Responses of breeding waterbird communities to environmental changes in subsidence wetlands in the North China Plain

In the context of global degradation and loss of natural wetlands,waterbirds have been increasingly using artificial wetlands as alternative habitats.However,waterbirds are facing various threats in these artificial wetlands,due to dramatic environmental changes induced by anthropogenic activities.Exploring the effects of these changes on the temporal dynamics of the waterbird communities can help understand how waterbirds adapt to environmental changes and thus formulate effective management and conservation plans.In this study,we carried out field surveys on waterbirds and environmental factors across 20 subsidence wetlands created by underground coal mining in the Huainan coal mining area in the breeding seasons of 2016 and 2021.We predicted that the waterbird assemblages(i.e.,number of individuals,species richness,Shannon-Wiener diversity,Pielou evenness and species composition) differed between the two years,and that these differences were correlated with the temporal changes in environmental factors.Across the surveyed wetlands,we recorded 26 waterbird species in 2016 and 23 in 2021.For individual wetlands,the number of waterbird individuals and species richness increased by 71.6% and 20.1%,respectively,over the five years,with no changes in Shannon-Wiener diversity and Pielou evenness.The overall increase in the number of bird individuals was mainly caused by an increase in vegetation gleaners and gulls that adapt well to anthropogenic activities.The species composition was significantly different between the two years,which was mainly caused by changes in the number of individuals of dominant species under influence of changes in human activities.For most wetlands,the temporal pairwiseβ-diversities could be explained by species turnover rather than nestedness,probably due to high mobility of waterbird species and dramatic changes in local environments.Our study suggests that waterbird communities could respond to environmental changes in subsidence wetlands,providing important implications for waterbird conservation in human-dominated artificial wetlands.

Crustal structure in Xiaojiang fault zone and its vicinity

Based on the integrative interpretation of travel-time data and amplitude information obtained from the deep seismic sounding experiment on the Chuxiong-Luoping profile, eastern Yunnan province, carried out in January of 2005, we present a 2-D P wave velocity structure along the profile. The crustal structure shows remarkable contrasts between the two sides of the Xiaojiang fault zone, although the whole profile is situated within the Yangtze platform. The average P wave velocities of the crust on the west and east sides of the fault zone are 6.21 km/s and 6.32 km/s, respectively, and the crustal thicknesses are 41 km and 45 km, respectively. These results imply that the crust to the east of the Xiaojiang fault zone presents characteristics of crustal structure in a stable platform, while the crust to the west is complicated with a lower velocity zone in middle of the upper crust. The average velocity of 6.21 km/s is lower than the global continental crustal average （6.30 km/s）, indicating that the region is tectonically active. According to the lateral variation of velocity and depth of interfaces （including the Moho）, it is inferred that the Xiaojiang fault zone has cut through the whole crust. It is also deduced that existence of low velocity zone in middle of the upper crust is conducive to the south-southeastern sliding of the Sichuan- Yunnan （Chuan-Dian） rhombus block.

A novel TIR-NBS-LRR gene regulates immune response to Phytophthora root rot in soybean

Phytophthora root rot(PRR),caused by Phytophthora sojae,is a devastating disease of soybean.The NBSLRR gene family is a class of plant genes involved in disease resistance.miRNA mediates plant response to biotic stresses by regulating the expression of target genes at the transcriptional or post-translational level.Glyma.16G135500,encoding an NBS-LRR-type protein,is a target of gma-miR1510 that responds to pathogen infections.We cloned and overexpressed Glyma.16G135500(naming it GmTNL16)and knocked down mi R1510 using short tandem target mimic technology to identify the roles of the GmTNL16/gma-mi R1510 pair in the interaction of soybean and the oomycete.By overexpressing GmTNL16 in transgenic hairy roots of soybean,we showed that biomass of P.sojae was lower in overexpressing hairy roots than in control roots.Thus,miR1510 expression was reduced upon P.sojae infection,reflecting the induced expression of GmTNL16 conferring resistance to P.sojae in soybean.Differentially expressed genes were enriched in plant-pathogen interaction,plant hormone signal transduction,and secondary metabolism by RNA sequencing analyze.In particular,jasmonate and salicylic acid pathway-associated genes,including JAZ,COI1,TGA,and PR,responded to P.sojae infection.All of these results indicate that the GmTNL16/gma-miR1510 pair participates in soybean defense response via the JA and SA pathways.

Definition of spatial positions within foraging Greater White-fronted Geese flocks from an individual's perspective:Cost-benefit dynamics change with the distance to flock edge

The costs and benefits of group living are not evenly distributed among individuals that occupy different spatial positions within a group(central or peripheral).However,the definitions of central and peripheral positions may artificially mask the true dynamics of cost and benefit of individuals.Using wintering foraging Greater Whitefronted Geese(Anser albifrons)flocks as our study system,we measured individual spatial position within a flock as distance to the flock edge.First,we tested the effects of distance to edge on the antipredation cost and foraging benefit of individual goose using generalized linear mixed models(GLMMs).Flock size and number of neighbors and their interactions with distance to edge were included as fixed effects in GLMMs.Then we used piecewise regression to determine the threshold value of distance to edge to classify central and peripheral individuals.Our results indicated distance to edge significantly affected percent of time spent on vigilance(vigilance time),percent of time spent on foraging(foraging time)and intake rate(pecks/min),whereas other factors had no effects.We found that the critical distance that predicted changes in behavior was around 2.5 m.Birds 2.5 m or less from the edge of the group were more vigilant,and had less efficient foraging than more central individuals.Behavioral differences between central and peripheral individuals were more easily detected when the birds were classified by the method introduced in this study than by the traditional minimum convex polygon method.Our research provides researchers a dichotomous classification scheme that places individuals into peripheral and central positions from an individual's perspective.

Clinical significance of Smac expression on non-small cell lung cancers

Objective:The aim of our study was to investigate the clinical significance of Smac(second mitochondria-derived activator of caspase) expression on non-small cell lung cancer(NSCLC).Methods:The expression of Smac was evaluated on RNA and protein level in tumor tissues.The expression of Smac mRNA was examined by RT-PCR in 59 samples of tumor tissues and matched normal lung tissues.The expression of Smac protein was examined by IHC in 213 cancer tissues.Results:The positive rate of Smac mRNA was found in 59.3% of cancer tissues,but only in 30.5% of matched normal tissues(P<0.05).The positive rate of Smac protein was 76.5%.The expression of Smac in stage II disease was significantly higher than that in stage I disease(P=0.001).The survival of patients with Smac overexpression was significantly shorter than those who were negative.Conclusion:Smac might be involved in the progression of NSCLC,the biologic significance of Smac in primary lung cancer needs further study.

Investigation on the short-term outcome and prognostic impact of predisposition,and precipitants in inpatients with chronic liver disease from Chinese AcuTe on CHronic LIver FailurE(CATCH-LIFE)cohorts

Aim:The study aimed to investigate the short-term outcomes of hospitalized patients with chronic liver disease(CLDs)and assess the prognostic impact of predisposition and precipitants,which currently remains unclear.Methods:The study included 3970 hospitalized patients with CLDs from two prospective longitudinal multicenter studies(NCT02457637 and NCT03641872)conducted in highly endemic hepatitis B virus(HBV)areas.Competing risk analysis was used to evaluate the effect of predispositions,including the etiology and severity of CLDs and precipitants;on sequential 28,90,and 365-day liver transplantation(LT)-free mortality.Results:Among all enrolled patients,76.8%of adverse outcomes(including death and LT)within one year occurred within 90 days.Compared with alcoholic etiology,the association of HBV etiology with poorer outcomes was remarkably on the 28th day(hazard ratio[HR],1.81;95%confidence interval[CI],1.07-3.06;p=0.026);however,and dimin-ished or became insignificant at 90 days and 365 days.Cirrhosis increased the adjusted risk for 365-day(HR,1.50;CI,1.13-1.99;p=0.004)LT-free mortality when compared with noncirrhosis.In patients with cirrhosis,prior decompensation(PD)independently increased the adjusted risk of 365-day LT-free mortality by 1.25-fold(p=0.021);however,it did not increase the risk for 90-day mortality.Neither the category nor the number of precipitants influenced the adjusted risk of 28 or 90-day LT-free mortality.Conclusions:The 90-day outcome should be considered a significant endpoint for evaluating the short-term prognosis of hospitalized patients with CLD.Predisposing factors,other than etiology,mainly affected the delayed(365-day)outcome.Timely effective therapy for CLD etiology,especially antiviral treatments for HBV,and post-discharge long-term surveillance monitoring in cirrhotic patients undergoing PD are suggested to enhance disease management and reduce mortality.

Trends in the biological functions and medical applications of extracellular vesicles and analogues

Natural extracellular vesicles(EVs)play important roles in many life processes such as in the intermolecular transfer of substances and genetic information exchanges.Investigating the origins and working mechanisms of natural EVs may provide an understanding of life activities,especially regarding the occurrence and development of diseases.Additionally,due to their vesicular structure,EVs(in small molecules,nucleic acids,proteins,etc.)could act as efficient drug-delivery carriers.Herein,we describe the sources and biological functions of various EVs,summarize the roles of EVs in disease diagnosis and treatment,and review the application of EVs as drug-delivery carriers.We also assess the challenges and perspectives of EVs in biomedical applications.