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Tuesday, April 11, 2017, 15:07
The appliance of science cleans Lake Taihu
By Zhang Zhihao

New technologies are helping the famous landmark in East China to recover from years of severe pollution. Zhang Zhihao reports from Wuxi, Jiangsu province.

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Workers remove blue-green algae from Lake Taihu in Wuxi, Jiangsu province. (Shui Ge / For China Daily)

For generations, poets used the term bishui, or "emerald water", to describe Lake Taihu, China's third-largest freshwater body, famed for its scenery and clear water that reflected the surrounding green hills.

The lake, which straddles the provinces of Jiangsu and Zhejiang in East China, is a cradle of fisheries and tourism. It is also the water source for industries and cities, from Wuxi in Jiangsu to Shanghai, nurturing more than 44 million people.

As nearby cities flourished during the past three decades, industrial effluent and waste from human activities ravaged the lake. A buildup of nutrients, often caused by fertilizers leaking into the water, resulted in eutrophication, a process that occurs when blue-green algae blooms and strips the oxygen from the water, causing it to stagnate and become putrid, tea-green sludge.

"It's a terrible eyesore," said Shen Ji, director of the Nanjing Institute of Geography and Limnology at the Chinese Academy of Sciences. According to Ji, China has about 920 freshwater lakes, most of them located along the middle and lower stretches of the Yangtze River, and more than 85 percent have been affected by algae pollution.

Now, the academy's scientists are trying to turn the tide via new technology: from bionic platforms that "eat" algae, to a giant razor that "shaves" the sediment, and a powder that turns algae into stone.

Although still in their infancies, these technologies, coupled with improved monitoring and prediction systems, have raised the amount of algae collected at the annual clean up from 0.8 million tons in 2008 to 1.6 million tons last year, according to Qin Boqiang, director of the academy's Taihu Laboratory for Lake Ecosystem Research.

"It will take decades for Taihu to fully recover," Qin said, adding that China isn't the only country facing the problem. "From Lake Okeechobee in the United States to the Nakdong River in the Republic of Korea, algae pollution has become a global ecological hazard. But these new technologies are helping us to make great progress, and we hope our experience at Taihu will help other countries to tackle the issue."

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Researchers collect water samples from the lake. (Jin Liwang / Xinhua)

Inspired by nature


Silver carp has long been famous as a classic Chinese dish, but the fish is now also the inspiration for pollution control. Over the course of its life, one silver carp can consume 50 kilograms of algae, but dumping a large number of them into the lake would be expensive and could disturb the delicate ecological balance.

In response, Li Wenchao, an environmental engineer at the academy, devised a way to emulate the fish's "feast-and filter" mechanism and built a bionic platform that removes algae in an efficient, environmentally friendly way.

The 12-meter-long, 11-meter-wide floating platform loaded with filters is modeled on the gills of the silver carp. It travels across the water at 5 km an hour, gulping the algae in its path and leaving a trail of filtered water in its wake.

"It is like a vacuum cleaner for algae," Qin said. "The platform eats the algae, filters and shreds it through 200 layers of 'teeth', and then concentrates it into a thick pulp which is stored on deck. The clean water is then pumped back into the lake.

Traditionally, floating algae is cleared with large hand-held nets, which is slow, costly and ineffective. The platform can clear algae invisible to the naked eye, and can clean 1 metric ton of water for less than 0.05 yuan. It can be used all day without damaging the environment.

The prototype was first used in 2011, but by last year, newer, more-compact models had emerged. About 20 lakes and reservoirs now use the platform, ranging from Lake Xingyun in Yunnan province in the south of the country to the Yuqiao reservoir in Tianjin in the north.

The downside is that the platform costs about 2 million yuan ($290,000) and it is only effective in medium or large lakes, meaning its use is limited to waters that have economic significance, such as tourist attractions and reservoirs, according to Qin. "Even so, the bionic platform is an effective method of emergency algae control," he said.

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Shaving sediment

While the platform is highly effective at surface level, it can't address the bigger problem - stopping the algae from blooming in the first place. To do that, the scientists have to tackle the lake-bed sediment in which the plant thrives.

Researchers have discovered that algae outbreaks have four stages: dormant in sediment; resuscitation; mass reproduction; and surface outbreaks. "If the algae is removed from the sediment, it is gone for good," said Yang Guishan, an ecologist at the academy.

The two main fuels for algae outbreaks - nitrogen and phosphorous - are also deposited in the sediment, so it is important to clean the soil when the algae is dormant, he said.

Dredging and replacing the lake bed have been tried, but they are expensive because of the high cost of labor and transportation of clean soil.

In December, the academy's scientists successfully tested a new dredging platform that shaves off the sediment's top layer, cleans it and pumps it back into the water.

The dredger is 21 meters in length and has a 6-meter-long arm attached to one end. The end of the arm has two rotating paddle blades and a number of water pumps.

The pumps disturb the water near the top layer of sediment - where most organic waste and algae are deposited - while the paddle blades collect the mixture and another pipe sucks it onto the platform. The mud is then filtered before being pumped back into the water. The manufacturer claims the process can remove more than 80 percent of the algae and organic waste in the sediment, meaning there is no need to transport fresh soil.

The platform can clean 1 hectare of soil an hour, and can hold about 50 metric tons of algae and waste.

Again, there's a downside. The dredger is a prototype, and it will be years before it can be used widely. Moreover, its size and the arm's limited reach mean it only works in large, shallow lakes, and it can only be used to clean sediment that does not have a high level of biodiversity in its top layer, according to Qin.

"But circulatory cleaning, soil filtering and other technologies on the platform are already showing potential and they could be implemented earlier," he said.

Turned to stone

When they came to consider famous tourist lakes, the scientists decided to employ a more sensitive approach, because giant platforms carrying large amounts of toxic algae could ruin the scenery and damage the local tourism industry.

Last year, scientists developed a powder that glues algae into large clusters. As a cluster sinks, it acts on the phosphorus in the water, transforming it into insoluble calcium phosphate which traps both the algae and its nutrients. Just 0.3 kilogram of the powder can clean 1 square meter of water and remove 95 percent of the phosphates.

"It's like killing two birds with one stone," said Zheng Maosong, deputy director of the academy's Xuyi Center of Attapulgite Applied Technology Research Development and Industrialization, which helped to create the powder.

The key ingredient is purified attapulgite, a natural nanomaterial whose unique rod-like structure gives it strong adhesive qualities.

The mines in Xuyi, a city in Jiangsu, contain an estimated 889 million tons of attapulgite, accounting for 48 percent of the global reserve, said Wang Aiqin, a researcher at the center.

The powder is a relatively new invention, so its effect on the ecosystem will have to be studied before it can be used on a large body of water, such as Lake Taihu, Zheng said.

"Taihu is frequently buffeted by strong winds that stir up the sediment, and when that's coupled with the effects of global warming, the stones created by the mixture may break and release the pollutants back into the clean water," he said.

At the moment, the process is only suitable for use in small lakes or sewage works that have more-stable water dynamics, according to Zheng, who said he sees a strong future for the powder once it has been fully tested.

Contact the writer at Zhangzhihao@chinadaily.com.cn
 
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Chinese scientist awarded 2017 Vega Medal
(People's Daily Online) 16:26, January 03, 2017

View attachment 367135
(Yao Tandong/ThePapaer.cn)

On Dec. 26, the Sweden Society of Anthropology and Geography (SSAG) announced the winner of the 2017 Vega Medal, Chinese scientist Yao Tandong for his contributions to research on glaciers and the environment of the Tibetan Plateau, Thepaper.cn reported.

Yao, director of the Institute of Tibetan Plateau Research under the Chinese Academy of Sciences (CAS) and director of the CAS Center for Excellence in Tibetan Plateau Earth Sciences, is the first Asian scientist to receive the award. According to SSAG, Yao is "internationally acknowledged to be one of the most accomplished scientists in the field of cryospheris study."


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(Yao Tandong/Tibet.cn)

Over the past two decades, Yao's team has studied environmental changes and their influence on the Tibetan Plateau. Yao has collaborated with scientists from dozens of countries including the U.S., France, Germany, Switzerland, the Netherlands, Iceland, Russia, Pakistan, India, Nepal and Japan.

The Third Pole Environment (TPE), initiated by Yao, has engaged talents from all over the world and made important scientific findings. Yao's team concluded that we are presently living in the warmest time period in the past 2,000 years. Global warming and interaction between Indian monsoons and western-blowing wind are major reasons for the retreat of glaciers and regional differences within the Tibetan Plateau.
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Chinese scientist Yao Tandong receives 2017 Vega Medal in Stockholm
(Xinhua) 08:41, April 20, 2017

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Yao Tandong, an academician with the Qinghai-Tibet Plateau Institute under the Chinese Academy of Sciences
(CAS), poses for a portrait at his lab in Beijing, China, Dec. 26, 2016. (Xinhua/Jin Liwang)

STOCKHOLM, April 19 -- Chinese scientist Yao Tandong received 2017 Vega Medal in Stockholm on Wednesday, recognizing his contributions to research on glaciers and the environment on the Tibetan Plateau.

Swedish King Carl XVI Gustaf awarded 2017 Vega Medal to Prof. Yao at the Royal Palace of Stockholm on Wednesday afternoon, and congratulated him personally for his outstanding achievements.

Sten Hagberg, chairman of Swedish Society for Anthropology and Geography (SSAG) told Xinhua that Yao's "basic researches on 'the Third Pole', monsoon and glaciers" are crucial to the understanding of the process of climate change.

"His researches also concerns more than two billion population, it is a global topic", Hagberg added.

Earlier, SSAG announced Professor Yao as 2017 Vega Medal laureate, for his outstanding contributions to glacier research and to the society at large. His research focuses on glaciers and environment on the Tibetan Plateau, especially within the cryospheric research field.

Yao is internationally acknowledged as one of the most accomplished scientists in the field of cryospheric study.

He has led several research programs -- often together with American, French, German and Japanese scientists -- in the last 20 years. One of his later works shows that global warming, as causing the decline of glaciers on the Tibetan Plateau, interact with Indian monsoon winds and westerly winds. The research program Third Pole Environment (TPE) which is led by Professor Yao, has become internationally significant.


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Congratulations to Mr Yao.
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China to boost recycling industry for greener growth
Xinhua, May 4, 2017

Chinese authorities on Thursday released an action plan to boost the recycling industry amid government efforts to promote green and sustainable growth.

By 2020, China aims to increase the output value of the resource recycling industry to 3 trillion yuan (434.8 billion U.S. dollars), a jump of 67 percent from the 2015 level, according to the plan jointly released by 14 agencies including the top economic planner and environmental watchdog.

The resource productivity ratio should rise by 15 percent from the 2015 level, and the recycling utilization ratio of major waste should reach 54.6 percent by 2020, said the plan.

Through the efforts, China hopes to foster a green, low carbon development model to encourage green lifestyles and green consumption among the public.

The plan came as the Chinese government is intensifying efforts to address rampant pollution and build a greener economy for long-term good.

In the country's 13th Five-Year Plan for the 2016-2020 period, the government has made green development one of its major priorities.

According to a government work report delivered by Premier Li Keqiang in March, China aims to cut the energy consumption per unit of GDP by at least 3.4 percent in 2017, while targeting continued reductions in the emission of major pollutants.

http://www.china.org.cn/business/2017-05/04/content_40751179.htm
 
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Public Release: 11-May-2017
More natural dust in the air improves air quality in eastern China
Reduced dust slows winds, increases air stagnation over cities like Beijing; implications for US, other cities as well

DOE/Pacific Northwest National Laboratory

Man-made pollution in eastern China's cities worsens when less dust blows in from the Gobi Desert, according to a new study published May 11 in Nature Communications.

Yes, you read that correctly: When less natural dust blows in, the air quality for millions of people worsens.

That's because dust plays an important role in determining the air temperatures and thereby promoting winds to blow away man-made pollution. Less dust means the air stagnates, with man-made pollution becoming more concentrated and sticking around longer. The scientists found that reduced dust causes a 13 percent increase in man-made pollution over eastern China during the winter.

Researchers say the broader question of how natural dust and man-made pollution interact is an important one for people across the globe, not just China. Many of the same forces that ease or worsen pollution in China are at play in many areas around the globe, including several cities in the United States.

The paradoxical finding -- that more natural dust in the air improves air quality -- comes from a team of researchers from the Department of Energy's Pacific Northwest National Laboratory and Scripps Institution of Oceanography at the University of California at San Diego.

Post-doctoral researcher Yang Yang of PNNL is first author of the paper, and Lynn Russell of Scripps is the corresponding author.

In computer models together with historical data, the team found that reduced natural dust transported from the Gobi Desert in central and northern China translates to increased man-made air pollution in highly populated eastern China. The reason is that natural dust particles in the air help deflect sunlight. Fewer dust particles translates to a warmer-than-usual land surface and cooler-than-usual water. That reduces the temperature differential in winter between sea and the land, resulting in weaker winds -- and increased air stagnation. As a result, during the winter monsoon season, eastern China experiences weaker winds when there's less natural dust in the air.

It's nothing a person would notice -- a reduction barely more than one-tenth of one mile per hour -- but on a large scale over an entire region, such a seemingly minor change has a profound effect on climate and air quality.

"This is one of the first times we've really looked at the interactions between natural dust, wind, and anthropogenic pollution," said Yang. "It turns out that dust plays an important role in determining the quality of the air for many people in eastern China."

The modeling results match observational data from dozen of sites in eastern China. The team found that two to three days after winds had brought dust into the region from western China, the air was cleaner than before the dust arrived.

The researchers say man-made pollution is still the core of air pollution in cities like Beijing in eastern China but that it's important to understand the role of natural dust particles.

###​

In addition to authors from Scripps and PNNL, scientists from Nanjing University of Information Science and Technology and the Chinese Academy of Meteorological Sciences contributed to the study.

Work was funded by the National Science Foundation and the Department of Energy Office of Science. Some of the research was performed at the National Energy Research Scientific Computing Center, an Office of Science national user facility on the campus of DOE's Lawrence Berkeley National Laboratory.

Reference:

Yang Yang, Lynn M. Russell, Sijia Lou, Hong Liao, Jianping Guo, Ying Liu, Balwinder Singh and Steven J. Ghan, Dust-wind interactions can intensify aerosol pollution over eastern China, Nature Communications, May 11, 2017, http://dx.doi.org/10.1038/NCOMMS15333.


More natural dust in the air improves air quality in eastern China | EurekAlert! Science News
 
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Rice U.’s Yellow River formula addresses flood risk, sustainability
Sediment formula could help managers better predict, prevent Huanghe floods

U.S. and Chinese geologists studying China’s Yellow River have created a new tool that could help Chinese officials better predict and prevent the river’s all-too-frequent floods, which threaten as many as 80 million people. The new tool, a physics-based formulation to calculate sediment transport, can also be applied to study the sustainability of eroding coastlines worldwide.

Known in Chinese as the Huanghe, the Yellow River holds a central but dichotomous place in history. As the cradle of Chinese civilization, it is often called the “mother of China.” But its floods, including several of the deadliest natural disasters in recorded history, also have earned it the name “China’s sorrow.” Each identity — the fertile nurturer and the wanton killer — derives from the same feature: The Yellow River washes about a billion tons of sediment each year from the Loess Plateau to the Bohai Sea, and in so doing, it has a tendency to become so clogged that it not only floods but literally changes course, jumping to a new channel miles away.


“The Huanghe is probably the most-studied fine-grained river in the world,” said Rice University sedimentologist Jeffrey Nittrouer, a primary author of the new study about the Yellow River that appears online this week in Science Advances. “Despite that, the typical formulae and relationships that are used to describe sediment flux in most other rivers simply do not work for the Huanghe. They consistently underpredict the sediment load of the river by a factor of 20.”

In the study, Nittrouer and lead author Hongbo Ma, a postdoctoral researcher from China who joined Rice in 2014, used the latest techniques in sediment sampling and 3-D river-bottom mapping to create a “universal sediment transport formulation.” The formulation is the first physics-based sediment transport model capable of accurately describing how the Huanghe carries sediment.

Rice University sedimentologists Hongbo Ma (left) and Jeff Nittrouer. (Photo by Jeff Fitlow/Rice University)

“In terms of sediment transport, the Haunghe is almost the perfect river,” Ma said. “Its bottom is nearly flat and featureless, which means it can use almost all of its energy for moving sediment.”

Nittrouer, an assistant professor of Earth science who has studied dozens of rivers on three continents, said he has not seen anything like the Huanghe. “In typical lowland sand-bed rivers – like the Amazon, the Mississippi, you name it – only about 40 to 60 percent of the energy is used to transport sediment downstream. In the Yellow River, well over 95 percent of the energy is available to move sediment.”

Nittrouer and Ma first visited the Huanghe in summer 2015 as part of a four-year, $2 million study funded by the National Science Foundation (NSF). Their intent was to examine the geological, socio-economic and engineering lessons from China’s decadeslong effort to control the Huanghe and direct the growth of its delta into the Bohai Sea.

China’s flood-prone Huanghe, or Yellow River, washes about a billion tons of sediment each year from the Loess Plateau to the Bohai Sea. The sediment-laden river not only floods but literally changes course every few years, jumping to a new channel miles away. (Image courtesy of Wikimedia Commons)

“The Haunghe moves so much sediment that it is extremely efficient at generating new land each year and is therefore the best place for us to learn about how to use sediment from rivers to enhance delta sustainability,” Nittrouer said. “The example closest to home is the Mississippi River, where there are significant efforts to replenish coastal Louisiana. But an even more pressing reason to study the Yellow River is that 80 million people live in its floodplain and are threatened by its floods. The potential for human suffering is enormous. The aim of our work is to mitigate Huanghe floods, while developing techniques through research that are transferable so as to evaluate river systems worldwide.”

Ma and Nittrouer said they will never forget their first attempt to create a 3-D map of the Huanghe bottom. They were planning to make a detailed picture of the river bed using a sonar system that Nittrouer had previously used to map several other rivers systems. In all previous studies, he’d found that the channel contained bedform features similar to sand dunes of deserts.

“I took one look at the readout on the boat and thought the instrument was broken,” Nittrouer said. “The bottom looked flat as glass.”

Ma said, “Only when we brought the data back to the lab did we see that there were features, but the aspect ratio was such that we could not see them on the boat.”

The mouth of the Huanghe, or Yellow River, in China’s Bohai Sea, as seen from NASA’s Landsat satellite in 1999. The river’s sediment constantly rebuilds the delta, which is extensively engineered to control flooding and protect coastal development. U.S. researchers hope lessons from the Huanghe could aid efforts to rebuild coastal Louisiana. (Image courtesy of NASA and Wikimedia Commons)

For example, when Nittrouer imaged the bottom of the Mississippi River, he typically saw bedforms up to 10 meters tall and spaced about 200 to 300 meters apart. In contrast, the data from the Yellow River showed 1-meter-tall dunes every 500 to 2,000 meters.

Using that data and other measurements from the lower Huanghe, including from its sprawling delta, Ma created a physics-based formulation capable of accurately predicting the flux — the volume of sediment transported for a given time period — in the Huanghe.

“The aim is to look at the connectedness, in terms of sediment movement and water flow, among the river, the delta and the near-shore marine region,” said Ma, who chose to become a sedimentologist following the devastating 2008 Sichuan earthquake in China.

While still an undergraduate at Tsinghua University, Ma joined a lab that was studying the potential flooding that could result from dam breaches caused by landslides in the 2008 quake. The potential loss of life from the floods was greater than the 90,000 people killed or injured by the quake itself, and Ma became fascinated with creating technologies that could help prevent such large floods.

“I was born and grew up far from the Haunghe in the northeastern Heilongjiang Province, but I, like many Chinese, deeply feel the sorrow of the Huanghe, which has killed millions over the past 2,000 years, and I bear the sorrow of all the flooding hazards in mind in conducting my research,” he said.

Ma said he hopes the new formula may prove useful to Chinese engineers who manage the flow of water and sediment from dams along the Huanghe. For example, engineers have for decades tried to reduce the risk of Huanghe floods by periodically scouring the river bottom with massive releases of sediment-depleted lake water.

Ma said one finding from the new model is that such scouring may inadvertently increase the risk of flooding in certain parts of the river because although it clears silt, it also creates a rough-textured riverbed that reduces the amount of energy the river can use to move sediment.

“Our formula indicates this will lower sediment transport efficiency by an order of magnitude,” he said. “Additionally, the added drag produced by dunes could increase water stage and leave the system prone to levee overtopping during flood events. This threat may be unique to the case of the Haunghe.”

Judy Skog, program director in the NSF’s Directorate for Geosciences, which funded the research through its Coastal Science, Engineering and Education for Sustainability Program, said, “Understanding the flow of sediment in rivers is important to the large number of people around the world who live near rivers. This study can lead to predictions of when and where rivers transport sediment, and to an understanding of how that sediment flow is affected by conservation and management efforts, such as the removal of dams.”

Additional co-authors include Rice’s Andrew Moodie, the University of Illinois at Urbana-Champaign’s Kensuke Naito and Gary Parker, Tsinghua University’s Xudong Fu and Baosheng Wu and the Yellow River Institute of Hydraulic Research’s Yuanfeng Zhang and Yuanjian Wang. The research is supported by NSF and the National Natural Science Foundation of China.


Rice U.’s Yellow River formula addresses flood risk, sustainability

Hongbo Ma, Jeffrey A. Nittrouer, Kensuke Naito, Xudong Fu, Yuanfeng Zhang, Andrew J. Moodie, Yuanjian Wang, Baosheng Wu and Gary Parker. "The exceptional sediment load of fine-grained dispersal systems: Example of the Yellow River, China". Science Advances (2017). DOI: 10.1126/sciadv.1603114
 
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Everything You Think You Know About Coal in China Is Wrong
By Melanie Hart, Luke Bassett, and Blaine Johnson
Posted on May 15, 2017, 12:01 am

HartChinaCoalBrief2.jpg
AP/Mark Schiefelbein
A worker watches as a conveyor loads coal onto a trailer truck at a coal mine near Ordos in northern China's Inner Mongolia Autonomous Region, November 2015.


See also: “Research Note on U.S. and Chinese Coal-Fired Power Data” by Melanie Hart, Luke Bassett, and Blaine Johnson

China’s energy markets send mixed signals about the nation’s policy intentions and emissions trajectory. Renewable energy analysts tend to focus on China’s massive renewable expansion and view the nation as a global clean energy leader; coal proponents and climate skeptics are more likely to focus on the number of coal plants in China—both in operation and under construction—and claim its climate rhetoric is more flash than substance.

Get the Latest on Energy and the Environment
In December 2016, the Center for American Progress brought a group of energy experts to China to find out what is really happening. We visited multiple coal facilities—including a coal-to-liquids plant—and went nearly 200 meters down one of China’s largest coal mines to interview engineers, plant managers, and local government officials working at the front lines of coal in China.

We found that the nation’s coal sector is undergoing a massive transformation that extends from the mines to the power plants, from Ordos to Shanghai. China is indeed going green. The nation is on track to overdeliver on the emissions reduction commitments it put forward under the Paris climate agreement, and making coal cleaner is an integral part of the process.

From a climate perspective, the ideal scenario would be for China to shut down all of its coal-fired power plants and switch over to clean energy full stop. In reality, China’s energy economy is a massive ship that cannot turn on a dime. The shift toward renewables is happening: China’s Paris commitment includes a promise to install 800 gigawatts to 1,000 gigawatts of new renewable capacity by 2030, an amount equivalent to the capacity of the entire U.S. electricity system.1 While China and the United States have roughly the same land mass, however, China has 1.3 billion people to the United States’ 325 million.2 It needs an electricity system that is much larger, so adding the renewable equivalent of one entire U.S. electricity system is not enough to replace coal in the near to medium term. To bridge the gap, China is rolling out new technologies to drastically reduce local air pollution and climate emissions from the nation’s remaining coal plants.

This issue brief covers three things American observers need to understand about coal in China:

  1. China’s new coal-fired power plants are cleaner than anything operating in the United States.
  2. China’s emissions standards for conventional air pollutants from coal-fired power plants are stricter than the comparable U.S. standards.
  3. Demand for coal-fired power is falling so quickly in China that the nation cannot support its existing fleet. Many of the coal-fired power plants that skeptics point to as evidence against a Chinese energy transformation are actually white elephants that Chinese leaders are already targeting in a wave of forced plant closures.


Con't
---> Everything You Think You Know About Coal in China Is Wrong - Center for American Progress
 
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New research centre focuses on the ‘ocean hemisphere’
  • By Dr Steve Rintoul (CSIRO), Dr Wenju Cai (CSIRO), Dr Helen Cleugh (CSIRO) and Dr Gongke Tan (QNLM).
  • May 22, 2017
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Australia is uniquely placed as a centre for southern hemisphere oceans research. Image: Flickr/NASA Goddard Space Flight Centre

More than 80 per cent of the southern hemisphere is covered by oceans. Until recently, these vast oceans were largely unmeasured and poorly understood.

New tools like satellites and profiling floats have helped to fill the gap in observations. These measurements have shown that the southern hemisphere oceans play a pivotal role in shaping the climate of Australia and the rest of the globe.

If we want to know how climate works, and how it may change in the future, we need to better understand the “ocean hemisphere” of our planet.

Why are the southern hemisphere oceans so important?
Oceans influence global climate by absorbing and transporting vast amounts of heat and carbon dioxide. More than 93 per cent of the extra heat stored by the Earth since 1970 is found in the ocean – when we say global warming, we’re really talking about ocean warming.



.....


A new research centre for southern hemisphere ocean research
Australia and China have joined forces to establish the first research centre with a focus on the southern hemisphere oceans.

The Centre for Southern Hemisphere Oceans Research (or CSHOR – yes, you got it, ‘sea shore’) will tackle the challenge of improving our understanding of the southern oceans and how they influence regional and global climate. CSHOR will help to inform an effective response to the challenges of climate change and variability, in Australia, China and the rest of the world.

CSHOR is a long-term research collaboration between Qingdao National Laboratory for Marine Science and Technology (QNLM) in China and CSIRO. QNLM and CSIRO have entered into an initial five year Agreement together with CSHOR Australian partners, the University of New South Wales and University of Tasmania.

The melting of Antarctic ice sheets and how this impacts future sea level rise is one of six priority research areas of the new Centre.

QNLM is a relatively new research institution, founded in 2013, and is the dominant player in marine science in China. As part of the QNLM strategy to become a global leader in marine science, they are establishing partnerships with overseas researchers. CSHOR is the first such collaboration to get off the ground.

China is investing in the collaboration because they, like Australia, are exposed to climate variability and change driven by the southern hemisphere oceans. They chose Australia as a partner because of Australia’s standing as a leader in southern hemisphere ocean research.

CSHOR has a budget of $20 million over five years, including funding for seven new positions in Australia, and will be based at the CSIRO Climate Science Centre in Hobart.

The new centre will begin by focusing research on a number of questions:

  • How will the El Niño – La Niña cycles that bring floods and drought to Australia change with climate change?
  • How will changes in the ocean, including interaction with Antarctic ice shelves, impact sea level rise?
  • How do the El Niño, the Indian Ocean Dipole and the Southern Annual Mode interact to drive variability in the climate of Australia, China and the rest of the globe?
  • Will the southern oceans continue to slow the pace of climate change by taking up heat and carbon dioxide at the same rate in the future?
  • How do the oceans north of Australia influence regional and global climate, and how will these regions change in the future?
Recent research has highlighted the profound influence of the southern oceans on climate variability and change, but much remains unknown. This new partnership between Australia and China – the first in the world to focus on the southern hemisphere oceans – aims to fill this gap, providing decision-makers with the knowledge they need to respond to the challenges of a variable and changing climate.


New research centre focuses on the 'ocean hemisphere' - ECOS
 
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China to solicit public opinion on solid waste law
Xinhua, May 23, 2017

China will launch a nationwide survey on the implementation of a solid waste control law, the top legislature announced Monday.

The survey will be carried out on the websites of the National People's Congress (NPC), Xinhua News Agency and People's Daily. It will contain 25 questions and aims to solicit suggestions and opinions from the public on the implementation of the law concerning the disposal of solid waste and recycling of renewable resources.

The Standing Committee of the NPC will also dispatch special teams to monitor the implementation of the law between May and August.

http://www.china.org.cn/china/2017-05/23/content_40869608.htm

  • China’s new coal-fired power plants are cleaner than anything operating in the United States.
  • China’s emissions standards for conventional air pollutants from coal-fired power plants are stricter than the comparable U.S. standards.

Interesting...

Should check how much of US electricity is generated from coal.
 
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Wed May 24, 2017 | 4:13am BST
China's Sinopec starts building nation's largest gas storage site

Sinopec said on Wednesday it has started building China's largest natural gas storage and logistics center with the capacity to store up to 10 billion cubic meters (bcm) of gas in Henan province in the central part of the country.

The world's second-largest economy is investing in infrastructure from pipelines to storage tanks as Beijing prepares to switch from coal-fired boilers and heating systems across 28 of its smoggiest cities to natural gas or electricity by October.

The storage facility is expected to open in May 2018, Henan's official government newspaper the Puyang Daily reported last week.

The storage facility will be connected to pipelines and supply gas to central China, Beijing and Tianjin.

(Reporting by Meng Meng and Beijing Monitoring Desk; Writing by Josephine Mason; Editing by Christian Schmollinger and Tom Hogue)


China's Sinopec starts building nation's largest gas storage site | Reuters
 
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Dolphin sightseeing in China's Taiwan
Xinhua | 2017-05-28 07:10

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Tourists watch dolphins in the ocean near Hualien, Taiwan, May 27, 2017. Dophin sightseeing is a popular tourists' choice in Hualien. [Photo/Xinhua]

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Dolphins are seen in the ocean near Hualien, Taiwan, May 27, 2017. Dophin sightseeing is a popular tourists' choice in Hualien. [Photo/Xinhua]

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Tourists watch dophins in the ocean near Hualien, Taiwan, May 27, 2017. Dophin sightseeing is a popular tourists' choice in Hualien. [Photo/Xinhua]

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Tourists watch dophins in the ocean near Hualien, Taiwan, May 27, 2017. Dophin sightseeing is a popular tourists' choice in Hualien. [Photo/Xinhua]
 
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Straw recycling expo aims to cut rural air pollution
Source: Xinhua| 2017-06-06 11:47:33|Editor: Hou Qiang



HEFEI, June 6 (Xinhua) -- East China's Anhui Province held its first straw recycling expo Monday, with the aim of boosting the industry to help reduce air pollution caused by straw burning in rural areas.

The two-day expo was held in Hefei, the provincial capital. It covered a total floor space of 23,000 square meters, with more than 200 companies displaying new technology and products ranging from floor tiles, vegetable and egg trays to biofuel.

Anhui Shenlong is a renewable resources company that manufactures trays, tableware and flowerpots made from recycled straw.

"People are interested in our products, especially the infant spoon and bowl," said general manager Su Yali.

"Products made from straw are biodegradable, do not pollute soil and water, and are safe for consumers," Su said.

Chinese farmers traditionally burn straw after the harvest and plough the ashes into the ground, as they believe this fertilizes farmland. However, the smoke causes air pollution.

As a major producer of rice, wheat and corn, Anhui also produces around 48 million tonnes of waste straw every year. Over the last 20 years the province has increased efforts to recycle straw through using it as livestock feed and biofuel for power plants. It has also set up an environmental protection fund worth 1 billion yuan (around 150 million U.S. dollars) to promote straw recycling.

"In 2015, 81.5 percent of the province's waste straw was recycled. The figure is expected to exceed 90 percent by 2020, accounting for more than 43 million tonnes of straw," said Deng Xiangyang, vice governor of Anhui.

At the expo, companies are expected to sign agreements worth 12.2 billion yuan, which will involve the recycling of around 5 million tonnes of straw annually.
 
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Declining phosphorus in Chinese lakes
Nature Geoscience
June 13, 2017

Phosphorus pollution in Chinese lakes declined by over one-third between 2006 and 2014, according to a paper published online in Nature Geoscience this week. The study finds that the Chinese government’s introduction of policies to reduce water pollution in 2000 has helped to lower the risk of excessive algal blooms from phosphorus pollution in urban regions, though phosphorus concentrations have increased in lakes in some undeveloped regions.

Eutrophication - the excessive growth of algae as a consequence of increased nutrient availability - can occur naturally in lakes. However, the release of nutrients into water bodies as a consequence of human activity has broadly expanded eutrophication across the world, contributing to reductions in water quality, fish die-off, and declines in biodiversity.

Yan Lin and colleagues analysed water chemistry data from 862 lakes across China, along with provincial data on phosphorus sources and flows, between 2006 and 2014. They find that median phosphorus levels declined roughly to the concentration threshold at which phosphorus leads to eutrophication, and the number of extremely polluted lakes was reduced by two-thirds. Improved sanitation and reduction in sewage wastes were major drivers of the reduction; the cause of increasing phosphorus levels in some more remote lakes was less certain, but may be influenced by forest degradation and erosion.

In an accompanying News & Views, Jessica Corman writes that: “the analysis of Lin and colleagues has revealed that China has made some good progress in protecting its lakes."


Yindong Tong, Wei Zhang, Xuejun Wang, Raoul-Marie Couture, Thorjørn Larssen, Yue Zhao, Jing Li, Huijiao Liang, Xueyan Liu, Xiaoge Bu, Wei He, Qianggong Zhang & Yan Lin. Decline in Chinese lake phosphorus concentration accompanied by shift in sources since 2006. Nature Geoscience (2017). DOI:10.1038/ngeo2967

Declining phosphorus in Chinese lakes | Nature Geoscience | Nature Research
 
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Pasture industry developed to prevent desertification in N China
Source: Xinhua| 2017-06-15 21:06:26|Editor: An



Aerial photo taken on June 15, 2017 shows pasture of alfalfa in Ar Horqin Banner of Chifeng City, north China's Inner Mongolia Autonomous Region. Local authorities brought in investment to develop its pasture industry, which also helped to prevent the land from being desertified. (Xinhua/Lian Zhen)


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China Focus: China makes strides in combat against desertification
Source: Xinhua| 2017-06-17 17:57:49|Editor: MJ



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BEIJING, June 17 (Xinhua) -- China has made great progress in the fight against desertification in the past few years, with shrinking degraded land and reduced poverty in desertified areas.

Land degradation in China has lessened in recent years, Zhang Jianlong, head of the State Forestry Administration, told Xinhua ahead of the World Day to Combat Desertification and Drought, which falls on June 17 each year.

The area of desertified land in the country shrank by an annual average of 1,980 square km in the 2010-2014 period, a sharper decline than 1,717 square km for the 2005-2009 period and 1,283 square km for 2000-2004.

That was a reversal from the years before 2000, when desertified land was increasing, he said.

One result of the change can be felt in the capital city Beijing, which used to be plagued by sandstorms but has seen much less frequent occurrences.

Only two to three sandstorms were seen each year for the past two years, compared with over 13 around the year 2000, according to official data released last June.

China wants to rehabilitate 10 million hectares of desertified land in the 2016-2020 period, turning more than half of the country's reclaimable deserts into green land.

To achieve that goal, the country must increase forest coverage to 23 percent by 2020 from 21.7 percent at the end of 2015, though the rate is still below the world average level of around 30 percent.

One of the largest forest projects is the Three-North Shelterbelt Forest Program. Launched in 1978 and expected to be completed by 2050, it consists of afforestation in northwest, north and northeast China.

By 2015, the project has seen nearly 30 million hectares of forests planted and preserved, Zhang said.

The greening also produced economic benefits. Grain output per hectare of farmland in the Three-North region has increased to 5,310 kg currently from 1,770 kg at the beginning of the project.

Some 6.7 million hectares of trees with economic value have been planted in the region, with around 15 million local people having shaken off poverty by growing orchards.

To a large extent, China's fight against desertification overlaps with its effort to reduce poverty, as about 35 percent of the poverty stricken counties are in desertified areas.

Zhang described the campaigns to address desertification and poverty as "twin brothers," saying only effective control of land degradation can bring an end to poverty while poor living conditions make it harder to reverse desertification.

The government views desertified areas as a priority in poverty reduction, engaging local people in environmental projects and developing specialty industries to help lift them out of poverty.
 
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Belt and Road Innovation Center for Desert Green Economy launched in China's Kubuqi Desert
New China TV
Published on Jun 25, 2017

The United Nations Environment Program (UNEP) and the China Elion Foundation, which is established by Chinese desert-control company Elion Group, co-launch a Belt and Road Innovation Center for Desert Green Economy in Kubuqi Desert of north China's Inner Mongolia. China has managed to restore around 6,000 square kilometers of Kubuqi Desert, the country's 7th largest, over 25 years. The center will share China's experiences and technology with countries along the Belt and Road and beyond.
 
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