Diverse caddis flies are recently collected from the Middle Jurassic Daohugou fauna in Ningcheng County, Inner Mongolia, northern China, and different types of caddis cases have been reported in the same locality. A n...Diverse caddis flies are recently collected from the Middle Jurassic Daohugou fauna in Ningcheng County, Inner Mongolia, northern China, and different types of caddis cases have been reported in the same locality. A new species of caddisfly, Liadotaulius daohugouensis sp. nov. is described and illustrated; the establishment is based on a well-preserved isolated forewing collected from the Middle Jurassic Jiulongshan Formation of Daohugou. The family status of Liadotaulius is discussed on the basis of new material and is referred to the family Philopotamidae. The Daohugou fauna continues to provide new data for studying the early evolution of Trichoptera.展开更多
One new genus with a new fossil species,Declinimodus setulosus gen.et sp.nov.which was found in the Middle Jurassic Jiulongshan Formation of Daohugou,Inner Mongolia,China,are described and illustrated.The new species ...One new genus with a new fossil species,Declinimodus setulosus gen.et sp.nov.which was found in the Middle Jurassic Jiulongshan Formation of Daohugou,Inner Mongolia,China,are described and illustrated.The new species is assigned to the Rhyacophilidae according to buttonshaped of the 2nd segment of maxillary palp,and the forked R1 (in the forewing,located near apex).These new discovery are the earliest fossil records of Rhyacophilidae,which providing important evident for the study of the origin and early evolution of Trichoptera.展开更多
A rich fauna of Ephemeroptera(mayfly),Plecoptera(stonefly) and Trichoptera(caddisfly)(EPT) were collected from 14 highland streams discharging into the Temenggor Reservoir in Perak in the northern peninsular Malaysia....A rich fauna of Ephemeroptera(mayfly),Plecoptera(stonefly) and Trichoptera(caddisfly)(EPT) were collected from 14 highland streams discharging into the Temenggor Reservoir in Perak in the northern peninsular Malaysia.Out of the 3 orders,Ephemeroptera was the most diverse but Trichoptera was the most abundant.45 genera that belonged to 25 families of EPT were recorded.Distribution of EPT varied significantly between orders and types of streams they inhabited.Their diversity and abundance were higher in the second and third order streams.There was no significant relationship between environmental parameters and diversity as well as abundance of EPT in these streams.Their diversity indices together with EPT taxa richness scores referred to clean water environment,hence very suitable for these insects.The EPT taxa richness calculated for the 14 streams reflected that 13 out of 14 streams were undisturbed having good water quality(value of EPT taxa richness > 10).Previous logging and mining activities were suspected to be the main cause for tremendous disappearance of EPT genera in the Kelian stream.Since no previous human activities were recorded around the Telang stream,natural phenomena possibly contributed to low abundance of these insects in the Telang stream.展开更多
Temperature is a key factor that shapes the distribution of organisms.Having knowledge about how species respond to temperature is relevant to devise strategies for addressing the impacts of climate change.Aquatic ins...Temperature is a key factor that shapes the distribution of organisms.Having knowledge about how species respond to temperature is relevant to devise strategies for addressing the impacts of climate change.Aquatic insects are particularly vulnerable to climate change,yet there is still much to learn about their ecology and distribution.In the Yungas ecoregion of Northwestern Argentina,cold-and warm-adapted species of the orders Ephemeroptera,Plecoptera,and Trichoptera(EPT)are segregated by elevation.We modeled the ecological niche of South American EPT species in this region using available data and projected their potential distribution in geographic space.Species were grouped based on their ecogeographic similarity,and we analyzed their replacement pattern along elevation gradients,focusing on the ecotone where opposing thermal preferences converge.Along this interface,we identified critical points where the combined incidence of cold and warm assemblages maximizes,indicating a significant transition zone.We found that the Montane Cloud Forest holds the interface,with a particularly greater suitability at its lower boundary.The main axis of the interface runs in a N-S direction and falls between 14°C-16°C mean annual isotherms.The probability of a particular location within a basin being classified as part of the interface increases as Kira’s warmth index approaches a score around 150.Understanding the interface is critical for defining the thermal limits of species distribution and designing biomonitoring programs.Changes in the location of thermal constants related to mountainous ecotones may cause vertical displacement of aquatic insects and vegetation communities.We have recognized significant temperature thresholds that serve as indicators of suitability for the interface.As global warming is anticipated to shift these indicators,we suggest using them to monitor the imprints of climate change on mountain ecosystems.展开更多
The molecular phylogenetics of the Lepidoptera (butterflies and moths) is well studied, but that of Trichoptera (caddisflies), the sister clade of Lepidoptera, is less studied. The PCR primer libraries developed f...The molecular phylogenetics of the Lepidoptera (butterflies and moths) is well studied, but that of Trichoptera (caddisflies), the sister clade of Lepidoptera, is less studied. The PCR primer libraries developed for lepidopteran phylogenetics might work in Trichoptera. DNA from 8 caddisfly species (Asynarchus nigriculus (Banks, 1908), Grammotaulius lorettae Denning, 1941, Hesperophylax occidentalis (Banks, 1908), Limnephilus externus Hagen, 1861, Limnephilus picturatus McLachlan, 1875, Limnephilus secludens Banks, 1914, Limnephilus sublunatus Provancher, 1877 and Agrypnia deflata (Milne, 1931)) was used to screen for amplification. 107 primer pairs for 45 nuclear and 3 mitochondrial genes were tested. Primers for 1 new gene (40S ribosomalprotein $2 (RPS2)) and 8 genes previously used in Trichopteran phylogenetics were recovered (16S rRNA, 18S rRNA, carbamoyl-phosphate synthetase (CAD), cytoehrome oxidase I (CO1), cytochrome oxidase 11 (COIl), elongation factor-1 alpha (EF-1 alpha), isoeitrate dehydrogenase (IDH), and RNA polymerase-II (POL-I1)). New primer pairs extended the genomic region sampled for many genes. Evolution rates among loci varied by 2 orders of magnitude. Differences among evolution rates and modes of inheritance offer flexible tools for resolving phylogenetic questions and examining genome evolution in the Trichoptera. Screening libraries of PCR primers is a useful approach for identifying PCR primers in related taxa with limited molecular genetic resources.展开更多
Along 8km extent of the river down from the dam of Zhexi Reservoir in Hunan Province,the population of an insect named Amphipsyche proluta MacLachlan has been rising in great quantities every year.Based on previous re...Along 8km extent of the river down from the dam of Zhexi Reservoir in Hunan Province,the population of an insect named Amphipsyche proluta MacLachlan has been rising in great quantities every year.Based on previous reports on the life history and living habits of this caddisfly, the ecological characteristics of this insect, including its water environment for living, reaction to flowing speed and depth of water, its natural enimies situation,and influence from haman activities,are described specially in this paper.It provides theoretical basis for following study on the integrated management of this insect.展开更多
Three lepidopteran species, from the Middle Jurassic Daohugou beds (inner Mongolia, China), are described in a new family, Mesokristenseniidae, and new genus, Mesokristensenia, which could represent the sister group...Three lepidopteran species, from the Middle Jurassic Daohugou beds (inner Mongolia, China), are described in a new family, Mesokristenseniidae, and new genus, Mesokristensenia, which could represent the sister group of the Micropterigidae. Mesokristensenia differs from all extant Lepidoptera, but one genus (Agathiphaga, Agathiphagidae), in retaining four median veins in the forewing, a plesiomorphy also present in many Trichoptera. Evidence for placing Mesokristensenia in the Lepidoptera includes four traits, notably a previously unrecorded autapomorphy of this insect order: beyond stem Ml+2, vein M1 is bent and connected to cross-vein r-m (in both wing pairs). Among 24 characters taken into account to assess the systematic position of Mesokristensenia, 12 are considered informative for a cladistic analysis involving this fossil taxon and the four suborders recognized in present-day Lepidoptera (Zeugloptera, Aglossata, Heterobathmiina, and Glossata).展开更多
基金supported by the Chinese Academy of Sciences (grant no. KZCX2-YW- QN104)the National Basic Research Program of China (2012CB821903)the National Science Foundation of China (grants no.91114201,40632010 and J0930006)
文摘Diverse caddis flies are recently collected from the Middle Jurassic Daohugou fauna in Ningcheng County, Inner Mongolia, northern China, and different types of caddis cases have been reported in the same locality. A new species of caddisfly, Liadotaulius daohugouensis sp. nov. is described and illustrated; the establishment is based on a well-preserved isolated forewing collected from the Middle Jurassic Jiulongshan Formation of Daohugou. The family status of Liadotaulius is discussed on the basis of new material and is referred to the family Philopotamidae. The Daohugou fauna continues to provide new data for studying the early evolution of Trichoptera.
基金funded by grants from the National Basic Research Program of China (973 Program) (No. 2012CB821900)The National Natural Science Foundation of China (No. 31372242, 41272006, 31230065)+3 种基金Fok Ying-Tong Education Foundation for Young Teachers in the Higher Education Institutions of China (No. 131021)Project of Outstanding Young-aged Talents of Beijing Municipal Commission of Education (No.CIT & TCD201304163)the Project of Great Wall Scholar and KEY project of Beijing Municipal Commission of Education (grants KZ201310028033)the State Key Laboratory of Palaeobiology and Stratigraphy (Nanjing Institute of Geology and Palaeontology, CAS) (No.123114)
文摘One new genus with a new fossil species,Declinimodus setulosus gen.et sp.nov.which was found in the Middle Jurassic Jiulongshan Formation of Daohugou,Inner Mongolia,China,are described and illustrated.The new species is assigned to the Rhyacophilidae according to buttonshaped of the 2nd segment of maxillary palp,and the forked R1 (in the forewing,located near apex).These new discovery are the earliest fossil records of Rhyacophilidae,which providing important evident for the study of the origin and early evolution of Trichoptera.
文摘A rich fauna of Ephemeroptera(mayfly),Plecoptera(stonefly) and Trichoptera(caddisfly)(EPT) were collected from 14 highland streams discharging into the Temenggor Reservoir in Perak in the northern peninsular Malaysia.Out of the 3 orders,Ephemeroptera was the most diverse but Trichoptera was the most abundant.45 genera that belonged to 25 families of EPT were recorded.Distribution of EPT varied significantly between orders and types of streams they inhabited.Their diversity and abundance were higher in the second and third order streams.There was no significant relationship between environmental parameters and diversity as well as abundance of EPT in these streams.Their diversity indices together with EPT taxa richness scores referred to clean water environment,hence very suitable for these insects.The EPT taxa richness calculated for the 14 streams reflected that 13 out of 14 streams were undisturbed having good water quality(value of EPT taxa richness > 10).Previous logging and mining activities were suspected to be the main cause for tremendous disappearance of EPT genera in the Kelian stream.Since no previous human activities were recorded around the Telang stream,natural phenomena possibly contributed to low abundance of these insects in the Telang stream.
文摘Temperature is a key factor that shapes the distribution of organisms.Having knowledge about how species respond to temperature is relevant to devise strategies for addressing the impacts of climate change.Aquatic insects are particularly vulnerable to climate change,yet there is still much to learn about their ecology and distribution.In the Yungas ecoregion of Northwestern Argentina,cold-and warm-adapted species of the orders Ephemeroptera,Plecoptera,and Trichoptera(EPT)are segregated by elevation.We modeled the ecological niche of South American EPT species in this region using available data and projected their potential distribution in geographic space.Species were grouped based on their ecogeographic similarity,and we analyzed their replacement pattern along elevation gradients,focusing on the ecotone where opposing thermal preferences converge.Along this interface,we identified critical points where the combined incidence of cold and warm assemblages maximizes,indicating a significant transition zone.We found that the Montane Cloud Forest holds the interface,with a particularly greater suitability at its lower boundary.The main axis of the interface runs in a N-S direction and falls between 14°C-16°C mean annual isotherms.The probability of a particular location within a basin being classified as part of the interface increases as Kira’s warmth index approaches a score around 150.Understanding the interface is critical for defining the thermal limits of species distribution and designing biomonitoring programs.Changes in the location of thermal constants related to mountainous ecotones may cause vertical displacement of aquatic insects and vegetation communities.We have recognized significant temperature thresholds that serve as indicators of suitability for the interface.As global warming is anticipated to shift these indicators,we suggest using them to monitor the imprints of climate change on mountain ecosystems.
基金provided by a University of Manitoba Graduate Fellowshipthe University of Manitoba Research Grants Program+3 种基金the Field Work Support Program of the Faculty of Science at the University of Manitobaa Rocky Mountain Biological Laboratory Research Fellowshipan NSERC Discovery Grant RGPIN386337-2011a Canada Foundation for Innovation Award
文摘The molecular phylogenetics of the Lepidoptera (butterflies and moths) is well studied, but that of Trichoptera (caddisflies), the sister clade of Lepidoptera, is less studied. The PCR primer libraries developed for lepidopteran phylogenetics might work in Trichoptera. DNA from 8 caddisfly species (Asynarchus nigriculus (Banks, 1908), Grammotaulius lorettae Denning, 1941, Hesperophylax occidentalis (Banks, 1908), Limnephilus externus Hagen, 1861, Limnephilus picturatus McLachlan, 1875, Limnephilus secludens Banks, 1914, Limnephilus sublunatus Provancher, 1877 and Agrypnia deflata (Milne, 1931)) was used to screen for amplification. 107 primer pairs for 45 nuclear and 3 mitochondrial genes were tested. Primers for 1 new gene (40S ribosomalprotein $2 (RPS2)) and 8 genes previously used in Trichopteran phylogenetics were recovered (16S rRNA, 18S rRNA, carbamoyl-phosphate synthetase (CAD), cytoehrome oxidase I (CO1), cytochrome oxidase 11 (COIl), elongation factor-1 alpha (EF-1 alpha), isoeitrate dehydrogenase (IDH), and RNA polymerase-II (POL-I1)). New primer pairs extended the genomic region sampled for many genes. Evolution rates among loci varied by 2 orders of magnitude. Differences among evolution rates and modes of inheritance offer flexible tools for resolving phylogenetic questions and examining genome evolution in the Trichoptera. Screening libraries of PCR primers is a useful approach for identifying PCR primers in related taxa with limited molecular genetic resources.
文摘Along 8km extent of the river down from the dam of Zhexi Reservoir in Hunan Province,the population of an insect named Amphipsyche proluta MacLachlan has been rising in great quantities every year.Based on previous reports on the life history and living habits of this caddisfly, the ecological characteristics of this insect, including its water environment for living, reaction to flowing speed and depth of water, its natural enimies situation,and influence from haman activities,are described specially in this paper.It provides theoretical basis for following study on the integrated management of this insect.
基金the National Natural Science Foundation of China(grants nos.40672013 and 40632010)the Chinese Academy of Sciences(grant no.KZCX2-YW-QN104)the Major Basic Research Projects of China's Ministry of Science and Technology(no.2006CB806400)
文摘Three lepidopteran species, from the Middle Jurassic Daohugou beds (inner Mongolia, China), are described in a new family, Mesokristenseniidae, and new genus, Mesokristensenia, which could represent the sister group of the Micropterigidae. Mesokristensenia differs from all extant Lepidoptera, but one genus (Agathiphaga, Agathiphagidae), in retaining four median veins in the forewing, a plesiomorphy also present in many Trichoptera. Evidence for placing Mesokristensenia in the Lepidoptera includes four traits, notably a previously unrecorded autapomorphy of this insect order: beyond stem Ml+2, vein M1 is bent and connected to cross-vein r-m (in both wing pairs). Among 24 characters taken into account to assess the systematic position of Mesokristensenia, 12 are considered informative for a cladistic analysis involving this fossil taxon and the four suborders recognized in present-day Lepidoptera (Zeugloptera, Aglossata, Heterobathmiina, and Glossata).
