The interannual variability of tropical zonal wind and the relationship between ENSO and the Asian / Australian monsoon in different phases are discussed. Results show that the tropical zonal wind strongly couples wit...The interannual variability of tropical zonal wind and the relationship between ENSO and the Asian / Australian monsoon in different phases are discussed. Results show that the tropical zonal wind strongly couples with the central-eastern Pacific SST on a quasi-four-year scale. During the period of El Nino, the East Asian winter (summer) monsoon is weaker (stronger) and the South Asian summer monsoon is weaker than normal. Conversely, the East Asian winter (summer) monsoon is stronger (weaker) and the South Asian summer monsoon is stronger than normal during the period of La Niña. The anomalous northerly over East Asia induces an anomalous westerly over the western equatorial Pacific, which favors the appearance of positive SST anomalies in the central-eastern Pacific. The development of El Niño requires the persistence of a westerly over the central-eastern Pacific. The convergence between anomalous northerlies from the central North Pacific (not from the East Asian continent) and anomalous southerlies from Northeast Australia favors the persistence of a westerly over the central-eastern Pacific. In particular, the anomalous southerlies from Northeast Australia play a key role in the onset of strong westerly anomalies over the tropical central-eastern Pacific.展开更多
Objective Stroke is the third leading cause of death worldwide,with the highest incidence in Asia,particularly in China,where smoking remains a major risk factor.The smoking prevalence in China is similar to that in A...Objective Stroke is the third leading cause of death worldwide,with the highest incidence in Asia,particularly in China,where smoking remains a major risk factor.The smoking prevalence in China is similar to that in Asia.Whether the risk estimates for smoking-related stroke in China and all Asian countries are still unknown which is worth evaluating.Thus,this study aims to compare the Relative Risk(RR)of smoking-attributed stroke among the Chinese and Asian populations.Methods A literature search was conducted from the inception to September 10,2022.Studies meeting the criteria were included.The articles were screened,and related information was extracted.Pooled RRs stratified by smoking status and sex were analyzed,including subgroup analyses for China,other Asian countries,and Asia overall.Finally,publication bias and sensitivity analyses were conducted.Results Thirty-seven articles on the Chinese population and 15 on other Asian populations were included,with a mean Newcastle-Ottawa scale(NOS)score of 7.25.About ever smokers,there had no statistical difference existed in both sexes and females between China and other Asian countries,while the RR of males in other Asian countries[2.31(1.38,3.86)]was higher than that in China[1.21(1.15,1.26)];further subgroup analysis indicated that other Asian countries had higher RR[3.76(3.02,4.67)]in the morbidity subgroup.The RRs of both sexes,males and females,between China and the whole of Asia were not statistically different.As for current and former smokers,no meaningful statistical difference was observed in the pooled RRs of both sexes,males and females,in China,other Asian countries,and all of Asia.Conclusion The RR of males ever smokers in China was smaller than that in other Asian countries due to the few articles of morbidity subgroup,but had no statistical difference with the whole of Asia;other groups of ever smokers,current smokers,and former smokers were not statistically significant with other Asian countries or the whole of Asia.展开更多
Migratory birds undertake regular seasonal movements between breeding and non-breeding grounds each year,often spanning intercontinental distances.Several migratory waterbirds are declining globally,owing to multiple ...Migratory birds undertake regular seasonal movements between breeding and non-breeding grounds each year,often spanning intercontinental distances.Several migratory waterbirds are declining globally,owing to multiple threats from parts of annual migration.Therefore,understanding the spatial distribution and conservation challenges of migratory waterbirds is critical for effective flyway-scale conservation.In this study,we compiled a comprehensive dataset of 199 migratory waterbird species,mapped seasonal distribution,and identified population trends and threats along the East Asian-Australasian Flyway and Central Asian Flyway.Species richness exhibited latitudinal gradients along the two flyways,peaking at approximately 60°N in the breeding season and15°N in the non-breeding season.Migration distance and geographic spread significantly varied among orders.More than half of the waterbird species(50.75%)showed decreasing population trends;however,no significant difference in the proportion of population decline was noticed across flyways or orders.A total of 31 species(15.58%)were listed as threatened,most of which were concentrated in the East Asian-Australasian Flyway and primarily affected by the use of biological resources,pollution,and agricultural expansion.Overall,this study provides a comparative assessment of migratory waterbirds in Asian flyways.Our findings highlight the importance of multinational conservation efforts targeting key breeding and non-breeding regions,specifically for threatened species,and underscore the need for coordinated strategies to mitigate multiple,overlapping threats across flyways.These further emphasize that conservation actions should prioritize transboundary habitat networks and policy integration among flyway countries to enhance the long-term resilience of migratory waterbird populations.展开更多
The commencement of the tropical Asian summer monsoon(TASM)in May is a crucial phase in its seasonal evolution,with critical implications for agriculture and water resources.Based on observational and reanalysis data,...The commencement of the tropical Asian summer monsoon(TASM)in May is a crucial phase in its seasonal evolution,with critical implications for agriculture and water resources.Based on observational and reanalysis data,this study finds that the relationship between El Nino-Southern Oscillation(ENSO)and monsoon commencement experiences a notable interdecadal strengthening after 1976/77.While the response of tropical tropospheric temperature to ENSO remains largely unchanged,ENSO induces a stronger Walker circulation,a more pronounced equatorial Rossby wave,and an intensified extratropical Rossby wave train after 1976/77.These enhanced atmospheric processes,which directly reinforce the ENSO-TASM commencement relationship,are likely driven by interdecadal shifts in the structure and variance of ENSO.Post-1976/77,ENSO displays increased variance and a more coherent structure,with more pronounced sea surface temperature anomalies in the western North Pacific and subtropical North Pacific.Given the limitations of observational data,a 1000-year piControl experiment further confirms the role of ENSO variance changes in strengthening its influence on monsoon commencement.Our findings underscore the critical influence of evolving ENSO characteristics on climate anomalies such as monsoon commencement,offering potential insights for short-term climate prediction.展开更多
Background In July 2024,the European Union's Ecodesign for Sustainable Products Regulation,or ESPR,officially came into effect.This regulation mandates that products entering the EU market must use a Digital Produ...Background In July 2024,the European Union's Ecodesign for Sustainable Products Regulation,or ESPR,officially came into effect.This regulation mandates that products entering the EU market must use a Digital Product Passport,known as DPP,to disclose their compliance certifications,environmental impact,and supply chain information.Failure to comply may result in exclusion from the EU market.展开更多
Shorebirds migrate long-distances along the East Asian-Australasian Flyway(EAAF),exhibiting distinct spatiotemporal fluctuations in population dynamics.Because of habitat degradation and population declines at key sto...Shorebirds migrate long-distances along the East Asian-Australasian Flyway(EAAF),exhibiting distinct spatiotemporal fluctuations in population dynamics.Because of habitat degradation and population declines at key stopover sites along the EAAF,the South Korea's coastal wetlands have gained increasing attention for their ecological value.This study analyzed the shorebird population dynamics across 35 coastal wetlands in South Korea from 2016 to 2024 using data from the National Marine Ecosystem Monitoring Program.For the timeseries analysis,we employed three indicators:seasonal chan ges in abundance,short-term fluctuations(Fi),and long-term trends,assessed using the TRends and Indices for Monitoring data(TRIM)model.Abundance,species richness,and Shannon diversity indices were assessed across the regions during spring and autumn.The TRIM results revealed significant population increases in both seasons("Strong increase"in spring and"Moderate increase"in autumn).Species-level trends indicated notable increases in large-bodied shorebirds,including globally threatened species such as the Far Eastern Curlew(Numenius madagascariensis).Eurasian Curlew(N.arquata),and Eurasian Oystercatcher(Haematopus ostralegus),whereas other species showed variable responses.The Yellow Sea region(Gyeonggi,Chungcheong,and Western Jeolla)showed high biodiversity indices in spring,which may be associated with time-minimization strategies,whereas autumn patterns were characterized by more flexible and selective stopover use,possibly related to energy-minimization strategies.The East Coast and Jeju regions showed the lowest biodiversity indices.Furthermore,community-level analyses using Non-metric Multidimensional Scaling(NMDS)and PERMANOVA revealed distinct clustering of bird assemblages by macro-region and season,confirming significant spatial differentiation in community composition.These findings contrast with the broader declining trends reported across the EAAF and suggest that South Korea's coastal wetlands may serve as stable alternative stopover habitats,potentially supporting the redistribution or recovery of some species.This study highlights the importance of transboundary cooperation and region-specific habitat management that reflects local ecological contexts for effective conservation.展开更多
This study investigated the impacts of key parameters in CAM6's deep convection and cloud physics schemes on the simulation of summer-mean precipitation over East Asia through conducting perturbed parameter ensemb...This study investigated the impacts of key parameters in CAM6's deep convection and cloud physics schemes on the simulation of summer-mean precipitation over East Asia through conducting perturbed parameter ensemble(PPE)experiments.Utilizing the experimental platform of CAM6,a suite of 128 PPE simulations spanning 19792014 were generated through simultaneously perturbing 12 selected parameters.Using EOF analysis,this study firstly extracted the first two leading modes of the precipitation simulation biases.The authors further pinpointed the most critical parameters that have the most influential effects on the precipitation simulation biases,through conducting generalized linear model analysis.The first leading mode of precipitation simulation biases is primarily influenced by parameters from the cloud physics scheme,including the linear effects of dcs and eii,and the nonlinear effect of rhminl*dcs.These parameters influence the simulated total precipitation(PrecT)mainly by altering the large-scale precipitation(PrecL).The second leading mode is predominantly governed by the convection scheme parameter dmpdz,reflecting a competition between the changes in convective precipitation(PrecC)and PrecL in response to variations in dmpdz.An increase in dmpdz induces decreased PrecC and increased PrecL in East Asia,and both of the changes collectively shape the ultimate PrecT response to the adjusted dmpdz.Lastly,it is noteworthy that the nonlinear effect due to the interaction among parameters warrants attention when concurrently adjusting multiple parameters,and the precipitation biases from the PPE simulations resemble those identified through EOF analysis on the AMIP simulations,implying our findings may provide potential reference for other AGCMs.展开更多
Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives ...Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives of billions who depend on or are affected by monsoons, as it is essential for the water cycle, food security, ecology, disaster prevention, and the economy of monsoon regions. Given the extensive literature on Asian monsoon climate prediction, we limit our focus to reviewing the seasonal prediction and predictability of the Asian Summer Monsoon (ASM). However, much of this review is also relevant to monsoon predictions in other seasons and regions. Over the past two decades, considerable progress has been made in the seasonal forecasting of the ASM, driven by an enhanced understanding of the sources of predictability and the dynamics of seasonal variability, along with advanced development in sophisticated models and technologies. This review centers on advances in understanding the physical foundation for monsoon climate prediction (section 2), significant findings and insights into the primary and regional sources of predictability arising from feedback processes among various climate components (sections 3 and 4), the effects of global warming and external forcings on predictability (section 5), developments in seasonal prediction models and techniques (section 6), the challenges and limitations of monsoon climate prediction (section 7), and emerging research trends with suggestions for future directions (section 8). We hope this review will stimulate creative activities to enhance monsoon climate prediction.展开更多
Since Blanford(1884)first linked Himalayan snowfall to subsequent Indian summer monsoon(ISM)rainfall,the potential for long-range forecasting has been recognized.Key advances followed:discovery of the Southern Oscilla...Since Blanford(1884)first linked Himalayan snowfall to subsequent Indian summer monsoon(ISM)rainfall,the potential for long-range forecasting has been recognized.Key advances followed:discovery of the Southern Oscillation(Walker,1925;Walker and Bliss,1932);identification of the Pacific-North American pattern(Wallace and Gutzler,1981);and Bjerknes’(1969)seminal study of ENSO as a predictable climate driver.Foundational theory—including equatorial wave dynamics(Matsuno,1966;Webster,1972;Gill,1980).展开更多
《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,中国香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、...《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,中国香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。展开更多
《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,中国香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、...《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,中国香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。展开更多
《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国...《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。展开更多
《Asian Joural of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国...《Asian Joural of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。本刊现已被维普数据库和超星数据库收录。展开更多
In the context of global warming,it is anticipated that both the intensity and the frequency of future global extreme high precipitation(EHP)and extreme high temperature(EHT)events will increase.To evaluate the future...In the context of global warming,it is anticipated that both the intensity and the frequency of future global extreme high precipitation(EHP)and extreme high temperature(EHT)events will increase.To evaluate the future extreme climate changes in the Asian arid region and Tibetan Plateau,this study applied the NASA Earth Exchange Global Daily Downscaled Projections(NEX-GDDP-CMIP6)to assess the changes in EHP(Rx5d and R95pTOT)and EHT(TX90p and TXx)under different emission scenarios in the 21st century.Findings suggest that both the frequency and the intensity of the extreme indices will increase,exhibiting accelerated growth under higher emission scenarios,particularly under the SSP5-8.5 emission scenario.It is suggested that the growth of EHT and EHP in the early subperiod of the 21st century(2026-2045)will be relatively moderate,with small differences between different emission scenarios.However,by the middle subperiod of the 21st century(2041-2060),the differences between different emission scenarios will become larger than the 2035s and the growth will become more intense.In western central Asia,TX90p,TXx,Rx5d,and R95pTOT increase by 9.7%-14.2%(13.3%-24.7%),1.3℃-1.7℃(1.6℃-2.7℃),6.5%-8.9%(8.2%-8.8%),and 18.1%-27.0%(25.6%-30.0%)by the early(middle)subperiod;in eastern central Asia,TX90p,TXx,Rx5d,and R95pTOT increase 8.1%-12.0%(11.3%-21.1%),1.4℃-1.8℃(1.9℃-2.9℃),7.4%-9.7%(10.4%-13.8%),and 20.2%-29.3%(32.0%-40.8%)by the early(middle)subperiod;and over the Tibetan Plateau,TX90p,TXx,Rx5d,and R95pTOT increase 12.5%-17.4%(17.0%-31.0%),1.2℃-1.5℃(1.6℃-2.5℃),7.2%-10.0%(9.9%-15.0%),and 26.6%-33.1%(36.1%-55.3%)by the early(middle)subperiod.展开更多
0 INTRODUCTION.The Asian drylands,encompassing the northern East Asian monsoon region(NMA),the westerlies-dominated arid central Asia(ACA)and arid west Asia(AWA),are ecologically fragile areas and among the most sensi...0 INTRODUCTION.The Asian drylands,encompassing the northern East Asian monsoon region(NMA),the westerlies-dominated arid central Asia(ACA)and arid west Asia(AWA),are ecologically fragile areas and among the most sensitive regions to global change.These regions are significant dust sources of the Northern Hemisphere(e.g.,Uno et al.,2009),playing a vital role in global climate change and marine biogeochemical cycles.展开更多
At the beginning of the new year, we celebrate the arrival of 2025. Unfortunately, not everyone in the world shares such joy and peace. Many, instead, are mired in turmoil, conflict, and bloodshed. In 2024 alone, over...At the beginning of the new year, we celebrate the arrival of 2025. Unfortunately, not everyone in the world shares such joy and peace. Many, instead, are mired in turmoil, conflict, and bloodshed. In 2024 alone, over 233,000 lives perished in the flames of war. In many ways, Asia has been fortunate. Since the end of World War Ⅱ, we in Asia have largely enjoyed peace and stability, making steady progress towards prosperity through hard work.展开更多
基金Acknowledgments. The work was supported by the National Natural Science Foundation of China under GrantNo.49775270.
文摘The interannual variability of tropical zonal wind and the relationship between ENSO and the Asian / Australian monsoon in different phases are discussed. Results show that the tropical zonal wind strongly couples with the central-eastern Pacific SST on a quasi-four-year scale. During the period of El Nino, the East Asian winter (summer) monsoon is weaker (stronger) and the South Asian summer monsoon is weaker than normal. Conversely, the East Asian winter (summer) monsoon is stronger (weaker) and the South Asian summer monsoon is stronger than normal during the period of La Niña. The anomalous northerly over East Asia induces an anomalous westerly over the western equatorial Pacific, which favors the appearance of positive SST anomalies in the central-eastern Pacific. The development of El Niño requires the persistence of a westerly over the central-eastern Pacific. The convergence between anomalous northerlies from the central North Pacific (not from the East Asian continent) and anomalous southerlies from Northeast Australia favors the persistence of a westerly over the central-eastern Pacific. In particular, the anomalous southerlies from Northeast Australia play a key role in the onset of strong westerly anomalies over the tropical central-eastern Pacific.
基金funded by the State Key Laboratory Special Fund(2060204)Chinese Academy of Medical Sciences Innovation Fund for Medical Sciences(2023-I2M-2-001)Strengthen Capacity of Study and Application on the Burden of Disease in Health Care Systems in China:Establishment and Development of Chinese Burden of Disease Research and Dissemination Center(15-208)supported by the China Medical Board(CMB)。
文摘Objective Stroke is the third leading cause of death worldwide,with the highest incidence in Asia,particularly in China,where smoking remains a major risk factor.The smoking prevalence in China is similar to that in Asia.Whether the risk estimates for smoking-related stroke in China and all Asian countries are still unknown which is worth evaluating.Thus,this study aims to compare the Relative Risk(RR)of smoking-attributed stroke among the Chinese and Asian populations.Methods A literature search was conducted from the inception to September 10,2022.Studies meeting the criteria were included.The articles were screened,and related information was extracted.Pooled RRs stratified by smoking status and sex were analyzed,including subgroup analyses for China,other Asian countries,and Asia overall.Finally,publication bias and sensitivity analyses were conducted.Results Thirty-seven articles on the Chinese population and 15 on other Asian populations were included,with a mean Newcastle-Ottawa scale(NOS)score of 7.25.About ever smokers,there had no statistical difference existed in both sexes and females between China and other Asian countries,while the RR of males in other Asian countries[2.31(1.38,3.86)]was higher than that in China[1.21(1.15,1.26)];further subgroup analysis indicated that other Asian countries had higher RR[3.76(3.02,4.67)]in the morbidity subgroup.The RRs of both sexes,males and females,between China and the whole of Asia were not statistically different.As for current and former smokers,no meaningful statistical difference was observed in the pooled RRs of both sexes,males and females,in China,other Asian countries,and all of Asia.Conclusion The RR of males ever smokers in China was smaller than that in other Asian countries due to the few articles of morbidity subgroup,but had no statistical difference with the whole of Asia;other groups of ever smokers,current smokers,and former smokers were not statistically significant with other Asian countries or the whole of Asia.
基金supported by The National Key Research and Development Program of China(2022YFC3204304)Jiangsu Provincial Innovation Research Program on Carbon Peaking and Carbon Neutrality(BT2024012)Postgraduate Research&Practice Innovation Program of Jiangsu Province。
文摘Migratory birds undertake regular seasonal movements between breeding and non-breeding grounds each year,often spanning intercontinental distances.Several migratory waterbirds are declining globally,owing to multiple threats from parts of annual migration.Therefore,understanding the spatial distribution and conservation challenges of migratory waterbirds is critical for effective flyway-scale conservation.In this study,we compiled a comprehensive dataset of 199 migratory waterbird species,mapped seasonal distribution,and identified population trends and threats along the East Asian-Australasian Flyway and Central Asian Flyway.Species richness exhibited latitudinal gradients along the two flyways,peaking at approximately 60°N in the breeding season and15°N in the non-breeding season.Migration distance and geographic spread significantly varied among orders.More than half of the waterbird species(50.75%)showed decreasing population trends;however,no significant difference in the proportion of population decline was noticed across flyways or orders.A total of 31 species(15.58%)were listed as threatened,most of which were concentrated in the East Asian-Australasian Flyway and primarily affected by the use of biological resources,pollution,and agricultural expansion.Overall,this study provides a comparative assessment of migratory waterbirds in Asian flyways.Our findings highlight the importance of multinational conservation efforts targeting key breeding and non-breeding regions,specifically for threatened species,and underscore the need for coordinated strategies to mitigate multiple,overlapping threats across flyways.These further emphasize that conservation actions should prioritize transboundary habitat networks and policy integration among flyway countries to enhance the long-term resilience of migratory waterbird populations.
基金supported jointly by the Natural Science Foundation of Yunnan Province(Grant No.202501CF070059)the National Natural Science Foundation of China(Grant No.42205021)+5 种基金the Yunnan Provincial Science and Technology Department(Grant Nos.202505AB350001 and202403AP140009)the Yunnan Southwest United Graduate School Science and Technology Special Project(Award No.202302AP370003)the Scientific Research Fund Project of Yunnan Education Department(Grant No.2025Y0111)the Practical Innovation Project of Postgraduate Students in the Academic Degree of Yunnan University(Grant No.KC-24248868)the Practical Innovation Project of Postgraduate Students in the Professional Degree of Yunnan University(Grant No.ZC-24248604)the Youth Science and Technology Fund Project of Gansu Province(Grant No.24JRRA1186)。
文摘The commencement of the tropical Asian summer monsoon(TASM)in May is a crucial phase in its seasonal evolution,with critical implications for agriculture and water resources.Based on observational and reanalysis data,this study finds that the relationship between El Nino-Southern Oscillation(ENSO)and monsoon commencement experiences a notable interdecadal strengthening after 1976/77.While the response of tropical tropospheric temperature to ENSO remains largely unchanged,ENSO induces a stronger Walker circulation,a more pronounced equatorial Rossby wave,and an intensified extratropical Rossby wave train after 1976/77.These enhanced atmospheric processes,which directly reinforce the ENSO-TASM commencement relationship,are likely driven by interdecadal shifts in the structure and variance of ENSO.Post-1976/77,ENSO displays increased variance and a more coherent structure,with more pronounced sea surface temperature anomalies in the western North Pacific and subtropical North Pacific.Given the limitations of observational data,a 1000-year piControl experiment further confirms the role of ENSO variance changes in strengthening its influence on monsoon commencement.Our findings underscore the critical influence of evolving ENSO characteristics on climate anomalies such as monsoon commencement,offering potential insights for short-term climate prediction.
文摘Background In July 2024,the European Union's Ecodesign for Sustainable Products Regulation,or ESPR,officially came into effect.This regulation mandates that products entering the EU market must use a Digital Product Passport,known as DPP,to disclose their compliance certifications,environmental impact,and supply chain information.Failure to comply may result in exclusion from the EU market.
文摘Shorebirds migrate long-distances along the East Asian-Australasian Flyway(EAAF),exhibiting distinct spatiotemporal fluctuations in population dynamics.Because of habitat degradation and population declines at key stopover sites along the EAAF,the South Korea's coastal wetlands have gained increasing attention for their ecological value.This study analyzed the shorebird population dynamics across 35 coastal wetlands in South Korea from 2016 to 2024 using data from the National Marine Ecosystem Monitoring Program.For the timeseries analysis,we employed three indicators:seasonal chan ges in abundance,short-term fluctuations(Fi),and long-term trends,assessed using the TRends and Indices for Monitoring data(TRIM)model.Abundance,species richness,and Shannon diversity indices were assessed across the regions during spring and autumn.The TRIM results revealed significant population increases in both seasons("Strong increase"in spring and"Moderate increase"in autumn).Species-level trends indicated notable increases in large-bodied shorebirds,including globally threatened species such as the Far Eastern Curlew(Numenius madagascariensis).Eurasian Curlew(N.arquata),and Eurasian Oystercatcher(Haematopus ostralegus),whereas other species showed variable responses.The Yellow Sea region(Gyeonggi,Chungcheong,and Western Jeolla)showed high biodiversity indices in spring,which may be associated with time-minimization strategies,whereas autumn patterns were characterized by more flexible and selective stopover use,possibly related to energy-minimization strategies.The East Coast and Jeju regions showed the lowest biodiversity indices.Furthermore,community-level analyses using Non-metric Multidimensional Scaling(NMDS)and PERMANOVA revealed distinct clustering of bird assemblages by macro-region and season,confirming significant spatial differentiation in community composition.These findings contrast with the broader declining trends reported across the EAAF and suggest that South Korea's coastal wetlands may serve as stable alternative stopover habitats,potentially supporting the redistribution or recovery of some species.This study highlights the importance of transboundary cooperation and region-specific habitat management that reflects local ecological contexts for effective conservation.
基金jointly supported by the National Key Research and Development Program of China [grant number 2022YFF0802004]the Excellent Youth Natural Science Foundation of Jiangsu Province [grant number BK20230061]the Joint Open Project of KLME&CIC-FEMD[grant number KLME202501]。
文摘This study investigated the impacts of key parameters in CAM6's deep convection and cloud physics schemes on the simulation of summer-mean precipitation over East Asia through conducting perturbed parameter ensemble(PPE)experiments.Utilizing the experimental platform of CAM6,a suite of 128 PPE simulations spanning 19792014 were generated through simultaneously perturbing 12 selected parameters.Using EOF analysis,this study firstly extracted the first two leading modes of the precipitation simulation biases.The authors further pinpointed the most critical parameters that have the most influential effects on the precipitation simulation biases,through conducting generalized linear model analysis.The first leading mode of precipitation simulation biases is primarily influenced by parameters from the cloud physics scheme,including the linear effects of dcs and eii,and the nonlinear effect of rhminl*dcs.These parameters influence the simulated total precipitation(PrecT)mainly by altering the large-scale precipitation(PrecL).The second leading mode is predominantly governed by the convection scheme parameter dmpdz,reflecting a competition between the changes in convective precipitation(PrecC)and PrecL in response to variations in dmpdz.An increase in dmpdz induces decreased PrecC and increased PrecL in East Asia,and both of the changes collectively shape the ultimate PrecT response to the adjusted dmpdz.Lastly,it is noteworthy that the nonlinear effect due to the interaction among parameters warrants attention when concurrently adjusting multiple parameters,and the precipitation biases from the PPE simulations resemble those identified through EOF analysis on the AMIP simulations,implying our findings may provide potential reference for other AGCMs.
基金supported by the National Natural Science Foundation of China(Grant No.U2342208)support from NSF/Climate Dynamics Award#2025057。
文摘Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives of billions who depend on or are affected by monsoons, as it is essential for the water cycle, food security, ecology, disaster prevention, and the economy of monsoon regions. Given the extensive literature on Asian monsoon climate prediction, we limit our focus to reviewing the seasonal prediction and predictability of the Asian Summer Monsoon (ASM). However, much of this review is also relevant to monsoon predictions in other seasons and regions. Over the past two decades, considerable progress has been made in the seasonal forecasting of the ASM, driven by an enhanced understanding of the sources of predictability and the dynamics of seasonal variability, along with advanced development in sophisticated models and technologies. This review centers on advances in understanding the physical foundation for monsoon climate prediction (section 2), significant findings and insights into the primary and regional sources of predictability arising from feedback processes among various climate components (sections 3 and 4), the effects of global warming and external forcings on predictability (section 5), developments in seasonal prediction models and techniques (section 6), the challenges and limitations of monsoon climate prediction (section 7), and emerging research trends with suggestions for future directions (section 8). We hope this review will stimulate creative activities to enhance monsoon climate prediction.
文摘Since Blanford(1884)first linked Himalayan snowfall to subsequent Indian summer monsoon(ISM)rainfall,the potential for long-range forecasting has been recognized.Key advances followed:discovery of the Southern Oscillation(Walker,1925;Walker and Bliss,1932);identification of the Pacific-North American pattern(Wallace and Gutzler,1981);and Bjerknes’(1969)seminal study of ENSO as a predictable climate driver.Foundational theory—including equatorial wave dynamics(Matsuno,1966;Webster,1972;Gill,1980).
文摘《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,中国香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。
文摘《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,中国香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。
文摘《Asian Journal of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。
文摘《Asian Joural of Traditional Medicines》(亚洲传统医药)是2006年创刊(国际刊号:ISSN 1817-4337),由沈阳药科大学主办,香港盛京药大出版传媒有限公司出版,是海内外公开发行的传统医药行业全英文资讯期刊——发行国家包括日本、韩国、新加坡等东南亚国家以及欧美各国。本刊现已被维普数据库和超星数据库收录。
基金supported by the Second Tibetan Plateau Scientific Expedition and Research Program[grant number 2019QZKK0101]。
文摘In the context of global warming,it is anticipated that both the intensity and the frequency of future global extreme high precipitation(EHP)and extreme high temperature(EHT)events will increase.To evaluate the future extreme climate changes in the Asian arid region and Tibetan Plateau,this study applied the NASA Earth Exchange Global Daily Downscaled Projections(NEX-GDDP-CMIP6)to assess the changes in EHP(Rx5d and R95pTOT)and EHT(TX90p and TXx)under different emission scenarios in the 21st century.Findings suggest that both the frequency and the intensity of the extreme indices will increase,exhibiting accelerated growth under higher emission scenarios,particularly under the SSP5-8.5 emission scenario.It is suggested that the growth of EHT and EHP in the early subperiod of the 21st century(2026-2045)will be relatively moderate,with small differences between different emission scenarios.However,by the middle subperiod of the 21st century(2041-2060),the differences between different emission scenarios will become larger than the 2035s and the growth will become more intense.In western central Asia,TX90p,TXx,Rx5d,and R95pTOT increase by 9.7%-14.2%(13.3%-24.7%),1.3℃-1.7℃(1.6℃-2.7℃),6.5%-8.9%(8.2%-8.8%),and 18.1%-27.0%(25.6%-30.0%)by the early(middle)subperiod;in eastern central Asia,TX90p,TXx,Rx5d,and R95pTOT increase 8.1%-12.0%(11.3%-21.1%),1.4℃-1.8℃(1.9℃-2.9℃),7.4%-9.7%(10.4%-13.8%),and 20.2%-29.3%(32.0%-40.8%)by the early(middle)subperiod;and over the Tibetan Plateau,TX90p,TXx,Rx5d,and R95pTOT increase 12.5%-17.4%(17.0%-31.0%),1.2℃-1.5℃(1.6℃-2.5℃),7.2%-10.0%(9.9%-15.0%),and 26.6%-33.1%(36.1%-55.3%)by the early(middle)subperiod.
基金supported by the National Natural Science Foundation of China(Nos.42261144670,423B2103)。
文摘0 INTRODUCTION.The Asian drylands,encompassing the northern East Asian monsoon region(NMA),the westerlies-dominated arid central Asia(ACA)and arid west Asia(AWA),are ecologically fragile areas and among the most sensitive regions to global change.These regions are significant dust sources of the Northern Hemisphere(e.g.,Uno et al.,2009),playing a vital role in global climate change and marine biogeochemical cycles.
文摘At the beginning of the new year, we celebrate the arrival of 2025. Unfortunately, not everyone in the world shares such joy and peace. Many, instead, are mired in turmoil, conflict, and bloodshed. In 2024 alone, over 233,000 lives perished in the flames of war. In many ways, Asia has been fortunate. Since the end of World War Ⅱ, we in Asia have largely enjoyed peace and stability, making steady progress towards prosperity through hard work.
