Showing total 349 results

1. Climate change under a scenario near 1.5 °C of global warming: monsoon intensification, ocean warming and steric sea level rise.

Author

Schewe, J., Levermann, A., and Meinshausen, M.

Subjects

GLOBAL temperature change research, CLIMATE change, MONSOONS, OCEAN temperature, ABSOLUTE sea level change

Abstract

The article presents a study on the climatic effects on monsoon intensification, ocean warming and steric sea level under the Representative Concentration Pathway 3 (RCP3) scenario which will peak global mean temperatures to about 1.5°C. The study employs the CLIMBER-3α model to examine the aspects of climate change under the RCP scenario. It reveals that the average monsoon rainfall in Asia and Africa increases with the land-ocean temperature differences.

Published

2010

2. THE IMPACT OF CLIMATE CHANGE IN ASIA: AN ECONOMETRICS ANALYSIS ON AGRICULTURE SECTOR.

Author

Choo, Eern Yie

Subjects

AGRICULTURAL industries, ECONOMETRICS, CLIMATE change, AGRICULTURAL productivity

Abstract

The substantial known economic effect of changing in climate is upon on every sector especially on agriculture due to its sensitivity and size of the sector. Warming climate brings outstanding harm to agriculture in several nations because developed countries in low latitude already encounter the hot weather. This paper reviews numerous studies that evaluate the possible impact of warming climate to agriculture sector in Asia. There have been numerous studies examine how expected changes in climate are likely to effect on yield productivity in Asia. The findings in this paper is supported mainly from the fourth and fifth analysis report of Intergovernmental Panel on Climate Change (IPCC), where the latest sixth assessment report is excluded out as it is currently preparing by the panel. There are two specific objectives is needed to review the possible impacts of changing climate on agricultural. Firstly, the paper will synthesize the likely impacts of climate change on China and India’s agricultural production especially for crops C3 and C4. Secondly, this paper also review the adaptive responses to change in climate that could potentially be made and promoted in the agricultural sector. Additionally, this paper discusses the overview of Asian agriculture and likely outcome if climates do warm by observing several scientific evidence on climate change. This paper done some projection by reviewing existing literatures which various research studies have been approaches to estimate the changes. The impact of climate change in agriculture sector in two countries is also describe. The countermeasure to be consider in response to warming climate will be the last section in this paper. [ABSTRACT FROM AUTHOR]

Published

2021

3. A reflection on collaborative adaptation research in Africa and Asia.

Author

Cochrane, Logan, Cundill, Georgina, Ludi, Eva, New, Mark, Nicholls, Robert, Wester, Philippus, Cantin, Bernard, Murali, Kallur, Leone, Michele, Kituyi, Evans, and Landry, Marie-Eve

Subjects

CLIMATE change, BIOLOGICAL adaptation, SUSTAINABLE development, GEOLOGIC hot spots, RESEARCH

Abstract

The reality of global climate change demands novel approaches to science that are reflective of the scales at which changes are likely to occur, and of the new forms of knowledge required to positively influence policy to support vulnerable populations. We examine some of the opportunities and challenges presented by a collaborative, transdisciplinary research project on climate change adaptation in Africa and Asia that utilized a hotspot approach. A large-scale effort to develop appropriate baselines was a key challenge at the outset of the program, as was the need to develop innovative methodologies to enable researchers to work at appropriate spatial scales. Efforts to match research to the biophysical scales at which change occurs need to be aware of the mismatch that can develop between these regional scales and the governance scales at which decisions are made. [ABSTRACT FROM AUTHOR]

Published

2017

4. Systematic Review on Ecosystem Services (ES) of Ecotourism in South-East Asia (ASEAN).

Author

Abas, Azlan, Aiyub, Kadaruddin, and Idris, Nor Azizan

Subjects

ECOTOURISM, HABITAT conservation, CLIMATE change, RECREATIONAL mathematics

Abstract

Copyright of Problems of Sustainable Development / Problemy Ekorozwoju is the property of Faculty of Environmental Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

5. The Prevention of the Sixth Mass Extinction: Socio-Legal Responses to Mitigate the Anthropogenic Crises in Asia and Beyond.

Author

Fukurai, Hiroshi

Subjects

MASS extinctions, EFFECT of human beings on climate change, EXTENUATING circumstances, DISASTERS

Abstract

This Special Issue highlights the most recent socio-legal research related to the mitigation, if not the elimination, of the threat of anthropogenic disasters in Asia and beyond. The drafts of these papers were originally presented at the Presidential Session on "The Anthropocene and the Law in Asia" at the Fourth Asian Law and Society Association (ALSA) Conference held in the vibrant city of Osaka, Japan in December 2019. The timing of this particular session, the first of its kind to be held at an ALSA Conference, turned out to be somewhat prophetic, in that two anthropogenic catastrophes—the historic zoonotic pandemic and the cataclysmic wild bushfires—had just begun to strike in December in Wuhan, China and in New South Wales, Australia, respectively. The novel coronavirus pandemic would kill more than 1 million people in the following months, after infecting more than 40 million across the globe. The Australian wild bushfires killed and displaced more than 3 billion animals, becoming the worst wildfire ever recorded in the world. Since that last ALSA Conference in December 2019, multiple anthropogenic disasters have hit various regions in Asia and across the world. The papers in this Special Issue examine various impacts of anthropogenic disasters and propose innovative socio-legal strategies to mitigate them. Included are arguments for the proposal of new legal education curricula and innovative pedagogy on environmental law and the exploration of an international multidisciplinary teaching framework in reconsidering and reshaping human-centric legal education. Also proposed is the development of a robust Earth Jurisprudence based on the adoption of the Rights of Nature principles, while moving away from the Euro-American exploitive view of nature as commodified properties. Additionally proposed is the establishment of a land-based, topological jurisprudence that incorporates the nuanced narratives of indigenous voices in dealing with the threat of human-induced ecological and environmental disasters in the years ahead. [ABSTRACT FROM AUTHOR]

Published

2022

6. How do farmers perceive climate change? A systematic review.

Author

Madhuri and Sharma, Upasna

Subjects

CLIMATE change, META-analysis, FARMERS, GREENHOUSE gases

Abstract

In this paper, a systematic literature review was conducted to synthesize understanding on farmers' perception on climate change. Farmers' perception of climate change is conceptualized as comprising of three dimensions—first, as farmers' "awareness"; second, "conceptual understanding"; and third, the "experience" of climate change. The review included 162 papers published during the period January 2000 to July 2019. The highest number of studies was conducted in Africa, followed by Asia. A large majority of farmers report being aware of climate change. However, only a few studies elicit the difference between climate variability and climate change from farmers. A negligible number of studies attempt to identify the role of agricultural activities in greenhouse gas emissions and climate change. Furthermore, authors compare farmers' perception with meteorological evidence, which is more aligned in terms of change in "temperature" rather than "precipitation." The insights from the review provide guidance on conceptualization and operationalization of the variable "farmers' perception of climate change" for future studies. [ABSTRACT FROM AUTHOR]

Published

2020

7. Impact of Climate Change on Migratory Birds in Asia.

Author

Seri, Nurhafizul Abu and Rahman, Azimah Abd

Subjects

MIGRATORY birds, CLIMATE change, LAND surface temperature, WEATHER & climate change, BIRD migration

Abstract

Climate change is not something that has never happened before. However, it has recently been reported that climate change has affected living things such as humans, animals and plants. Among the animals that may be vulnerable to the effects of climate change are migratory bird species. Therefore, this review paper will emphasise the checklist of migratory bird species found to be affected by climate change. Data for bird migration species in Asia are obtained from the Birdlife Data Zone. At the same time, the data for Global land surface temperature (1910-2020) and Asia land surface temperature (1910-2020) were taken from National Oceanic and Atmospheric Administration for Environmental information. These papers showed that climate warming could affect species differently, but there are still species from certain populations not affected at all. This paper also reviewed that approximately 169 species of migratory birds in Asia are affected by climate change and severe weather. Of the total, 5 species (2.96%) are critically endangered, 8 (4.73%) endangered, 21 (12.43%) vulnerable, 27 (15.98%) near threatened and 123 (63.91%) least concern. [ABSTRACT FROM AUTHOR]

Published

2021

8. Distributional Validation of Precipitation Data Products with Spatially Varying Mixture Models.

Author

Warr, Lynsie R., Heaton, Matthew J., Christensen, William F., White, Philip A., and Rupper, Summer B.

Subjects

CLIMATE change models, MARKOV chain Monte Carlo, ATMOSPHERIC models, GLACIAL melting, GLACIERS, CLIMATE change

Abstract

The high mountain regions of Asia contain more glacial ice than anywhere on the planet outside of the polar regions. Because of the large population living in the Indus watershed region who are reliant on melt from these glaciers for fresh water, understanding the factors that affect glacial melt along with the impacts of climate change on the region is important for managing these natural resources. While there are multiple climate data products (e.g., reanalysis and global climate models) available to study the impact of climate change on this region, each product will have a different amount of skill in projecting a given climate variable, such as precipitation. In this research, we develop a spatially varying mixture model to compare the distribution of precipitation in the High Mountain Asia region as produced by climate models with the corresponding distribution from in situ observations from the Asian Precipitation—Highly Resolved Observational Data Integration Towards Evaluation (APHRODITE) data product. Parameter estimation is carried out via a computationally efficient Markov chain Monte Carlo algorithm. Each of the estimated climate distributions from each climate data product is then validated against APHRODITE using a spatially varying Kullback–Leibler divergence measure. Supplementary materials accompanying this paper appear online. [ABSTRACT FROM AUTHOR]

Published

2023

9. The impact of climate change and variability on coffee production: a systematic review.

Author

Pham, Yen, Reardon-Smith, Kathryn, Mushtaq, Shahbaz, and Cockfield, Geoff

Subjects

AGROFORESTRY, COFFEE growing, COFFEE manufacturing, CLIMATE change, META-analysis, COFFEE industry, COFFEE plantations, CLIMATE change research

Abstract

Coffee is one of the most important globally traded commodities and substantially contributes to the livelihoods of millions of smallholders worldwide. As a climate-sensitive perennial crop, coffee is likely to be highly susceptible to changes in climate. Using a systematic approach, we explore evidence from the published academic literature of the influence of climate change and variability, specifically drought, on coffee production. A number of mostly negative impacts were reported in the current literature, including declines in coffee yield, loss of coffee-optimal areas with significant impacts on major global coffee-producing countries and growth in the distribution of pest and disease that indirectly influence coffee cultivation. Current research also identified positive effects of climate change such as increases in coffee-producing niche, particularly in areas at higher altitudes; however, whether these gains might offset losses from other production areas requires further investigation. Other advantages include increases in pollination services and the beneficial effects of elevated carbon concentration, leading to potential yield improvements. Future priorities should focus on major coffee-growing regions projected to be adversely affected by climate change, with specific attention given to potential adaptation strategies tailored to particular farming conditions such as relocation of coffee plantations to more climatically suitable areas, irrigation and agroforestry. The majority of studies were based in the Americas and concentrated on Arabica coffee. A broader spread of research is therefore required, especially for the large growing regions in Asia and for Robusta coffee, to support sustainable production of the global coffee industry. [ABSTRACT FROM AUTHOR]

Published

2019

10. Impact of climate change on agricultural production; Issues, challenges, and opportunities in Asia.

Author

Habib-ur-Rahman, Muhammad, Ahmad, Ashfaq, Raza, Ahsan, Hasnain, Muhammad Usama, Alharby, Hesham F., Alzahrani, Yahya M., Bamagoos, Atif A., Hakeem, Khalid Rehman, Ahmad, Saeed, Nasim, Wajid, Ali, Shafaqat, Mansour, Fatma, and EL Sabagh, Ayman

Subjects

AGRICULTURAL productivity, TILLAGE, CLIMATE change, CLIMATE extremes, CROP rotation, AGROFORESTRY, SUSTAINABLE agriculture, CROPPING systems

Abstract

Agricultural production is under threat due to climate change in food insecure regions, especially in Asian countries. Various climate-driven extremes, i.e., drought, heat waves, erratic and intense rainfall patterns, storms, floods, and emerging insect pests have adversely affected the livelihood of the farmers. Future climatic predictions showed a significant increase in temperature, and erratic rainfall with higher intensity while variability exists in climatic patterns for climate extremes prediction. For mid-century (2040-2069), it is projected that there will be a rise of 2.8 °C in maximum temperature and a 2.2 °C in minimum temperature in Pakistan. To respond to the adverse effects of climate change scenarios, there is a need to optimize the climate-smart and resilient agricultural practices and technology for sustainable productivity. Therefore, a case study was carried out to quantify climate change effects on rice and wheat crops and to develop adaptation strategies for the rice-wheat cropping system during the mid-century (2040-2069) as these two crops have significant contributions to food production. For the quantification of adverse impacts of climate change in farmer fields, a multidisciplinary approach consisted of five climate models (GCMs), two crop models (DSSAT and APSIM) and an economic model [Trade-off Analysis, Minimum Data Model Approach (TOAMD)] was used in this case study. DSSAT predicted that there would be a yield reduction of 15.2% in rice and 14.1% in wheat and APSIM showed that there would be a yield reduction of 17.2% in rice and 12% in wheat. Adaptation technology, by modification in crop management like sowing time and density, nitrogen, and irrigation application have the potential to enhance the overall productivity and profitability of the rice-wheat cropping system under climate change scenarios. Moreover, this paper reviews current literature regarding adverse climate change impacts on agricultural productivity, associated main issues, challenges, and opportunities for sustainable productivity of agriculture to ensure food security in Asia. Flowing opportunities such as altering sowing time and planting density of crops, crop rotation with legumes, agroforestry, mixed livestock systems, climate resilient plants, livestock and fish breeds, farming of monogastric livestock, early warning systems and decision support systems, carbon sequestration, climate, water, energy, and soil smart technologies, and promotion of biodiversity have the potential to reduce the negative effects of climate change. [ABSTRACT FROM AUTHOR]

Published

2022

11. A review of crop water productivity in the Mediterranean basin under a changing climate: Wheat and barley as test cases.

Author

UnNisa, Zaib, Govind, Ajit, Marchetti, Marco, and Lasserre, Bruno

Subjects

CLIMATE change, WHEAT, AGRICULTURAL productivity, CROPS, BARLEY, EMMER wheat, FOOD crops

Abstract

Copyright of Irrigation & Drainage is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

12. Challenges of Managing Maritime Cultural Heritage in Asia in the Face of Climate Change.

Author

Daly, Patrick, Feener, R. Michael, Ishikawa, Noboru, Mujah, Ibrahim, Irawani, Maida, Hegyi, Alexandru, Baranyai, Krisztina, Majewski, Jedrzej, and Horton, Benjamin

Subjects

STORM surges, CULTURAL property, COASTAL changes, CLIMATE change, HISTORIC sites, SEA level

Abstract

Changing weather patterns, increasing frequency and intensity of natural hazards, and rising sea levels associated with global climate change have the potential to threaten cultural heritage sites worldwide. This is especially the case for maritime heritage sites located in the low-lying coastal and delta regions of Asia. Maritime heritage can reflect both highly localized cultural products based on the coupling of people and maritime environments and the historic footprints of complex maritime networks that connect people, ideas, and material over vast distances, creating unique cultural spheres. Furthermore, maritime heritage sites potentially serve as or contain records of how past societies have been impacted by and adapted to past environmental stress. Therefore, their degradation threatens local/regional/global cultural patrimony as well as evidence of human resilience and fragility in the face of environmental change. This makes a strong case for urgent preservation. However, the possible damage caused by climate change and the scale of vulnerable maritime heritage pose seemingly insurmountable challenges. In this paper, we present the ways in which maritime heritage sites across Asia are vulnerable to environmental stresses, such as changing sea levels, coastal erosion, flooding, and storm surges. Our objective is to draw upon our experience documenting endangered cultural heritage across South and Southeast Asia to illustrate that there are unique conceptual and practical characteristics of maritime heritage that complicate effective management and conservation efforts on the scale required to prevent massive loss by climate change. We conclude by stressing the need to reconceptualize debates about the custody and stewardship of maritime heritage and the urgency of employing a wide range of innovative preservation solutions to ensure maritime patrimony is not lost to the rising tides. [ABSTRACT FROM AUTHOR]

Published

2022

13. Chinese loess and the Asian monsoon: What we know and what remains unknown.

Author

Lu, Huayu, Wang, Xiaoyong, Wang, Yao, Zhang, Xiaojian, Yi, Shuangwen, Wang, Xianyan, Stevens, Thomas, Kurbanov, Redzhep, and Marković, Slobodan B.

Subjects

*MONSOONS, *LOESS, *ATMOSPHERIC carbon dioxide, *OPTICALLY stimulated luminescence dating, *ATMOSPHERIC circulation, *CLIMATE change

Abstract

The variability and dynamics of the Asian monsoon (AM, hereafter indicates both of the summer and winter monsoons.) at orbital and millennial timescales has attracted wide interest. Chinese loess deposits, covering an area of ~500 × 103 km2 and with a thickness of several tens to more than three hundred meters, is an ideal continental archive to reconstruct AM variations during the Quaternary epoch. Over the past thirty years, since the earliest paper published in an international journal that linked the Asian monsoon and Chinese loess deposits, many studies have been undertaken focusing on this research topic. These results have greatly deepened our understanding of the variations of the AM climate and their driving mechanisms during the past ~2.6 Myr. In this paper, we emphasize recent progress on the AM variability and dynamics revealed by Chinese loess records; in particular, we discuss the reliability and precision of the timescale and the monsoon proxy indicators for the loess-paleosol sequences, which are two fundamental aspects for understanding AM behavior. We analyze what we know and discuss what we do not know about the AM. We refine the timescale for the typical loess-paleosol sequence in the central Chinese Loess Plateau (CLP), which can be used as a new timescale to study palaeoclimate and palaeoenvironmental changes in the monsoonal Asia. We conclude that low-latitude insolation changes induced by precession, and global ice volume, temperature at high-latitudes, as well as sea-level changes forced variations of the AM at orbital time scales. High-latitude cooling events and low-latitude hydroclimate process at millennial time scales, such as climate changes associated with Heinrich events and Dansgaard-Oeschger cycles in Northern Atlantic and Greenland, have also modulated AM variability. We suggest that high-latitude forcing of AM variations occurs through ocean and atmospheric circulation linkages, although the roles of atmospheric CO 2 , ocean and vegetation feedbacks need further investigation. In future study, high-resolution independent dating, novel proxy indices and transient numerical simulations are still basic tools to understand the loess deposition and AM variations that require considerably more work. Issues such as reliable spatial comparison and regional linkages of records (dependent on precise and accurate numerical chronologies), and quantitative reconstruction of the AM variations, should be given priority in the study the past climate change in Asia, and low-latitude hydroclimate process. [ABSTRACT FROM AUTHOR]

Published

2022

14. The impacts of climate change on Food and Nutritional Security: a literature review.

Author

Ariza Alpino, Tais de Moura, Mazoto, Maíra Lopes, Cavalcante de Barros, Denise, and Machado de Freitas, Carlos

Subjects

CLIMATE change adaptation, FOOD security, CLIMATE change, LITERATURE reviews, PUBLIC investments, FOOD prices, CONTINENTS, EQUALITY

Abstract

The interface between Climate Changes and Food and Nutrition Security (FNS) has been standing out in the sustainable development agenda since the early 1990's. Since then, studies show that climate changes have negative effects on the FNS, aggravated by poverty and social inequality. The purpose of this paper is to perform a review evidencing the relationships between climate changes and FNS. The research was carried out in PubMed using the descriptors "climate change and food security" on the headline, selecting only papers in Portuguese, Spanish, and English languages, and with a direct relation to the themes. The main impacts of climate changes on the FNS were related to the access, production, nutritional quality, and volatility of food prices. The studies also indicated mitigation/adaptation strategies to the effects of climate changes on the FNS, as well as a geographic panorama of the publications with fields of study in Africa and Asia, continents marked by social inequality and poverty. Climate changes affect the dimensions of FNS, especially in poorer populations in situation of social inequality. The relevance of the themes raises concern on the urgency of higher investments in public policies, studies, and research on the subject around the world. [ABSTRACT FROM AUTHOR]

Published

2022

15. Impacts of climate change on water resources in the major countries along the Belt and Road.

Author

Panpan Du, Ming Xu, and Renqiang Li

Subjects

CLIMATE change, WATER supply, ATMOSPHERIC models, HYDROLOGIC cycle, WATER management, WATER shortages

Abstract

Background: Climate change has altered global hydrological cycles mainly due to changes in temperature and precipitation, which may exacerbate the global and regional water shortage issues, especially in the countries along the Belt and Road (B&R). Methods: In this paper, we assessed water supply, demand, and stress under three climate change scenarios in the major countries along the Belt and Road. We ensembled ten Global Climate Model (GCM) runoff data and downscaled it to a finer resolution of 0.1 × 0.1 by the random forest model. Results: Our results showed that the GCM runoff was highly correlated with the FAO renewable water resources and thus could be used to estimate water supply. Climate change would increase water supply by 4.85%, 5.18%, 8.16% and water demand by 1.45%, 1.68%, 2.36% under RCP 2.6, 4.5, and 8.5 scenarios by 2050s, respectively. As a result, climate change will, in general, have little impact on water stress in the B&R countries as a whole. However, climate change will make future water resources more unevenly distributed among the B&R countries and regions, exacerbating water stress in some countries, especially in Central Asia and West Asia. Our results are informative for water resource managers and policymakers in the B&R countries to make sustainable water management strategies under future climate change. [ABSTRACT FROM AUTHOR]

Published

2021

16. The roles of economic growth and health expenditure on CO2 emissions in selected Asian countries: a quantile regression model approach.

Author

Bilgili, Faik, Kuşkaya, Sevda, Khan, Masreka, Awan, Ashar, and Türker, Oguzhan

Subjects

QUANTILE regression, REGRESSION analysis, ECONOMIC expansion, MEDICAL care costs, CARBON emissions, COVID-19 pandemic

Abstract

Continuous economic growth and the rise in energy consumption are linked with environmental pollution. Demand for health care expenditure increased after the COVID-19 pandemic. This study is interesting in modeling the nexus between public and private health expenditure, carbon dioxide emissions, and economic growth. To this end, the present study analyzed the nexus between public and private health care expenditure, economic growth, and environmental pollution for 36 Asian countries for the period 1991–2017. FMOLS, GMM, and quantile regression analysis confirm the EKC hypothesis in Asia. Besides, FMOLS and quantile regressions reached the reducing effects of government and private health expenditures on CO2 emissions. While quantile regression results show that public and private health expenditures can mitigate CO2 emissions; however, these results differ for various levels of CO2. Findings of quantile regression show a significant impact of both public and private health expenditures in reducing CO2 at the 50th and 75th quantiles but results are insignificant for the 25th quantile. Overall, the paper concludes that both government and private health sectors' expenditures caused CO2 emissions to decrease in Asia and that the negative impact of the private health sector on CO2 emissions is greater than that of the government health sector. The concluding remark is that the higher the health spending, the higher the environmental quality will be in Asia. Hence, the health administrators need to increase public and private health expenditures with an effective cost-service and energy-efficient management approach to reach sustainable health services and a sustainable environment in Asia. [ABSTRACT FROM AUTHOR]

Published

2021

17. Disruption risks and mitigation strategies: an analysis of Asian ports.

Author

Lam, Jasmine Siu Lee and Su, Shiling

Subjects

HARBORS, CLIMATE change, MAXIMUM likelihood statistics, NATURAL disasters, LABOR

Abstract

The critical nature of a seaport is a connection point. In addition to the effect on port operations, a port disruption will be a strain on trade flows and the various parties concerned. Climate change, oil spill, security, social and political instability are increasing concerns over the years which would lead to higher risks. With significant growing trade volume in Asia, there is a pressing need for comprehensive studies to prepare ports for disruptions. This paper aims to analyse and categorise the disruptions that have occurred in Asian ports and estimate the likelihood of recurrence based on the data since the year 1900. Results reveal a rising trend of disruptive events. Natural disasters and labour strikes are the two main causes of port disruptions, while natural disasters lead to the highest severity in terms of cargo tons affected. Mitigation strategies proposed in terms of both preventive and reactive measures are specifically designed to reduce the likelihood and severity of the various types of port disruptions. The paper provides recommendations on risk mitigation for relevant parties. [ABSTRACT FROM AUTHOR]

Published

2015

18. Seasonal Variation of the Westerly Jet over Asia in the Last Glacial Maximum: Role of the Tibetan Plateau Heating.

Author

Lei, Jing, Shi, Zhengguo, Xie, Xiaoning, Sha, Yingying, Li, Xinzhou, Liu, Xiaodong, and An, Zhisheng

Subjects

ATMOSPHERIC circulation, GENERAL circulation model, WESTERLIES, CLIMATE change, LAST Glacial Maximum

Abstract

The westerly jet (WJ) is an important component of atmospheric circulation, which is characterized by prominent seasonal variations in intensity and position. However, the response of the WJ over Asia during the Last Glacial Maximum (LGM) is still not clear. Using general circulation model experiments, the seasonal behaviors of the WJ over central Asia and Japan are analyzed in this paper. The results show that, compared to the present day (PD), the WJ presents a complicated response during the LGM, both in intensity and position. Over central Asia, it becomes weaker in both summer and winter. But over Japan, it is enhanced in summer but becomes diminished in winter. In terms of position, the WJ over central Asia shifts southward in both summer and winter, whereas the WJ over Japan moves southward in summer but does not change obviously relative to PD in winter. Such WJ changes are well explained by meridional temperature gradients in high troposphere, which is closely linked to seasonal thermal anomalies over the Tibetan Plateau (TP). Despite cooler LGM conditions, the anomalous warming center over the TP becomes stronger in summer. Derived from the heat budget equation, the stronger heating center is mainly caused by the weaker adiabatic cooling generated from ascending motion over the area south of the TP. In winter, the cooling over the TP is also strengthened, mostly owing to the subsidence-induced weaker adiabatic heating. Due to the importance of the WJ, the potential role of TP thermal effects should be a focus when explaining the East Asian climate change during the LGM. [ABSTRACT FROM AUTHOR]

Published

2021

19. Impact of Climate Variables on COVID-19 Pandemic in Asia: A Systematic Review.

Author

Saputra, Yoerdy Agusmal, Susanna, Dewi, and Yora Saki, Vernonia

Subjects

COVID-19 pandemic, CLIMATE change, PUBLIC health, WIND speed

Abstract

COVID-19 has become a global pandemic and threatens public health systems worldwide. Virus transmission can be influenced by several factors, one of which is climatic conditions. Temperature, humidity, precipitation, wind speed, and solar radiation play an important role in the transmission of infectious diseases and are variables that can determine the resistance of the SARS virus. This paper aimed to critically assess and provide evidence-based on the impact of climate variables on COVID-19 cases in Asia based on current knowledge to form the basis of guidelines for health care and prevention efforts. This systematic review used Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). The articles were searched from ProQuest, Scopus, PubMed, and Springerlink databases. The reviewers had screened 2.784 abstracts, 103 full-text publications, and ultimately included 11 systematic reviews. The review found a consistently positive relationship between climate variables and COVID-19. Average temperature, maximum temperature, minimum temperature, and humidity (r = 0.83, 0.94, 0.93, 0.30) were significantly correlated with COVID-19 cases. Temperature, maximum humidity, and population density (adjusted R2 = 0.53, p<0.05), can be used as references in planning interventions during potential future pandemics. Linear regression framework, high humidity, and high temperature (p<0.05) significantly reduce the transmission of COVID-19. This systematic review shows that climate plays a role in the spread of the COVID-19 pandemic in Asia. [ABSTRACT FROM AUTHOR]

Published

2021

20. Energy‐Related Environmental Policy and Its Impacts on Energy Use in Asia.

Author

Arimura, Toshi H. and Sugino, Makoto

Subjects

ENVIRONMENTAL policy, EMISSIONS (Air pollution), ENERGY consumption, CARBON pricing, FUEL switching

Abstract

Economic growth in Asia has increased in the past three decades and has heightened energy demand, resulting in rising greenhouse gas emissions and severe air pollution. To tackle these issues, fuel switching and the deployment of renewables are essential. In the present paper, we discuss the environmental regulations, mainly carbon pricing, implemented in Asia and discuss their achievements. Empirical studies using microdata have shown that carbon pricing in Asia can reduce carbon emissions by promoting energy efficiency. At the macro level, we observe some evidence of fuel switching from coal to natural gas among major emitters. However, more carbon pricing is necessary in Asia if we aim for the decarbonization of the economy. [ABSTRACT FROM AUTHOR]

Published

2021

21. Greening Asia's Economic Development.

Author

Burke, Paul J. and Do, Thang N.

Subjects

ECONOMIC development, SUSTAINABLE development, URBAN pollution, RENEWABLE portfolio standards, CLIMATE change

Abstract

Asia is facing serious environmental challenges including urban air pollution and the effects of global climate change. As a major source of greenhouse gases, what happens in Asia will play a crucial role in determining the extent to which the world warms over coming decades. This paper reviews key environmental challenges faced by the region and the growing opportunities for a transition to a cleaner economy powered by zero‐emission energy sources. Economic mechanisms – including emissions pricing, reverse auctions, and renewable portfolio standards with green certificate schemes – have the potential to underpin a much greener development model for the Asian Century. [ABSTRACT FROM AUTHOR]

Published

2021

22. Constraints of pro-poor climate change adaptation in Chittagong city.

Author

Ahammad, Ronju

Subjects

GOVERNMENT policy on climate change, EMERGENCY management, URBAN poor, LOCAL government & environmental policy, LOCAL government, NONGOVERNMENTAL organizations

Abstract

This paper considers how to make pro-poor climate change adaptation more effective in the city of Chittagong. Drawing on discussions with residents in informal settlements and interviews with staff from government agencies, NGOs and donors, it shows the lack of connection between the formal institutional structure for disaster preparedness and the groups most at risk from extreme weather disasters and their community level actions. There is no clear definition of roles among local government agencies with regard to climate change adaptation. Although there is a donor-funded programme to reduce poverty and disaster risks, this is not being implemented in the settlements most at risk from landslides. Neither are there any measures underway to address the needs of the residents in these high risk settlements, in part because of the financial weakness of local government. Nor is there much support for this from national government – since national climate change adaptation policy does not consider urban adaptation and strengthening urban government capacity to reduce the vulnerability of the extreme poor as a priority. NGOs undertake programmes for community-based disaster risk reduction but their scale and scope are limited by not being integrated into local government. [ABSTRACT FROM PUBLISHER]

Published

2011

23. Detection of Human Influence on Precipitation Extremes in Asia.

Author

Dong, Siyan, Sun, Ying, and Li, Chao

Subjects

METEOROLOGICAL precipitation, SIGNAL-to-noise ratio, CLIMATE extremes

Abstract

This paper examines the possible influence of external forcings on observed changes in precipitation extremes in the mid-to-high latitudes of Asia during 1958–2012 and attempts to identify particular extreme precipitation indices on which there are better chances to detect the influence of external forcings. We compare a recently compiled dataset of observed extreme indices with those from phase 5 of the Coupled Model Intercomparison Project (CMIP5) simulations using an optimal fingerprinting method. We consider six indices that characterize different aspects of extreme precipitation, including annual maximum amount of precipitation falling in 1 day (Rx1day) or 5 days (Rx5day), the total amount of precipitation from the top 5% or top 1% daily amount on wet days, and the fraction of the annual total precipitation from these events. For single-signal analysis, the fingerprints of external forcings including anthropogenic agents are robustly detected in most studied extreme indices over all Asia and for midlatitude Asia but not for high-latitude Asia. For two-signal analysis, anthropogenic influence is detectable in these indices over Asia at 5% or slightly less than 5% significance level, whereas natural influence is not detectable. In high-latitude Asia, anthropogenic influence is detected only in a fractional index, representing a stark contrast to the midlatitude and full Asia results. We find relatively smaller internal variability and thus higher signal-to-noise ratio in the fractional indices when compared with the other ones. Our results point to the need for studying precipitation extreme indices that are less affected by internal variability while still representing the relevant nature of precipitation extremes to improve the possibility of detecting a forced signal if one is present in the data. [ABSTRACT FROM AUTHOR]

Published

2020

24. Asian dust from land to sea: processes, history and effect from modern observation to geological records.

Author

Wan, Shiming, Sun, Youbin, and Nagashima, Kana

Subjects

MINERAL dusts, DUST control, ENVIRONMENTAL geochemistry, GEOLOGICAL modeling, DUST, GEOCHEMISTRY, PRODUCTION control, SEAS

Abstract

Production, transport and deposition of aeolian dust from land to sea closely interact with regional environment and global climate. This Special Issue addresses transport of aeolian dust from the Asian inland to the Loess Plateau and North Pacific Ocean and their possible links to oceanic ecosystem, global climate and even human activity, over various timescales. The papers in this volume are multidisciplinary in nature and include sedimentology, mineralogy, geochemistry, environmental magnetism and climate modelling on multi-timescales from interannual, glacial–interglacial to tectonic timescales. Based on modern observation, geological records and modelling, this Special Issue offers new insights especially into aeolian provenance, dynamics controls on dust production, a novel marine aeolian proxy, as well as long-term aeolian input to the marginal basins of NE Asia and its influence on oceanic productivity. This issue provides a good example for future comprehensive studies of source-to-sink processes of Asian dust from land to sea. [ABSTRACT FROM AUTHOR]

Published

2020

25. Land–atmosphere–ocean coupling associated with the Tibetan Plateau and its climate impacts.

Author

Liu, Yimin, Lu, Mengmeng, Yang, Haijun, Duan, Anmin, He, Bian, Yang, Song, and Wu, Guoxiong

Subjects

LAND-atmosphere interactions, INTERTROPICAL convergence zone, MERIDIONAL overturning circulation, CLIMATE change, PLATEAUS, STANDING waves

Abstract

This paper reviews recent advances regarding land–atmosphere–ocean coupling associated with the Tibetan Plateau (TP) and its climatic impacts. Thermal forcing over the TP interacts strongly with that over the Iranian Plateau, forming a coupled heating system that elevates the tropopause, generates a monsoonal meridional circulation over South Asia and creates conditions of large-scale ascent favorable for Asian summer monsoon development. TP heating leads to intensification and westward extension (northward movement) of the South Asian High (Atlantic Intertropical Convergence Zone), and exerts strong impacts on upstream climate variations from North Atlantic to West Asia. It also affects oceanic circulation and buoyancy fields via atmospheric stationary wave trains and air–sea interaction processes, contributing to formation of the Atlantic Meridional Overturning Circulation. The TP thermal state and atmospheric–oceanic conditions are highly interactive and Asian summer monsoon variability is controlled synergistically by internal TP variability and external forcing factors. [ABSTRACT FROM AUTHOR]

Published

2020

26. The NExus Solutions Tool (NEST) v1.0: an open platform for optimizing multi-scale energy–water–land system transformations.

Author

Vinca, Adriano, Parkinson, Simon, Byers, Edward, Burek, Peter, Khan, Zarrar, Krey, Volker, Diuana, Fabio A., Wang, Yaoping, Ilyas, Ansir, Köberle, Alexandre C., Staffell, Iain, Pfenninger, Stefan, Muhammad, Abubakr, Rowe, Andrew, Schaeffer, Roberto, Rao, Narasimha D., Wada, Yoshihide, Djilali, Ned, and Riahi, Keywan

Subjects

GEOSPATIAL data, CLIMATE change, LAND resource, POWER resources, SUSTAINABLE development

Abstract

The energy–water–land nexus represents a critical leverage future policies must draw upon to reduce trade-offs between sustainable development objectives. Yet, existing long-term planning tools do not provide the scope or level of integration across the nexus to unravel important development constraints. Moreover, existing tools and data are not always made openly available or are implemented across disparate modeling platforms that can be difficult to link directly with modern scientific computing tools and databases. In this paper, we present the NExus Solutions Tool (NEST): a new open modeling platform that integrates multi-scale energy–water–land resource optimization with distributed hydrological modeling. The new approach provides insights into the vulnerability of water, energy and land resources to future socioeconomic and climatic change and how multi-sectoral policies, technological solutions and investments can improve the resilience and sustainability of transformation pathways while avoiding counterproductive interactions among sectors. NEST can be applied at different spatial and temporal resolutions, and is designed specifically to tap into the growing body of open-access geospatial data available through national inventories and the Earth system modeling community. A case study analysis of the Indus River basin in south Asia demonstrates the capability of the model to capture important interlinkages across system transformation pathways towards the United Nations' Sustainable Development Goals, including the intersections between local and regional transboundary policies and incremental investment costs from rapidly increasing regional consumption projected over the coming decades. [ABSTRACT FROM AUTHOR]

Published

2020

27. Air quality and climate change, Topic 3 of the Model Inter-Comparison Study for Asia Phase III (MICS-Asia III) – Part 2: aerosol radiative effects and aerosol feedbacks.

Author

Gao, Meng, Han, Zhiwei, Tao, Zhining, Li, Jiawei, Kang, Jeong-Eon, Huang, Kan, Dong, Xinyi, Zhuang, Bingliang, Li, Shu, Ge, Baozhu, Wu, Qizhong, Lee, Hyo-Jung, Kim, Cheol-Hee, Fu, Joshua S., Wang, Tijian, Chin, Mian, Li, Meng, Woo, Jung-Hun, Zhang, Qiang, and Cheng, Yafang

Subjects

HAZE, AIR quality, AEROSOLS, CLIMATE change, RADIATIVE forcing

Abstract

Topic 3 of the Model Inter-Comparison Study for Asia (MICS-Asia) Phase III examines how online coupled air quality models perform in simulating wintertime haze events in the North China Plain region and evaluates the importance of aerosol radiative feedbacks. This paper discusses the estimates of aerosol radiative forcing, aerosol feedbacks, and possible causes for the differences among the participating models. Over the Beijing–Tianjin–Hebei (BTH) region, the ensemble mean of estimated aerosol direct radiative forcing (ADRF) at the top of atmosphere, inside the atmosphere, and at the surface are -1.1 , 7.7, and -8.8 W m -2 during January 2010, respectively. Subdivisions of direct and indirect aerosol radiative forcing confirm the dominant role of direct forcing. During severe haze days (17–19 January 2010), the averaged reduction in near-surface temperature for the BTH region can reach 0.3–1.6 ∘ C. The responses of wind speeds at 10 m (WS10) inferred from different models show consistent declines in eastern China. For the BTH region, aerosol–radiation feedback-induced daytime changes in PM 2.5 concentrations during severe haze days range from 6.0 to 12.9 µ g m -3 (<6 %). Sensitivity simulations indicate the important effect of aerosol mixing states on the estimates of ADRF and aerosol feedbacks. Besides, black carbon (BC) exhibits a large contribution to atmospheric heating and feedbacks although it accounts for a small share of mass concentration of PM 2.5. [ABSTRACT FROM AUTHOR]

Published

2020

28. Understanding the divergences between farmer's perception and meteorological records regarding climate change: a review.

Author

Foguesatto, Cristian Rogério, Artuzo, Felipe Dalzotto, Talamini, Edson, and Machado, João Armando Dessimon

Subjects

CLIMATE change, SENSORY perception, EXPECTED utility, FARMERS, UTILITY theory

Abstract

How farmers perceive climate change is linked to whether they are responding and adapting to it. However, often this perception does not correspond with what actually happens. Based on a search of empirical studies carried out in Africa and Asia, this paper analyzes two factors that can influence farmers' perception regarding climate change: expected utility maximization and availability heuristic. While expected utility maximization refers to an expected change in farmers' well-being, the availability heuristic is a mental shortcut based on the memory of occurrence of events. Generally, empirical studies show that farmers' perceptions are aligning with meteorological records regarding an increase in temperature. However, while there are no significant variations in rainfall trends, farmers perceive a reduction in rainfall in the last few years. The recent increase in drought frequency and severity may cause this divergence, because it affects farmers' well-being, and extreme droughts have a central position in peoples' memory. In this context, our findings suggest that farmers' perceptions are influenced by economic and psychological issues. Policymakers, extension workers and developers of climate projects need to pay attention to farm and farmers' characteristics in order to develop mitigation and/or adaptation practices regarding climate change. [ABSTRACT FROM AUTHOR]

Published

2020

29. Adaptation to Climate Change.

Author

Francisco, Herminia A.

Subjects

GOVERNMENT policy on climate change, CLIMATE change prevention, EMERGENCY management, INSURANCE, RISK management in business

Abstract

This paper focuses on the adaptation strategies of developing countries and the possible adaptation options available for Southeast Asia. Adaptation refers to the actions taken by individuals, communities, or governments in response to climate change, to reduce the adverse impacts or to take advantage of opportunities offered by such changes. Adaptation strategies have hardly been considered by many Southeast Asian countries in as recently as two or three years ago. The cost of adaptation and the funding available is also discussed, with the possibility of using institutions for risk sharing (disaster management) and risk transfer (insurance and derivatives) as measures to adapt. A regional outlook for adaptation for Southeast Asia concludes the paper. [ABSTRACT FROM AUTHOR]

Published

2008

30. Enhanced Mid-to-Late Summer Precipitation over Midlatitude East Asia under Global Warming.

Author

Wang, Chuan-Yang, Zheng, Xiao-Tong, and Song, Fengfei

Subjects

WATER management, PRECIPITATION variability, GLOBAL warming, CLIMATE change, MOISTURE

Abstract

East Asian summer monsoon precipitation is projected to increase under greenhouse warming with strong intraseasonal variation. Using a 35-member CESM Large Ensemble and 30 CMIP6 models, this study reveals that in July and August, maximum rainfall changes in East Asia take place in the midlatitudes, influencing regions encompassing North and Northeast China, the Korean Peninsula, and Japan. The intensified precipitation is attributed to the combined effect of the thermodynamic and dynamic components. The former stems from the enriched low-level moisture, which peaks in continental East Asia in July and August, under global warming. The dynamic effect is due to the enhanced upward motion, associated with the enhanced southerlies throughout the troposphere over midlatitude East Asia. The southerlies also act to intensify the low-level monsoonal circulation, strengthening moisture transport from the tropical ocean to the midlatitudes. In addition to the mean-state changes, the precipitation interannual variability in this region also intensifies, partly due to the enhanced low-level moisture and partly associated with enhanced large-scale circulation anomalies, such as the northwestern Pacific anticyclone. The enhanced background precipitation, along with the intensified interannual variability, may lead to more rainy summers in a warmer climate, with instances where historically extreme precipitation events become more frequent, posing challenges for water resource management and agriculture in the region. [ABSTRACT FROM AUTHOR]

Published

2024

31. Food-borne and water-borne diseases under climate change in low- and middle-income countries: Further efforts needed for reducing environmental health exposure risks.

Author

Cissé, Guéladio

Subjects

*FOODBORNE diseases, *WATERBORNE infection, *CLIMATE change, *ENVIRONMENTAL health, *MEDICAL climatology, *MIDDLE-income countries

Abstract

Graphical abstract Food- and water-borne diseases (FWBD) are among climate and environmental sensitive infectious diseases. Climate change can highly exacerbate FWBD through vulnerable water systems. Highlights • Food- and water-borne diseases (FWBD) are a major cause of mortality and morbidity. • Africa counts 91 million people falling ill and 137,000 dying per year by FWBD. • Climate change could increase FWBD through bad water, sanitation and hygiene (WASH). • Floods' vulnerability maps of drinking water systems are important for prevention. • Appropriate WASH interventions can significantly contribute in reducing FWBD under climate change. Abstract This paper provides a view of the major facts and figures related to infectious diseases with a focus on food-borne and water-borne diseases and their link with environmental factors and climate change. The global burden of food-borne diseases for 31 selected hazards was estimated by the World Health Organization at 33 million disability-adjusted life years (DALYs) in 2010 with 40% of this burden concentrated among children under 5 years of age. The highest burden per population of food-borne diseases is found in Africa, followed by Southeast Asia and the Eastern Mediterranean sub-regions. Unsafe water used for the cleaning and processing of food is a key risk factors contributing to food-borne diseases. The role of quality and quantity of water to the general burden of infectious diseases deserves attention, particularly in low- and middle-income countries, as its effects go beyond the food chain. Water-related infectious diseases are a major cause of mortality and morbidity worldwide, and climate change effects will exacerbate the challenges for the public health sector for both food-borne and water-borne diseases. Selected case studies from Africa and Asia show that (i) climate change extreme events, such as floods, may exacerbate the risks for infectious diseases spreading through water systems, and (ii) improvements related to drinking water, sanitation and hygiene could result in a significant reduction of intestinal parasitic infections among school-aged children. There is a need to better anticipate the impacts of climate change on infectious diseases and fostering multi-stakeholder engagement and multi-sectoral collaborations for integrated interventions at schools, community and household levels. The paper calls for giving priority to improving the environmental conditions affecting food-borne and water-borne infectious diseases under climate change. [ABSTRACT FROM AUTHOR]

Published

2019

32. The status of climate change adaptation in Africa and Asia.

Author

Ford, James, Berrang-Ford, Lea, Bunce, Anna, McKay, Courtney, Irwin, Maya, and Pearce, Tristan

Subjects

CLIMATE change research, GLOBAL environmental change, CLIMATOLOGY

Abstract

Adaptation is a key component of climate policy, yet we have limited and fragmented understanding of if and how adaptation is currently taking place. In this paper, we document and characterize the current status of adaptation in 47 vulnerable 'hotspot' nations in Asia and Africa, based on a systematic review of the peer-reviewed and grey literature, as well as policy documents, to extract evidence of adaptation initiatives. In total, 100 peer-reviewed articles, 161 grey literature documents, and 27 United Nations Framework Convention on Climate Change National Communications were reviewed, constituting 760 adaptation initiatives. Results indicate a significant increase in reported adaptations since 2006. Adaptations are primarily being reported from African and low-income countries, particularly those nations receiving adaptation funds, involve a combination of groundwork and more concrete adaptations to reduce vulnerability, and are primarily being driven by national governments, NGOs, and international institutions, with minimal involvement of lower levels of government or collaboration across nations. Gaps in our knowledge of adaptation policy and practice are particularly notable in North Africa and Central Asia, and there is limited evidence of adaptation initiatives being targeted at vulnerable populations including socioeconomically disadvantaged populations, children, indigenous peoples, and the elderly. [ABSTRACT FROM AUTHOR]

Published

2015

33. The rise of Asia in a changing Arctic: a view from Iceland.

Author

Hastings, Jesse Guite

Subjects

ECONOMICS, CLIMATE change

Abstract

Due to both the environmental impacts and the economic opportunities brought about by climate change, interest in the Arctic is rising in Asia. While there is a growing scholarship analyzing Asian interest in the Arctic, Iceland's reception to this interest has been under-studied. This paper explores Iceland's rising interest in the Arctic and its linked response to growing Chinese overtures toward Iceland and the region. Data were gathered from peer-reviewed literature, policy documents, popular media articles, participant observation at the Arctic Circle conference, and semi-structured interviews from October to December 2013 with a cross-section of Iceland's political, economic, and scientific elite. Results indicate that Iceland is trying to capitalize on the increasing global visibility and economic opportunities in the Arctic while working to ensure regional geopolitical and environmental stability. While Iceland generally welcomes Chinese overtures into Arctic political and scientific spheres, the response to economic overtures is more nuanced. Specifically, Iceland is trying to balance a desire for economic gains, Chinese investment in Icelandic industries, and an associated ability to ‘scale up’ economically with a perceived vulnerability to being dominated by a country which dwarfs Iceland in both size, power, and influence. [ABSTRACT FROM PUBLISHER]

Published

2014

34. Unpacking local impacts of climate change: learning with a coastal community in Central Vietnam.

Author

Nguyen, Huu Trung

Subjects

CLIMATE change, COASTS, ATMOSPHERIC models, MONSOONS, UNCERTAINTY (Information theory)

Abstract

Large-scale climate models (LCM) have been used to understand climate change and its effects, but there remains a concern about their inability fully to reflect local contexts and about a high degree of their uncertainty. Through a case study that involved residents of a coastal community in Central Vietnam, this paper presents how local people perceive climate change and characterize climate impacts on their life. Findings of the study show that local people perceive a variety of important manifestations of climate change, especially temperature, rainfall, sea level rise and monsoons, although they have limited ideas about future climate change. In addition, local people unpack the complexity of climate impacts through interactions among climatic events, livelihoods and the five capitals (physical, natural, financial, human and social resources). Findings of the research suggest that it will be necessary to move away from viewing coastal villages in Vietnam as homogenous units with shared climate experiences, and to combine both local experience and scientific evidence based on LCMs to promote the synergies and address the limitations of the two sources of information for climate interventions at the local level. [ABSTRACT FROM AUTHOR]

Published

2018

35. East Asia's new developmentalism: state capacity, climate change and low-carbon development.

Author

Dent, Christopher M.

Subjects

ECONOMIC conditions in East Asia, DEVELOPMENTALISM (Economics), CLIMATE change, SUSTAINABLE development, ECOLOGICAL modernization, CAPACITY building, ECONOMIC development

Abstract

This paper argues that to understand the relevance of developmental states in East Asia and elsewhere, we need to focus on the changing development agenda in the early twenty-first century, especially how this connects with the global challenge of climate change and thereby sustainable, low-carbon development. It combines theories on state capacity and ecological modernisation to form the 'new developmentalism' concept. This is applied to study revitalised and refocused forms of state capacity aimed at realising the transformative economic objectives associated with sustainable development. New developmentalism helps us understand not only current state capacity practice in a climate challenged world but also how we have moved beyond original conceptions of developmental statism. It may be understood in the wider context of the sustainable development agenda and climate interventionism. As is argued, new developmentalism is most clearly evident in East Asia but can be applied in a wider geographic sense where strong forms of developmental state capacity are exercised towards meeting transformative sustainable development goals. [ABSTRACT FROM AUTHOR]

Published

2018

36. Future projections of compound temperature and precipitation extremes and corresponding population exposure over global land.

Author

Yang, Yang and Zhao, Na

Subjects

*CLIMATE extremes, *GLOBAL temperature changes, *CLIMATE change, *SPATIO-temporal variation, *POPULATION policy

Abstract

Extreme climate events are hotspots in global change. However, research on the changes in future compound events and population exposure is still limited. Leveraging from the data of the sixth phase of the Coupled Model Intercomparison Project (CMIP6), this paper aims to analyze the temporal and spatial changes of global compound temperature and precipitation extreme events in the future. We also predict the risk of population exposure and quantify the contribution of different factors to exposure. The results show that: (1) In the next 80 years, compound hot-dry event (CHDE) will increase at a rate of 0.02, 0.03, and 0.08 days per decade under the three scenarios of SSP1–2.6, SSP2–4.5 and SSP5–8.5, respectively. By comparison, compound hot-humidity event (CHHE) shows a downward trend under the three scenarios, with a downward rate of 0.01, 0.02, and 0.11 days per decade, respectively. (2) Under the SSP1–2.6 and SSP2–4.5 scenarios, CHDE and CHHE have two or more mutation points. Under the SSP5–8.5 scenario, CHDE shows a significant upward and CHHE shows a significant downward trend in the middle and late 21st century. These two indices exhibit periodic changes in all three scenarios (3) South Asia, West Asia, and Northeast Africa have higher CHDE values, while regions with higher CHHE values are located in North Asia and Greenland. (4) Climate change is a major factor affecting population exposure. For CHDE, climate, population, and their synergistic effects contribute about 75%, 20%, and 5% to the exposure, respectively. For CHHE, the contributions of these three factors are 85%, 10%, and 5% respectively. These findings provide scientific guidance for the rational formulation of population policies, the effective avoidance of climate disaster risks and the protection of human health. • Frequency of hot-dry events and hot-humidity events will increase and decrease, respectively, in the future. • There are abrupt points and periodicity in the future time series of compound temperature and precipitation extremes. • Asia is projected to have the greatest exposure and climate change contributes the most to exposure. [ABSTRACT FROM AUTHOR]

Published

2024

37. Impact of Asian aerosols on the summer monsoon strongly modulated by regional precipitation biases.

Author

Liu, Zhen, Bollasina, Massimo A., and Wilcox, Laura J.

Subjects

AEROSOLS, CLIMATE change, ATMOSPHERIC models, MONSOONS, ATMOSPHERIC circulation, WATER supply

Abstract

Reliable attribution of Asian summer monsoon variations to aerosol forcing is critical to reducing uncertainties in future projections of regional water availability, which is of utmost importance for risk management and adaptation planning in this densely populated region. Yet, simulating the monsoon remains a challenge for climate models that suffer from long-standing biases, undermining their reliability in attributing anthropogenically forced changes. We analyze a suite of climate model experiments to identify a link between model biases and monsoon responses to Asian aerosols and associated physical mechanisms, including the role of large-scale circulation changes. The aerosol impact on monsoon precipitation and circulation is strongly influenced by a model's ability to simulate the spatio-temporal variability in the climatological monsoon winds, clouds, and precipitation across Asia, which modulates the magnitude and efficacy of aerosol–cloud–precipitation interactions, an important component of the total aerosol response. There is a strong interplay between South Asia and East Asia monsoon precipitation biases and their relative predominance in driving the overall monsoon response. We found a striking contrast between the early- and late-summer aerosol-driven changes ascribable to opposite signs and seasonal evolution of the biases in the two regions. A realistic simulation of the evolution of the large-scale atmospheric circulation is crucial to realize the full extent of the aerosol impact over Asia. These findings provide important implications for better understanding and constraining the diversity and inconsistencies of model responses to aerosol changes over Asia in historical simulations and future projections. [ABSTRACT FROM AUTHOR]

Published

2024

38. Microclimate changes and trend analysis of remotely sensed environmental parameters in West Asia Semi-arid region.

Author

Shahbandeh, Mahsa and Elhag, Mohamed

Subjects

MODIS (Spectroradiometer), ARID regions, DEVELOPING countries, CLIMATE change, ATMOSPHERIC temperature, CARBON dioxide

Abstract

Several developing countries in Asia are relying on agricultural practices in which climate change is a challenging concern. The trends change in atmospheric parameters and vegetation indices are questioned and vague. Consequently, the trend variations of the environmental characteristics were introduced in the first decade of 21 century to better understand the trend changes and envisage the relationship between the atmospheric parameters and the vegetation cover. The Moderate Resolution Imaging Spectroradiometer and the Atmospheric Infrared Sounder provide several atmospheric parameters, e.g., Air Temperature, Aerosol Optical Depth (AOD), and Carbon Dioxide (CO2). In addition, NDVI was estimated and aimed at the role of the interactions among the atmospheric parameters based on statistical analysis. The results showed that AOD and NDVI were air temperature dependent; meanwhile, AOD, NDVI, and air temperature were exchanging and influencing one another. Furthermore, the average minimum air temperature of the region increased during this period and carbon dioxide was a time-dependant parameter that was rising at a steep slope, which may lead to environmental crises. The trend analysis outlines what policies, programs, and procedures should be used to balance the ecosystem and mitigate the climatic negative effects. The Current research strengthens on the social awareness and the international cooperation to reduce socio-economic and political harm and loss in the face of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

39. Global projections of heat exposure of older adults.

Author

Falchetta, Giacomo, De Cian, Enrica, Sue Wing, Ian, and Carr, Deborah

Subjects

OLDER people, SOLAR radiation, HEAT waves (Meteorology), POPULATION aging, HIGH temperatures, CRITICAL temperature, CLIMATE change

Abstract

The global population is aging at the same time as heat exposures are increasing due to climate change. Age structure, and its biological and socio-economic drivers, determine populations' vulnerability to high temperatures. Here we combine age-stratified demographic projections with downscaled temperature projections to mid-century and find that chronic exposure to heat doubles across all warming scenarios. Moreover, >23% of the global population aged 69+ will inhabit climates whose 95th percentile of daily maximum temperature exceeds the critical threshold of 37.5 °C, compared with 14% today, exposing an additional 177–246 million older adults to dangerous acute heat. Effects are most severe in Asia and Africa, which also have the lowest adaptive capacity. Our results facilitate regional heat risk assessments and inform public health decision-making. By 2050 > 23% of the global population aged 69 + will live in climates with acute heat exposure– the 95th percentile of the distribution of maximum daily temperatures–greater than the critical threshold of 37.5C, compared with 14% in 2020, an increase of 177–246 million older adults exposed to dangerous acute heat. [ABSTRACT FROM AUTHOR]

Published

2024

40. Chapter Two: What is driving food insecurity in Asia?

Subjects

FOOD security, FOOD consumption, CLIMATE change, POVERTY, ENVIRONMENTAL degradation, ECONOMIC development, URBANIZATION

Abstract

The spike in global food prices in 2007–08 not only led to riots on several continents; it also reawakened fears about the world's future ability to feed itself, as growing populations place greater demands on agricultural systems operating in increasingly difficult environmental and climatic conditions. With more than half the world's people and high levels of inequality, Asia lies at the centre of the global food-security challenge of the twenty-first century. The region – especially China and India – is drawing on world stocks and importing more staples, as its own farms strain to meet the growing middle classes’ desire for more meat and processed foods. Meanwhile, the smallholder farmers who supply 80% of the continent's food confront continued poverty, as they struggle to raise output in the face of creeping environmental degradation, looming water shortages and the unpredictable effects of climate change. As thisAdelphishows, there are no simple solutions. Today, rice is exported while some households still go hungry, unrest grows as land is appropriated for biofuels or industry, and nations compete over waters and fishing rights. Only integrated policies that take into account the complex socio-economic and political aspects of food security have any chance of succeeding. [ABSTRACT FROM PUBLISHER]

Published

2013

41. Local Energy Efficiency Policy Implementation in China: Bridging the Gap between National Priorities and Local Interests.

Author

Kostka, Genia and Hobbs, William

Subjects

ENERGY policy, GOVERNMENT policy on energy consumption, FEDERAL-county relations, GOVERNMENT policy on climate change, LOCAL government, EMISSIONS (Air pollution), GOVERNMENT policy, TWENTY-first century

Abstract

This paper analyses Chinese sub-national governments' implementation strategies to meet national energy efficiency targets in the 11th Five-Year Plan (2006-2010). Previous research has focused on the ways governance practices and decision-making structures shape implementation outcomes, yet very little attention has been given to what strategies local leaders actually employ to bridge national priorities with local interests. To illustrate how local leaders work politically, this paper highlights specific implementation methods officials use to strengthen formal incentives and create effective informal incentives to comply with energy efficiency mandates. The analysis is drawn from 53 interviews conducted in June and July of 2010 in Shanxi, a major coal-producing and energy-intensive province. Findings suggest that local government leaders conform to national directives by "bundling" the energy efficiency policy with policies of more pressing local importance or by "bundling" their energy efficiency objectives with the interests of groups with significant political influence. Ultimately, sub-national government officials frame policies in ways that give them legitimacy at the local level. [ABSTRACT FROM AUTHOR]

Published

2012

42. A Proposal for an Asian Rice Insurance Mechanism.

Author

Mendoza, Ronald U.

Subjects

RICE, FOOD prices, AGRICULTURAL prices, CLIMATE change, DEVELOPING countries

Abstract

The food price shocks that erupted in 2008 revealed the vulnerability of many developing countries, notably those in Asia, from volatility in the international foodgrain markets. For instance, by March of 2008, the price of traded rice had increased by well over 70 percent compared to year-before levels. Addressed primarily to policymakers in the Asian region, this paper outlines a proposal for a regional risk sharing arrangement—an Asian rice insurance mechanism (ARIM)—which could form part of the region's long-term response to the food security issue. The ARIM could serve as a regional public good by helping countries in the region more efficiently manage the risks related to volatile rice production and trade, arising from emerging structural factors such as the rising and evolving food demand of large Asian countries like China, India and Indonesia, as well as the effects of climate change (and climatic shocks) on the agricultural sector more broadly. [ABSTRACT FROM AUTHOR]

Published

2009

43. Hydrological and Meteorological Extreme Events in Asia: Understanding, Modeling, Vulnerability, and Adaptation Measures.

Author

Lee, Taesam, Kwon, Hyunhan, Modarres, Reza, Kim, Sangdan, and Chebana, Fateh

Subjects

PROBABLE maximum precipitation (Hydrometeorology), CLIMATE change, NATURAL disasters, HYDROMETEOROLOGY

Published

2016

44. Multi-model and multi-scenario assessments of Asian water futures: The Water Futures and Solutions (WFaS) initiative.

Author

Satoh, Yusuke, Kahil, Taher, Byers, Edward, Burek, Peter, Fischer, Günther, Tramberend, Sylvia, Greve, Peter, Flörke, Martina, Eisner, Stephanie, Hanasaki, Naota, Magnuszewski, Piotr, Nava, Luzma Fabiola, Cosgrove, William, Langan, Simon, and Wada, Yoshihide

Subjects

WATER supply, WATER consumption

Abstract

This paper presents one of the first quantitative scenario assessments for future water supply and demand in Asia to 2050. The assessment, developed by the Water Futures and Solutions ( WFaS) initiative, uses the latest set of global climate change and socioeconomic scenarios and state-of-the-art global hydrological models. In Asia, water demand for irrigation, industry, and households is projected to increase substantially in the coming decades (30-40% by 2050 compared to 2010). These changes are expected to exacerbate water stress, especially in the current hotspots such as north India and Pakistan, and north China. By 2050, 20% of the land area in the Asia-Pacific region, with a population of 1.6-2 billion, is projected to experience severe water stress. We find that socioeconomic changes are the main drivers of worsening water scarcity in Asia, with climate change impacts further increasing the challenge into the 21st century. Moreover, a detailed basin-level analysis of the hydro-economic conditions of 40 Asian basins shows that although the coping capacity of all basins is expected to improve due to gross domestic product (GDP) growth, some basins continuously face severe water challenges. These basins will potentially be home to up to 1.6 billion people by mid-21st century. [ABSTRACT FROM AUTHOR]

Published

2017

45. Processes of initial collision and suturing between India and Asia.

Author

Ding, Lin, Maksatbek, Satybaev, Cai, FuLong, Wang, HouQi, Song, PeiPing, Ji, WeiQiang, Xu, Qiang, Zhang, LiYun, Muhammad, Qasim, and Upendra, Baral

Subjects

CLIMATE change, PLATE tectonics, PALEOMAGNETISM, METAMORPHISM (Geology), SEDIMENTATION & deposition, MAGMATISM

Abstract

The initial collision between Indian and Asian continents marked the starting point for transformation of land-sea thermal contrast, uplift of the Tibet-Himalaya orogen, and climate change in Asia. In this paper, we review the published literatures from the past 30 years in order to draw consensus on the processes of initial collision and suturing that took place between the Indian and Asian plates. Following a comparison of the different methods that have been used to constrain the initial timing of collision, we propose that the tectono-sedimentary response in the peripheral foreland basin provides the most sensitive index of this event, and that paleomagnetism presents independent evidence as an alternative, reliable, and quantitative research method. In contrast to previous studies that have suggested collision between India and Asia started in Pakistan between ca. 55 Ma and 50 Ma and progressively closed eastwards, more recent researches have indicated that this major event first occurred in the center of the Yarlung Tsangpo suture zone (YTSZ) between ca. 65 Ma and 63 Ma and then spreading both eastwards and westwards. While continental collision is a complicated process, including the processes of deformation, sedimentation, metamorphism, and magmatism, different researchers have tended to define the nature of this event based on their own understanding, an intuitive bias that has meant that its initial timing has remained controversial for decades. Here, we recommend the use of reconstructions of each geological event within the orogenic evolution sequence as this will allow interpretation of collision timing on the basis of multidisciplinary methods. [ABSTRACT FROM AUTHOR]

Published

2017

46. Comparative study on climate change impact on precipitation and floods in Asian river basins.

Author

Yoichi Iwami, Akira Hasegawa, Mamoru Miyamoto, Shun Kudo, Yusuke Yamazaki, Tomoki Ushiyama, and Toshio Koike

Subjects

COMPARATIVE studies, CLIMATE change, PRECIPITATION anomalies, FLOOD risk, WATERSHEDS, INTEGRATED water development, GENERAL circulation model

Abstract

As many water related disasters occur frequently around the world, proper assessment of future climate change impact on floods and droughts is essential. In this study, we focused on basin-scale climate change impact assessment as necessary information for studying adaptation measures on the basis of integrated water resources management. We used Meteorological Research Institute-Atmospheric General Circulation Model (MRI-AGCM) 3.2S (20 km grid super high resolution model) and a series of simulation methods for climate change analysis. We conducted a comparative study on changes in precipitation, flood discharge and inundation in the future during the wet and dry seasons for five target river basins in the Asian monsoon area. We found that regional precipitation outputs from the high resolution model in this study were in good agreement in the point of tendency of their changes in wet and dry monsoon seasons with the regional precipitation analysis in the Fifth Assessment Report (AR5) of Working Group 1 (WG1) of the International Panel on Climate Change (IPCC, 2013). This study illustrated that the proposed methodology can make more detailed descriptions of climate change possible. The study also found the importance of basin-scale runoff and inundation analysis with downscaling especially for basins where floods occur for a short period, suggesting potential differences between flood change and precipitation change from General Circulation Model (GCM) outputs such as maximum 5-day precipitation index in a basin. As a result, this paper confirms the importance of basin-scale discharge and inundation analysis for climate change considering basin characteristics from the viewpoint of river management. [ABSTRACT FROM AUTHOR]

Published

2017

47. A systematic review of the incorrect use of an empirical equation for the estimation of the rainfall erosivity around the globe.

Author

Chen, Walter, Huang, Yu-Chieh, Lebar, Klaudija, and Bezak, Nejc

Subjects

*SOIL erosion, *RAINFALL, *UNIVERSAL soil loss equation, *LAND degradation, *TREND analysis

Abstract

Soil erosion is part of the erosion-sedimentation cycle and a type of land degradation that can be caused by poor land management. This is expected to be exacerbated by climate change. The rainfall erosivity factor (R) of the Universal Soil Loss Equation (USLE) family of soil erosion models is one of the most important parameters being studied because it is heavily influenced by climate change. The determination of the R factor necessitates high-frequency precipitation data, which are unavailable for a significant portion of the globe. For decades, researchers in data-sparse regions have estimated the R factor using empirical equations that required only monthly or annual rainfall data. Unfortunately, many of these equations are outdated and susceptible to misuse. This study presents an empirical R equation based on the Modified Fournier Index (MFI) that has caused probably one of the most widespread and unnoticed errors in soil erosion research for at least 33 years. Our exhaustive literature search and analysis uncovered 125 papers with 28 incorrect R equation formulations. We discovered that the earliest incorrect publication dates back to 1989, and most of the studies were conducted in Asia (China and India). The 125 published papers have similar citation characteristics (three citations per year per paper) as other papers in the field of soil erosion modelling, and many of the 125 papers were published in well-known scientific journals. Together, they have been cited over 3300 times by international researchers. In addition, the number of incorrect papers has increased dramatically over the past few years (2015–2021), indicating that the equation is spreading more frequently than the general publication trend. Since using an incorrect R equation can result in a significant bias in estimating the R factor and, consequently, soil erosion, the incorrect use could significantly bias numerous studies. The inaccuracy also hinders global efforts like the "Global Applications of Soil Erosion Modelling Tracker (GASEMT)" to synthesize soil erosion studies worldwide to shed light on the global problem of soil erosion and to promote environmental education. Consequently, the primary objective of this paper is to contribute to the recognition of the use of incorrect R equations, thereby reducing or even preventing their further spread and thus limiting the number of studies publishing biased results. [ABSTRACT FROM AUTHOR]

Published

2023

48. Ancient irrigation systems in Asia and Africa: Typologies, degradation and ecosystem services.

Author

Weerahewa, Jeevika, Timsina, Jagadish, Wickramasinghe, Chamali, Mimasha, Sithuni, Dayananda, Dasuni, and Puspakumara, Gamini

Subjects

*IRRIGATION, *IRRIGATION farming, *WATER in agriculture, *ECOSYSTEM services, *IRRIGATION water, *WELLS, *RAINWATER, *WATER harvesting

Abstract

Ancient irrigation systems (AISs) have been providing a multitude of ecosystem services to rural farming and urban communities in Asia and Africa, especially in arid and semi-arid climatic areas with low rainfall. Many AISs, however have now been degraded. A systematic analysis of AISs on their typologies, causes of degradation, and their ecosystem services is lacking. The objective of this review was to synthesize the knowledge on AISs on their typologies, status and causes of degradation, ecosystem services and functions, and identify gaps in research in Asia and Africa. A critical review of peer-reviewed journal papers, conference and workshop proceedings, book chapters, grey literature, and country reports was conducted. Qualitative and quantitative information from journal papers were used to conceptualize the typologies and analyze the status and causes of degradation, and ecosystems services and functions provided by the AISs. Based on the review, we classified AISs into three groups by source of irrigation water: Rainwater harvesting system (RHS) with small reservoirs, ground water based system, and floodwater based system. The RHSs, which used to receive reliable rainfall and managed by well cohesive social organizations for their maintenance and functioning in past, have now been silting due to extreme rainfall pattern and breakdown of the cohesive organizations in recent decades. In ground water based systems, indiscriminate development of deep tube wells causing siltation of channels has been a major challenge. In floodwater irrigation systems, irregular rainfall in the highlands and the breakage of irrigation structures by destructive floods were the main causes of degradation. Lack of maintenance and increased soil erosion, inadequate skilled manpower, and declining support from the government for repair and maintenance were the main causes of degradation of all AISs. The main ecosystem service provided by all AISs is water for agriculture. In tank- and pond-based systems, fish farming is also practiced. Tank irrigation systems provide various types of provisioning, regulatory, cultural and supporting services, especially in India and Sri Lanka. Ground water based systems provide water for domestic purposes and various cultural services. Floodwater based systems provide water for power generation and wildlife habitat maintenance and help in flood control. The knowledge generated through the review provide evidence-based information, and help aware governments, private sectors and development agencies for improved policy planning and decision making, and prioritizing the restoration, rehabilitation, and management of various AISs. Community Managed Ancient Irrigation Systems in Asia and Africa: Typologies, Degradation and Ecosystem services. [Display omitted] • Ancient irrigation systems (AISs) in Asia and Africa provide a multitude of benefits to mankind but are at a threat of degradation. • A systematic review conducted to identify typologies, status and causes of degradation of, and ecosystems services provided by, AISs. • Three typologies (rainwater harvesting, groundwater, and surface water based) and four ecosystems services identified. • Cascade tanks in Sri Lanka and India provide irrigation water for farming communities and ecosystem services for local communities and societies. • Rehabilitation of AISs needs urgent attention by governments, private sector, and development partners. [ABSTRACT FROM AUTHOR]

Published

2023

49. Strong Green‐Up of Tropical Asia During the 2015/16 El Niño.

Author

Satriawan, T. W., Luo, X., Tian, J., Ichii, K., Juneng, L., and Kondo, M.

Subjects

EL Nino, TROPICAL dry forests, LEAF area index, VEGETATION greenness, CLIMATE change, PLATEAUS

Abstract

El Niño/Southern Oscillation (ENSO) is the main climate mode that drives the interannual variability in climate and consequently vegetation greenness. While widespread green‐up has been reported and examined in tropical America during El Niño, it remains unclear how vegetation in tropical Asia changes during the period. Here, we used four remote sensing‐based leaf area index (LAI) products to investigate changes in vegetation greenness during the 2015/16 El Niño in tropical Asia. We found a strong green‐up during the 2015/16 El Niño in tropical Asia, with its regional average LAI stronger than that of tropical America. The drivers for the green‐up vary across the region, with radiation being the main driver for continental tropical Asia, and temperature and soil water anomalies in the west and east parts of maritime tropical Asia, respectively. These findings provide important insights into the response of tropical Asia's vegetation to extreme climate anomalies. Plain Language Summary: El Niño is a climate pattern that is associated with warm and dry conditions in tropical forest regions. Significant climatic changes during El Niño thus affect vegetation greenness (i.e., growth, size of canopy, amount of leaves). While an increase in vegetation greenness has been reported in tropical America during El Niño, it remains unclear how vegetation in tropical Asia changes during the period. Here, we used satellite data to investigate changes in vegetation greenness during El Niño in 2015–2016 in tropical Asia. We found a strong increase in vegetation greenness in tropical Asia during this period. The cause of this increase in greenness varied across different parts of tropical Asia. In mainland tropical Asia, sunlight was the main driver, while in maritime Southeast Asia, temperature or soil moisture was the main driver. These findings help provide better understanding of how vegetation in tropical Asia responds to extreme climate events like El Niño. Key Points: Tropical Asia experienced strong green‐up during the 2015/16 El Niño, stronger than that of tropical AmericaIn continental tropical Asia, green‐up was mostly driven by anomalously high shortwave radiationIn maritime tropical Asia, green‐up was primarily driven either by anomalously warmer temperatures or drier soil moisture from the west to east [ABSTRACT FROM AUTHOR]

Published

2024

50. Climate change and agricultural productivity in Asian and Pacific countries: how does research and development matter?

Author

Huynh, Cong Minh

Subjects

AGRICULTURAL productivity, CLIMATE change, AGRICULTURAL development, RESEARCH & development, AGRICULTURAL research, PANEL analysis

Abstract

Purpose: This study empirically examines the impact of climate change and agricultural research and development (R&D) as well as their interaction on agricultural productivity in 12 selected Asian and Pacific countries over the period of 1990–2018. Design/methodology/approach: Various estimation methods for panel data, including Fixed Effects (FE), the Feasible Generalized Least Squares (FGLS) and two-step System Generalized Method of Moments (SGMM) were used. Findings: Results show that both proxies of climate change – temperature and precipitation – have negative impacts on agricultural productivity. Notably, agricultural R&D investments not only increase agricultural productivity but also mitigate the detrimental impact of climate change proxied by temperature on agricultural productivity. Interestingly, climate change proxied by precipitation initially reduces agricultural productivity until a threshold of agricultural R&D beyond which precipitation increases agricultural productivity. Practical implications: The findings imply useful policies to boost agricultural productivity by using R&D in the context of rising climate change in the vulnerable continent. Originality/value: This study contributes to the literature in two ways. First, this study examines how climate change affects agricultural productivity in Asian and Pacific countries – those are most vulnerable to climate change. Second, this study assesses the role of R&D in improving agricultural productivity as well as its moderating effect in reducing the harmful impact of climate change on agricultural productivity. [ABSTRACT FROM AUTHOR]

Published

2024