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China Environ Prot (EP) Industry, Technology, Solid Waste Mgt, Liquid Treat: News & Discussions

Soldiers carry homemade dustbins on long-distance run
By Zhang Huan (People's Daily Online) 16:27, January 19, 2017


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Recently, a group of Chinese special-operations soldiers moved netizens with their commitment to environmental protection. The soldiers carried homemade dustbins on their back during long-distance run, 81.cn reported on Jan. 19. The brigade commander explained that the troops pass through many towns and cities during their training. In order to avoid leaving garbage along the route, the soldiers carry dustbins made from old cartons.

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Soldiers carry homemade dustbins on long-distance run
By Zhang Huan (People's Daily Online) 16:27, January 19, 2017


FOREIGN201701191627000244945896607.jpg


Recently, a group of Chinese special-operations soldiers moved netizens with their commitment to environmental protection. The soldiers carried homemade dustbins on their back during long-distance run, 81.cn reported on Jan. 19. The brigade commander explained that the troops pass through many towns and cities during their training. In order to avoid leaving garbage along the route, the soldiers carry dustbins made from old cartons.

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Beautiful!

this depicts Discipline and Care for the Land You Swore to protect!
 
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China makes progress in fight against desertification
Source: Xinhua 2017-01-22 20:12:19

BEIJING, Jan. 22 (Xinhua) -- China will step up efforts to fight desertification to meet a global target of halting net land degradation by 2030, a senior official said Sunday.

The country plans to rehabilitate more than 11,300 square kilometers of severely desertified farmland in the next three years at a cost of at least 27.2 billion yuan (about 4 billion U.S. dollars), Zhang Yongli, deputy head of State Forestry Administration, said at a press conference.

Zhang said China will enhance vegetation protection on desert land and improve compensation mechanisms to reward localities working toward fighting desertification.

China will also strengthen international cooperation, especially with countries along the Belt and Road, to reverse desertification, Zhang said.

Expanding deserts are a global challenge. It is estimated that one-third of the earth is exposed to desertification, affecting millions of people.

China has spent decades curbing desertification through greening. It has effectively contained desertification, with desertified land area shrinking continuously during the past decade.

The area of its desertified land totaled 1.72 million square kilometers at the end of 2014, nearly one fifth of the country, down 9,900 square kilometers from 2009.

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China's former 'dirtiest city' continues fighting smog
By Zhang Lulu
China.org.cn, January 23, 2017

A blast furnace in Delong Steel, where dust is rarely seen due to environment-improving projects. [Photo by Zhang Lulu/China.org.cn]

A "garden factory" is perhaps something the steel plant has never imagined in the past, but which it has found itself envisioning in recent years as it engages in the city's massive anti-smog campaign.

"My eye sockets were filled with dirt"

Si Guoliang recalled the day when he first visited Delong Steel. As the newly appointed chief of the local bureau of environmental protection, Si led a surprise inspection of the factory in a midnight in April 2014. "After staying there for a couple of hours, I left with my eye sockets filled with dirt and soot and my face turning blackish," Si said.

The steel factory used to be one of the major polluters in Xingtai, which was ranked the last in air quality across China in 2013. Readings of PM2.5, or inhalable fine particulates that are dangerous to human health, often stood "off the charts" in the city.

The city government found itself under tremendous pressure from both its smog-choked citizens and Beijing -- which is only a five hour drive away and easily affected by the poor air there.

The city began a massive anti-smog campaign in 2014. Its 1,816 enterprises were ordered to either reach the country's emission standards by 2014 or shut down; all of the city's eleven coal-burning power plants reached the low emission standards in 2015; and millions of steel, iron and glass capacity were reduced in 2016, according to Chen Shi, vice director of the city's development and reform commission.

Delong Steel, the city's second largest taxpayer, followed the anti-smog campaign. "We have been cutting our capacity while increasing our investment in the environment," said Jin Xuran, vice manager of the plant. He said the factory has spent nearly 600 million yuan (about US$87 million) in a total of 42 environment-improving projects in the past three years.

Meanwhile, the plant has been reducing its production capacity. Since last October, it has shut down nearly half of its capacity to help ease the burden faced by the city as air quality is often poorer in winter due to the use of heating and lower wind speeds.

Si Guoliang, the local environment chief, said that now when he visits the villagers who live near the plant, they tell him that they are able to put their white shirts outside to dry without them being affected by the sooty air. "As a matter of fact, 20 cities from the country's nine provinces came to learn Xingtai's experience in environment protection in 2016 were to take a look at Delong Steel," he added with pride.

"Making up for inborn shortcomings"

With efforts like this in recent years, Xingtai has seen improvement in its air quality. In 2016, the city registered 173 days that met the country's air quality standards, an increase of 33 days from 2015 and 135 days from 2013. The average concentration of PM2.5 was 87 micrograms per cubic meter, a decrease of 13.9 percent year on year, according to Zhou Yongquan, the city's vice mayor. It ranked fourth from the bottom across China's major cities, ditching its reputation as the country's most polluted city.

But the task going forward is apparently more daunting. "Dealing with air problems has now entered into the 'deep water zone,' where the room for improvement has shrank," the vice mayor said.

The city is a traditional heavy industrial city, with steel, engineering and construction material industries as its economic lifeline. In a 25-kilometer radius, which is more than one fourth of the central urban area, there are more than 100 coal-burning companies, three power plants, two steel factories, two coking plants, 40 glass factories and nearly 1,000 small-sized building board plants, according to Zhou. "These factories encompass the city like a wall. Air pollutants constantly flow to the city regardless of the season and the directions of wind."

Moreover, the city relies heavily on coal and has an increasing number of automobiles -- like most of China's third- and fourth-tier cities -- and unfavorable geography which leads to lower wind speeds.

"We are born with disadvantages, but we have to make up with our efforts, " said the vice governor.

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Waste water is disposed at Delong Steel. [Photo by Zhang Lulu/China.org.cn]


http://china.org.cn/china/2017-01/23/content_40160764_2.htm
 
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Issue Date: January 23, 2017
Peering into China’s thick haze of air pollution
Scientists are teasing out which emissions contribute most and the chemical reactions that create smog filled with particulates
By Hepeng Jia and Ling Wang, special to C&EN

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Heavy air pollution enshrouded Tiananmen Square in Beijing last month.
Credit: Imagine China/Newscom


As 2016 gave way to 2017, residents of Beijing, Tianjin, and many other northern Chinese cities suffered through the longest stretch of stifling air pollution ever recorded in the country. They choked through eight continuous days of thick, light-blocking haze, starting Dec. 30, 2016. This stretch of bad air began only a week after people in 70 northern Chinese cities were enveloped by similar days of haze composed of high concentrations of particles less than 2.5 μm in diameter (PM2.5).

Also known as ultrafine particulates, PM2.5 consists of solids and liquids. Its sources include carbon black from incomplete combustion as well as sulfates and nitrates. Levels of such ultrafine particles surpassed 500 μg per cubic meter of air in both of the recent incidents in China.

That level is twice the daily concentration of 250 μg/m3 that the U.S. Environmental Protection Agency considers hazardous to human health. In contrast, few U.S. cities recorded an air quality index of above 50, which can be translated to a PM2.5 concentration of 12 ug/m3, during the recent days that northern China’s air was filled with haze, according to EPA data.

The recent bouts of toxic smog sent tens of thousands of residents fleeing Beijing and other northern Chinese cities for cleaner air abroad or in southern China. Angry protests and bitter jokes flooded WeChat and Weibo, China’s most popular social media. The complaints about the government’s failure to deal with dangerous air pollution, however, fail to take into account the complicated haze situation and the largely unknown mechanisms that create the pollution.

Geography plays an important role in northern China’s air pollution. The Beijing-Tianjin-Hebei region is surrounded by mountains which block diffusion of the haze. The pollution becomes worse during winters, said Yuesi Wang, a leading scientist at the Beijing-based Institute of Atmospheric Physics (IAP), which is part of the Chinese Academy of Sciences (CAS). Speaking at a forum held in November 2016 in Beijing, Wang explained that weather factors—such as high humidity and situations when warmer air aloft holds colder air at the surface—intensify haze formation. In winter, slower air flow and stable atmospheric outer layers—which inhibit smog diffusion—plus the burning of coal for indoor heat result in much more hazy days than in other seasons.


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Chinese haze
Air pollution consisting of fine particulates less than 2.5 μm in diameter (PM2.5) has dropped in major cities and across the nation during recent years.
Data through Dec. 27, 2016.
Sources: Compiled from reports from China, Beijing, Tianjin, and Hebei and websites of local environmental protection bureaus


Although China has suffered serious air pollution for decades, attention to air pollution in northern China initially was focused on sulfates and nitrogen oxides as well as larger particulate matter called PM10. The latter consists of particulates less than 10 μm in diameter, primarily wind-carried dust from construction sites and sand storms.

Only recently has attention centered on PM2.5, which accounts for 70% of PM10 and can combine with vapor in the air to form what is called smog or haze. China started regularly measuring PM2.5 in 2012 and began releasing data on it in 2013.

Those data suggest that emissions of fine particulates are the biggest source of northern China’s haze. A report on the 2015 state of the environment issued by the Chinese Ministry of Environmental Protection last year indicates that air quality in 265 of the 338 major Chinese cities exceeded the national health standard that year.

Coal burning for heat, cooking, and electricity generation, vehicle emissions and airborne dusts are widely considered the main sources of both PM2.5 and other pollutants. According to Wang, the majority of PM2.5 comes from complicated photochemical reactions between numerous sulfates, nitrogen oxides, and other inorganic and organic chemicals.

Polluting particulates smaller than 2.5 μm can enter human cells and cause serious health hazards. For example, such tiny particles can have significant negative respiratory effects. A 2016 study also found that for every 5 ug/m3 higher concentration of PM2.5, there was a 20% increase in the rate of coronary artery calcium deposits, leading to a higher risk of coronary diseases (Lancet, 2016, DOI: 10.1016/s0140-6736(16)31597-5). Another study found that for every 5 ug/m3 higher concentration of PM2.5, the risk of hypertension increased by 22% in people living in the most polluted areas (Eur. Heart J., DOI: 10.1093/eurheartj/ehw413).

Although the data in these studies are not specific to China, a study on the global burden of disease found that outdoor air pollution contributed to 1.2 million premature deaths in China each year, making it the fourth leading risk factor for deaths after dietary risks, high blood pressure, and smoking. That study was carried out by the Institute for Health Metrics and Evaluation at the University of Washington and released by the World Health Organization in 2013.

Northern China’s current haze problem stems from recent changes in the region: the accelerated development of heavy industries, the surge in coal burning associated with them, and increased car ownership.

“The coal consumption per kilometer in the Beijing-Tianjin-Hebei region is 30 times the world’s average, which is the primary driving factor of PM2.5 and haze,” said Xiangwan Du, deputy director of China’s National Advisory Committee for Energy Policy. In 2015, the region consumed 400 million metric tons of coal, according to a book published last year by the China Energy Research Society.

A 2013 national action plan strengthened existing policies requiring control of two major types of air pollution—sulfur oxides and nitrogen oxides—from power plants and other heavy users of coal. But these efforts are not enough to curb the emission and formation of PM2.5, said Xinmin Zhang of the Chinese Research Academy of Environmental Sciences (CRAES).

“To fight the serious haze, overall coal consumption and pollutant emission must be dramatically reduced,” Fuqiang Yang, a senior adviser to Natural Resources Defense Council (NRDC), a U.S.-based environmental group, told C&EN.

In response to the situation, the Beijing municipal government has imposed a strict car-control policy—it uses lottery draws to control new car ownership and limits how many cars are on the road on any given day—and banned coal burning in its urban areas since 2012. Yet the heavy coal consumption in neighboring Hebei province easily overshadows the effects of Beijing’s policy as air pollution drifts across the region.

Facing strong public pressure, China’s government began to implement its Action Plan on Prevention & Control of Air Pollution in 2013. In the plan, the government pledged to slash coal consumption from around 67% of the nation’s total energy use in 2012 to 65% by 2017. It also vowed to reduce PM2.5 levels by 15–25% by 2020. Under this policy, thousands of polluting factories were shut down, particularly in north China.

Despite these strict national policies on air pollution control, northern China’s haze hasn’t fully lifted. According to Report of the State of the Environment in China 2015, the 74 Chinese cities tracked in accordance with the action plan, which include all provincial capitals and other large cities, the average PM2.5 concentration in 2015 was 55 ug/m3, a 14.1% reduction from 2014. In the Beijing-Tianjin-Hebei region, the average annual level of PM2.5 was 77 μg/m3 in 2015, down from 106 μg/m3 in 2013. In 2015, Beijing recorded 42 days of the highest polluting days (defined as those with a PM2.5 concentration of more than 500 ug/m3), three days fewer than 2014.

To demonstrate to the world its capacity to deal with air pollution, China adopted emergency air pollution control measures before and during the weeklong November 2014 Asia-Pacific Economic Cooperation (APEC) summit held in Beijing. Thousands of industrial plants were temporarily closed even though they met emission standards. Average concentrations of PM2.5 fell to 37 μg/m3 during the meeting and long-blocked blue sky reappeared in Beijing. However, brown haze chased away the blue after the summit when the plants restarted.

Because of their shutdowns for APEC, industries in Beijing, Tianjin, and Hebei province had losses of 3.5 billion yuan ($500 million), said Zhang of CRAES. The central and local governments reimbursed companies and rural residents who were banned from burning coal during the APEC meeting for most of their financial losses.

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The London Fog of 1952 that killed thousands of people is thought to have formed through the same chemical reactions as the recent heavy bouts of air pollution in northern China.
Credit: Fox Photos/Stringer


Zhang said that to permanently improve air quality in Beijing, more plants in Hebei province have to be closed. But, she admitted, this would entail huge costs and the loss of many jobs. “Local governments in Hebei province cannot afford the cost, yet the much richer Beijing municipal government refused to offer enough compensation to Hebei.”

Although the overall efforts to curb pollution are escalating, many facilities have tried to cut costs and evade strict emission limits by covertly shutting down their air pollution controls, often at night. There are no accurate estimates of how much these illicit emissions contributed to long-term pollution and the corresponding haze. However, websites of environmental regulation agencies at different levels of government indicate that virtually every pollution inspection by regulators in recent years detected dozens of such illegal emissions.

Climate change also factors into the formation of haze. “With global warming, the temperature difference across the north hemisphere is dramatically reduced, resulting in less wind, particularly in winter,” said Linsheng Yang, a senior scientist at Institute of Geographic Sciences and Natural Resources Research under CAS. He told C&EN that global warming may help explain why residents continue to report serious haze despite the decrease in pollutant concentrations.

NRDC’s Yang suggested the government tackle haze and climate change together. “Reducing carbon emission can reduce PM2.5 concentration at the same time,” he said. Yet he worries that economic stimulus policies aimed at improving the slowed-down Chinese economy—such as looser monetary policies, heavy investment in infrastructure, and growth in construction, which boosts steel and cement production—could raise energy consumption in the second half of 2017.

“Perhaps this explains why after a recordable reduction of PM2.5 concentration in [the past] three years, residents in northern Chinese cities experienced increased haze this winter,” he told C&EN.

Yang also appealed for more regional coordination to fight haze. “While the public and policy attention are focused in Beijing-Tianjin-Hebei region, the coal consumption in other neighboring provinces such as Shandong is increasing and may offset Hebei’s effort to slash the production capacity of heavy industry.” Located to Beijing’s southeast, Shandong province is home to one of the biggest concentrations of chemical manufacturing in China.

The policy limiting cars in Beijing might also be backfiring. Jing Tian, cofounder of the Beijing-based organization Clear Air Defense, told a seminar in December 2016 that the reduced emissions from cars in Beijing could be offset by the 100,000 diesel-engine trucks in use in the city’s outskirts. A diesel truck with a nonworking emission controls can contribute tens of times the pollutants of an average car.

Although diesel trucks might be a bigger culprit for forming haze, the 5.7 million vehicles in Beijing remains a primary contributor of PM2.5 in the capital city, said Yan Ding of MEP. Those vehicles contributed 31% of the city’s fine particulates in 2015, according to Beijing’s Environmental Statement for 2015,

But not everyone is convinced that vehicles in Beijing are the primary cause. In 2013, a team headed by Renjian Zhang at IAP published a study claiming vehicle emissions contributed only 4% of the identifiable sources of PM2.5 in Beijing, (Atmos. Chem. Phys., DOI: 10.5194/acp-13-7053-2013). This estimate differs significantly from the official figure of 31%. The study by Zhang’s team led to a huge public protest against car control policy in Beijing in late 2013. The Beijing municipal government and CAS scientists rejected the study’s result.

Despite the official rejection of the study, “it highlights the great uncertainty of source attribution of PM2.5,” said an atmospheric scientist based in Guangzhou who asked not to be identified because of fear of political repercussions.

A newly published follow-up study by IAP’s Zhang and colleagues further confirmed the uncertainty in attributing the source of PM2.5. According to the study, using different models, researchers found that the contribution of the primary sources of pollutants—including industrial pollution, soil dust, biomass burning, traffic emissions, and coal burning—changed dramatically. How much each contributed varied widely in the models (Sci. Tot. Environ., 2015, DOI: 10.1016/j.scitotenv.2015.11.057).

Though uncertainties remain in the source of PM2.5, other atmospheric chemistry studies have shed light on the mechanism of serious haze formation. Researchers have found an unexpectedly high level of sulfates, which are a major component of PM2.5, in China. Formation of sulfates was thought to rely on a photochemical reaction. That means northern China’s sun-blocking haze should have dramatically reduced the available light for the necessary reaction.

A team headed by Kebin He of Tsinghua University and their German colleagues found that instead of relying on photochemistry, the sulfates were rapidly formed by oxidization of SO2 by NO2 in an environment with a high level of aerosolized water. In a recent paper, the team concluded that northern China’s haze amplifies itself and that cutting NO2 emissions is important to reduce the formation of sulfates (Sci. Adv., 2016, DOI: 10.1126/sciadv.1601530).

Another international team, led by Gehui Wang of CAS’ Institute of Earth Environment and Renyi Zhang of Texas A&M University, found that nitrogen dioxide converts sulfur dioxide to sulfates via an aqueous oxidation mechanism. Their study showed that this transformation, which they suggest played a role in 1952’s historic London Fog as well as in contemporary Chinese haze events, occurs efficiently only on nonacidic particles (Proc. Nat. Acad. Sci., 2016, DOI: 10.1073/pnas.1616540113).

The conditions that led to these events differed, however. The 1952 event, which happened at a time when widespread coal burning in London polluted its air with SO2, started on cloud droplets. “But northern China’s haze starts from much smaller nanoparticles, and the sulfate formation process is only possible with ammonia to neutralize the particles,” Zhang told C&EN. “Our results suggest that controlling NO2 and NH3 emissions is likely effective to reduce severe haze in China, in addition to controlling SO2.”

Seeking to better understand the strengthening of northern China’s haze even as pollution controls tightened, Min Hu of Peking University, Renyi Zhang of Texas A&M, and their teams took a look at black carbon, which is a pollutant that contributes both to haze and global warming and is a major component of PM2.5. They studied how black carbon’s morphology can change from its newly emitted fractal form into compact particles with greatly enhanced light-absorbing characteristics.

They found the morphology modification of black carbon took just 4 to 6 hours in Beijing—four times as quickly as in Houston, which has cleaner air. Beijing’s rapid-aging black carbon particles with their enhanced light absorption could contribute to stabilization of the atmosphere, leading to formation of more severe haze events.

“Our studies indicate that already polluted urban environments and polluting particulates could interact to cause a multiplication of the haze effect. To tackle Beijing’s haze, researchers should not only study primary pollutants but their complicated interaction with atmosphere,” Zhang told C&EN.

Ozone is the primary air pollutant in Houston, which was used as a comparison in the Peking-Texas A&M study.

Although the clean air effort in Beijing currently is focused on PM2.5, ozone pollution is increasing in Beijing and some other Chinese cities because of the increased emission of nitrogen oxides and volatile organic compounds (VOCs) mainly from vehicles in recent years, said Wang of IAP.

Shiqiu Zhang, a professor of environmental governance at Peking, points out that the government does not require control of VOC emissions. “When dealing with PM2.5, policymakers and researchers should coordinate their efforts to fight other pollutants to avoid unexpected environmental effects,” she told C&EN.

Hepeng Jia and Ling Wang are freelance writers reporting from Beijing.

Chemical & Engineering News
ISSN 0009-2347
Copyright © American Chemical Society



Peering into China’s thick haze of air pollution | January 23, 2017 Issue - Vol. 95 Issue 4 | Chemical & Engineering News
 
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Air quality improves in north China
2017-01-21 09:18 | China Daily | Editor: Feng Shuang

Cities taking further action to reduce coal consumption in heating season

The Beijing-Tianjin-Hebei region saw improvements in air quality in 2016, though it was at times still plagued by severe pollution.

The average concentration of PM2.5, a hazardous pollutant, has decreased by 33 percent compared to the level in 2013, with an annual reading last year of 71 micrograms per cubic meter, said Wu Jiyou, deputy head of environment monitoring department of the Ministry of Environmental Protection, on Friday.

The decrease showed the region has exceeded the targets set in the national action plan one year ahead of schedule, which required a regional reduction of 25 percent by the end of 2017.

But the vast northern region, covering Beijing, Tianjin, and the provinces of Hebei, Shandong and Henan, still suffered from severe air pollution.

"The air pollution in the vast northern region worsened in winter, especially after the heating started," Wu said, adding that none of the 13 regional cities have reached the national standards.

From the start of the heating season on Nov 15 until the end of the year, the average PM2.5 readings in the Beijing-Tianjin-Hebei region soared to 135 micrograms per cubic meter, 2.4 times the average level in non-heating months, Wu said.

Six of the 10 with the most severe air pollution last year were in Hebei province, the ministry said.

The lingering severe smog has become a priority for these governments.

"They have developed joint controls in reducing air pollution, including some new measures that are expected to work better for smog control," said Liu Bingjiang, head of the ministry's air quality management department.

Beijing, Tianjin and four neighboring cities of Hebei province have formed a core region in which they will forbid coal consumption except for power generation and heating, which should reduce emissions next winter, Liu said.

These local governments will continue to conduct strict controls on emissions in 2017, including suspending some polluting industries in winter, and upgrading the industrial structure to reduce highly polluting companies, Liu said.


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Good to know the government is doing their best to tackle pollution.
Still a lot of work to be done.


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China to start 15 new major water conservation projects
China Daily, January 24, 2017

China will start 15 new major water conservation projects in 2017 amid efforts to boost investment and stabilize growth, the country's top economic planner said Monday.

Total investment in major water projects under construction should exceed 900 billion yuan ($131.3 billion) by the end of this year, compared with the current level of 800 billion yuan, said Wu Xiao, an official with the National Development and Reform Commission (NDRC), at a conference.

In 2016, 21 major water projects were started.

With its economy slowing, China views infrastructure investment as significant in boosting growth.

China's fixed-asset investment continued to cool in 2016, growing 8.1 percent year on year, down from 10 percent in 2015 and 15.7 percent in 2014.

However, investment in infrastructure construction accelerated by 0.2 percentage points, growing 17.4 percent year on year in 2016, official data showed.
 
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China to recycle 350 mln tonnes of waste resources by 2020
Source: Xinhua 2017-01-28 21:30:25


BEIJING, Jan. 28 (Xinhua) -- China is expected to recycle 350 million tonnes of waste resources including steel, nonferrous metals, plastic and paper annually by 2020, according to an official guideline.

The guideline was jointly released by ministries of industry and information technology, commerce, and science and technology.

China will develop a sophisticated system for renewable resources, said the guideline.

By 2020, China will use 150 million tonnes of waste steel, and 18 million tonnes of waste nonferrous metals annually, according to a plan included in the guideline.

The country also aims to recycle 23 million tonnes of waste plastic and half of all its waste paper by 2020 annually said the guideline.

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China draws "red line" for ecological conservation
By Bai Yang from People's Daily (People's Daily Online) 13:17, February 26, 2017

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Beijing has strengthened its environmental protection in recent years, with special areas demarcated in Miyun Reservoir to protect resources and water quality of the capital. A herd of swans are flying over the reservoir. (Photo by He Yong from People's Daily)

China will complete a space-earth integrated observation system and a comprehensive eco-safety monitoring system linked with big data and Internet by the end of 2020, said the country’s environmental watchdog ahead of the upcoming annual sessions of National People's Congress and Chinese People's Political Consultative Conference.

Meanwhile, an all-round monitoring platform for ecological protection will start its pilot run this year, as an effort to realize real-time inspection on development and construction activities within the ecological "red line" and natural reserves, the Ministry of Environmental Protection (MEP) added.

The regions mapped out by the "ecological red line", which are of critical importance for natural functions and the protection of water, soil, forestry and biodiversity, should be strictly protected and free from development or exploitation.

So far, China has established 2,740 nature reserves, covering a land area of 1.42 million square meters, accounting for 14.8 percent of the country's territory. A diversified nature reserve network with appropriate layout has taken shape.

But severe challenges faced by China's ecological protection remained. Against such backdrop, each local government is working on defining the “red line”, which is a task directly related with China's ecological safety in the future.

The central authorities on February 7 issued guidelines on an ecological "red line" system, saying that the demarcation of the borders and calibration of the regions should be completed and the system will be basically established by the end of 2020.

Since those regions calibrated within the “red line” have important ecological functions which must be strictly protected, the “red line” is in essence a bottom line drawn to establish the most stringent ecological protection system.

According to the guideline, the “red line” must be demarcated and protected in order to control important eco-space. The guideline stipulated that ecological functions of the regions shouldn't be destroyed, areas shouldn't be reduced and natural landscape shouldn't be changed. The “red line” areas could only be increased rather than reduced, it stressed.

As a matter of fact, some regions in China have already gained much experience after their exploration for the calibration of “red line” since 2000.

According to incomplete statistics, at least 13 provinces, municipalities and autonomous regions including Guizhou, Sichuan and Shaanxi, have set the preliminary protected areas and introduced corresponding management measures.

In addition, most of the protected areas account for more than 1/3 of the territory of corresponding provinces.

Gao Jixi, director of the Nanjing Institute of Environmental Sciences under the MEP, also the technical leader of the national “red line” demarcation group, explained that the “red line” will be clearly defined by high-precision images and land-use statistics, so that management systems and regimes could be worked out after the borders are clarified.

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Making Smaller Splashes for Pesticides
A solution that clings to plant leaves could make pesticide application more efficient and minimize soil contamination.
  • Wednesday, March 1, 2017 - 14:15
  • Yuen Yiu, Staff Writer
(Inside Science) -- Chinese scientists have proposed a way to reduce the splashing of pesticides during spraying, which could cut pollution and save money. Their experiments suggest that adding a commercially available type of salt to water-based pesticides could nearly eliminate splashing. Their findings appear online today in the journal Science Advances.

The pros and cons of pesticides
Modern advancements in agriculture have vastly reshaped our world over the last few hundred years. During the 1800s, the average U.S. farmer produced enough food to feed three to five people. Today, the number is over one hundred. This drastic change occurred as the size of the average farm also grew. The combination freed up a huge portion of the population to pursue other occupations, advancing society in many different areas.

One of the most significant agricultural advancements is the use of modern pesticides, which include chemicals designed to kill invasive weeds, foraging insects or any other pests. While the use of pesticides can be dated back thousands of years, synthetic pesticides for large scale farms weren't widespread until the 20th century. Today, these pesticides enable farmers to produce large yields of crops, but also bring with them many downsides, among them food safety and environmental pollution problems.

According to Burkhard Schulz, a plant scientist from the University of Maryland in College Park, the agriculture industry does not anticipate that better pesticide chemicals will be invented in the foreseeable future. "We simply have to work with what we have," he said.

Therefore, solutions to minimize the downsides of pesticides must come from elsewhere.

"We will have to develop new [pesticide] application or crop management methods," Schulz said.

According to the Chinese researchers, up to 50 percent of sprayed pesticides are wasted due to splashing alone. This is bad for the environment, because the chemicals can contaminate the soil and water. It is bad for the farmers, because extra pesticides cost money. And it is bad for the crops, because the overuse of pesticides can promote resistance in bugs and weeds, similar to how antibiotics can create superbugs. For these reasons, Meirong Song, a materials scientist from the Chinese Academy of Science in Beijing, and her team have been searching for solutions to reduce the splashing of liquid pesticides.

No splash zones for pesticides
Song and her colleagues examined the performances of several candidate solutions by dropping them onto a piece of cabbage leaf under a microscope. They discovered that a specific type of salt called dioctyl sodium sulfosuccinate, commercially known as Aerosol OT, is very efficient in eliminating splashing. Originally developed as a laxative in the early 20th century, Aerosol OT is now widely used as an additive in many things from printer inks to pharmaceutical products. Song's team found that the chemical is effective in reducing splashing with a concentration of only one part in a hundred in the aqueous solution.

When a droplet of pure water hits a leaf, it spreads out and then shoots upward. In contrast, the Aerosol OT mixture clings onto the surface of the leaf after spreading. The different behavior is because the chemical additive changes the wetting ability of the liquid droplet. Wetting, as its name suggests, represents the ability of a liquid to maintain contact with a solid surface. A higher wetting ability can be achieved by changing certain physical properties of the liquid, such as the surface tension. The addition of Aerosol OT would be effective at reducing splashing in water-based pesticides.


"Aerosol OT can be easily washed away with water," said Zhichao Dong, a chemist from the Chinese Academy of Sciences in Beijing and one of the paper's authors. "However, in the long term, we still need to test this on different kinds of plants during different stages of their growth."

"Today a lot of the agricultural industry is working on precision agriculture, which basically means more precise application of pesticides, for example spot treating specific weeds with a specific kind of herbicide," said Schulz.

According to Schulz, the discovery by the Chinese team can help further the effort in precision agriculture and can promote more efficient and environmentally friendly farming practices.

Editor's note: Quotes from Zhichao Dong are translated from an original interview conducted in Mandarin.


Making Smaller Splashes for Pesticides | Inside Science
 
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China's Severe Winter Haze Tied to Effects of Global Climate Change
March 15, 2017 • Atlanta, GA

China's severe winter air pollution problems may be worsened by changes in atmospheric circulation prompted by Arctic sea ice loss and increased Eurasian snowfall – both caused by global climate change.

China's severe winter air pollution problems may be worsened by changes in atmospheric circulation prompted by Arctic sea ice loss and increased Eurasian snowfall – both caused by global climate change.

Modeling and data analysis done by researchers at the Georgia Institute of Technology suggest that sea ice and snowfall changes have shifted China's winter monsoon, helping create stagnant atmospheric conditions that trap pollution over the country's major population and industrial centers. Those changes in regional atmospheric conditions are frustrating efforts to address pollution through emission controls.

"Emissions in China have been decreasing over the last four years, but the severe winter haze is not getting better," said Yuhang Wang, a professor in Georgia Tech's School of Earth and Atmospheric Sciences. "Mostly, that's because of a very rapid change in the high polar regions where sea ice is decreasing and snowfall is increasing. This perturbation keeps cold air from getting into the eastern parts of China where it would flush out the air pollution."

Reported March 15 in the journal Science Advances, the research was sponsored by the National Science Foundation and Environmental Protection Agency. The paper presents a clear example of how large-scale perturbations caused by global climate change can have significant regional impacts, and is believed to be the first to link sea ice and snowfall levels to regional air pollution.

Haze problems in the East China Plains – which include the capital Beijing – first gained worldwide attention during the winter of 2013 when an instrument at the U.S. embassy recorded extremely high levels of PM 2.5 particles. The haze prompted the Chinese government to institute strict targets for reducing emissions from industry and other sources.

Though these emission controls appear to be working, the haze during December and January continues. So Wang and colleagues Yufei Zou, Yuzhong Zhang and Ja-Ho Koo wondered if other factors may be playing a role.

Long-term air quality measurements aren’t available in China, so the researchers had to piece together estimates based on visibility measures and satellite data. To analyze the historical records, they created a new Pollution Potential Index (PPI) that used air temperature gradient anomalies and surface wind speeds as a proxy for ventilation conditions over eastern China.

“Once we generated the PPI and combined it with the visibility data, it was obvious that January 2013 was well beyond anything that had ever been seen before going back at least three decades,” said Wang. “But in that month emissions had not changed, so we knew there had to be another factor.”

The East China Plains consist of interconnected basins surrounded by mountain ranges to the west and the ocean to the east, a mirror image of the polluted Southern California. Pollution generated by industry and vehicles can be removed effectively only by horizontal dispersion or by vertical mixing in winter, and when those processes fail to move out stagnant air, pollution builds up. It seemed likely that something was preventing the ventilation that would have kept the air cleaner.

The researchers next looked at climate features such as sea ice, snowfall, El Niños, and Pacific Oscillations. They conducted principal component and maximum covariance analyses and found correlations of stagnant air conditions over China to Arctic sea ice – which reached a record low in the fall of 2012 – and snowfall in the upper latitudes of Siberia, which had reached a record high earlier in the winter. They then used atmospheric model simulations to study how those factors change large-scale atmospheric circulation patterns and pollution ventilation over eastern China.

“The reductions in sea ice and increase in snowfall have the effect of damping the climatological pressure ridge structure over China,” Wang said. “That flattens the temperature and pressure gradients and moves the East Asian Winter Monsoon to the east, decreasing wind speeds and creating an atmospheric circulation that makes the air in China more stagnant.”

The results of the model were consistent with observations that Korea and Japan had been unusually cold that winter, while eastern China had been unusually warm – both suggesting that the cold center had moved.

The winter of 2017 saw the same factors, with low levels of Arctic sea ice in September 2016, high snowfall – and severe haze. Wang says those factors are likely to continue as the global climate change disrupts the normal structure of the atmosphere.

“Despite the efforts to reduce emissions, we think that haze will probably continue for the future,” he said. “This is partly climate-driven now, so it probably won’t get much better in the winter. Emissions are no longer the only driver of these conditions.”

Wang hopes to continue the study using new data from China’s air quality monitoring network. The impact of global climate change, he said, may be unique to China because of its geography and sensitivity to changes in atmospheric circulation structure. Though the problem is now manifested in air pollution, he said the results of the study should encourage the nation to continue addressing climate change.

“The very rapid change in polar warming is really having a large impact on China,” he said. “That gives China an incentive to not only follow through on air pollutant emission reductions, and also to look at the potential for reducing greenhouse gas emissions. Our research shows that cutting greenhouse gases would help with the winter haze problem.”

This work was supported by the National Science Foundation Atmospheric Chemistry Program and the U.S. EPA Science To Achieve Results (STAR) Program through grant RD-83520401. It has not been subjected to any EPA review and therefore does not necessarily reflect the views of the EPA, and no official endorsement should be inferred. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the sponsoring agencies.

CITATION: Yufei Zou, Yuhang Wang, Yuzhong Zhang, Ja-Ho Koo, “Arctic sea ice, Eurasia snow, and extreme winter haze in China,” (Science Advances, 2017). http://advances.sciencemag.org/content/3/3/e1602751

Research News
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Media Relations Contacts: John Toon (404-894-6986) (jtoon@gatech.edu) or Ben Brumfield (404-385-1933) (ben.brumfield@comm.gatech.edu).

Writer: John Toon


China's Severe Winter Haze Tied to Effects of Global Climate Change
 
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Jackie Chan exhibits artworks of movie props to promote recycling
China Plus | Updated: 2017-03-17

Jackie Chan has opened a new exhibit in Shanghai, combining the themes of filmmaking and recycling.

The exhibit features more than 40 pieces of movie props and other items from Chan's legendary career, and they have all been re-made and transformed into works of art by 25 artists from around the world.

Chan says that over the years, he has collected many items from his movie sets that would have otherwise simply gone into the garbage after filming.

He has then shown or given them to his artist friends, who have reused them to create sculptures or other objects of new artistic value.


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Sculptures are seen at an exhibit focused recycling by Jackie Chan in Shanghai. [Photo/Chinanews.com]

Chan says he is hoping to promote the ideas of recycling and environmental protection through the exhibit, which is also set to travel around the world after its showing in Shanghai.

The Hong Kong action star, who is about to turn 64 next month, has appeared in well over 200 films.

Last year, he received a Lifetime Achievement Oscar for his contribution to the film industry. He is also well known for a wide range of public service and charity projects.

The current exhibition in Shanghai can be seen in the city's World Financial Center until May 21.
 
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Environment: China's decadal pollution census
Nature
543, 491 (23 March 2017)
doi:10.1038/543491d
Published online
22 March 2017
China will conduct its second decadal pollution census in December 2017. This will provide a baseline for measuring the impact of environmental taxes that come into force next year, and for assessing discharge permits that will be issued for all pollution sources by 2020. The data must therefore be reported with greater accuracy and more accountability than in the 2007 census.

That census targeted nearly 6 million industrial, agricultural and residential sources and centralized pollution-control facilities. However, large inconsistencies between the census data and those collected from other sources created big problems for the nationwide control system for total emissions. For instance, environmental statistics put the total discharge of organic pollutants in water at 15 million tonnes, whereas the census figure was double that.

Addressing these problems in the second census could prove difficult because China's economy and output have grown markedly over the past decade. Technologies such as big data, drones and remote-sensing satellites will help, backed by robust methodologies, overall transparency and public participation and supervision. Legal responsibility for falsifying pollution data or refusing to report pollution must also be clearly defined and enforced.


Environment: China's decadal pollution census : Nature : Nature Research
 
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Can putting a dollar value on ecosystems save them?
Countries need to do more to protect areas that may not be important for biodiversity, but provide key ecosystem services such flood mitigation and water and soil retention, says environmentalist Zhiyun Ouyang.

By Feng Zengkun Tuesday 28 March 2017

If noted environmentalist Zhiyun Ouyang had his way, more than a third of China’s vast territory would be marked as protected areas where human development is not allowed.

In February 2017, China’s government announced that it would require all of its provinces and regions to draw up “ecological red lines” by 2020 to demarcate such protected zones in their territories, as part of an ongoing effort to protect the country’s natural environment and improve its people’s quality of life.

As deputy director of the Chinese Academy of Sciences’ Research Centre for Eco-Environmental Sciences, Ouyang is helping local governments to determine these red lines.

“We are helping them to assess their ecosystems’ services and sensitivity, and providing data and maps of China’s most important areas for ecosystem services,” he told Eco-Business in a recent interview.

Based on his research, 35 percent of the country’s land holds its most important wildlife habitats and provides people with key ecosystem services, including water and soil retention, flood mitigation and sandstorm prevention. “Protecting this 35 per cent would maintain the most important areas for biodiversity and ecosystem services,” he said.

An expert in ecosystem assessment and restoration, as well as biodiversity conservation, Ouyang has published 10 books, more than 140 peer-reviewed papers in international science journals and 370 peer-reviewed papers in Chinese journals. He is also the vice-president of both the Ecological Society of China and the Ecological-Economic Society of China.

In recent years, he has turned his attention to promoting ecosystem service assessment – including putting a monetary value on ecosystems’ benefits for people – and its application in public policy related to land management, conservation and restoration in China.

Ahead of this week’s Macau International Environment Co-operation Forum & Exhibition (MIECF) from March 30 to April 4, where he is giving a presentation on the ecosystems found along China’s coastline, he told Eco-Business why more countries should follow China’s example in setting up protected zones for the environment.

You’ve been a strong advocate of “gross ecosystem product”. What is that and why is it important?
Ecosystems provide people with many services, for example water retention, flood mitigation and sandstorm prevention. But most national evaluation and appraisal systems, such as gross domestic product, do not capture those services, even though they are essential to human wellbeing. That may be the main reason that ecosystems are not adequately protected now.

Changes to the coastline have not only reduced wildlife habitats and services provided by natural ecosystems, but have increased risk for people who use them

Professor Zhiyun Ouyang, deputy director, Chinese Academy of Sciences’ Research Centre for Eco-Environmental Sciences

Gross Ecosystem Product (GEP) puts a monetary value on those services so that decision-makers will pay more attention to ecosystems and their services for mankind.

China, for example, is working on developing and implementing GEP. My research centre is partnering the National Development and Reform Commission to develop GEP accounting methods for the evaluation of ecological compensation programmes (where people such as farmers are paid to convert their used land into natural ecosystems). We are also working on the GEP accounting of Shenzhen, Sichuan, the Aershan country in Inner Mongolia and other regions.

You recently helped to author a scientific paper that called for the establishment of a new national park system in China with different types of protected areas. Why is this needed?
Nature reserves make up most of the protected areas in China, but previous national assessments of them have focused only on their ecological diversity. Our paper looked at the distribution of wildlife habitats and ecosystem services throughout China, and their representation in the nature reserves.

We found that the reserves make up only 10.2 to 12.5 percent of the areas in China that provide four key ecosystem services to people: water retention, soil retention, sandstorm prevention and carbon sequestration (the capture and storage of carbon).

Under our recommended new national park system, existing nature reserves would be expanded or new ones established, but more importantly a new category of protected areas would be created specifically to protect areas that provide key ecosystem services. Human activities would be permitted in these new protected areas as long as they do not compromise the provision of ecosystem services.

We believe that such a national park system is a politically feasible way to improve the protection of both biodiversity and key ecosystem services. After the Qinling Mountains were recognised as a critical source area for China’s South-to-North Water Transfer Project, for example, local governments invested more funds in their conservation and restoration.

To give other examples, the Loess and Mongolia Ordos Plateaus, Eastern Qinling and middle and south Chongqing are relatively unimportant for biodiversity conservation, but crucial for soil retention, sandstorm prevention and water retention, respectively. Our new system would recognise their importance.

While our recommendations are for China, we think that they are also relevant for other countries. In fact, our paper recommends establishing a category of protected areas for ecosystem services within the International Union for Conservation of Nature’s Protected Areas classification system.

Your MIECF presentation focuses on the decline of the ecosystems along China’s coastline. Why is this important?
The natural ecosystems in coastal areas provide many services, including carbon sequestration, habitats for wildlife and mitigation of the harm caused by tidal waves. These ecosystems, however, are very sensitive to urban development and climate change, including sea level rises.

China, in particular, has 17,000 kilometres of coastline that provide unique habitats for diverse species, including millions of migratory birds. Since 2000, however, the coastal ecosystems have changed rapidly due to urbanisation. The proportion of natural to developed coastline has declined from 54.6 percent to 44.1 percent, and we’ve also lost about 15 percent of coastal natural wetlands.

These changes to the coastline have not only reduced wildlife habitats and services provided by natural ecosystems, but have increased risk for people who use them. These are ecological issues that we have to resolve, not just in China but everywhere that urbanisation is encroaching on the natural world.

This year’s MIECF features Ouyang and other experts as speakers. To hear more from them, register for the Macao International Environmental Co-operation Forum & Exhibition (MIECF) held from 30 March - 1 April 2017 here.

With an exciting lineup of an international conference, exhibition, business matching and networking activities, MIECF offers access to opportunities from the Pan-Pearl River Delta Region of China (PPRD Region), Asia-Pacific and Portuguese-speaking countries and beyond. At the Green Forum, speakers will discuss energy efficiency, green buildings, sustainable tourism, manufacturing best practice and environmental policies.


Can putting a dollar value on ecosystems save them? | News | Eco-Business | Asia Pacific
 
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Sometimes They Come Back: Dried Up Chinese Lake Springs Back to Life

02.04.2017(updated 22:18 02.04.2017)

The Har Lake, a body of water located in the Gobi Desert in Gansu province of China, and which dried up over 50 years ago, has reappeared thanks to an ambitious infrastructure project by Chinese authorities.


The 24-square kilometer lake, located near the city of Dunhuang, dried up in the 1970s. Now however the lake has reappeared exactly where it used to be.

According to the China Daily, the lake’s resurgence did not occur overnight, but was made possible thanks to several years’ worth of efforts by local authorities.

"Several years spent dredging and repairing local river channels, in addition to a high level of precipitation last year, have brought the lake back to life," Sun Zhicheng, head of the research department at Gansu Dunhuang West Lake National Nature Reserve Administration, said.

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Ruins of 2,000-Year-Old Oasis Settlement Excavated in China

According to Wu Jinkui, research fellow at the Chinese Academy of Sciences' Northwest Institute of Eco-Environment and Resources, the resurgence of the Har Lake means that the level of underground water has increased and serves as proof of the general ecological improvement in the area.

However, it appears that the lake might disappear once again later this year if the water supply proves to be inadequate, Wu added.

"If the lake fails to gather enough water in spring, it is likely to disappear in summer," he remarked.
 
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