The well-facilitated farmland projects(WFFPs)involve the typical sustainable intensification of farmland use and play a key role in raising food production in China.However,whether such WFFPs can enhance the nitrogen(...The well-facilitated farmland projects(WFFPs)involve the typical sustainable intensification of farmland use and play a key role in raising food production in China.However,whether such WFFPs can enhance the nitrogen(N)use efficiency and reduce environmental impacts is still unclear.Here,we examined the data from 502 valid questionnaires collected from WFFPs in the major grain-producing area,the Huang-Huai-Hai Region(HHHR)in China,with 429 samples for wheat,328 for maize,and 122 for rice.We identified gaps in N use efficiency(NUE)and N losses from the production of the three crops between the sampled WFFPs and counties based on the statistical data.The results showed that compared to the county-level(wheat,39.1%;maize,33.8%;rice,35.1%),the NUEs for wheat(55.2%),maize(52.1%),and rice(50.2%)in the WFFPs were significantly improved(P<0.05).In addition,the intensities of ammonia(NH3)volatilization(9.9-12.2 kg N ha–1),N leaching(6.5-16.9 kg N ha–1),and nitrous oxide(N2O)emissions(1.2-1.6 kg N ha–1)from crop production in the sampled WFFPs were significantly lower than the county averages(P<0.05).Simulations showed that if the N rates are reduced by 10.0,15.0,and 20.0%for the counties,the NUEs of wheat,maize,and rice in the HHHR will increase by 2.9-6.3,2.4-5.2,and 2.6-5.7%,respectively.If the N rate is reduced to the WFFP level in each county,the NUEs of the three crops will increase by 12.9-19.5%,and the N leaching,NH3,and N2O emissions will be reduced by 48.9-56.2,37.4-42.9,and 46.0-66.5%,respectively.Our findings highlight that efficient N management practices in sustainable intensive farmland have considerable potential for reducing environmental impacts.展开更多
Understanding the response of the phytoplankton community to climate change is essential for reservoir management.We analyzed a long-term data series(2009–2020)on the phytoplankton community in a large mesotrophic re...Understanding the response of the phytoplankton community to climate change is essential for reservoir management.We analyzed a long-term data series(2009–2020)on the phytoplankton community in a large mesotrophic reservoir in the wet season to investigate the impacts of temperature and precipitation increases caused by climate change on the functioning and trait composition of the phytoplankton community.Over the last twelve years,the 3-month accumulative precipitation increased from 291.03 mm to 590.91 mm,and the surface water temperature increased from 25.06℃to 26.49℃in wet season,respectively.These changes caused a higher water level,stronger thermal stratification and lower nitrogen concentration in Daxi Reservoir.The dynamic equilibrium model indicated that the increased precipitation and water temperature-related environmental changes would result in a more diverse and productive phytoplankton community.The effects of increasing water temperature and precipitation on the niche complementarity and selection effects within the phytoplankton community were analyzed using structural equation model by means of the functional divergence index and functional evenness index,respectively,elucidating the reasons for the increase in cyanobacteria in the absence of a significant increase in nutrient levels.Based on these results,it is advisable that more stringent phosphorus control standards might be conducted to reduce the risks of cyanobacteria proliferation in the context of global warming.展开更多
Common wheat is an important and widely cultivated food crop throughout the world.Much progress has been made in regard to wheat genome sequencing in the last decade.Starting from the sequencing of single chromosomes/...Common wheat is an important and widely cultivated food crop throughout the world.Much progress has been made in regard to wheat genome sequencing in the last decade.Starting from the sequencing of single chromosomes/chromosome arms whole genome sequences of common wheat and its diploid and tetraploid ancestors have been decoded along with the development of sequencing and assembling technologies. In this review, we give a brief summary on international progress in wheat genome sequencing, and mainly focus on reviewing the effort and contributions made by Chinese scientists.展开更多
Lake Taihu,a large,shallow hypertrophic freshwater lake in eastern China,has experienced lake-wide toxic cyanobacterial blooms annually during summer season in the past decades.Spatial changes in the abundance of hepa...Lake Taihu,a large,shallow hypertrophic freshwater lake in eastern China,has experienced lake-wide toxic cyanobacterial blooms annually during summer season in the past decades.Spatial changes in the abundance of hepatotoxin microcystin-producing and nonmicrocystin producing Microcystis populations were investigated in the lake in August of 2009 and 2010.To monitor the densities of the total Microcystis population and the potential microcystin-producing subpopulation,we used a quantitative real-time PCR assay targeting the phycocyanin intergenic spacer(PC-IGS) and the microcystin synthetase gene(mcyD),respectively.On the basis of quantification by real-time PCR analysis,the abundance of potential toxic Microcystis genotypes and the ratio of the mcyD subpopulation to the total Microcystis varied significantly,from 4.08×104 to 5.22×107 copies/mL,from 5.7% to 65.8%,respectively.Correlation analysis showed a strong positive relationship between chlorophyll-a,toxic Microcystis and total Microcystis;the abundance of toxic Microcystis correlated positively with total phosphorus and ortho-phosphate concentrations,but negatively with TN:TP ratio and nitrate concentrations.Meanwhile the proportion of potential toxic genotypes within Microcystis population showed positive correlation with total phosphorus and ortho-phosphate concentrations.Our data suggest that increased phosphorus loading may be a significant factor promoting the occurrence of toxic Microcystis bloom in Lake Taihu.展开更多
The enzyme, dipeptidyl peptidase IV(DPP IV), is a novel target for the treatment of type 2 diabetes. Dipeptidyl peptidase IV inhibition improves the impaired insulin secretion and decrease postprandial concentration...The enzyme, dipeptidyl peptidase IV(DPP IV), is a novel target for the treatment of type 2 diabetes. Dipeptidyl peptidase IV inhibition improves the impaired insulin secretion and decrease postprandial concentrations of glucagon by enhancing the incretin hormone levels lucagon-like peptide-1(GLP-1) and glucose-dependent insulinotropic polypeptide/gastric inhibitory polypeptide(GIP). Recently, DPP IV inhibitors have attracted more and more attention, several of which have entered pre-clinical and clinical trials, and one has received approval for use as an anti-diabetic agent. Among the DPP IV inhibitors, two leading agents(sitagliptin and vildagliptin) have been shown to be effective in reducing glycosylated hemoglobin(HbAlc) and fasting plasma glucose(FPG) in patients with type 2 diabetes. This review summarizes the evidence supporting DPP IV inhibitors as potential antidiabetic agents.展开更多
Aerobic anoxygenic phototrophic bacteria(AAPB)repre sent a major group of bacterioplankton assemblages in many water systems and some are assumed to be closely associated with phytoplankton.However,studies on relation...Aerobic anoxygenic phototrophic bacteria(AAPB)repre sent a major group of bacterioplankton assemblages in many water systems and some are assumed to be closely associated with phytoplankton.However,studies on relationships between AAPB and cyanobacterial blooms are in scarcity.The dynamics of the abundance and diversity of AAPB was compared based on pufM gene in Meiliang Bay(featured by cyanobacterial blooms)and East Bay(featured by macrophyte)of Taihu Lake,a shallow subtropical lake in the East China plain.AAPB abundance was not significantly different between the two sites,and they were positively correlated with dissolved organic carbon(DOC)concentration.The ratios of AAPB to total bacteria varied from 3.4%to 11.5%and peaked in winter in both site s.No significant differences of AAPB community compositions were detected between the two sites,but there was a separation between warm seasons(June,August,and October)and cold seasons(December,February,and April).Rhizobiales and Limnohabitans-like pufM sequences were significantly contributors for the difference between two seasons,and specially enriched in cold seasons.Chlorophyll a(Ch1 a)and DOC were the most significant variables influencing the AAPB community structure.Furthermore,Porphyrobacter and Rhodospirillales-like pufM sequences were positively correlated with Ch1 a,indicating potential influence of cyanobacterial blooms on these AAPB taxa.These results suggested that diverse AAPB ecotypes coexisted in Taihu Lake,and their ecological role in carbon cycling in the lake may not be ignored.展开更多
Cyanobacteria can accumulate as a heavy biomass on the leeward side of large eutrophic lakes,posing a potential threat to public health.The mitigating capacity of three flocculants and their potential impacts on the m...Cyanobacteria can accumulate as a heavy biomass on the leeward side of large eutrophic lakes,posing a potential threat to public health.The mitigating capacity of three flocculants and their potential impacts on the major environmental features of water and sediments was evaluated.Results indicate that polyaluminum chloride(PAC)and ferric chloride(FeCl)are efficient flocculants that can rapidly mitigate cyanobacterial blooms with chlorophyll-a concentrations higher tnan 1500 ug/L within 15 min.In comparison,cationic starch with chitosan could only treat cyanobacterial blooms in chlorophyll-a concentrations of less than 200μg/L.The addition of FeClcaused a decline in the pH value,while dissolved oxygen in the water column dropped to 2 mg/L during cationic starch with chitosan treatment for a high cyanobacterial biomass group.Thus,a combination of flocculants and oxygenators should be considered when treating high-concentration cyanobacterial blooms for emergency purposes.Additionally,the cell lysis of cyanobacteria caused by cationic starch with chitosan can result in an increase in total dissolved phosphorus and total dissolved nitrogen.Furthermore,the high accumlation of nutrients in sediments after the settling of cyanobacteria can cause high internal phosphorus pollution.The increase in the total organic carbon of the sediments can threaten lake restoration achieved by planting submerged macrophytes.展开更多
Cyanobacterial blooms are one of the major threats to the health of aquatic ecosystems,and are increasing globally due to the synergistic eff ects of human activities and global climate change.The 7^(th) National Cyan...Cyanobacterial blooms are one of the major threats to the health of aquatic ecosystems,and are increasing globally due to the synergistic eff ects of human activities and global climate change.The 7^(th) National Cyanobacteria Bloom Forum was successfully held in May 28-30,2021 in Guiyang,Guizhou Province,China.The forum established a platform for exchanging views on the concerns of cyanobacterial blooms from Chinese researchers,lake managers,and treatment engineers.This special issue,“Cyanobacterial blooms in China:ecology,toxicity,and treatment”in Journal of Oceanography and Limnology,presents a collection of 14 papers on the physiological features and the infl uence on their concurrent aquatic biology of diff erent cyanobacterial groups.展开更多
Global warming has caused an increase in the frequency and duration of droughts worldwide.Droughts could trigger large changes in physico-chemical conditions and phytoplankton community in waterbodies,resulting in a s...Global warming has caused an increase in the frequency and duration of droughts worldwide.Droughts could trigger large changes in physico-chemical conditions and phytoplankton community in waterbodies,resulting in a shift in the phytoplankton community.Spring diatom blooms in reservoirs have been increasingly observed in the past decade in the Taihu Lake basin.The aim of the present study is to elucidate the impacts of droughts on aquatic environment and to determine the driving factors for the succession of the phytoplankton functional groups based on the analysis of data collected during spring from 2009 to 2020 in the Daxi Reservoir.The unimodal relationship between 1-month aggregated precipitation index and phytoplankton species richness indicated the competitive exclusion occurred in extremely drought period.The structural equation modeling indicated that drought-related low water level conditions intensified sediment resuspension,and increased the phosphorus-enriched nonalgal turbidity in the Daxi Reservoir.Concurrently,a steady shift in the Reynolds phytoplankton functional groups from L 0,TD,J,X 2,and A(phytoplankton taxa preferring low turbidity and nutrient conditions)to TB(pennate diatoms being adapt to turbid and nutrient-rich conditions)was observed.The increased TP and non-algal turbidity in addition to the lowered disturbance contribute to the prevalence of Group TB.Considering the difficulties in nutrient control,timely water replenishment is often a feasible method of controlling the dominance of harmful algae for reservoir management.Finally,alternative water sources are in high demand for ensuring ecological safety and water availability when dealing with drought.展开更多
In an attempt to elucidate the effects of different CO2concentrations(270, 380, and 750 μL/L) on the competition of microcystin-producing(MC-producing) and non-MC-producing Microcystis strains during dense cyanob...In an attempt to elucidate the effects of different CO2concentrations(270, 380, and 750 μL/L) on the competition of microcystin-producing(MC-producing) and non-MC-producing Microcystis strains during dense cyanobacteria blooms, an in situ simulation experiment was conducted in the Meiliang Bay of Lake Taihu in the summer of 2012. The abundance of total Microcystis and MC-producing Microcystis genotypes was quantified based on the 16 S r DNA and mcy D gene using real-time PCR. The results showed that atmospheric CO2 elevation would significantly decrease the p H value and increase the dissolved inorganic carbon(DIC) concentration.Changes in CO2 concentration did not show significant influence on the abundance of total Microcystis population. However, CO2 concentrations may be an important factor in determining the subpopulation structure of Microcystis. The enhancement of CO2 concentrations could largely increase the competitive ability of non-MC-producing over MC-producing Microcystis, resulting in a higher proportion of non-MC-producing subpopulation in treatments using high CO2 concentrations. Concurrently, MC concentration in water declined when CO2 concentrations were elevated. Therefore, we concluded that the increase of CO2 concentrations might decrease potential health risks of MC for human and animals in the future.展开更多
In a large eutrophic lake,the littoral zone is normally an area with high-density elevated aquatic plant life,including algal blooms,where the presence of reed wetlands allows the accumulation of algae.In this study,t...In a large eutrophic lake,the littoral zone is normally an area with high-density elevated aquatic plant life,including algal blooms,where the presence of reed wetlands allows the accumulation of algae.In this study,the impact of accumulated algal blooms in reed wetlands in the littoral zone s of Chaohu Lake was investigated seasonally from 2018 to 2019.The concentrations of chlorophyll a(Chl a),total nitrogen(TN),and total phosphorus(TP)were much higher in the reed-covered littoral zones(RCLZ)than in the unvegetated littoral zones(ULZ),indicating that more algal biomass was trapped and accumulated in the RCLZ.Algal biomass could be horizontally transported to downwind littoral zones under low wind speeds,favoring the establishment of blooms.Algal accumulation levels were highest in summer due to high water temperatures and algal biomasses.Likewise,the northern littoral zones were conducive to the development of large algal blooms because of the wind pattern.The values of TN,TP,Chl a,and loss on ignition in surface sediments were higher in the RCLZ than in the ULZ.Moreover,the diffusive fluxes of ammonium and soluble reactive pho sphorus were also higher in the RCLZ than in the ULZ.Considering the capability of reed wetlands to trap algae,mechanical salvage and other physical methods should be adopted to eliminate algal biomass when massive blooms accumulate in the RCLZ.展开更多
Thousand-kernel weight(TKW)is a measure of grain weight,a target of wheat breeding.The object of this study was to fine-map a stable quantitative trait loci(QTL)for TKW and identify its candidate gene in a recombinant...Thousand-kernel weight(TKW)is a measure of grain weight,a target of wheat breeding.The object of this study was to fine-map a stable quantitative trait loci(QTL)for TKW and identify its candidate gene in a recombinant inbred line(RIL)population derived from the cross of Kenong 9204(KN9204)and Jing411(J411).On a high-density genetic linkage map,24,26 and 25 QTL were associated with TKW,kernel length(KL),and kernel width(KW),respectively.A major and stable QTL,QTkw-2D,was mapped to an8.3 cM interval on chromosome arm 2DL.By saturation of polymorphic markers in its target region,QTkw-2D was confined to a 9.13 Mb physical interval using a secondary mapping population derived from a residually heterozygous line(F6:7).This interval was further narrowed to 2.52 Mb using QTkw-2D near-isogenic lines(NILs).NILs~(KN9204)had higher fresh and dry weights than NILsJ411at various grain-filling stages.The TKW and KW of NILs~(KN9204)were much higher than those of NILsJ411in field trials.By comparison of both DNA sequence and expression between KN9204 and J411,TraesCS2D02G460300.1(TraesKN2D01HG49350)was assigned as a candidate gene for QTkw-2D.This was confirmed by RNA sequencing(RNA-seq)of QTkw-2D NILs.These results provide the basis of map-based cloning of QTkw-2D,and DNA markers linked to the candidate gene may be used in marker-assisted selection.展开更多
Awns play an important role in seed dispersal and photosynthesis of spikes.Three major awn inhibitors(Hd,B1,and B2)are reported in wheat.However,the molecular mechanism underlying awnlessness remained unknown until re...Awns play an important role in seed dispersal and photosynthesis of spikes.Three major awn inhibitors(Hd,B1,and B2)are reported in wheat.However,the molecular mechanism underlying awnlessness remained unknown until recently.In this study,we identified two F8 recombinant inbred lines(RILs)that were segregating for awn length.In order to identify the causal gene for awn length in the heterozygous inbred families(HIFs),SNPs were called from RNA sequencing(RNA-Seq)data for HIF-derived progenies with long and short awns.SNPs between long and short awn plants were evenly distributed on chromosomes(chr)other than chromosome 5 A.SNPs on chr 5 A were clustered in a region distal 688 Mb on the long arm,where inhibitor B1 was located.This suggested that B1 was the causal segregating locus.We precisely mapped B1 to^1 Mb region using two HIF-derived families.Considering that the lines segregated for long,intermediate and short awn phenotypes we speculated that B1 should have a dosage effect on awn length.Two differentially expressed genes(DEGs)located in the candidate region were regarded as candidate genes for B1,because the molecular expression pattern was consistent with the phenotype.HIFs with long and short awns showed no difference on grain yield and other agronomic traits.展开更多
The real estate market is an ilnportant part of China's socialist market economy. Real estate price xs not only a profound role on the level of consumption of the residents, but a profound role on the steady developm...The real estate market is an ilnportant part of China's socialist market economy. Real estate price xs not only a profound role on the level of consumption of the residents, but a profound role on the steady development of the banking sector-based financial sector. Real estate price have a significant impact not only on the development ofmacroeconomic stability, but on the safety of financial system. Chinese economy is currently on the period of transition from investment and export promotion of economic growth mode to a demand-led growth, it is an important role to China's economic growth for sustained and healthy development of real estate market.展开更多
DNA-segment copy number variations(DSCNVs),such as deletions and duplications,are important sources of genomic structural variation.However,the types and sizes of DSCNVs,as well as their genome-wide distribution and p...DNA-segment copy number variations(DSCNVs),such as deletions and duplications,are important sources of genomic structural variation.However,the types and sizes of DSCNVs,as well as their genome-wide distribution and potential functions,are poorly understood in wheat.Here,we identified 198985 DSCNVs by investigating 491 genomes of common wheat and found that they account for 20%of the entire genome.Interestingly,approximately 38%of genes are linked to DSCNVs.The number of DSCNVs within each accession ranges from 47366 to 96342,and their total sizes vary from 421.3 to 1267.9 Mb.We found that 957 and 1304 DSCNVs have been favored by breeders in China and the United States,respectively.By conducting DSCNV-based genome-wide association studies for the principal components of plant developmental and yield-component traits,we identified 34 loci as directly or indirectly involved in controlling the formation of multiple traits.Notably,a newly discovered DSCNV covering TaFT-D1 is significantly associated with flowering time and other agronomic traits.Overall,our findings highlight the potential of DSCNVs to drive fundamental discoveries in plant science.The comprehensive DSCNV map and the DSCNV-associated genes will also facilitate future research efforts to improve wheat yield,quality,and adaptation.展开更多
Highway maintenance cost-effectiveness analysis is critical in highway maintenance management.It provides the methodologies for highway managers to make decisions on the time,location,actions,and feasibility of mainte...Highway maintenance cost-effectiveness analysis is critical in highway maintenance management.It provides the methodologies for highway managers to make decisions on the time,location,actions,and feasibility of maintenance implementation for a single maintenance section or the whole highway network.This paper aims to provide a comprehensive review of the methodologies used to evaluate the cost-effectiveness of highway maintenance,assess the applicability of various methods,pinpoint research gaps in existing literature,and offer research directions for the future.First,the cost-effectiveness hotspots are analyzed using bibliometric methods,and then highway maintenance effectiveness indicators,maintenance cost indicators,and methodologies for evaluating maintenance cost-effectiveness are reviewed.Four types of highway maintenance effectiveness indicators are considered:performance indicators,time indicators,environment indicators,and social indicators.Maintenance cost indicators are categorized into three categories:maintenance treatment costs,maintenance expenditures,and user costs.To analyze maintenance cost-effectiveness,the life-cycle cost approach(LCCA)and the combination of cost and effectiveness approach(CCEA)are two ways that have been investigated.According to the findings,it is essential to select an appropriate performance index and then forecast the performance of highway assets,which is the premise of calculating many kinds of maintenance effectiveness indicators.Additionally,studying from a life cycle perspective is a research hotspot,but there is a lack of utilization of maintenance cost prediction models,and user costs are not fully considered.Especially,the respective weight of maintenance expenditures and user costs.It is suggested that future maintenance cost-effectiveness evaluation should trade off the four dimensions of technology,economy,environment,and society from a life cycle perspective.Besides,more hybrid approaches capable of leveraging the merits of multiple approaches should be studied for cost-effectiveness analysis.These findings give some suggestions for further study of cost-effectiveness and also provide a theoretical basis for scientific highway maintenance management.展开更多
A systematic classification of lakes is essential for effective management,conservation,and scientific research.However,existing approaches often overlook the continuous variability of certain indicators among lakes a...A systematic classification of lakes is essential for effective management,conservation,and scientific research.However,existing approaches often overlook the continuous variability of certain indicators among lakes and are constrained by data availability.In this study,we developed a classification system for 439 lakes larger than 10 km^(2)in China using geomorphological,hydrological,climatic,and landscape features,employing an archetypal analysis approach.Based on the model fitting results,we identified six distinct lake archetypes,which differ from the traditional five classifications based on geographical regions in China.The water quality of lakes across different archetypes responded to a range of geographic,hydrological,meteorological,soil,and anthropogenic factors.Lakes with the highest nutrient levels were predominantly found in Archetypes 5 and 6,located in northeastern China and the Yunnan-Guizhou Plateau,respectively,followed by Archetype 3.In these regions,nutrient levels were strongly associated with human activities.In contrast,indicators such as conductivity and permanganate index in different archetypes were primarily influenced by non-human activities,with the impact of human activities being relatively weak.Phytoplankton,represented by chlorophyll-a,showed a significant response to total phosphorus only in Archetypes 3 and 6,while the response to nitrogen and phosphorus was not significant in the other archetypes.This variation in phytoplankton responses may have been influenced by the climatic conditions in these regions,such as temperature.These findings underscore the importance of developing targeted management and conservation strategies for different lake types,considering their distinct responses to nutrient and temperature changes.Smaller lakes,with relatively simple ecological characteristics,can be managed through targeted strategies tailored to specific types.In contrast,larger lakes require more specialized conservation and management efforts to tackle their complex ecosystem challenges.展开更多
In natural aquatic ecosystems,algal-derived organic carbon(AOC)often coexists with exogenous organic carbon(EOC).Microbial utilization of these distinct carbon sources affects carbon flux and transformation in water c...In natural aquatic ecosystems,algal-derived organic carbon(AOC)often coexists with exogenous organic carbon(EOC).Microbial utilization of these distinct carbon sources affects carbon flux and transformation in water column and algal growth.Microcystis blooms significantly increase AOC levels in water,but the microbial transformation process of Microcystis-derived AOC in the presence of EOC remain poorly understood.We conducted a simulated experiment by introducing^(13)C-sodium bicarbonate and^(13)C-glucose as substrates for indoor simulation of non-axenic Microcystis aeruginosa(M.aeruginosa)populations in a sealed system.The microbial transformation processes of AOC and EOC and their effects on M.aeruginosa growth were investigated.Results demonstrated that the addition of glucose accelerated M.aeruginosa growth and significantly increased their biomass.During the experiment,as the particulate organic carbon and nitrogen content increased,the concentrations of CO_(2)and N_(2)O were gradually decreased,while the concentration of CH4 were gradually increased.Significant differences were observed in the microbial processes involved in the uptake of AOC and EOC.Bacteria involved in AOC transformation throughout the growth period were dominated by Proteobacteria,Gemmatimonadota,Actinobacteriota,Bacteroidota,Acidobacteriota,and Firmicutes.The bacteria involved in EOC transformation were dominated by Proteobacteria,Actinobacteriota,Firmicutes,Cyanobacteria,Armatimonadota,and Bacteroidota.Linear discriminant analysis Effect Size(LEfSe)analysis revealed Massilia and Akkermansia as biomarkers involved in AOC transformation,while Ligilactobacillus was associated with EOC transformation.These findings provide valuable insights into the effects of EOC on algae-bacteria interaction,and on the dynamics of carbon and nitrogen cycling among M.aeruginosa and its associated bacteria.展开更多
Studying the regulatory mechanisms that drive nitrogen-use efficiency(NUE)in crops is important for sustainable agriculture and environmental protection.In this study,we generated a high-quality genome assembly for th...Studying the regulatory mechanisms that drive nitrogen-use efficiency(NUE)in crops is important for sustainable agriculture and environmental protection.In this study,we generated a high-quality genome assembly for the high-NUE wheat cultivar Kenong 9204 and systematically analyzed genes related to nitrogen uptake and metabolism.By comparative analyses,we found that the high-affinity nitrate transporter gene family had expanded in Triticeae.Further studies showed that subsequent functional differentiation endowed the expanded family members with saline inducibility,providing a genetic basis for improving the adaptability of wheat to nitrogen deficiency in various habitats.To explore the genetic and molecular mechanisms of high NUE,we compared genomic and transcriptomic data from the high-NUE cultivar Kenong 9204(KN9204)and the low-NUE cultivar Jing 411 and quantified their nitrogen accumulation under high-and low-nitrogen conditions.Compared with Jing 411,KN9204 absorbed significantly more nitrogen at the reproductive stage after shooting and accumulated it in the shoots and seeds.Transcriptome data analysis revealed that nitrogen deficiency clearly suppressed the expression of genes related to cell division in the young spike of Jing 411,whereas this suppression of gene expression was much lower in KN9204.In addition,KN9204 maintained relatively high expression of NPF genes for a longer time than Jing 411 during seed maturity.Physiological and transcriptome data revealed that KN9204 was more tolerant of nitrogen deficiency than Jing 411,especially at the reproductive stage.The high NUE of KN9204 is an integrated effect controlled at different levels.Taken together,our data provide new insights into the molecular mechanisms of NUE and important gene resources for improving wheat cultivars with a higher NUE trait.展开更多
基金supported by the National Key Research and Development Program of China(2022YFB3903505)the National Natural Science Foundation of China(72221002)。
文摘The well-facilitated farmland projects(WFFPs)involve the typical sustainable intensification of farmland use and play a key role in raising food production in China.However,whether such WFFPs can enhance the nitrogen(N)use efficiency and reduce environmental impacts is still unclear.Here,we examined the data from 502 valid questionnaires collected from WFFPs in the major grain-producing area,the Huang-Huai-Hai Region(HHHR)in China,with 429 samples for wheat,328 for maize,and 122 for rice.We identified gaps in N use efficiency(NUE)and N losses from the production of the three crops between the sampled WFFPs and counties based on the statistical data.The results showed that compared to the county-level(wheat,39.1%;maize,33.8%;rice,35.1%),the NUEs for wheat(55.2%),maize(52.1%),and rice(50.2%)in the WFFPs were significantly improved(P<0.05).In addition,the intensities of ammonia(NH3)volatilization(9.9-12.2 kg N ha–1),N leaching(6.5-16.9 kg N ha–1),and nitrous oxide(N2O)emissions(1.2-1.6 kg N ha–1)from crop production in the sampled WFFPs were significantly lower than the county averages(P<0.05).Simulations showed that if the N rates are reduced by 10.0,15.0,and 20.0%for the counties,the NUEs of wheat,maize,and rice in the HHHR will increase by 2.9-6.3,2.4-5.2,and 2.6-5.7%,respectively.If the N rate is reduced to the WFFP level in each county,the NUEs of the three crops will increase by 12.9-19.5%,and the N leaching,NH3,and N2O emissions will be reduced by 48.9-56.2,37.4-42.9,and 46.0-66.5%,respectively.Our findings highlight that efficient N management practices in sustainable intensive farmland have considerable potential for reducing environmental impacts.
基金Supported by the National Natural Science Foundation of China(Nos.U22A20616,32071573)。
文摘Understanding the response of the phytoplankton community to climate change is essential for reservoir management.We analyzed a long-term data series(2009–2020)on the phytoplankton community in a large mesotrophic reservoir in the wet season to investigate the impacts of temperature and precipitation increases caused by climate change on the functioning and trait composition of the phytoplankton community.Over the last twelve years,the 3-month accumulative precipitation increased from 291.03 mm to 590.91 mm,and the surface water temperature increased from 25.06℃to 26.49℃in wet season,respectively.These changes caused a higher water level,stronger thermal stratification and lower nitrogen concentration in Daxi Reservoir.The dynamic equilibrium model indicated that the increased precipitation and water temperature-related environmental changes would result in a more diverse and productive phytoplankton community.The effects of increasing water temperature and precipitation on the niche complementarity and selection effects within the phytoplankton community were analyzed using structural equation model by means of the functional divergence index and functional evenness index,respectively,elucidating the reasons for the increase in cyanobacteria in the absence of a significant increase in nutrient levels.Based on these results,it is advisable that more stringent phosphorus control standards might be conducted to reduce the risks of cyanobacteria proliferation in the context of global warming.
基金supported by the Chinese Academy of Sciences (QYZDJ-SSW-SMC001)the National Key Research and Development Program of China (2016YFD0101004)
文摘Common wheat is an important and widely cultivated food crop throughout the world.Much progress has been made in regard to wheat genome sequencing in the last decade.Starting from the sequencing of single chromosomes/chromosome arms whole genome sequences of common wheat and its diploid and tetraploid ancestors have been decoded along with the development of sequencing and assembling technologies. In this review, we give a brief summary on international progress in wheat genome sequencing, and mainly focus on reviewing the effort and contributions made by Chinese scientists.
基金supported by the National Basic Research Program (973) of China (No. 2008CB418000)
文摘Lake Taihu,a large,shallow hypertrophic freshwater lake in eastern China,has experienced lake-wide toxic cyanobacterial blooms annually during summer season in the past decades.Spatial changes in the abundance of hepatotoxin microcystin-producing and nonmicrocystin producing Microcystis populations were investigated in the lake in August of 2009 and 2010.To monitor the densities of the total Microcystis population and the potential microcystin-producing subpopulation,we used a quantitative real-time PCR assay targeting the phycocyanin intergenic spacer(PC-IGS) and the microcystin synthetase gene(mcyD),respectively.On the basis of quantification by real-time PCR analysis,the abundance of potential toxic Microcystis genotypes and the ratio of the mcyD subpopulation to the total Microcystis varied significantly,from 4.08×104 to 5.22×107 copies/mL,from 5.7% to 65.8%,respectively.Correlation analysis showed a strong positive relationship between chlorophyll-a,toxic Microcystis and total Microcystis;the abundance of toxic Microcystis correlated positively with total phosphorus and ortho-phosphate concentrations,but negatively with TN:TP ratio and nitrate concentrations.Meanwhile the proportion of potential toxic genotypes within Microcystis population showed positive correlation with total phosphorus and ortho-phosphate concentrations.Our data suggest that increased phosphorus loading may be a significant factor promoting the occurrence of toxic Microcystis bloom in Lake Taihu.
文摘The enzyme, dipeptidyl peptidase IV(DPP IV), is a novel target for the treatment of type 2 diabetes. Dipeptidyl peptidase IV inhibition improves the impaired insulin secretion and decrease postprandial concentrations of glucagon by enhancing the incretin hormone levels lucagon-like peptide-1(GLP-1) and glucose-dependent insulinotropic polypeptide/gastric inhibitory polypeptide(GIP). Recently, DPP IV inhibitors have attracted more and more attention, several of which have entered pre-clinical and clinical trials, and one has received approval for use as an anti-diabetic agent. Among the DPP IV inhibitors, two leading agents(sitagliptin and vildagliptin) have been shown to be effective in reducing glycosylated hemoglobin(HbAlc) and fasting plasma glucose(FPG) in patients with type 2 diabetes. This review summarizes the evidence supporting DPP IV inhibitors as potential antidiabetic agents.
基金Supported by the National Natural Science Foundation of China(Nos.31971449,31370509,31100363)the CAS-SAFEA International Partnership Program for Creative Research Teams(CN)(No.KZZD-EWTZ-08)the startup funds from Nanjing Institute of Geography and Limnology,Chinese Academy of Sciences(No.NIGLAS2011QD05)。
文摘Aerobic anoxygenic phototrophic bacteria(AAPB)repre sent a major group of bacterioplankton assemblages in many water systems and some are assumed to be closely associated with phytoplankton.However,studies on relationships between AAPB and cyanobacterial blooms are in scarcity.The dynamics of the abundance and diversity of AAPB was compared based on pufM gene in Meiliang Bay(featured by cyanobacterial blooms)and East Bay(featured by macrophyte)of Taihu Lake,a shallow subtropical lake in the East China plain.AAPB abundance was not significantly different between the two sites,and they were positively correlated with dissolved organic carbon(DOC)concentration.The ratios of AAPB to total bacteria varied from 3.4%to 11.5%and peaked in winter in both site s.No significant differences of AAPB community compositions were detected between the two sites,but there was a separation between warm seasons(June,August,and October)and cold seasons(December,February,and April).Rhizobiales and Limnohabitans-like pufM sequences were significantly contributors for the difference between two seasons,and specially enriched in cold seasons.Chlorophyll a(Ch1 a)and DOC were the most significant variables influencing the AAPB community structure.Furthermore,Porphyrobacter and Rhodospirillales-like pufM sequences were positively correlated with Ch1 a,indicating potential influence of cyanobacterial blooms on these AAPB taxa.These results suggested that diverse AAPB ecotypes coexisted in Taihu Lake,and their ecological role in carbon cycling in the lake may not be ignored.
基金Supported by the National Science Foundation of China(Nos.32071573,41877544)the Science and Technology Service Network Initiative of Chinese Academy of Sciences(No.KFJ-STS-QYZD-2021-01-002)the Science and Technology Achievement Transformation Foundation of Inner Mongolia Autonomous Region(No.2021CG0013)。
文摘Cyanobacteria can accumulate as a heavy biomass on the leeward side of large eutrophic lakes,posing a potential threat to public health.The mitigating capacity of three flocculants and their potential impacts on the major environmental features of water and sediments was evaluated.Results indicate that polyaluminum chloride(PAC)and ferric chloride(FeCl)are efficient flocculants that can rapidly mitigate cyanobacterial blooms with chlorophyll-a concentrations higher tnan 1500 ug/L within 15 min.In comparison,cationic starch with chitosan could only treat cyanobacterial blooms in chlorophyll-a concentrations of less than 200μg/L.The addition of FeClcaused a decline in the pH value,while dissolved oxygen in the water column dropped to 2 mg/L during cationic starch with chitosan treatment for a high cyanobacterial biomass group.Thus,a combination of flocculants and oxygenators should be considered when treating high-concentration cyanobacterial blooms for emergency purposes.Additionally,the cell lysis of cyanobacteria caused by cationic starch with chitosan can result in an increase in total dissolved phosphorus and total dissolved nitrogen.Furthermore,the high accumlation of nutrients in sediments after the settling of cyanobacteria can cause high internal phosphorus pollution.The increase in the total organic carbon of the sediments can threaten lake restoration achieved by planting submerged macrophytes.
文摘Cyanobacterial blooms are one of the major threats to the health of aquatic ecosystems,and are increasing globally due to the synergistic eff ects of human activities and global climate change.The 7^(th) National Cyanobacteria Bloom Forum was successfully held in May 28-30,2021 in Guiyang,Guizhou Province,China.The forum established a platform for exchanging views on the concerns of cyanobacterial blooms from Chinese researchers,lake managers,and treatment engineers.This special issue,“Cyanobacterial blooms in China:ecology,toxicity,and treatment”in Journal of Oceanography and Limnology,presents a collection of 14 papers on the physiological features and the infl uence on their concurrent aquatic biology of diff erent cyanobacterial groups.
基金Supported by the National Natural Science Foundation of China(Nos.U22A20616,32071573)。
文摘Global warming has caused an increase in the frequency and duration of droughts worldwide.Droughts could trigger large changes in physico-chemical conditions and phytoplankton community in waterbodies,resulting in a shift in the phytoplankton community.Spring diatom blooms in reservoirs have been increasingly observed in the past decade in the Taihu Lake basin.The aim of the present study is to elucidate the impacts of droughts on aquatic environment and to determine the driving factors for the succession of the phytoplankton functional groups based on the analysis of data collected during spring from 2009 to 2020 in the Daxi Reservoir.The unimodal relationship between 1-month aggregated precipitation index and phytoplankton species richness indicated the competitive exclusion occurred in extremely drought period.The structural equation modeling indicated that drought-related low water level conditions intensified sediment resuspension,and increased the phosphorus-enriched nonalgal turbidity in the Daxi Reservoir.Concurrently,a steady shift in the Reynolds phytoplankton functional groups from L 0,TD,J,X 2,and A(phytoplankton taxa preferring low turbidity and nutrient conditions)to TB(pennate diatoms being adapt to turbid and nutrient-rich conditions)was observed.The increased TP and non-algal turbidity in addition to the lowered disturbance contribute to the prevalence of Group TB.Considering the difficulties in nutrient control,timely water replenishment is often a feasible method of controlling the dominance of harmful algae for reservoir management.Finally,alternative water sources are in high demand for ensuring ecological safety and water availability when dealing with drought.
基金supported by the National Natural Science Foundation (Nos. 31070420, 31270507)the International Innovation Partnership ProgramChinese Academy of Sciences (No. KZZD-EW-TZ-08)
文摘In an attempt to elucidate the effects of different CO2concentrations(270, 380, and 750 μL/L) on the competition of microcystin-producing(MC-producing) and non-MC-producing Microcystis strains during dense cyanobacteria blooms, an in situ simulation experiment was conducted in the Meiliang Bay of Lake Taihu in the summer of 2012. The abundance of total Microcystis and MC-producing Microcystis genotypes was quantified based on the 16 S r DNA and mcy D gene using real-time PCR. The results showed that atmospheric CO2 elevation would significantly decrease the p H value and increase the dissolved inorganic carbon(DIC) concentration.Changes in CO2 concentration did not show significant influence on the abundance of total Microcystis population. However, CO2 concentrations may be an important factor in determining the subpopulation structure of Microcystis. The enhancement of CO2 concentrations could largely increase the competitive ability of non-MC-producing over MC-producing Microcystis, resulting in a higher proportion of non-MC-producing subpopulation in treatments using high CO2 concentrations. Concurrently, MC concentration in water declined when CO2 concentrations were elevated. Therefore, we concluded that the increase of CO2 concentrations might decrease potential health risks of MC for human and animals in the future.
基金Supported by the National Natural Science Foundation of China(Nos.41877544,32071573,42177227)。
文摘In a large eutrophic lake,the littoral zone is normally an area with high-density elevated aquatic plant life,including algal blooms,where the presence of reed wetlands allows the accumulation of algae.In this study,the impact of accumulated algal blooms in reed wetlands in the littoral zone s of Chaohu Lake was investigated seasonally from 2018 to 2019.The concentrations of chlorophyll a(Chl a),total nitrogen(TN),and total phosphorus(TP)were much higher in the reed-covered littoral zones(RCLZ)than in the unvegetated littoral zones(ULZ),indicating that more algal biomass was trapped and accumulated in the RCLZ.Algal biomass could be horizontally transported to downwind littoral zones under low wind speeds,favoring the establishment of blooms.Algal accumulation levels were highest in summer due to high water temperatures and algal biomasses.Likewise,the northern littoral zones were conducive to the development of large algal blooms because of the wind pattern.The values of TN,TP,Chl a,and loss on ignition in surface sediments were higher in the RCLZ than in the ULZ.Moreover,the diffusive fluxes of ammonium and soluble reactive pho sphorus were also higher in the RCLZ than in the ULZ.Considering the capability of reed wetlands to trap algae,mechanical salvage and other physical methods should be adopted to eliminate algal biomass when massive blooms accumulate in the RCLZ.
基金jointly supported by the National Natural Science Foundation of China(32272056,U22A6009,31671673,and 31871612)Hebei Natural Science Foundation(C2021205013,C2022204202)+1 种基金Talents Program of Hebei Agricultural University in China(YJ2021016)China Agriculture Research System of MOF and MARA(CARS-03)。
文摘Thousand-kernel weight(TKW)is a measure of grain weight,a target of wheat breeding.The object of this study was to fine-map a stable quantitative trait loci(QTL)for TKW and identify its candidate gene in a recombinant inbred line(RIL)population derived from the cross of Kenong 9204(KN9204)and Jing411(J411).On a high-density genetic linkage map,24,26 and 25 QTL were associated with TKW,kernel length(KL),and kernel width(KW),respectively.A major and stable QTL,QTkw-2D,was mapped to an8.3 cM interval on chromosome arm 2DL.By saturation of polymorphic markers in its target region,QTkw-2D was confined to a 9.13 Mb physical interval using a secondary mapping population derived from a residually heterozygous line(F6:7).This interval was further narrowed to 2.52 Mb using QTkw-2D near-isogenic lines(NILs).NILs~(KN9204)had higher fresh and dry weights than NILsJ411at various grain-filling stages.The TKW and KW of NILs~(KN9204)were much higher than those of NILsJ411in field trials.By comparison of both DNA sequence and expression between KN9204 and J411,TraesCS2D02G460300.1(TraesKN2D01HG49350)was assigned as a candidate gene for QTkw-2D.This was confirmed by RNA sequencing(RNA-seq)of QTkw-2D NILs.These results provide the basis of map-based cloning of QTkw-2D,and DNA markers linked to the candidate gene may be used in marker-assisted selection.
基金supported by the National Key Research and Development Program of China(2016YFD0101802)Exploring Candidate Genes of heat root length by integrative genomics(PCCE-KF-2018-02)。
文摘Awns play an important role in seed dispersal and photosynthesis of spikes.Three major awn inhibitors(Hd,B1,and B2)are reported in wheat.However,the molecular mechanism underlying awnlessness remained unknown until recently.In this study,we identified two F8 recombinant inbred lines(RILs)that were segregating for awn length.In order to identify the causal gene for awn length in the heterozygous inbred families(HIFs),SNPs were called from RNA sequencing(RNA-Seq)data for HIF-derived progenies with long and short awns.SNPs between long and short awn plants were evenly distributed on chromosomes(chr)other than chromosome 5 A.SNPs on chr 5 A were clustered in a region distal 688 Mb on the long arm,where inhibitor B1 was located.This suggested that B1 was the causal segregating locus.We precisely mapped B1 to^1 Mb region using two HIF-derived families.Considering that the lines segregated for long,intermediate and short awn phenotypes we speculated that B1 should have a dosage effect on awn length.Two differentially expressed genes(DEGs)located in the candidate region were regarded as candidate genes for B1,because the molecular expression pattern was consistent with the phenotype.HIFs with long and short awns showed no difference on grain yield and other agronomic traits.
文摘The real estate market is an ilnportant part of China's socialist market economy. Real estate price xs not only a profound role on the level of consumption of the residents, but a profound role on the steady development of the banking sector-based financial sector. Real estate price have a significant impact not only on the development ofmacroeconomic stability, but on the safety of financial system. Chinese economy is currently on the period of transition from investment and export promotion of economic growth mode to a demand-led growth, it is an important role to China's economic growth for sustained and healthy development of real estate market.
基金supported by the National Natural Science Foundation of China(grant nos.31991211,31921005,and 32201745)the Strategic Pri-ority Research Program of the Chinese Academy of Sciences(XDA24010104)+1 种基金the Hainan Seed Industry Laboratory(B23C1000402)the Major Basic Research Program of Shandong Natural Science Foundation(ZR2019ZD15).
文摘DNA-segment copy number variations(DSCNVs),such as deletions and duplications,are important sources of genomic structural variation.However,the types and sizes of DSCNVs,as well as their genome-wide distribution and potential functions,are poorly understood in wheat.Here,we identified 198985 DSCNVs by investigating 491 genomes of common wheat and found that they account for 20%of the entire genome.Interestingly,approximately 38%of genes are linked to DSCNVs.The number of DSCNVs within each accession ranges from 47366 to 96342,and their total sizes vary from 421.3 to 1267.9 Mb.We found that 957 and 1304 DSCNVs have been favored by breeders in China and the United States,respectively.By conducting DSCNV-based genome-wide association studies for the principal components of plant developmental and yield-component traits,we identified 34 loci as directly or indirectly involved in controlling the formation of multiple traits.Notably,a newly discovered DSCNV covering TaFT-D1 is significantly associated with flowering time and other agronomic traits.Overall,our findings highlight the potential of DSCNVs to drive fundamental discoveries in plant science.The comprehensive DSCNV map and the DSCNV-associated genes will also facilitate future research efforts to improve wheat yield,quality,and adaptation.
基金supported by the Natural Science Basic Research Program of Shaanxi Province(No.2022 JM-307)China Scholarship Council(Nos.202206560047 and 202306560107)。
文摘Highway maintenance cost-effectiveness analysis is critical in highway maintenance management.It provides the methodologies for highway managers to make decisions on the time,location,actions,and feasibility of maintenance implementation for a single maintenance section or the whole highway network.This paper aims to provide a comprehensive review of the methodologies used to evaluate the cost-effectiveness of highway maintenance,assess the applicability of various methods,pinpoint research gaps in existing literature,and offer research directions for the future.First,the cost-effectiveness hotspots are analyzed using bibliometric methods,and then highway maintenance effectiveness indicators,maintenance cost indicators,and methodologies for evaluating maintenance cost-effectiveness are reviewed.Four types of highway maintenance effectiveness indicators are considered:performance indicators,time indicators,environment indicators,and social indicators.Maintenance cost indicators are categorized into three categories:maintenance treatment costs,maintenance expenditures,and user costs.To analyze maintenance cost-effectiveness,the life-cycle cost approach(LCCA)and the combination of cost and effectiveness approach(CCEA)are two ways that have been investigated.According to the findings,it is essential to select an appropriate performance index and then forecast the performance of highway assets,which is the premise of calculating many kinds of maintenance effectiveness indicators.Additionally,studying from a life cycle perspective is a research hotspot,but there is a lack of utilization of maintenance cost prediction models,and user costs are not fully considered.Especially,the respective weight of maintenance expenditures and user costs.It is suggested that future maintenance cost-effectiveness evaluation should trade off the four dimensions of technology,economy,environment,and society from a life cycle perspective.Besides,more hybrid approaches capable of leveraging the merits of multiple approaches should be studied for cost-effectiveness analysis.These findings give some suggestions for further study of cost-effectiveness and also provide a theoretical basis for scientific highway maintenance management.
基金supported by the National Natural Science Foundation of China(Grant Nos.42025707,32171546)the Third Comprehensive Scientific Investigation Project of Xinjiang(Grant No.2022xjkk1504)+1 种基金the Second Tibetan Plateau Scientific Expedition and Research Program(Grant No.2019QZKK0202)the Natural Science Foundation of Jiangsu Province,China(Grant No.BK20231516)。
文摘A systematic classification of lakes is essential for effective management,conservation,and scientific research.However,existing approaches often overlook the continuous variability of certain indicators among lakes and are constrained by data availability.In this study,we developed a classification system for 439 lakes larger than 10 km^(2)in China using geomorphological,hydrological,climatic,and landscape features,employing an archetypal analysis approach.Based on the model fitting results,we identified six distinct lake archetypes,which differ from the traditional five classifications based on geographical regions in China.The water quality of lakes across different archetypes responded to a range of geographic,hydrological,meteorological,soil,and anthropogenic factors.Lakes with the highest nutrient levels were predominantly found in Archetypes 5 and 6,located in northeastern China and the Yunnan-Guizhou Plateau,respectively,followed by Archetype 3.In these regions,nutrient levels were strongly associated with human activities.In contrast,indicators such as conductivity and permanganate index in different archetypes were primarily influenced by non-human activities,with the impact of human activities being relatively weak.Phytoplankton,represented by chlorophyll-a,showed a significant response to total phosphorus only in Archetypes 3 and 6,while the response to nitrogen and phosphorus was not significant in the other archetypes.This variation in phytoplankton responses may have been influenced by the climatic conditions in these regions,such as temperature.These findings underscore the importance of developing targeted management and conservation strategies for different lake types,considering their distinct responses to nutrient and temperature changes.Smaller lakes,with relatively simple ecological characteristics,can be managed through targeted strategies tailored to specific types.In contrast,larger lakes require more specialized conservation and management efforts to tackle their complex ecosystem challenges.
基金Supported by the Jiangsu Provincial Science and Technology Planning Project(No.BK20231516)the National Natural Science Foundation of China(Nos.42293264,32371606,31971449)。
文摘In natural aquatic ecosystems,algal-derived organic carbon(AOC)often coexists with exogenous organic carbon(EOC).Microbial utilization of these distinct carbon sources affects carbon flux and transformation in water column and algal growth.Microcystis blooms significantly increase AOC levels in water,but the microbial transformation process of Microcystis-derived AOC in the presence of EOC remain poorly understood.We conducted a simulated experiment by introducing^(13)C-sodium bicarbonate and^(13)C-glucose as substrates for indoor simulation of non-axenic Microcystis aeruginosa(M.aeruginosa)populations in a sealed system.The microbial transformation processes of AOC and EOC and their effects on M.aeruginosa growth were investigated.Results demonstrated that the addition of glucose accelerated M.aeruginosa growth and significantly increased their biomass.During the experiment,as the particulate organic carbon and nitrogen content increased,the concentrations of CO_(2)and N_(2)O were gradually decreased,while the concentration of CH4 were gradually increased.Significant differences were observed in the microbial processes involved in the uptake of AOC and EOC.Bacteria involved in AOC transformation throughout the growth period were dominated by Proteobacteria,Gemmatimonadota,Actinobacteriota,Bacteroidota,Acidobacteriota,and Firmicutes.The bacteria involved in EOC transformation were dominated by Proteobacteria,Actinobacteriota,Firmicutes,Cyanobacteria,Armatimonadota,and Bacteroidota.Linear discriminant analysis Effect Size(LEfSe)analysis revealed Massilia and Akkermansia as biomarkers involved in AOC transformation,while Ligilactobacillus was associated with EOC transformation.These findings provide valuable insights into the effects of EOC on algae-bacteria interaction,and on the dynamics of carbon and nitrogen cycling among M.aeruginosa and its associated bacteria.
基金supported by the National Natural Science Foundation of China(grant nos.31921005 and 31991211)the Strategic Priority Research Program of the Chinese Academy of Sciences(grant nos.XDA24010104,XDA24010204,and XDA24030102)+1 种基金the Special Information Program of the Chinese Academy of Sciences(grant no.XXH13506-408)the China Agricultural Research System(grant no.CARS-03).
文摘Studying the regulatory mechanisms that drive nitrogen-use efficiency(NUE)in crops is important for sustainable agriculture and environmental protection.In this study,we generated a high-quality genome assembly for the high-NUE wheat cultivar Kenong 9204 and systematically analyzed genes related to nitrogen uptake and metabolism.By comparative analyses,we found that the high-affinity nitrate transporter gene family had expanded in Triticeae.Further studies showed that subsequent functional differentiation endowed the expanded family members with saline inducibility,providing a genetic basis for improving the adaptability of wheat to nitrogen deficiency in various habitats.To explore the genetic and molecular mechanisms of high NUE,we compared genomic and transcriptomic data from the high-NUE cultivar Kenong 9204(KN9204)and the low-NUE cultivar Jing 411 and quantified their nitrogen accumulation under high-and low-nitrogen conditions.Compared with Jing 411,KN9204 absorbed significantly more nitrogen at the reproductive stage after shooting and accumulated it in the shoots and seeds.Transcriptome data analysis revealed that nitrogen deficiency clearly suppressed the expression of genes related to cell division in the young spike of Jing 411,whereas this suppression of gene expression was much lower in KN9204.In addition,KN9204 maintained relatively high expression of NPF genes for a longer time than Jing 411 during seed maturity.Physiological and transcriptome data revealed that KN9204 was more tolerant of nitrogen deficiency than Jing 411,especially at the reproductive stage.The high NUE of KN9204 is an integrated effect controlled at different levels.Taken together,our data provide new insights into the molecular mechanisms of NUE and important gene resources for improving wheat cultivars with a higher NUE trait.
