Since the time of Darwin,subspecies have been recognized as an initial stage in the evolution of species.However,the impact of dispersal on subspecies richness in birds globally has received little attention,despite d...Since the time of Darwin,subspecies have been recognized as an initial stage in the evolution of species.However,the impact of dispersal on subspecies richness in birds globally has received little attention,despite dispersal being a key factor in determining the rate of evolution and playing a significant role in evolutionary divergence.Therefore,it is important to conduct a comprehensive study to address this issue.In this study,we aimed to assess the association between subspecies richness(measured by the number of subspecies)and dispersal ability(measured by the hand-wing index)on a global scale,using a dataset of over 7000 bird species.Our results revealed a negative correlation between dispersal ability and the number of subspecies,without any quadratic correlation.The wing is a crucial phenotypic trait for birds,and the concept of subspecies is important in speciation theory and conservation biology.Therefore,our findings not only enhance our understanding of the association between avian morphological traits and evolutionary divergence but also have implications for the conservation of avian species diversity.展开更多
The brain is among the most energetically costly organs in vertebrates,and thus trade-offs have been hypothesized to exert constraints on brain size evolution.The energy trade-off hypothesis(ETH) predicts that reducin...The brain is among the most energetically costly organs in vertebrates,and thus trade-offs have been hypothesized to exert constraints on brain size evolution.The energy trade-off hypothesis(ETH) predicts that reducing the energy consumption of reproduction or other costly tissues should compensate for the cost of a large brain.Egg production in birds requires a large proportion of the total energy budget,and a clutch mass in some bird species can outweigh the body mass of the female.To date,this hypothesis has mainly been tested in mammals and ectothermic animals such as anurans and fishes.We collated data on adult brain size,body mass and eggproduction traits such as clutch size,egg mass and annual broods from published studies,and conducted a phylogenetic comparative test of the interplay between egg-production investment and brain size evolution across bird species.After controlling for phylogenetic relationships and body size,we find a negative correlation between brain size and clutch size across 1395 species,which favored ETH.However,when egg mass was integrated in models,positive associations were detected between brain size and mass of eggs(via egg mass,clutch mass and annual total egg mass).Our results suggest that brain size trades off against egg-production only via certain aspects(e.g.,clutch size).By contrast,a positive relationship between brain size and total egg reproduction(e.g.,clutch mass and annual total egg mass) implied increased total energy budget outweighing energy allocation across bird species.Our study shows that there is no general energy trade-off between brain size and eggreproduction investment,and suggests that brain size evolution follows mixed strategies across bird species.展开更多
In this paper, a novel signal processing technique hasbeen developed to refocus moving targets image from their smeared responses in the Synthetic Aperture Radar (SAR) image according to the characteristics of the rec...In this paper, a novel signal processing technique hasbeen developed to refocus moving targets image from their smeared responses in the Synthetic Aperture Radar (SAR) image according to the characteristics of the received signals for moving targets. Quadratic Phase Function is introduced to the parameters estimation for moving target echo and SAR imaging. Our method is available even under a low SNR environment and acquiring an exact SAR image of moving targets. The simulated results demonstrated the validity of the algorithm proposed.展开更多
Amniotes differ substantially in absolute and relative brain size after controlling for allometry,and numerous hypotheses have been proposed to explain brain size evolution.Brain size is thought to correlate with proc...Amniotes differ substantially in absolute and relative brain size after controlling for allometry,and numerous hypotheses have been proposed to explain brain size evolution.Brain size is thought to correlate with processing capacity and the brain’s ability to support complex manipulation such as nest-building skills.The increased complexity of nest structure is supposed to be a measure of an ability to manipulate nesting material into the required shape.The degree of nest-structure complexity is also supposed to be associated with body mass,partly because small species lose heat faster and delicate and insulated nests are more crucial for temperature control of eggs during incubation by small birds.Here,we conducted comparative analyses to test these hypotheses by investigating whether the complexity of species-typical nest structure can be explained by brain size and body mass(a covariate also to control for allometric effects on brain size)across 1353 bird species from 147 families.Consistent with these hypotheses,our results revealed that avian brain size increases as the complexity of the nest structure increases after controlling for a significant effect of body size,and also that a negative relationship exists between nest complexity and body mass.展开更多
Background and Aims:The rapid clearance of hepatitis C virus induced by direct-acting antivirals(DAAs)affects natural killer(NK)cells,but the reported results are not consistent,and the relative mechanism was unclear....Background and Aims:The rapid clearance of hepatitis C virus induced by direct-acting antivirals(DAAs)affects natural killer(NK)cells,but the reported results are not consistent,and the relative mechanism was unclear.This study focused on the dynamic changes of NK cells during and after DAA treatment and analyzed the reasons.Meth-ods:Peripheral blood from 35 chronic hepatitis C patients who were treated with DAAs were collected at baseline and weeks 1,2,4,12,and post-treatment week-12.The fre-quency,subset,and phenotype of NK cells were assayed by flow cytometry.Lactate dehydrogenase assays were used to evaluate the cytotoxicity of NK cells.Cytokine concentra-tions were measured with Luminex kits.Results:All pa-tients achieved a sustained viral response(SVR),and the NK cell frequencies were not changed significantly during DAA therapy.However,the cytotoxicity of NK cells recov-ered significantly early in week 1,and then continuously decreased below normal levels.The changes of genotypes including NKp30+,NKp46+,and NKG2A+NK cells were par-allel to NK function.The subset of CD56dim NK cells con-tinuously increased and did not return to normal even at 12 weeks after treatment.Interleukin(IL)-2,IL10,IL15,interferon-gamma,and tumor necrosis factor-alpha all in-creased after week 4,peaked at the end of therapy,and then exhibited varying degrees of reduction with time.Con-clusions:DAA treatment led to transient functional recov-ery of NK cells in the early stage of treatment,and then continuously decreased to below normal levels.Alterations of NK subsets,phenotypes,and the microenvironment may be involved in the changes.展开更多
基金Financial support for this study was provided by the National Natural Science Foundation of China(Grant No.31901084,32200406,32211530420).
文摘Since the time of Darwin,subspecies have been recognized as an initial stage in the evolution of species.However,the impact of dispersal on subspecies richness in birds globally has received little attention,despite dispersal being a key factor in determining the rate of evolution and playing a significant role in evolutionary divergence.Therefore,it is important to conduct a comprehensive study to address this issue.In this study,we aimed to assess the association between subspecies richness(measured by the number of subspecies)and dispersal ability(measured by the hand-wing index)on a global scale,using a dataset of over 7000 bird species.Our results revealed a negative correlation between dispersal ability and the number of subspecies,without any quadratic correlation.The wing is a crucial phenotypic trait for birds,and the concept of subspecies is important in speciation theory and conservation biology.Therefore,our findings not only enhance our understanding of the association between avian morphological traits and evolutionary divergence but also have implications for the conservation of avian species diversity.
基金National Natural Science Foun-dation of China(Grant No.32170481 and Grant No.3221153042).
文摘The brain is among the most energetically costly organs in vertebrates,and thus trade-offs have been hypothesized to exert constraints on brain size evolution.The energy trade-off hypothesis(ETH) predicts that reducing the energy consumption of reproduction or other costly tissues should compensate for the cost of a large brain.Egg production in birds requires a large proportion of the total energy budget,and a clutch mass in some bird species can outweigh the body mass of the female.To date,this hypothesis has mainly been tested in mammals and ectothermic animals such as anurans and fishes.We collated data on adult brain size,body mass and eggproduction traits such as clutch size,egg mass and annual broods from published studies,and conducted a phylogenetic comparative test of the interplay between egg-production investment and brain size evolution across bird species.After controlling for phylogenetic relationships and body size,we find a negative correlation between brain size and clutch size across 1395 species,which favored ETH.However,when egg mass was integrated in models,positive associations were detected between brain size and mass of eggs(via egg mass,clutch mass and annual total egg mass).Our results suggest that brain size trades off against egg-production only via certain aspects(e.g.,clutch size).By contrast,a positive relationship between brain size and total egg reproduction(e.g.,clutch mass and annual total egg mass) implied increased total energy budget outweighing energy allocation across bird species.Our study shows that there is no general energy trade-off between brain size and eggreproduction investment,and suggests that brain size evolution follows mixed strategies across bird species.
文摘In this paper, a novel signal processing technique hasbeen developed to refocus moving targets image from their smeared responses in the Synthetic Aperture Radar (SAR) image according to the characteristics of the received signals for moving targets. Quadratic Phase Function is introduced to the parameters estimation for moving target echo and SAR imaging. Our method is available even under a low SNR environment and acquiring an exact SAR image of moving targets. The simulated results demonstrated the validity of the algorithm proposed.
基金Financial support was provided by the National Natural Science Foundation of China(Grants 32211530420 and 32170481).
文摘Amniotes differ substantially in absolute and relative brain size after controlling for allometry,and numerous hypotheses have been proposed to explain brain size evolution.Brain size is thought to correlate with processing capacity and the brain’s ability to support complex manipulation such as nest-building skills.The increased complexity of nest structure is supposed to be a measure of an ability to manipulate nesting material into the required shape.The degree of nest-structure complexity is also supposed to be associated with body mass,partly because small species lose heat faster and delicate and insulated nests are more crucial for temperature control of eggs during incubation by small birds.Here,we conducted comparative analyses to test these hypotheses by investigating whether the complexity of species-typical nest structure can be explained by brain size and body mass(a covariate also to control for allometric effects on brain size)across 1353 bird species from 147 families.Consistent with these hypotheses,our results revealed that avian brain size increases as the complexity of the nest structure increases after controlling for a significant effect of body size,and also that a negative relationship exists between nest complexity and body mass.
基金Beijing Advanced Innova-tion Center for Big Data-based Precision Medicine(No.PXM2021_014226_000026)Special key research pro-ject of capital health development scientific research(No.SF2021-1G-2181)+2 种基金National Natural Science Foundation(No.81500472)Beijing Natural Science Foundation(No.7202070)Beijing Municipal Administration of Hospitals Clinical medicine Development of special funding support(No.ZYLX202125).
文摘Background and Aims:The rapid clearance of hepatitis C virus induced by direct-acting antivirals(DAAs)affects natural killer(NK)cells,but the reported results are not consistent,and the relative mechanism was unclear.This study focused on the dynamic changes of NK cells during and after DAA treatment and analyzed the reasons.Meth-ods:Peripheral blood from 35 chronic hepatitis C patients who were treated with DAAs were collected at baseline and weeks 1,2,4,12,and post-treatment week-12.The fre-quency,subset,and phenotype of NK cells were assayed by flow cytometry.Lactate dehydrogenase assays were used to evaluate the cytotoxicity of NK cells.Cytokine concentra-tions were measured with Luminex kits.Results:All pa-tients achieved a sustained viral response(SVR),and the NK cell frequencies were not changed significantly during DAA therapy.However,the cytotoxicity of NK cells recov-ered significantly early in week 1,and then continuously decreased below normal levels.The changes of genotypes including NKp30+,NKp46+,and NKG2A+NK cells were par-allel to NK function.The subset of CD56dim NK cells con-tinuously increased and did not return to normal even at 12 weeks after treatment.Interleukin(IL)-2,IL10,IL15,interferon-gamma,and tumor necrosis factor-alpha all in-creased after week 4,peaked at the end of therapy,and then exhibited varying degrees of reduction with time.Con-clusions:DAA treatment led to transient functional recov-ery of NK cells in the early stage of treatment,and then continuously decreased to below normal levels.Alterations of NK subsets,phenotypes,and the microenvironment may be involved in the changes.