysiological features of the spermathecae of virgin and mated queens of the invasive termite Coptotermes gestroi (Wasmann) (Isoptera: Rhinotermitidae). The spermatheca comprises a finger‐shaped reservoir divided into two regions and a duct limited by a narrow transition. The superficial spermatheca area, as well as the luminal area, increase significantly after insemination, even among queens whose reproductive activity was reduced, suggesting that sperm storage continues during such conditions. The secretion of proteins and polysaccharides into the spermathecal lumen was a remarkable feature for both virgin and 4‐year‐old queens, although the concentration of the secreted content increased in the latter group. It suggests that spermatheca activation occurs before pairing, but its secretory activity intensifies to nourish and provide energy for the stored spermatozoa. Ultrastructure of the spermathecal epithelium showed a bicellular unit, composed of a secretory cell and associated canal cells. Secretory vesicles of various electron densities were observed next to the receiving canal of the secretory cells in both virgin and 2‐year‐old queens. Nevertheless, strongly electron‐dense vesicles were only recorded for mated queens, which were associated with the increasing synthesis of proteins. The occurrence of rough endoplasmic reticulum and richness of mitochondria reinforces the protein synthesis and transport of contents towards the spermathecal lumen. In conclusion, the spermatheca of C. gestroi undergoes morphometric and physiological changes after mating, and further analysis may provide insights into the chemical nature of the spermathecal secretion prior to and after this event. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
- Full Text
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31. Transcriptomic profiling of castes and of sexually and parthenogenetically produced reproductive females in the termite Cavitermes tuberosus.
- Author
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de Souza Araujo, Natalia, Hellemans, Simon, Roisin, Yves, and Fournier, Denis
- Subjects
- *
GENOMIC imprinting , *CASTE , *GENE expression , *TERMITES , *INSECT societies , *TRANSCRIPTOMES , *INSULIN receptors - Abstract
In termites with a true worker caste, the development pattern splits up from early developmental stages: primary reproductives develop through the nymphal line, whereas workers and soldiers follow the apterous developmental line. In some species, such as Cavitermes tuberosus Emerson (Isoptera: Termitidae, Termitinae), secondary reproductives (or neotenics) may also develop through the nymphal line from a transitional stage called aspirant. Aspirants originate mostly from automictic parthenogenetic reproduction. Therefore, C. tuberosus queens originate from sexual (primary queens) or parthenogenetic (neotenic queens) reproduction. A comparison of these two queen castes offers the possibility to better understand core molecular underpinnings of caste development and plasticity in termites. We investigated these molecular mechanisms by using high‐throughput Illumina RNA sequencing of pooled individuals. We first assembled the de novo reference transcriptome of C. tuberosus, and then identified the transcripts consistently co‐expressed across castes, sexes, and two alternative routes to female reproduction. Cavitermes tuberosus final transcriptome had 130 874 transcripts, N50 of 3398, and total length of 213 549 184 bp. We found that female reproductive maturation was characterized by gene expression down‐regulation: primary queens expressed fewer transcripts overall and had the greatest number of down‐regulated transcripts when compared to all other castes. In both secondary and primary queens, biological processes involved in muscle development and contraction, flight, and olfactory learning were enriched in the down‐regulated gene cluster. In contrast, processes related to reproductive development, insulin receptor signaling pathway, isoprenoid biosynthesis, and multiple metabolic processes were enriched among up‐regulated genes in primary queens. Finally, we found that 17% of all transcripts (21852) were differently co‐expressed when females from sexual and parthenogenetic origins were compared, even though the expression profile of core reproductive‐related gene clusters showed a similar trend in all reproductive females despite their origin. Our findings fit the genomic imprinting model predictions of a maternal effect that commonly regulates the expression of core reproductive genes in females from parthenogenetic and non‐parthenogenetic origins, whereas the expression of non‐reproductive genes varies. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
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32. Mitochondrial COI based molecular identification of harvester termite, Anacanthotermes ochraceus (Burmeister, 1839) in Riyadh Region, the Kingdom of Saudi Arabia
- Author
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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
- Subjects
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. more...
- Published
- 2023
- Full Text
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33. Neotropical termite microbiomes as sources of novel plant cell wall degrading enzymes
- Author
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Romero Victorica, Matias, Soria, Marcelo A, Batista-García, Ramón Alberto, Ceja-Navarro, Javier A, Vikram, Surendra, Ortiz, Maximiliano, Ontañon, Ornella, Ghio, Silvina, Martínez-Ávila, Liliana, Quintero García, Omar Jasiel, Etcheverry, Clara, Campos, Eleonora, Cowan, Donald, Arneodo, Joel, and Talia, Paola M more...
- Subjects
Microbiology ,Biological Sciences ,Environmental Sciences ,Microbiome ,Nutrition ,Oral and gastrointestinal ,Animals ,Bacteria ,Bacterial Proteins ,Cell Wall ,Cellulose ,Gastrointestinal Microbiome ,Glycoside Hydrolases ,Isoptera ,Plant Cells ,Species Specificity ,Wood - Abstract
In this study, we used shotgun metagenomic sequencing to characterise the microbial metabolic potential for lignocellulose transformation in the gut of two colonies of Argentine higher termite species with different feeding habits, Cortaritermes fulviceps and Nasutitermes aquilinus. Our goal was to assess the microbial community compositions and metabolic capacity, and to identify genes involved in lignocellulose degradation. Individuals from both termite species contained the same five dominant bacterial phyla (Spirochaetes, Firmicutes, Proteobacteria, Fibrobacteres and Bacteroidetes) although with different relative abundances. However, detected functional capacity varied, with C. fulviceps (a grass-wood-feeder) gut microbiome samples containing more genes related to amino acid metabolism, whereas N. aquilinus (a wood-feeder) gut microbiome samples were enriched in genes involved in carbohydrate metabolism and cellulose degradation. The C. fulviceps gut microbiome was enriched specifically in genes coding for debranching- and oligosaccharide-degrading enzymes. These findings suggest an association between the primary food source and the predicted categories of the enzymes present in the gut microbiomes of each species. To further investigate the termite microbiomes as sources of biotechnologically relevant glycosyl hydrolases, a putative GH10 endo-β-1,4-xylanase, Xyl10E, was cloned and expressed in Escherichia coli. Functional analysis of the recombinant metagenome-derived enzyme showed high specificity towards beechwood xylan (288.1 IU/mg), with the optimum activity at 50 °C and a pH-activity range from 5 to 10. These characteristics suggest that Xy110E may be a promising candidate for further development in lignocellulose deconstruction applications. more...
- Published
- 2020
34. First outdoor records in the Old World of the invasive drywood termite, Cryptotermes brevis (Walker, 1853) (Kalotermitidae).
- Author
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Najjari, Aya, Taheri, Ahmed, Hernández‐Teixidor, David, and Wetterer, James K.
- Subjects
- *
DEAD trees , *WORLD records , *GIANT reed , *AGRICULTURE , *WOOD , *INTRODUCED species , *PYRALIDAE - Abstract
Cryptotermes brevis (Walker, 1853) (Kalotermitidae), commonly called the West Indian drywood termite, is an important structural pest in many parts of the world. Almost all records of C. brevis come from timber or furniture inside human structures. Although originally described for Jamaica, this species appears to be native to the coastal desert area of Peru and Chile, where it commonly occurs outdoors in the dead wood of both living and dead trees in riparian habitats and irrigated agricultural areas. Here, we report outdoor records of C. brevis from an agricultural habitat at the western edge of the Sahara Desert, an area climatically similar to their native range in South America. This constitutes the first outdoor report of the invasive termite in the Old World. In Dakhla, Moroccan Sahara, we found these termites living in the dead wood of a Brazilian peppertree (Schinus terebinthifolia Raddi) and the hollow stems of giant reeds (Arundo donax L.). In North Africa, C. brevis is otherwise known only from structural timbers in northern Egypt. Whether this termite become a significant pest in North Africa remains to be seen. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
- Full Text
- View/download PDF
35. Diversity of Termites from Durgapur Government College Campus, Paschim Bardhaman, West Bengal, India.
- Author
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ROY, UTPAL SINGHA
- Abstract
The present study was carried out inside Durgapur Government College campus to enlist the diversity of termites by direct search method. A total of six different termite species (Odontotermes feae, O. horni, O. gurdaspurensis, O. redemanni, Microtermes obesi and Coptotermes heimi) were recorded during the present study. Ant species and termites were found to be closely associated in sharing the habitable space inside the campus. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
- Full Text
- View/download PDF
36. Diversity of termite species and their distribution in various habitats in Palakkad district, Kerala
- Author
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Velayuthan, Sijinamanoj, Kalleshwaraswamy, C.M., Thangavelu, Muthukumar, Kulandaivel, Saminathan, and Palanisamy, Kathireswari
- Published
- 2022
- Full Text
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37. Inhibitory effect of usnic acid on the gut microbiota of the termite Constrictotermes cyphergaster.
- Author
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de Oliveira, Mário Herculano, Lacerda-Rolim, Maria do Socorro, Barbosa-Silva, Ana Márcia, Abad, Atzel Candido Acosta, Mota, Rinaldo Aparecido, Pereira, Eugênia C., Martins, Mônica Cristina Barroso, de Lima, Liziane Maria, and Bezerra-Gusmão, Maria Avany more...
- Abstract
Termites are usually associated with the decomposition of dead wood, although the diets of many species encompass other resources such as cactus, humus, feces, carcasses and lichens. Some components of their diets, however, may be associated with non-nutritional functions. The termite Constrictotermes cyphergaster has a varied diet, with dead wood being the main item consumed, but with lichens as secondary resources. The question concerning why lichens are consumed appears complicated, and needs careful study in a step-wise analysis. The present study was designed to examine and understand the effects of usnic acid, a secondary lichen metabolite, on the growth of bacteria associated with the gut microbiota of C. cyphergaster. Our results showed significant control of termite gut bacteria by usnic acid as compared with a treatment without it. Thus usnic acid appears to help the termite, possibly by controlling gut microbiota and avoiding diseases associated with entomopathogenic bacteria. [ABSTRACT FROM AUTHOR] more...
- Published
- 2023
- Full Text
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38. 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] more...
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- 2023
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39. Cryptic subterranean diversity: regional phylogeography of the sand termite Psammotermes allocerus Silvestri, 1908 in the wider Namib region.
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Gunter, Felicitas, Oldeland, Jens, Picker, Mike D., Henschel, Joh R., and Jürgens, Norbert
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- *
PHYLOGEOGRAPHY , *TERMITES , *HAPLOTYPES , *GENETIC distance , *SAND , *RAINFALL - Abstract
Psammotermes allocerus Silvestri, 1908 is the only described species representing the genus Psammotermes Desneux, 1902 in Southern Africa. The large geographical range of this subterranean termite covers both summer and winter rainfall regimes. Deadwood is the preferred food when available, but in more arid habitats, both live and dead grasses form the major dietary component. Along the Namib Desert margins, the species' localised herbivory creates circular bare patches known as fairy circles. For a regional phylogeographic study of this species, we sampled 65 sand termite populations within drier parts of Namibia, South Africa, and Angola. Based on combined molecular and ecological data, we found considerable genetic diversification within P. allocerus. Analyses of two mitochondrial markers (COI, COII), including a Bayesian inference tree, haplotype analysis and genetic distances suggest a delineation into seven highly differentiated genetic groups. The 'Succulent Karoo' group is additionally characterised by unique features of the royal chamber, nest and tunnel system. In conclusion, our data suggest that P. allocerus should be not regarded as one species but as a species complex. Termites of each analysed group 'Northern Namib', 'Western Kalahari Basin', 'Nama', 'Southwestern Kalahari', 'East Gariep', 'Southern Namib' and 'Succulent Karoo' should be considered as distinct species. The species name P. allocerus should be used for termites of the 'Succulent Karoo'. [ABSTRACT FROM AUTHOR] more...
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- 2023
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40. The mite Acarus farris inducing defensive behaviors and reducing fitness of termite Coptotermes formosanus: implications for phoresy as a precursor to parasitism
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Yong Chen, Lijun Zhang, Shijun Zhang, Bingrong Liu, Wenhui Zeng, and Zhiqiang Li
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Astigmata ,Isoptera ,Interspecific relationship ,Phoresy ,Parasitism ,Ecology ,QH540-549.5 ,Evolution ,QH359-425 - Abstract
Abstract Background The ecology and evolution of phoretic mites and termites have not been well studied. In particular, it is unknown whether the specific relationship between mites and termites is commensal or parasitic. High phoretic mite densities have often been found to occur in weak termite colonies, suggesting that the relationship is closer to that of parasitism than commensalism. Results To examine this, Coptotermes formosanus was used as a carrier, and Acarus farris as the phoretic mite. We used video recordings to observe termite social immunity behaviors and bioassay to examine termite fitness. Our results showed that the attachment of the mite on the termite can enhance termite social immunity behaviors like alarm vibration and grooming frequency while decreasing the duration of individual grooming episodes in phoretic mites. Further, A. farris phoresy led to a 22.91% reduction in termite abdomen volume and a 3.31-fold increase in termite mortality. Conclusions When termites groom more frequently, the consequence is short duration of grooming bouts. This may be indicative of a trade-off which provides suggestive evidence that frequent social behaviors may cost termites energy. And this caused phoretic behavior hastened termites’ death, and helped propagate the population of mites feeding on dead termites. So, it provides a case for phoresy being a precursor to parasitism, and the specific relationship between A. farris and C. formosanus is closer to parasitism than to commensalism. more...
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- 2022
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41. The functional evolution of termite gut microbiota
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Jigyasa Arora, Yukihiro Kinjo, Jan Šobotník, Aleš Buček, Crystal Clitheroe, Petr Stiblik, Yves Roisin, Lucia Žifčáková, Yung Chul Park, Ki Yoon Kim, David Sillam-Dussès, Vincent Hervé, Nathan Lo, Gaku Tokuda, Andreas Brune, and Thomas Bourguignon more...
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Isoptera ,Endosymbionts ,Metagenomics ,Vertical inheritance ,Microbial ecology ,QR100-130 - Abstract
Abstract Background Termites primarily feed on lignocellulose or soil in association with specific gut microbes. The functioning of the termite gut microbiota is partly understood in a handful of wood-feeding pest species but remains largely unknown in other taxa. We intend to fill this gap and provide a global understanding of the functional evolution of termite gut microbiota. Results We sequenced the gut metagenomes of 145 samples representative of the termite diversity. We show that the prokaryotic fraction of the gut microbiota of all termites possesses similar genes for carbohydrate and nitrogen metabolisms, in proportions varying with termite phylogenetic position and diet. The presence of a conserved set of gut prokaryotic genes implies that essential nutritional functions were present in the ancestor of modern termites. Furthermore, the abundance of these genes largely correlated with the host phylogeny. Finally, we found that the adaptation to a diet of soil by some termite lineages was accompanied by a change in the stoichiometry of genes involved in important nutritional functions rather than by the acquisition of new genes and pathways. Conclusions Our results reveal that the composition and function of termite gut prokaryotic communities have been remarkably conserved since termites first appeared ~ 150 million years ago. Therefore, the “world’s smallest bioreactor” has been operating as a multipartite symbiosis composed of termites, archaea, bacteria, and cellulolytic flagellates since its inception. Video Abstract more...
- Published
- 2022
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42. The digestive system in Zygentoma as an insect model for high cellulase activity
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Pothula, Ratnasri, Shirley, Derek, Perera, OP, Klingeman, William E, Oppert, Cris, Abdelgaffar, Heba MY, Johnson, Brian R, and Jurat-Fuentes, Juan Luis
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Agricultural ,Veterinary and Food Sciences ,Biological Sciences ,Ecology ,Animals ,Cellulase ,Cockroaches ,Digestive System ,Endo-1 ,4-beta Xylanases ,Insect Proteins ,Insecta ,Isoptera ,Lepisma ,Models ,Biological ,Polygalacturonase ,Species Specificity ,Transcriptome ,General Science & Technology - Abstract
The digestive system of selected phytophagous insects has been examined as a potential prospecting resource for identification of novel cellulolytic enzymes with potential industrial applications. In contrast to other model species, however, limited detailed information is available that characterizes cellulolytic activity and systems in basal hexapod groups. As part of a screening effort to identify insects with highly active cellulolytic systems, we have for the first time, identified species of Zygentoma that displayed the highest relative cellulase activity levels when compared to all other tested insect groups under the experimental conditions, including model species for cellulolytic systems such as termite and cockroach species in Rhinotermitidae (formerly Isoptera) and Cryptocercidae (formerly Blattodea). The goal of the present study was to provide a morphohistological characterization of cellulose digestion and to identify highly active cellulase enzymes present in digestive fluids of Zygentoma species. Morphohistological characterization supported no relevant differences in the digestive system of firebrat (Thermobia domestica) and the gray silverfish (Ctenolepisma longicaudata). Quantitative and qualitative cellulase assays identified the foregut as the region with the highest levels of cellulase activity in both T. domestica and C. longicaudata. However, T. domestica was found to have higher endoglucanase, xylanase and pectinase activities compared to C. longicaudata. Using nano liquid chromatography coupled to tandem mass spectrometry (nanoLC/MS/MS) and a custom gut transcriptome we identified cellulolytic enzymes from digestive fluids of T. domestica. Among the identified enzymes we report putative endoglucanases matching to insect or arthropod enzymes and glucan endo-1,6-β-glucosidases matching bacterial enzymes. These findings support combined activities of endogenous and symbiont-derived plant cell wall degrading enzymes in lignocellulose digestion in Zygentoma and advance our understanding of cellulose digestion in a primitive insect group. more...
- Published
- 2019
43. Atlas of the Most Common Xylophagous Insects
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Toriti, Magali, Durand, Aline, Fohrer, Fabien, Toriti, Magali, Durand, Aline, and Fohrer, Fabien
- Published
- 2021
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44. Sampling Methods for Termites (Insecta: Blattaria: Isoptera)
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Constantino, Reginaldo, Santos, Jean Carlos, editor, and Fernandes, Geraldo Wilson, editor
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- 2021
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45. Morphology of the head-associated exocrine glands in Cornitermes cumulans with the description of a novel gland for the worker caste.
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Costa-Leonardo AM, Janei V, Bacci LMG, and Silva IBD
- Abstract
Exocrine glands are important mediators of communication in eusocial insects and the description of novel glands reflects the complex context in which these animals live. Here we revisit the head-associated glands in workers of the Neotropical termite Cornitermes cumulans through histological analysis and describe a novel gland for this caste, the intramandibular glands. This structure is located underneath the cuticle of the dorsodistal part of each mandible. The glands showed an epithelial arrangement, but the cytological morphology is complex, comprising classes I and III of secretory cells. The present data highlight the importance of the intramandibular glands in the worker caste and demonstrate different morphology of these glands in Isoptera, probably related to the specialized function of the castes. Features of active glandular activity were also observed in the mandibular, labral, and salivary glands of these workers. Despite the intramandibular glands being also found in workers of other social insects, their occurrence in termites was restricted to the soldier caste of Machadotermes. Even so, their cytological structure differs from those of C. cumulans workers. The likely function of the worker intramandibular glands is discussed considering the separate-nest life type present by C. cumulans and tasks performed by workers. The chemical nature of the secretion and the occurrence of the glands in other termite taxa still require further investigation., (Copyright © 2024 Elsevier Ltd. All rights reserved.) more...
- Published
- 2024
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46. Novel acrylamide-based baits for effective control of subterranean termites (Blattodea: Rhinotermitidae).
- Author
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Abbas S, Alam A, Abbas M, Xiao F, Jiali L, Daood U, Hafeez F, Shakeel M, Ali J, Khan KA, Ghramh HA, Romano D, and Ri Zhao C
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- Animals, Wood chemistry, Juglans chemistry, Boric Acids, Isoptera, Acrylamide, Insect Control methods
- Abstract
Background: Acrylamide-based bait has super water absorption making it highly attractive to subterranean termites that are lured by wood with high water content. This study investigated the control efficiency of these baits on subterranean termites. In particular, we evaluated the water-absorption capacity, attractiveness to subterranean termites, and control efficiency of these baits on subterranean termites through wooden blocks (Populus deltoides and three types of particleboards)., Results: The results indicated a substantial water absorption capacity of acrylamide (70.6%; control: 14.8%) and a strong attraction for feeding subterranean termites (P. deltoides: 198 highest; 81 lowest subterranean termites individuals; combination of neem leaves and walnut shells: 168 highest; 36 lowest subterranean termites individuals). When acrylamide was combined with boric acid at the highest concentration, it resulted in the lowest wood consumption rates (P. deltoides: 24.1%; control: 63.8%, combination of neem leaves and walnut shells: 32.5%; control: 62.1%)., Conclusions: In conclusion, this research supports the commercial viability of employing innovative acrylamide-based toxic baits and particleboards for subterranean termite management. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.) more...
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- 2024
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47. The toxic impact of the extract of the Dieffenbachia picta leaves on the ratio of death in the termites' workers Microcerotermes diversus (silvestri) [Isoptera: Termitidae]
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Sundus Hussein Alwan
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microcerotermes ,isoptera ,plant toxicity ,calcium oxalate ,dieffenbachia picta ,Environmental sciences ,GE1-350 ,Science - Abstract
Effects of the extract obtained from the Dieffinbachia picta leaves were examined on the termite workers of Microcerotermes diversus using four treatments (T) including 25%, 50%, 75% and 100% by spraying. The results showed mortality rate in the termite workers at different periods of time. T100% recorded the highest mortality rates (8%, 8.67% and 9%) after 24, 48 and 72 hours respectively, while the minimum mortality in the insect workers was recorded at T25% as 1.7%, 2.3% and 3.7% after 24, 48 and 72 hours respectively. According to results of the present study, there is a possible advantage of the toxic properties of D. picta leaves as an alternative and effective plant pesticides for combating the termite of M. diversus. more...
- Published
- 2022
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48. 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. more...
- Published
- 2023
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49. Evolutionary history of Nasutitermes kemneri (Termitidae, Nasutitermitinae), a termite from the South American diagonal of open formations
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Karolina S. Kohari, Valeria Palma-Onetto, Rudolf H. Scheffrahn, Alexandre Vasconcellos, Eliana M. Cancello, Rafaella G. Santos, and Tiago F. Carrijo
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Isoptera ,phylogeography ,molecular phylogeny ,biogeography ,Chaco ,Cerrado ,Evolution ,QH359-425 ,Ecology ,QH540-549.5 - Abstract
Little is known about the phylogeography of termites in the Neotropical region. Here, we explored the genetic patterns and phylogeographical processes in the evolutionary history of Nasutitermes kemneri, an endemic termite of the South American diagonal of open formations (DOF) formed by the Chaco, Cerrado, and Caatinga phytogeographic domains. We sampled 60 individuals across the three domains of the DOF, and using the mitochondrial genes 16S, COI, and COII, as well as the nuclear gene ITS, evaluated the genetic diversity and divergence time of the populations, along with their genetic structure. The results show a strong genetic and spatial structure within the samples, evidencing the existence of two well-differentiated genetic groups: the Northeastern and the Southwestern populations, which diverged about 2.5 Mya, during the Pliocene-Pleistocene boundary. The Northeastern population, which encompasses Caatinga and northern portions of Cerrado, has an intricate structure and seems to have suffered repetitive retraction-expansion events due to climactic fluctuations during the Quaternary. The Southwestern population, which ranges from central-south Cerrado to the northeast peripherical portions of the Chaco, displays a star-shaped haplotype structure, indicating that this region may have acted as a refugia during interglacial periods. more...
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- 2022
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50. Schievitermes globicornis, a new genus and species of Termitinae (Blattodea, Termitidae) from French Guiana.
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Roisin, Yves
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- *
SPECIES , *MANDIBLE , *CASTE , *ANATOMY , *MITOCHONDRIAL DNA , *MILITARY personnel - Abstract
Asymmetrical snapping mandibles have evolved several times in termites. In the Neotropics, asymmetrical snapping mandibles are found in soldiers of four genera: Neocapritermes, Planicapritermes, Cornicapritermes and Dihoplotermes. Here, I describe Schievitermes globicornis, new genus and species, from French Guiana. This genus is characterized by an absence of a frontal prominence and slightly asymmetrical mandibles in the soldier caste. The morphology and anatomy of the worker reveal a wood-based diet, and suggest that Schievitermes, Planicapritermes and Neocapritermes constitute a monophyletic group, which is consistent with mtDNA data. [ABSTRACT FROM AUTHOR] more...
- Published
- 2022
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