Your search keyword '"Ma, Yining"' showing total 6 results

1. Optical, Radiative and Chemical Characteristics of Aerosol in Changsha City, Central China.

Author

Wu, Xiaoyan, Xin, Jinyuan, Zhang, Wenyu, Gong, Chongshui, Ma, Yining, Ma, Yongjing, Wen, Tianxue, Liu, Zirui, Tian, Shili, Wang, Yuesi, and Wu, Fangkun

Subjects

CARBONACEOUS aerosols, AEROSOLS, RADIATIVE forcing, COAL combustion, INDUSTRIAL pollution, POLLUTION

Abstract

Copyright of Advances in Atmospheric Sciences is the property of Springer Nature 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

2020

2. Spatiotemporal Variation of Water Supply and Demand Balance under Drought Risk and Its Relationship with Maize Yield: A Case Study in Midwestern Jilin Province, China.

Author

Ma, Yining, Zhang, Jiquan, Zhao, Chunli, Li, Kaiwei, Dong, Shuna, Liu, Xingpeng, and Tong, Zhijun

Subjects

WATER supply, CORN, DROUGHTS, IRRIGATION water, AGRICULTURAL productivity, WATER shortages, ATMOSPHERIC models

Abstract

Under the background of global warming, the frequent occurrence and long-term persistence of drought events have substantial negative effects on agricultural production. As the main maize production area in midwestern Jilin Province, frequent drought and a shortage of irrigation water pose substantial threats to the production of maize. We analyzed the balance of water supply and demand in each growth period and the degree of maize yield affected by drought. The results indicate that the FIO-ESM climate model can effectively simulate the changes in temperature and precipitation, and was highly applicable to the study area. From 1980 to 2020, the drought risk indices for the sowing to jointing, jointing to tasseling, tasseling to milk-ripe, and milk-ripe to maturity stages were 0.62, 0.52, 0.48, and 0.60, respectively. In the future, the chances of a RCP8.5 scenario drought risk and an enhanced RCP4.5 scenario have eased. Spatially, the high-risk areas shift in a "west−central−southwest" pattern. Effective precipitation will decrease in the future, while the increasing water requirement of maize increases the dependence on irrigation water. The irrigation requirement index is more than 70% for all periods, particularly in the milk-ripe to maturity stage. The relative meteorological yields were positively correlated with the CWDI of the whole growth period, with the rate of reduction in maize yield and the yield reduction coefficient of variation at a high level of risk between 1980 and 2020. In the future, the negative impact of drought risk on the yield of maize lessened with no obvious trend in production. In particular, the rate of reduction and reduction coefficient of variation for the RCP8.5 scenario were 1.24 and 1.09, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

3. The environmental benefit of Beijing-Tianjin-Hebei coal banning area for North China.

Author

Si, Ruirui, Xin, Jinyuan, Zhang, Wenyu, Tian, Yongli, Xu, Xiaojuan, Wen, Tianxue, Ma, Yining, Ma, Yongjing, Cao, Yukun, Liu, Zirui, Wang, Yuesi, Wang, Lili, Ren, Yuanzhe, and Wu, Fangkun

Subjects

*AIR pollution prevention, *AIR pollution control, *COAL, *AIR analysis, *AIR masses

Abstract

In order to achieve the targets specified in the Action Plan for Air Pollution Prevention and Control (APAPPC), a limited coal banning area (10,000 km2) was designated in the heavily polluted Beijing-Tianjin-Hebei region (BTH) for the first time in 2017. PM 2.5 and elements were sampled by the network of BTH to evaluate the effectiveness of this policy. This study found that the fine days with PM 2.5 < 75 μg m−3 accounted for 74.3% in the autumn and winter of 2017, which was significantly higher than that in 2016 (43%). The heavily polluted days (PM 2.5 > 150 μg m−3) also decreased from 32.2% in 2016 to 4.9% in 2017. Arsenic (As) is an important tracer in coal consumption, which can be used to reflect the influence of the establishment of coal banning areas on north China. The cluster analysis of air mass forward trajectory identified that the number of polluted trajectories with PM 2.5 and As in 2017 decreased by 47.6% and 49.7%, respectively. Under the implementation of the coal banning policy, the weighted concentration of PM 2.5 and As decreased by 94.2 μg m−3 and 5.1 ng m−3 in the coal banning area, 60.9 μg m−3 and 3.4 ng m−3 in the no coal banning area in BTH, respectively. The influence of weighted concentration of PM 2.5 and As in coal banning area on North China were 1.6–49.2 μg m−3 and 0.15–2.8 ng m−3, respectively, which was 38.8% and 29.7% lower than 2016. In coal banning area, BTH and other parts of North China, the reduction of the weight concentration of PM 2.5 in 2017 accounted for 41.4%, 26.8% and 31.8% of the total reduction, respectively, so was the As in 39%, 26.3% and 34.6%, indicating that setting up a coal banning area scientifically in limited areas can produce remarkable regional benefit. [Display omitted] • Coal banning area brought remarkable environmental benefit to the whole north China. • Fine days in the autumn and winter of BTH increased from 43% in 2016 to 74% in 2017. • Impact of PM 2.5 in coal banning area (BTH) reduced by 94.2 (60.9) μg m−3 in 2017. • The impact of coal banning area on PM 2.5 in North China decreased by 48.3% in 2017. [ABSTRACT FROM AUTHOR]

Published

2022

4. Environmental and health benefits of establishing a coal banning area in the Beijing-Tianjin-Hebei region of China.

Author

Si, Ruirui, Xin, Jinyuan, Zhang, Wenyu, Wen, Tianxue, Li, Shihong, Ma, Yining, Wu, Xinrui, Cao, Yukun, Xu, Xiaojuan, Tang, Hairong, Xu, Jing, Li, Xingru, Wang, Yuesi, and Wu, Fangkun

Subjects

*ENVIRONMENTAL health, *HEALTH risk assessment, *COAL, *AIR pollution control, *URBAN health, *ENERGY consumption

Abstract

In 2017, a coal banning area of approximately 10,000 square kilometers was established in the Beijing-Tianjin-Hebei (BTH) region of China for the first time. This study compared the change of elemental concentrations during the autumn and winter of 2016 and 2017, and analyzed the environmental and health benefits of the coal banning policy. Result showed that compared to 2016, the reduction rate of atmospheric particulate matter with an aerodynamic diameter no larger than 2.5 μm (PM 2.5) in 2017 was as high as 63.5% (p < 0.01), and that of the total elements in PM 2.5 was up to 43% (p < 0.01). Coal consumption, transportation, industry, soil dust, and fuel consumption were the main sources of these elements in BTH. Coal consumption and industry accounted for 5.8–26.2% and 6.5–31.3%, respectively, of the total elements. After the coal banning area was established, the elements from coal consumption were reduced by 13.5–60.3% (the background station was reduced by 19.6%, p < 0.05), and those from industrial sources were reduced by 11–80.1%. The results of the health risk assessment showed that the carcinogenic risk of the coal consumption and industrial sources had been reduced by 30.7–48.3% in 2017. The policy of the coal banning is very effective in controlling the air pollution in urban agglomeration in developing countries and has resulted in great health and environmental benefits. Image 1 • Coal Banning Area is the most efficient pollution control measure in BTH in 2017. • The measure cut down the bulk coal consumption by 10.2% in the 10,000 km2 region. • The measure has resulted in the high benefits of environment and health in BTH. • PM 2.5 and total elements declined drastically by 63.5% and 43% in 2017. • The carcinogenic risk index of hazardous elements decreased by 36.3% in BTH. [ABSTRACT FROM AUTHOR]

Published

2021

5. Comprehensive Risk Assessment of High Temperature Disaster to Kiwifruit in Shaanxi Province, China.

Author

Ma Y, Guga S, Xu J, Zhang J, Tong Z, and Liu X

Subjects

China, Hot Temperature, Risk Assessment, Temperature, Disasters, Fruit

Abstract

In recent years, the main kiwifruit producing region, central-south Shaanxi Province, has often suffered from the threat of extreme high temperatures. Assessing the risk of high-temperature disasters in the region is essential for the rational planning of agricultural production and the development of resilience measures. In this study, a database was established to assess the risk of a high-temperature disaster to kiwifruit. Then, four aspects, hazard, vulnerability, exposure and disaster prevention and mitigation capacity, were taken into account and 19 indexes were selected to make an assessment of the risk of a high-temperature disaster. At the same time, 16 indexes were selected for the assessment of the climatic suitability of kiwifruit in terms of light, heat, water, soil and topography, and were used as one of the indexes for exposure assessment. The analytic hierarchy process and the entropy weighting method were combined to solve the weights for each index. The results reveal that: (1) The Guanzhong Plain has a high climatic suitability for kiwifruit, accounting for 15.14% of the study area. (2) The central part of the study area and southern Shaanxi are at high risk, accounting for 22.7% of the study area. The major kiwifruit producing areas in Shaanxi Province (e.g., Baoji) are at a low risk level, which is conducive to the development of the kiwifruit industry. Our study is the first to provide a comprehensive assessment of the risk of a high-temperature disaster to the economic fruit kiwifruit, providing a reference for disaster resilience and mitigation.

Published

2021

6. Focusing on the premature death of redeployed miners in China: an analysis of cause-of-death information from non-communicable diseases.

Author

Xian W, Han B, Xia L, Ma Y, Xu H, Zhang L, Li L, and Liu H

Subjects

Adult, Aged, Aged, 80 and over, Cause of Death, China epidemiology, Female, Humans, Life Expectancy, Male, Middle Aged, Mining, Mortality, Premature, Noncommunicable Diseases mortality, Occupational Diseases mortality

Abstract

Background: Reducing premature deaths is an important step towards achieving the World Health Organization's sustainable development goal. Redeployed miners are more prone to disease or premature death due to the special occupational characteristics. Our aims were to describe the deaths of redeployed miners, assess the losses due to premature death and identify their main health problems. All the records of individuals were obtained from Fuxin Mining Area Social Security Administration Center. Year of life lost (YLL) and average year of life lost were used to assess the loss due to premature death. YLL rates per 1000 individuals were considered to compare deaths from different populations., Results: Circulatory system diseases contributed the most years of life lost in the causes of death, followed by neoplasms. But average year of life lost in neoplasms was 6.85, higher than circulatory system diseases, 5.63. Cerebrovascular disease and ischemic heart disease were the main causes of death in circulatory system diseases. And average years of life lost in cerebrovascular disease and ischemic heart disease were 5.85 and 5.62, higher than those in other circulatory system diseases. Lung cancer was the principal cause of death in neoplasms. Average year of life lost in liver cancer was 7.92, the highest in neoplasms., Conclusions: For redeployed miners, YLL rates per 1000 individuals in cerebrovascular disease, ischemic heart disease and lung cancer were higher than those in other populations, especially in men. It is important to attach importance to the health of redeployed miners, take appropriate measures to reduce premature death and achieve the sustainable development goal. Our findings also contribute to a certain theoretical reference for other countries that face or will face the same problem.

Published

2019