The issue of climatism is a matter of concern today, given the growth of technology and the subject of globalization, which is defined and explained in many respects. The rapid advancement of technology makes communic...The issue of climatism is a matter of concern today, given the growth of technology and the subject of globalization, which is defined and explained in many respects. The rapid advancement of technology makes communication and navigation readily available. This factor causes the challenge for human societies to discover more recent developments that in turn raise the issues of how can the climatism be compatible with the creation of an architectural work, taking into account that the countries’ conventional boundaries lose their importance. And, the factors affect climatism, in other words, the way that climatism, human societies with diverse cultures, and the surrounding environment interact with each other, is raised. And, in general, the way that an architecture work to interact with its environment is discussed. In this sense, the traditional and indigenous architecture, and the fluidity of the region in the architectural framework also address the characteristics of the physical and architectural features of each region from the architectural arena, introducing effective approaches to architecture and urban planning (objective and tactical approaches), using the rational-logical approach to regional review. Then, the discussion of regionalism and regional influences in the physical fabric of each traditional architectural structure’s region is presented, with the special look of traditional architecture that is expressed in consistency between the building and the nature, and to explain the arguments to the examples and characteristics.展开更多
Climate change is one of the most pressing global challenges and spares no nation.Bhutan,as the only carbon negative country in the world,is no exception and being in the Himalayas–a region warming faster than the gl...Climate change is one of the most pressing global challenges and spares no nation.Bhutan,as the only carbon negative country in the world,is no exception and being in the Himalayas–a region warming faster than the global average–further intensifies climate risks.This study explores how Bhutan navigates climate change through the perspectives of 41 policy influencers,including politicians,civil servants,and leaders from nongovernment organisations and the media.The findings are compared with scientific literature from the broader Himalayan region to identify shared vulnerabilities(e.g.,glacial lake outburst floods,water scarcity,and agricultural disruptions)and governance challenges(e.g.,financial constraints,geopolitical pressures,and gaps in policy implementation).The study reveals that Bhutan,like its Himalayan neighbours,prioritizes adaptation over mitigation due to immediate climate threats,despite its carbonnegative status.However,Bhutan faces unique pressures in upholding its dual commitments—maintaining 60%forest cover and carbon neutrality—amid competing development needs.While its Gross National Happiness(GNH)framework provides a holistic governance model,the analysis uncovers systemic barriers,including limited financing,transboundary climate risks,and uneven policy execution,which mirror regional struggles.The paper contributes to climate governance discourse by highlighting the risks of symbolic environmental pledges without robust implementation mechanisms,particularly for vulnerable mountain nations.It calls for integrated policies that bridge mitigation and adaptation,stronger regional cooperation,and equitable climate financing.The findings are relevant for policymakers in the Himalayas and international stakeholders advocating context-specific,justiceoriented climate strategies.展开更多
China provides a compelling reference for how governments can promote global climate governance and sustainable innovative development.SENIOR government officials,technical experts,and policy researchers from 14 devel...China provides a compelling reference for how governments can promote global climate governance and sustainable innovative development.SENIOR government officials,technical experts,and policy researchers from 14 developing countries in Asia,Africa,Latin America,and Pacific Island countries gathered at Tsinghua University(THU),Beijing,on September 1-13,2025 for in-depth study and exchange on“climate finance and low-carbon transformation.”展开更多
Global climate change is a pressing environmental challenge.Climate-induced migration highlights the severe impact of unsuitable climatic conditions.However,current research methods are limited in their ability to ass...Global climate change is a pressing environmental challenge.Climate-induced migration highlights the severe impact of unsuitable climatic conditions.However,current research methods are limited in their ability to assess climate suitability for residents in high-altitude areas.In this study,we assess climate suitability across the Qinghai-Xizang Plateau from 1979 to 2018 and project future changes using four different Shared Socioeconomic Pathway(SSP)climate scenarios by constructing the Climate Suitability Index(CSI).The findings reveal a notable increase in CSI from 0.32 to 0.36 from 1979 to 2018.The primary factors contributing to the increased climate suitability are increasing annual mean precipitation(61.42%)and decreasing solar radiation(17.22%)from 1979 to 2018.Furthermore,the study forecasts a continued enhancement of climate suitability across all SSP scenarios,with SSP585 demonstrating the greatest improvement,followed by SSP370,SSP245,and SSP126.Although low oxygen levels at high altitudes remain a challenge,the overall improvement in climate suitability offers hope for people living at high altitudes to cope with climate change.展开更多
As COP30 concluded in Belém,Brazil,China emerged as one of the most visible and influential players in global climate discussions.Over the course of the summit,the Chinese delegation demonstrated both diplomatic ...As COP30 concluded in Belém,Brazil,China emerged as one of the most visible and influential players in global climate discussions.Over the course of the summit,the Chinese delegation demonstrated both diplomatic skill and technological leadership,positioning the country as a key architect of practical climate solutions.展开更多
High-elevation forests are among the most climate-sensitive ecosystems,and understanding their growth responses is crucial for predicting ecological consequences under future climate change.The climate sensitivity of ...High-elevation forests are among the most climate-sensitive ecosystems,and understanding their growth responses is crucial for predicting ecological consequences under future climate change.The climate sensitivity of tree species in the Hyrcanian forests in the Alborz Mountains of northern Iran,one of the southernmost temperate deciduous forests in the Northern Hemisphere,remains largely unexplored.In particular,Acer hyrcanum Fisch.&C.A.Mey.,growing mainly at high elevations,has not yet been studied in detail in dendroclimatology.Here,we present the first tree-ring chronology of Acer hyrcanum spanning 1814-2022 and analyze its growth-climate relationships to assess how this species reflects climatic sensitivity at the upper forest limit.The results reveal significant positive correlations between tree-ring width and temperature,particularly from May to September,suggesting that warmer growing-season temperatures enhance tree growth.In contrast,tree-ring width showed negative correlations with precipitation and standardized precipitation-evapotranspiration index,especially from January to May,and with cloud cover from March to May.These findings suggest that moisture availability does not limit radial growth in Acer hyrcanum and that the precipitation and water surplus signals may instead reflect the influence of cloud cover,which reduces sunlight availability during critical early-season months.This study contributes to the growing body of dendroclimatic research in the Alborz Mountains and,more broadly,on Acer species,particularly in high-elevation ecosystems where such studies are scarce.It also provides valuable insights into how Acer hyrcanum may respond to future climate change.展开更多
Research on tourism climate comfort is undergoing a paradigm shift from classic static assessment to intelligent dynamic sensing.Early models(such as temperature-humidity index and tourism climate index)established ba...Research on tourism climate comfort is undergoing a paradigm shift from classic static assessment to intelligent dynamic sensing.Early models(such as temperature-humidity index and tourism climate index)established based on data of meteorological stations laid the foundation for the discipline but were unable to meet the dynamic demands of climate change,spatial heterogeneity,and individual experience.Global climate change is reshaping the landscape of tourism comfort and driving the assessment to shift towards future risk prediction.Downscaling technology becomes the key to connecting global scenarios and local assessments.Remote sensing and Internet of Things technologies have constructed a"sky-ground"collaborative sensing network,achieving a revolution in data acquisition.Artificial intelligence and big data analysis serve as the intelligent core to drive research from description to prediction.The new paradigm has significant potential in improving assessment accuracy and timeliness,but also faces challenges such as data integration,model interpretability,interdisciplinary integration,and ethical privacy.In the future,it is needed to develop interpretable AI,construct climate digital twins,and promote full-chain coupling research.This transformation is not merely an upgrade of methods,but a fundamental shift in the study of philosophy from an"environment-centered"perspective to an"experience-centered"one,providing key scientific support for sustainable tourism.展开更多
This study takes"ocean heat waves"as a typical case to study the scientific definition,driving mechanisms,multi-dimensional impacts,and response strategies of extreme climate events.The definition of extreme...This study takes"ocean heat waves"as a typical case to study the scientific definition,driving mechanisms,multi-dimensional impacts,and response strategies of extreme climate events.The definition of extreme events requires a comprehensive consideration of statistical thresholds and social impacts.It is mainly driven by global warming caused by human emissions of greenhouse gases,and is also influenced by the interaction of natural variations such as ENSO.Extreme events cause systematic and cascading impacts on human health,infrastructure,agricultural economy,and ecosystems(especially marine ecosystems).Advanced technologies such as satellite remote sensing,climate models,and artificial intelligence have significantly enhanced their monitoring and prediction capabilities.However,effective responses still require a parallel strategy of mitigation and adaptation,and international cooperation is strengthened through the framework of the Paris Agreement.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
Accurately assessing the relationship between tree growth and climatic factors is of great importance in dendrochronology.This study evaluated the consistency between alternative climate datasets(including station and...Accurately assessing the relationship between tree growth and climatic factors is of great importance in dendrochronology.This study evaluated the consistency between alternative climate datasets(including station and gridded data)and actual climate data(fixed-point observations near the sampling sites),in northeastern China’s warm temperate zone and analyzed differences in their correlations with tree-ring width index.The results were:(1)Gridded temperature data,as well as precipitation and relative humidity data from the Huailai meteorological station,was more consistent with the actual climate data;in contrast,gridded soil moisture content data showed significant discrepancies.(2)Horizontal distance had a greater impact on the representativeness of actual climate conditions than vertical elevation differences.(3)Differences in consistency between alternative and actual climate data also affected their correlations with tree-ring width indices.In some growing season months,correlation coefficients,both in magnitude and sign,differed significantly from those based on actual data.The selection of different alternative climate datasets can lead to biased results in assessing forest responses to climate change,which is detrimental to the management of forest ecosystems in harsh environments.Therefore,the scientific and rational selection of alternative climate data is essential for dendroecological and climatological research.展开更多
The Global Governance Initiative(GGI)is another important public good that China has provided for the international community,following the Global Development Initiative,the Global Security Initiative,and the Global C...The Global Governance Initiative(GGI)is another important public good that China has provided for the international community,following the Global Development Initiative,the Global Security Initiative,and the Global Civilization Initiative.As a sub-field of global governance,global climate governance has hitherto progressed slowly,exhibiting growing deficits in discourse,institutions,and actions.The governance paradigm is in desperate need of revamping,especially under the guidance of an innovative initiative.At the conceptual level,the GGI has gone beyond the Western governance discourse by outlining the institutional starting point,foundations of legitimacy,action orientations,ultimate goals,and practical support for good global climate governance through its five core concepts.At the practical level,the spillover effects of China's achievements in climate governance and the collective rise of the Global South have created favorable conditions,domestically and internationally,for the GGI to lead the way forward toward good global climate governance.However,the fact that the international political and economic order remains unjust and inequitable indicates that this will inevitably be a long-term process replete with rivalries in the pursuit of breakthroughs.展开更多
The study was based on material from the Medvezhiy Klyk Cave,located in the Southern Sikhote-Alin range in the Russian Far East.The aim of this research was to assess the taxonomic composition and changes in the speci...The study was based on material from the Medvezhiy Klyk Cave,located in the Southern Sikhote-Alin range in the Russian Far East.The aim of this research was to assess the taxonomic composition and changes in the species diversity of the Southern Primorye herpetofauna over geological time in response to environmental changes.In the fifth layer of sedimentary deposits in Medvezhiy Klyk Cave(horizons 15-11),corresponding to the Middle Holocene,remains of sixteen extant species of amphibians and squamate reptiles were identified:Bombina orientalis,Bufo sachalinensis,Dryophytes japonicus,Rana amurensis,R.dybowskii,Pelophylax nigromaculatus,Takydromus amurensis,T.wolteri,Zootoca vivipara,Elaphe dione,E.schrenckii,Lycodon rufozonatus,Hebius vibakari,Rhabdophis lateralis,Gloydius intermedius,and G.ussuriensis.Salamandrella sp.was identified only to the genus level due to difficulties in distinguishing species within this genus based on the preserved skeletal elements.Additionally,among the snake remains,some bones could not be assigned to any species in the comparative osteological collection.These remains are classified as Lycodon sp.and Serpentes gen.et sp.indet.They most likely also belong to extant species that currently inhabit regions south of the Russian border.The faunal assemblages of amphibians and reptiles indicate that forest vegetation predominated around the cave during the Middle Holocene,with the most extensive forest cover occurring during the accumulation of horizon 14.This period was also the most favorable for thermophilic and moisture-dependent species,including those whose current ranges lie further south.The climate throughout the deposition of the fifth layer is reconstructed as warmer and more humid than present-day conditions,consistent with other Middle Holocene climate reconstructions.Only horizon 11 corresponds to a relative climatic cooling.展开更多
The accelerating impacts of climate change,rising temperatures,extreme weather events,and biodiversity loss underscore the urgent need for widespread public awareness.This research explores why climate change awarenes...The accelerating impacts of climate change,rising temperatures,extreme weather events,and biodiversity loss underscore the urgent need for widespread public awareness.This research explores why climate change awareness is not just beneficial but essential for effective environmental stewardship and the long-term health of our planet.The research proffers informed communities,encouraging sustainable practices,and driving policy advocacy,awareness serves as a model for collective action.This call to consciousness challenges individuals,institutions,and nations to recognize their role in shaping a resilient,sustainable future for the Earth.Methodology adopted in this research is a mixed-method design,involving both qualitative and quasi-experimental designs,which engages the use of focus group discussions and oral interviews to explore deeper insights into perceptions,biodiversity loss consciousness,and environmental depletion challenges.Also,applicable under the qualitative method is the secondary data collection mode,namely,reports from IPCC,government policy documents,and existing literature related to the context of the research.The empirical and scientific data analysis was presented from the data collected and was coded and subjected to analysis using a paired samples t-test.The study is grounded on the theory of“Value-Belief-Norm”(VBN)developed by Stern et al.The VBN theory posits that individuals are more likely to engage in pro-environmental behaviour when their values(especially biosphere and altruistic),beliefs(about environmental consequences),and norms(personal responsibility to act)align.The findings of this study underscore the critical role of climate change awareness in fostering environmental and earth stewardship.The paper recommends that Governments of the country(State and federal)should take urgent steps in sensitising the general public on the causes and impact of climate change.展开更多
This study examines radon emissions as potential proxies for environmental change in tropical Andean ecosystems undergoing rapid glacier retreat due to climate forcing.The research was conducted in the proglacial zone...This study examines radon emissions as potential proxies for environmental change in tropical Andean ecosystems undergoing rapid glacier retreat due to climate forcing.The research was conducted in the proglacial zone of the Yana Ucsha glacier in the Peruvian Andes,where field campaigns between July and November 2023 yielded radon measurements at approximately 28-day intervals across ten monitoring sites(M1-M10).Radon flux was measured using LR115 detectors and complemented by analyses of soil texture and the topographic wetness index(TWI)to assess the influence of environmental variables.Results demonstrate that radon emissions are strongly modulated by soil moisture,which in turn is regulated by regional air temperature and glacier runoff.A significant inverse relationship was identified between radon exhalation and regional air temperature,indicating that warmer periods suppress radon release due to increased soil moisture from enhanced glacier melt.Conversely,the coldest monitoring interval(second period)exhibited markedly higher radon exhalation,reaching up to 0.45 and 0.32 Bq m^(-2)hm^(-1)at sites M1 and M4,respectively-approximately four to five times greater than the baseline range(0-0.10 Bq m^(-2)hm^(-1))observed during other periods.This pronounced temporal anomaly coincided with lower regional air temperatures,reduced glacier runoff,and drier soil conditions,highlighting strong climatic control on radon emissions.These findings suggest that ongoing glacier retreat and climate change may constrain or reduce radon emission rates in Andean proglacial environments,with important implications for environmental monitoring and ecosystem dynamics.Overall,this study provides novel insights into the interactions among cryospheric,atmospheric,and radon dynamics in the tropical Andes.展开更多
Climate change is causing extensive and quantifiable surface deformation by moving mass in the cryosphere,hydrosphere,atmosphere,and oceans.These deformations can give a great deal of information on the dynamics of th...Climate change is causing extensive and quantifiable surface deformation by moving mass in the cryosphere,hydrosphere,atmosphere,and oceans.These deformations can give a great deal of information on the dynamics of the Earth system and interactions between climate processes and solid Earth processes.Global Navigation Satellite Systems(GNSS),Interferometric Synthetic Aperture Radar(InSAR),satellite gravimetry,and other supplementary techniques have become important tools to be used to monitor and quantify these deformations.The insight of this review is the understanding of the mechanisms that cause deformation on the surface due to climate change,the strengths and weaknesses of the modern geodetic observation methods,and the way in which these geodetic observations are reconciled with the Earth’s response models and climate simulations.Polar,alpine,hydrologically sensitive,and coastal case studies demonstrate that geodesy can be used globally in climate change studies.Although there has been a lot of improvement,there have been many problems in signal separation,data coverage,and uncertainties in models,but new emerging technologies are promising solutions.A combined climate/geodetic observing system will be critical in enhancing long-term monitoring and in further developing the knowledge on how the Earth responds to climate change.展开更多
Climate model prediction has been improved by enhancing model resolution as well as the implementation of sophisticated physical parameterization and refinement of data assimilation systems[section 6.1 in Wang et al.(...Climate model prediction has been improved by enhancing model resolution as well as the implementation of sophisticated physical parameterization and refinement of data assimilation systems[section 6.1 in Wang et al.(2025)].In relation to seasonal forecasting and climate projection in the East Asian summer monsoon season,proper simulation of the seasonal migration of rain bands by models is a challenging and limiting factor[section 7.1 in Wang et al.(2025)].展开更多
In recent years,there has been an increasing need for climate information across diverse sectors of society.This demand has arisen from the necessity to adapt to and mitigate the impacts of climate variability and cha...In recent years,there has been an increasing need for climate information across diverse sectors of society.This demand has arisen from the necessity to adapt to and mitigate the impacts of climate variability and change.Likewise,this period has seen a significant increase in our understanding of the physical processes and mechanisms that drive precipitation and its variability across different regions of Africa.By leveraging a large volume of climate model outputs,numerous studies have investigated the model representation of African precipitation as well as underlying physical processes.These studies have assessed whether the physical processes are well depicted and whether the models are fit for informing mitigation and adaptation strategies.This paper provides a review of the progress in precipitation simulation overAfrica in state-of-the-science climate models and discusses the major issues and challenges that remain.展开更多
This research offers valuable insights into the relationship between land use and daytime climatic comfort in high-rise urban developments in Delhi.This city is navigating rapid urbanisation and facing critical enviro...This research offers valuable insights into the relationship between land use and daytime climatic comfort in high-rise urban developments in Delhi.This city is navigating rapid urbanisation and facing critical environmental challenges like pollution,heat stress,land degradation etc.The study aims to enhance understanding of how diverse land use patterns influence thermal comfort by utilising satellite data from the Landsat/Resourcesat series for classification and MODIS for land surface temperature(LST)extraction.The findings highlight that regions with dense construction and limited green and blue spaces tend to experience lower levels of climatic comfort,with 17.17 Percent of Delhi’s geographical area feeling the adverse effects of the Urban Heat Island(UHI)phenomenon.On a positive note,40.20 Percent of the area is associated with high climatic comfort,primarily due to natural features such as vegetation and water bodies.Furthermore,the research indicates a noteworthy increase in land surface temperatures(LST)from 2000 to 2022,with peak recorded temperatures rising from 38.35℃ in 2000 to 47.27℃ in 2022.In summary,this study emphasises the importance of understanding and addressing the UHI effect in urban settings,providing constructive recommendations for policymakers and stakeholders dedicated to fostering improved livability and sustainability in urban environments.展开更多
Precise forecasts of wildfire danger are crucial for proactive fuel management and emergency responses,yet they pose a challenge at the subseasonal scale due to limitations in prediction capabilities and a gap between...Precise forecasts of wildfire danger are crucial for proactive fuel management and emergency responses,yet they pose a challenge at the subseasonal scale due to limitations in prediction capabilities and a gap between forecast outputs and the needs of decision-makers.This study introduces an innovative hybrid modeling framework that integrates artificial intelligence(AI)with climate dynamic prediction systems to accurately forecast High Fire-Danger Days(HFDDs)for the following month.These HFDDs are derived from historical satellite fire data and the optimum fire danger index,with a particular focus on Southwest China as a case study.The AI module,based on the ResNet-18 neural network model,integrates observational and physically constrained analysis to establish links between HFDDs and optimal predictors of atmospheric circulation from both the concurrent and preceding months.Leveraging climate dynamical forecasting,this hybrid model provides more reliable deterministic predictions for monthly HFDDs than conventional methods that rely solely on terrestrial variables such as precipitation.More importantly,the integration of dynamical ensemble prediction enhances the model’s capability for skillful probabilistic predictions of HFDDs,facilitating the creation of customized fire danger outlooks and emergency action maps tailored to stakeholders’needs.The model’s added economic value was also evaluated,demonstrating its potential to improve decision-making in disaster management and bridge the“last-mile gap”in climate service delivery.This work contributes to the Seamless Prediction and Services for Sustainable Natural and Built Environment(SEPRESS)Program(2025–32),under the United Nations Educational Scientific and Cultural Organization(UNESCO)International Decade of Sciences for Sustainable Development(2024–33).展开更多
文摘The issue of climatism is a matter of concern today, given the growth of technology and the subject of globalization, which is defined and explained in many respects. The rapid advancement of technology makes communication and navigation readily available. This factor causes the challenge for human societies to discover more recent developments that in turn raise the issues of how can the climatism be compatible with the creation of an architectural work, taking into account that the countries’ conventional boundaries lose their importance. And, the factors affect climatism, in other words, the way that climatism, human societies with diverse cultures, and the surrounding environment interact with each other, is raised. And, in general, the way that an architecture work to interact with its environment is discussed. In this sense, the traditional and indigenous architecture, and the fluidity of the region in the architectural framework also address the characteristics of the physical and architectural features of each region from the architectural arena, introducing effective approaches to architecture and urban planning (objective and tactical approaches), using the rational-logical approach to regional review. Then, the discussion of regionalism and regional influences in the physical fabric of each traditional architectural structure’s region is presented, with the special look of traditional architecture that is expressed in consistency between the building and the nature, and to explain the arguments to the examples and characteristics.
文摘Climate change is one of the most pressing global challenges and spares no nation.Bhutan,as the only carbon negative country in the world,is no exception and being in the Himalayas–a region warming faster than the global average–further intensifies climate risks.This study explores how Bhutan navigates climate change through the perspectives of 41 policy influencers,including politicians,civil servants,and leaders from nongovernment organisations and the media.The findings are compared with scientific literature from the broader Himalayan region to identify shared vulnerabilities(e.g.,glacial lake outburst floods,water scarcity,and agricultural disruptions)and governance challenges(e.g.,financial constraints,geopolitical pressures,and gaps in policy implementation).The study reveals that Bhutan,like its Himalayan neighbours,prioritizes adaptation over mitigation due to immediate climate threats,despite its carbonnegative status.However,Bhutan faces unique pressures in upholding its dual commitments—maintaining 60%forest cover and carbon neutrality—amid competing development needs.While its Gross National Happiness(GNH)framework provides a holistic governance model,the analysis uncovers systemic barriers,including limited financing,transboundary climate risks,and uneven policy execution,which mirror regional struggles.The paper contributes to climate governance discourse by highlighting the risks of symbolic environmental pledges without robust implementation mechanisms,particularly for vulnerable mountain nations.It calls for integrated policies that bridge mitigation and adaptation,stronger regional cooperation,and equitable climate financing.The findings are relevant for policymakers in the Himalayas and international stakeholders advocating context-specific,justiceoriented climate strategies.
文摘China provides a compelling reference for how governments can promote global climate governance and sustainable innovative development.SENIOR government officials,technical experts,and policy researchers from 14 developing countries in Asia,Africa,Latin America,and Pacific Island countries gathered at Tsinghua University(THU),Beijing,on September 1-13,2025 for in-depth study and exchange on“climate finance and low-carbon transformation.”
基金funded by the Second Tibetan Plateau Scientific Expedition and Research(STEP)program(Grant No.2019QZKK0608).
文摘Global climate change is a pressing environmental challenge.Climate-induced migration highlights the severe impact of unsuitable climatic conditions.However,current research methods are limited in their ability to assess climate suitability for residents in high-altitude areas.In this study,we assess climate suitability across the Qinghai-Xizang Plateau from 1979 to 2018 and project future changes using four different Shared Socioeconomic Pathway(SSP)climate scenarios by constructing the Climate Suitability Index(CSI).The findings reveal a notable increase in CSI from 0.32 to 0.36 from 1979 to 2018.The primary factors contributing to the increased climate suitability are increasing annual mean precipitation(61.42%)and decreasing solar radiation(17.22%)from 1979 to 2018.Furthermore,the study forecasts a continued enhancement of climate suitability across all SSP scenarios,with SSP585 demonstrating the greatest improvement,followed by SSP370,SSP245,and SSP126.Although low oxygen levels at high altitudes remain a challenge,the overall improvement in climate suitability offers hope for people living at high altitudes to cope with climate change.
文摘As COP30 concluded in Belém,Brazil,China emerged as one of the most visible and influential players in global climate discussions.Over the course of the summit,the Chinese delegation demonstrated both diplomatic skill and technological leadership,positioning the country as a key architect of practical climate solutions.
基金supported by the Alexander von Humboldt Foundation(AvH),which provided a research stay for HM(Humboldt-ID number 1222705).
文摘High-elevation forests are among the most climate-sensitive ecosystems,and understanding their growth responses is crucial for predicting ecological consequences under future climate change.The climate sensitivity of tree species in the Hyrcanian forests in the Alborz Mountains of northern Iran,one of the southernmost temperate deciduous forests in the Northern Hemisphere,remains largely unexplored.In particular,Acer hyrcanum Fisch.&C.A.Mey.,growing mainly at high elevations,has not yet been studied in detail in dendroclimatology.Here,we present the first tree-ring chronology of Acer hyrcanum spanning 1814-2022 and analyze its growth-climate relationships to assess how this species reflects climatic sensitivity at the upper forest limit.The results reveal significant positive correlations between tree-ring width and temperature,particularly from May to September,suggesting that warmer growing-season temperatures enhance tree growth.In contrast,tree-ring width showed negative correlations with precipitation and standardized precipitation-evapotranspiration index,especially from January to May,and with cloud cover from March to May.These findings suggest that moisture availability does not limit radial growth in Acer hyrcanum and that the precipitation and water surplus signals may instead reflect the influence of cloud cover,which reduces sunlight availability during critical early-season months.This study contributes to the growing body of dendroclimatic research in the Alborz Mountains and,more broadly,on Acer species,particularly in high-elevation ecosystems where such studies are scarce.It also provides valuable insights into how Acer hyrcanum may respond to future climate change.
基金Supported by the School-level Project of Sichuan Minzu College(XYZB2017ZB).
文摘Research on tourism climate comfort is undergoing a paradigm shift from classic static assessment to intelligent dynamic sensing.Early models(such as temperature-humidity index and tourism climate index)established based on data of meteorological stations laid the foundation for the discipline but were unable to meet the dynamic demands of climate change,spatial heterogeneity,and individual experience.Global climate change is reshaping the landscape of tourism comfort and driving the assessment to shift towards future risk prediction.Downscaling technology becomes the key to connecting global scenarios and local assessments.Remote sensing and Internet of Things technologies have constructed a"sky-ground"collaborative sensing network,achieving a revolution in data acquisition.Artificial intelligence and big data analysis serve as the intelligent core to drive research from description to prediction.The new paradigm has significant potential in improving assessment accuracy and timeliness,but also faces challenges such as data integration,model interpretability,interdisciplinary integration,and ethical privacy.In the future,it is needed to develop interpretable AI,construct climate digital twins,and promote full-chain coupling research.This transformation is not merely an upgrade of methods,but a fundamental shift in the study of philosophy from an"environment-centered"perspective to an"experience-centered"one,providing key scientific support for sustainable tourism.
基金Supported by the School-level Project of Sichuan Minzu College(XYZB2017ZB).
文摘This study takes"ocean heat waves"as a typical case to study the scientific definition,driving mechanisms,multi-dimensional impacts,and response strategies of extreme climate events.The definition of extreme events requires a comprehensive consideration of statistical thresholds and social impacts.It is mainly driven by global warming caused by human emissions of greenhouse gases,and is also influenced by the interaction of natural variations such as ENSO.Extreme events cause systematic and cascading impacts on human health,infrastructure,agricultural economy,and ecosystems(especially marine ecosystems).Advanced technologies such as satellite remote sensing,climate models,and artificial intelligence have significantly enhanced their monitoring and prediction capabilities.However,effective responses still require a parallel strategy of mitigation and adaptation,and international cooperation is strengthened through the framework of the Paris Agreement.
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.
基金supported by the International Partnership program of the Chinese Academy of Sciences(170GJHZ2023074GC)National Natural Science Foundation of China(42425706 and 42488201)+1 种基金National Key Research and Development Program of China(2024YFF0807902)Beijing Natural Science Foundation(8242041),and China Postdoctoral Science Foundation(2025M770353).
文摘Accurately assessing the relationship between tree growth and climatic factors is of great importance in dendrochronology.This study evaluated the consistency between alternative climate datasets(including station and gridded data)and actual climate data(fixed-point observations near the sampling sites),in northeastern China’s warm temperate zone and analyzed differences in their correlations with tree-ring width index.The results were:(1)Gridded temperature data,as well as precipitation and relative humidity data from the Huailai meteorological station,was more consistent with the actual climate data;in contrast,gridded soil moisture content data showed significant discrepancies.(2)Horizontal distance had a greater impact on the representativeness of actual climate conditions than vertical elevation differences.(3)Differences in consistency between alternative and actual climate data also affected their correlations with tree-ring width indices.In some growing season months,correlation coefficients,both in magnitude and sign,differed significantly from those based on actual data.The selection of different alternative climate datasets can lead to biased results in assessing forest responses to climate change,which is detrimental to the management of forest ecosystems in harsh environments.Therefore,the scientific and rational selection of alternative climate data is essential for dendroecological and climatological research.
基金2024 Shaanxi Provincial Social Science Fund Annual Project titled"Research on Chinese Modernization from the Perspective of Overseas Studies on the Communist Party of China"(Project Number:2024B002)a 2024 key project of Xi'an Jiaotong University for studying and expounding Xi Jinping Thought on Culture titled"Research on the World Implications of a New Model for Human Advancement"(Project Number:SKZX2024003)funded by the"Top Young Talents Project"(TZ0275)of Shaanxi Province's second batch of"Special Support Program for High-Level Talents"(Philosophy,Social Sciences,Culture,and Arts).
文摘The Global Governance Initiative(GGI)is another important public good that China has provided for the international community,following the Global Development Initiative,the Global Security Initiative,and the Global Civilization Initiative.As a sub-field of global governance,global climate governance has hitherto progressed slowly,exhibiting growing deficits in discourse,institutions,and actions.The governance paradigm is in desperate need of revamping,especially under the guidance of an innovative initiative.At the conceptual level,the GGI has gone beyond the Western governance discourse by outlining the institutional starting point,foundations of legitimacy,action orientations,ultimate goals,and practical support for good global climate governance through its five core concepts.At the practical level,the spillover effects of China's achievements in climate governance and the collective rise of the Global South have created favorable conditions,domestically and internationally,for the GGI to lead the way forward toward good global climate governance.However,the fact that the international political and economic order remains unjust and inequitable indicates that this will inevitably be a long-term process replete with rivalries in the pursuit of breakthroughs.
基金carried out within the state assignment of Ministry of Science and Higher Education of the Russian Federation (theme No. 124012200182-1)
文摘The study was based on material from the Medvezhiy Klyk Cave,located in the Southern Sikhote-Alin range in the Russian Far East.The aim of this research was to assess the taxonomic composition and changes in the species diversity of the Southern Primorye herpetofauna over geological time in response to environmental changes.In the fifth layer of sedimentary deposits in Medvezhiy Klyk Cave(horizons 15-11),corresponding to the Middle Holocene,remains of sixteen extant species of amphibians and squamate reptiles were identified:Bombina orientalis,Bufo sachalinensis,Dryophytes japonicus,Rana amurensis,R.dybowskii,Pelophylax nigromaculatus,Takydromus amurensis,T.wolteri,Zootoca vivipara,Elaphe dione,E.schrenckii,Lycodon rufozonatus,Hebius vibakari,Rhabdophis lateralis,Gloydius intermedius,and G.ussuriensis.Salamandrella sp.was identified only to the genus level due to difficulties in distinguishing species within this genus based on the preserved skeletal elements.Additionally,among the snake remains,some bones could not be assigned to any species in the comparative osteological collection.These remains are classified as Lycodon sp.and Serpentes gen.et sp.indet.They most likely also belong to extant species that currently inhabit regions south of the Russian border.The faunal assemblages of amphibians and reptiles indicate that forest vegetation predominated around the cave during the Middle Holocene,with the most extensive forest cover occurring during the accumulation of horizon 14.This period was also the most favorable for thermophilic and moisture-dependent species,including those whose current ranges lie further south.The climate throughout the deposition of the fifth layer is reconstructed as warmer and more humid than present-day conditions,consistent with other Middle Holocene climate reconstructions.Only horizon 11 corresponds to a relative climatic cooling.
文摘The accelerating impacts of climate change,rising temperatures,extreme weather events,and biodiversity loss underscore the urgent need for widespread public awareness.This research explores why climate change awareness is not just beneficial but essential for effective environmental stewardship and the long-term health of our planet.The research proffers informed communities,encouraging sustainable practices,and driving policy advocacy,awareness serves as a model for collective action.This call to consciousness challenges individuals,institutions,and nations to recognize their role in shaping a resilient,sustainable future for the Earth.Methodology adopted in this research is a mixed-method design,involving both qualitative and quasi-experimental designs,which engages the use of focus group discussions and oral interviews to explore deeper insights into perceptions,biodiversity loss consciousness,and environmental depletion challenges.Also,applicable under the qualitative method is the secondary data collection mode,namely,reports from IPCC,government policy documents,and existing literature related to the context of the research.The empirical and scientific data analysis was presented from the data collected and was coded and subjected to analysis using a paired samples t-test.The study is grounded on the theory of“Value-Belief-Norm”(VBN)developed by Stern et al.The VBN theory posits that individuals are more likely to engage in pro-environmental behaviour when their values(especially biosphere and altruistic),beliefs(about environmental consequences),and norms(personal responsibility to act)align.The findings of this study underscore the critical role of climate change awareness in fostering environmental and earth stewardship.The paper recommends that Governments of the country(State and federal)should take urgent steps in sensitising the general public on the causes and impact of climate change.
基金partially funded by the Ministerio de Relaciones Exteriores del Perú,the Vicerectorado de Investigación of PUCPthe Fondo de Apoyo para la Investigación(FAI)2024 of PUCP.
文摘This study examines radon emissions as potential proxies for environmental change in tropical Andean ecosystems undergoing rapid glacier retreat due to climate forcing.The research was conducted in the proglacial zone of the Yana Ucsha glacier in the Peruvian Andes,where field campaigns between July and November 2023 yielded radon measurements at approximately 28-day intervals across ten monitoring sites(M1-M10).Radon flux was measured using LR115 detectors and complemented by analyses of soil texture and the topographic wetness index(TWI)to assess the influence of environmental variables.Results demonstrate that radon emissions are strongly modulated by soil moisture,which in turn is regulated by regional air temperature and glacier runoff.A significant inverse relationship was identified between radon exhalation and regional air temperature,indicating that warmer periods suppress radon release due to increased soil moisture from enhanced glacier melt.Conversely,the coldest monitoring interval(second period)exhibited markedly higher radon exhalation,reaching up to 0.45 and 0.32 Bq m^(-2)hm^(-1)at sites M1 and M4,respectively-approximately four to five times greater than the baseline range(0-0.10 Bq m^(-2)hm^(-1))observed during other periods.This pronounced temporal anomaly coincided with lower regional air temperatures,reduced glacier runoff,and drier soil conditions,highlighting strong climatic control on radon emissions.These findings suggest that ongoing glacier retreat and climate change may constrain or reduce radon emission rates in Andean proglacial environments,with important implications for environmental monitoring and ecosystem dynamics.Overall,this study provides novel insights into the interactions among cryospheric,atmospheric,and radon dynamics in the tropical Andes.
基金funded by the 2025 Jilin Provincial Earthquake Administration Youth Science and Technology Development Project(JZQ-202503).
文摘Climate change is causing extensive and quantifiable surface deformation by moving mass in the cryosphere,hydrosphere,atmosphere,and oceans.These deformations can give a great deal of information on the dynamics of the Earth system and interactions between climate processes and solid Earth processes.Global Navigation Satellite Systems(GNSS),Interferometric Synthetic Aperture Radar(InSAR),satellite gravimetry,and other supplementary techniques have become important tools to be used to monitor and quantify these deformations.The insight of this review is the understanding of the mechanisms that cause deformation on the surface due to climate change,the strengths and weaknesses of the modern geodetic observation methods,and the way in which these geodetic observations are reconciled with the Earth’s response models and climate simulations.Polar,alpine,hydrologically sensitive,and coastal case studies demonstrate that geodesy can be used globally in climate change studies.Although there has been a lot of improvement,there have been many problems in signal separation,data coverage,and uncertainties in models,but new emerging technologies are promising solutions.A combined climate/geodetic observing system will be critical in enhancing long-term monitoring and in further developing the knowledge on how the Earth responds to climate change.
文摘Climate model prediction has been improved by enhancing model resolution as well as the implementation of sophisticated physical parameterization and refinement of data assimilation systems[section 6.1 in Wang et al.(2025)].In relation to seasonal forecasting and climate projection in the East Asian summer monsoon season,proper simulation of the seasonal migration of rain bands by models is a challenging and limiting factor[section 7.1 in Wang et al.(2025)].
基金the World Climate Research Programme(WCRP),Climate Variability and Predictability(CLIVAR),and Global Energy and Water Exchanges(GEWEX)for facilitating the coordination of African monsoon researchsupport from the Center for Earth System Modeling,Analysis,and Data at the Pennsylvania State Universitythe support of the Office of Science of the U.S.Department of Energy Biological and Environmental Research as part of the Regional&Global Model Analysis(RGMA)program area。
文摘In recent years,there has been an increasing need for climate information across diverse sectors of society.This demand has arisen from the necessity to adapt to and mitigate the impacts of climate variability and change.Likewise,this period has seen a significant increase in our understanding of the physical processes and mechanisms that drive precipitation and its variability across different regions of Africa.By leveraging a large volume of climate model outputs,numerous studies have investigated the model representation of African precipitation as well as underlying physical processes.These studies have assessed whether the physical processes are well depicted and whether the models are fit for informing mitigation and adaptation strategies.This paper provides a review of the progress in precipitation simulation overAfrica in state-of-the-science climate models and discusses the major issues and challenges that remain.
基金supported by the Institution of Eminence,University of Delhi,grant number[IoE/2023-24/12/FRP].
文摘This research offers valuable insights into the relationship between land use and daytime climatic comfort in high-rise urban developments in Delhi.This city is navigating rapid urbanisation and facing critical environmental challenges like pollution,heat stress,land degradation etc.The study aims to enhance understanding of how diverse land use patterns influence thermal comfort by utilising satellite data from the Landsat/Resourcesat series for classification and MODIS for land surface temperature(LST)extraction.The findings highlight that regions with dense construction and limited green and blue spaces tend to experience lower levels of climatic comfort,with 17.17 Percent of Delhi’s geographical area feeling the adverse effects of the Urban Heat Island(UHI)phenomenon.On a positive note,40.20 Percent of the area is associated with high climatic comfort,primarily due to natural features such as vegetation and water bodies.Furthermore,the research indicates a noteworthy increase in land surface temperatures(LST)from 2000 to 2022,with peak recorded temperatures rising from 38.35℃ in 2000 to 47.27℃ in 2022.In summary,this study emphasises the importance of understanding and addressing the UHI effect in urban settings,providing constructive recommendations for policymakers and stakeholders dedicated to fostering improved livability and sustainability in urban environments.
基金J.YANG was supported by funding from the National Natural Science Foundation of China(Grant Nos.42475022,42261144671)the National Key R&D Program of China(Project No.2024YFC3013100)+2 种基金the Fundamental Research Funds for the Central UniversitiesM.LU was supported by the Otto Poon Centre of Climate Resilience and Sustainability at HKUST and the Hong Kong Research Grant Committee(Project No.16300424)Data processing and storage were supported by the National Key Scientific and Technological Infrastructure project“Earth System Numerical Simulation Facility”(EarthLab).
文摘Precise forecasts of wildfire danger are crucial for proactive fuel management and emergency responses,yet they pose a challenge at the subseasonal scale due to limitations in prediction capabilities and a gap between forecast outputs and the needs of decision-makers.This study introduces an innovative hybrid modeling framework that integrates artificial intelligence(AI)with climate dynamic prediction systems to accurately forecast High Fire-Danger Days(HFDDs)for the following month.These HFDDs are derived from historical satellite fire data and the optimum fire danger index,with a particular focus on Southwest China as a case study.The AI module,based on the ResNet-18 neural network model,integrates observational and physically constrained analysis to establish links between HFDDs and optimal predictors of atmospheric circulation from both the concurrent and preceding months.Leveraging climate dynamical forecasting,this hybrid model provides more reliable deterministic predictions for monthly HFDDs than conventional methods that rely solely on terrestrial variables such as precipitation.More importantly,the integration of dynamical ensemble prediction enhances the model’s capability for skillful probabilistic predictions of HFDDs,facilitating the creation of customized fire danger outlooks and emergency action maps tailored to stakeholders’needs.The model’s added economic value was also evaluated,demonstrating its potential to improve decision-making in disaster management and bridge the“last-mile gap”in climate service delivery.This work contributes to the Seamless Prediction and Services for Sustainable Natural and Built Environment(SEPRESS)Program(2025–32),under the United Nations Educational Scientific and Cultural Organization(UNESCO)International Decade of Sciences for Sustainable Development(2024–33).
