Tuesday, September 27, 2022

Scientists finally find a way to recycle plastic indefinitely
Most plastic products can't be recycled back into their original form. It's time to change that.
Chemistry chair Wei Zhang (right) and Graduate Research Assistant Zepeng Lei study plastic materials in the Zhang Lab. 
Credit: Patrick Campbell / University of Colorado Boulder.

Remember that plastic bottle you just disposed of in the recycling bin? By the most recent statistics, there is less than a one in three chance it will be recycled. If it does get recycled, there’s only a one in five chance it will be turned into a fresh plastic bottle used for food or beverages. And if that bottle is lucky enough to see a second life, there won’t be a third because the recycling process damages the plastic’s properties, and this is something that is true for all plastic-containing products.

But what if there was a way to recycle plastic a third, tenth, or even one-hundredth time? Researchers at the University of Colorado Boulder believe this is indeed possible. They just published a new study describing how they broke down a type of hard plastic commonly used in aerospace and microelectronics into its basic building blocks, which they used to forge the same exact type of plastic without it losing its desirable properties.

This sort of highly durable and hard plastic, known as thermoset polymers, is notoriously challenging to recycle because it can withstand extreme heat and harsh conditions by design. Even if cost was not an issue, the recycling process cancels out the desired properties of the polymer. But a new chemical method could change all that.

“We are thinking outside the box, about different ways of breaking chemical bonds,” said Wei Zhang, lead author of the study and chair of the chemistry department at the University of Boulder.

In a conventional recycling plant, plastic waste is mechanically broken down into powder form using huge grinding machines. The powder is then burned or bathed in a solution containing bacterial enzymes to dissolve and further break it down into smaller pieces. The flakes or pellets are then thermally treated and molded into new products.
Credit: Nature Chemistry.

Once a recyclable item goes through recycling, the plastic’s quality degrades with each iteration until it ultimately becomes totally unrecyclable. This means that a plastic bottle usually cannot be recycled into another plastic bottle. Instead, the recycled plastic will be turned into a bag or polymer clothing fabric. In the next iteration, a recycled plastic bag can become plastic lumber, a low-cost construction material. There is no way yet to recycle plastic lumber or fabrics, so the material’s lifetime reaches the end of its cycle and a landfill is the only remaining viable option.

Zhang and colleagues decided to follow a different route to plastic waste processing by breaking down the polymers into single monomers, a method the researchers call reversible or dynamic chemistry. These chemical units essentially represent a new class of plastic material that can be used to build things, break them apart, and rebuild them over and over again.

“This chemistry can also be dynamic, can be reversible, and that bond can be reformed,” said Zhang. “We are thinking about a different way to form the same backbone, just from different starting points.”

Although this dynamic chemistry method was tested on a particular type of hard plastic used in niche applications, the researchers claim it could be used on a broad range of classes of plastic so we can reuse those pesky plastic bottles time and time again. The chemical method can be adapted to current industrial recycling plants.

“It can really benefit future design and development of plastics to not only create new polymers, but it’s also very important to know how to convert, upcycle and recycle older polymers,” said Zhang. “By using our new approach, we can prepare many new materials—some of which could have similar properties to the plastics in our daily life.”

The findings appeared in the journal Nature Chemistry.


Tibi Puiu is a science journalist and co-founder of ZME Science. He writes mainly about emerging tech, physics, climate, and space. In his spare time, Tibi likes to make weird music on his computer and groom felines.
Seismic device made for extraterrestrial research useful to monitor CO2 levels at mine sites

Staff Writer | September 21, 2022 

Mine gallery. (Reference image by Johann Jaritz, Wikimedia Commons.)

Researchers at The University of Tokyo and Kyushu University have developed an ultra-compact, centimetre-scale seismic source that allows for continuous monitoring of carbon reservoirs.


In a paper published in the journal Seismological Research Letters, the scientists explain that underground features like carbon reservoirs can be monitored using seismic waves, either generated by earthquakes or by man-made sources.

But seismic monitoring typically requires large, expensive machinery, making continuous monitoring at the scales needed for carbon reservoirs cost prohibitive and practically challenging.

This is where their Portable Active Seismic Source (PASS) comes in. The device was designed for extraterrestrial uses, such as geophysical research on the moon and Mars but it can also be put to good use on earth.

(a) Seismic source system commonly used for imaging and monitoring of subsurface reservoirs. (b) Meter-scale continuous monitoring source system. (c) Centimeter-scale continuous monitoring source system developed in this study.
 (Image by Takeshi Tsuji, courtesy of Kyushu University, I2CNER).

“Because of the device’s small size, the vibrations it produces are relatively weak, but when these vibrations are produced continuously, the resulting signals can be stacked together, allowing transmission over long distances,” Takeshi Tsuji, lead author of the study said. “With a four-centimetre motor, the signal could be transmitted one kilometre—the scale needed for monitoring strata used to store carbon dioxide.”

PASS’s small size makes it easily deployable at a variety of locations, including mine sites. It is also more affordable than conventional seismic sources, which are typically several meters in size. The compact device can be powered by a 12-volt car battery, and can even be deployed by drone in areas that are otherwise inaccessible.

The researchers tested the PASS at two field sites, one on a riverbank and one on a tailings embankment in a mining area. According to Tsuji, the system has great potential for various scientific and engineering applications, including monitoring potential disasters such as landslides and volcanoes, and imaging structures such as tunnels, dams, and embankments.

“The affordability and practicality of continuous subsurface monitoring using this newly developed PASS technology, allowing detection of sudden changes in reservoirs that could lead to CO2 leakage, make it particularly valuable for the development of carbon sequestration projects,” the scientist said. “This enhancement to its safety may also encourage public acceptance of these and other geoengineering projects.”
Portugal awaits assessment of two lithium mines before launching auction

Reuters | September 21, 2022 

Mina do Barroso lithium project in northern Portugal.
(Image courtesy of Savannah Resources.)

Portugal will not commit to setting a new date for a long-awaited auction of lithium mining licences as it awaits the conclusion of ongoing environmental impact studies at two sites, Energy Secretary Joao Galamba said on Wednesday.


The southern European nation, which has 60,000 tonnes of known lithium reserves, is central to Europe’s bid to secure more of the battery value chain and cut reliance on imports.





Concerns about the potential environmental and social impact of lithium mining from nature preservation groups and local communities have led to multiple delays to the auction, initially planned for 2018.

Galamba told a parliamentary committee that the “government understands that the international auction will benefit from the conclusion of these processes”.

“It doesn’t make much sense to launch an international public auction, when simultaneously these environmental assessment processes are underway” at the Barroso mine and the Montalegre mine, in northern Portugal, he said.

The Barroso mine is owned by London-based mining company Savannah Resources and the Montalegre mine is owned by local company Lusorecursos.

Savannah said in a statement earlier on Wednesday it had “very useful and productive” meetings with Portugal’s environmental agency APA. As a result, it has until March 17 to submit its revised plans to the regulator.

However, APA does not have a deadline to decide on the evaluation process, which could be interrupted if it asks for more data or clarification.

The environment ministry, to which Galamba’s department belongs, has said the assessment conducted by the energy and geology agency analysed eight lithium-rich areas in central and northern Portugal, concluding “there were conditions to move forward in six of them”.

Portugal is Europe’s biggest lithium producer but its miners sell almost exclusively to the ceramics industry and are only now preparing to produce the higher-grade lithium that is in demand globally for use in electric cars and electronic devices.

(By Sergio Goncalves; Editing by Andrei Khalip and Lisa Shumaker)
Seabridge, Copper Mountain recognized for mine reclamation work in BC

Staff Writer | September 22, 2022 |

Seabridge is working with the Tahltan Nation to bring the former Johnny Mountain mine site back to its pre-mining conditions. Credit: Seabridge Gold

The British Columbia Technical and Research Committee on Reclamation (TRCR) has announced the winners of the this year’s BC mine reclamation awards. These awards were presented at the TRCR’s 45th annual Mine Reclamation Symposium on Wednesday evening.


Taking home the Jake McDonald annual mine reclamation award is Seabridge Gold, which was recognized for its work at the past-producing Johnny Mountain gold mine that operated in the late 1980s. The work is part of the company’s C$12 million environmental and reclamation program that it is voluntarily undertaking with the Tahltan Nation at the 100%-owned Iskut project in northwest BC.

“Seabridge Gold has shown great leadership in its ongoing efforts to reclaim an inherited site with a high level of indigenous nation support and involvement,“ says Tim Antill, outgoing chair of the TRCR and chair of the awards subcommittee.

Since acquiring Snip Gold and its mineral tenures that included the former Johnny Mountain mine in 2016, Seabridge Gold has worked to return disturbed lands and anthropogenic landforms to their original land use and capability of alpine tundra wildlife habitat.

The environmental and reclamation activities completed at the Johnny Mountain mine were recognized because of the timely implementation of the site activities, and for the company’s commitment to work with indigenous partners to ensure all site environmental and reclamation activities, which are on the traditional territory of the Tahltan Nation, have both Indigenous input and approval.

“It’s a great honour to be recognized with the prestigious Jake McDonald annual mine reclamation award, which further validates our reputation as a ‘responsible operator’ and our commitment to protect the environment,” said Rudi Fronk, Seabridge Gold’s chair and CEO.

Seabridge is expected to complete the full reclamation and closure of the Johnny Mountain mine site in 2025.

The metal mining category award was given to Copper Mountain Mining for its channel realignment of Wolfe Creek and implementation of fish habitat offsetting sites consisting of five components to improve fish productivity and one site to improve fish passage.

In 2019, Copper Mountain initiated work to realign a section of Wolfe Creek around its flagship mine in southern BC near the town of Princeton. The company also developed plan to a provide a new higher quality fish habitat to offset a portion of the creek that was fish-bearing. The reclamation work consisted of soil applications, seeding and planting trees and shrubs. In 2021, an initial effectiveness evaluation was conducted and indicated that the habitat suitability index values were above average to excellent.

Concurrent with the industry recognition for its reclamation work, Copper Mountain has also formalized its sustainability initiatives dating back to its inception by releasing the company’s inaugural environmental, social and governance (ESG) report.

The coal mining category award went to Teck Resources for its unique approach to assessing baseline environmental conditions, developing ecosystem and habitat models using historic and current geospatial data, and ongoing reclamation monitoring.

The Tony Milligan book award was presented to Jeff Anderson, Melissa Iverson and Ben Pearse of Integral Ecology Group for its paper, “Applications for remote sensing by unmanned aerial vehicles in reclamation monitoring,” presented online at last year’s Mine Reclamation Symposium.
Baffinland gets nod from Nunavut board to extend Mary River operation until year-end

Cecilia Jamasmie | September 23, 2022 

Mary River iron ore mine site on Baffin Island, Nunavut, Canada, (Image courtesy of Baffinland Iron Mines.)

Baffinland Iron Mines has received a positive recommendation from the Nunavut Impact Review Board (NIRB) to temporarily increase production at its Mary River iron ore mine in Canada’s Nunavut territory to 6 million tonnes through to the end of the year.


The decision, the company said, could help it keep the mine viable and save more than 1,100 jobs off the chopping block this fall.

Northern Affairs Minister Dan Vandal, however, has the final word and there hasn’t been any information on when that decision will come.


“Out of care and concern for the livelihoods of our employees and their families, we are delaying the issuance of termination notices until October 20th, which is the outside date the minister’s office has indicated it will be able to respond to the NIRB recommendation,” the company said.

While Baffinland is pleased about the NIRB’s decision, it is urging the minister to approve the production increase for the rest of the year.

Vandal is also still considering whether to approve Mary River’s Phase 2, which proposes a railway to Milne Inlet, as well as an increase in allowed shipments to 12 tonnes of iron ore a year, with eventual plans to increase that amount. The NIRB earlier rejected that plan.

Expansion detractors have argued for months that expanding the mine’s capacity would affect the world’s densest narwhal population.

Narwhals are a type of whale with a long, spear-like tusk that protrudes from its head. The marine mammal is an important predator in Eclipse Sound and other Arctic waters, as well a major food source for Inuit in the region.

Last year, a group of hunters from Arctic Bay and Pond Inlet blocked access to the mine in protest of the company’s ice breaking practices due to their negative impacts on narwhals. The company agreed to avoid ice breaking in spring, based on “the precautionary principle that is the foundation of our adaptive management plan,” Baffinland’s CEO said in a statement at the time.
Synthetic rocks shed light on how REEs are formed
Staff Writer | September 25, 2022 

A selection of some of the rare earth artificial rocks produced. 
(Image courtesy of Trinity College Dublin).

Researchers from Trinity College Dublin have shed new light on the formation of rare earth elements by creating synthetic rocks and testing their responses to varying environmental conditions.


In a paper published in the journal Global Challenges, the scientists point out that their findings have implications for recycling REEs from electronic waste, designing materials with advanced functional properties, and even for sourcing new REE deposits hidden around the globe.

“As both the global population and the fight against carbon emissions grow in the wake of global climate change, the demand for REEs simultaneously increases, which is why this research is so important. By growing our understanding of REE formation, we hope to pave the way to a more sustainable future,” head researcher Juan Diego Rodriguez-Blanco said in a media statement.

According to Rodriguez-Blanco, the genesis of rare earth deposits is one of the most complex problems in earth sciences. However, he believes his team’s approach is shedding new light on the mechanisms by which rocks containing rare earths form. This knowledge is critical for the energy transition, as rare earths are key manufacturing ingredients in the renewable energy economy.

The researcher noted that the new study has revealed that fluids containing REEs replace common limestone—and this happens via complex reactions even at ambient temperature. Some of these reactions are extremely fast, taking place at the same time it takes to brew a cup of coffee.

This knowledge allowed the team to better understand the basic mineral reactions that are also involved in industrial separation processes, which will help improve extraction methods and separate REEs from fluids.

Since the team’s primary goal is to understand the complex processes of REE-carbonate deposit formation, they decided to synthesize their own minerals and rare earth carbonate rocks (similar to bastnasite, the critical mineral from which REEs can be extracted from carbonatite rocks). This, instead of studying natural samples.

Once they’ve completed the synthesis process, they then mimic natural reactions to learn how REE mineralizations form.

This also allows them to assess how changes in the main environmental factors promote their formation. Such knowledge, in turn, can help inform on the origin of mineralizations on untapped carbonatite resources, which are not only in China – the supplier of 60% of the global REEs need – but also in other areas of the world, such as Brazil, Australia, the US, India, Vietnam, South Africa and Greenland.

“As REEs are playing a critical role in a technology-filled and sustainable future, it is necessary to understand the behaviour of REEs in the geochemical cycle and in basic chemical reactions,” Adrienn Maria Szucs, lead author of this study, said.
Artisanal miners’ protests in Colombia hacked by looters
Staff Writer | September 25, 2022 | 

Blockade in Colombia’s Antioquia department.
 (Image by Antioquia’s Governor Aníbal Gaviria Correa, Twitter.)

A series of protest actions led by small-scale miners in Colombia’s northwestern Antioquia department since September 21 turned violent by the end of the week as people not linked to the protests, used the blockades as an excuse to ransack 30 cargo vehicles carrying food and other consumer products.


According to local media, the first protest took place between the towns of Cáceres and Caucasia, where some 200 miners were demanding to meet with local and regional authorities. They wanted to negotiate an agreement that allowed them to work without being harassed by the police.

The artisanal miners say authorities tend to persecute them and destroy the machinery they use to extract gold from nearby deposits.

The ongoing blockades, however, have been hacked by third parties who not only have looted cargo trucks passing by, but have also caused damages to the vehicles and, in some cases, hurt the drivers.

The Freight Forwarders Association also told local media that economic losses caused by these incidents add up to over $20 million, as out of the 350,000 tons of products transported by the intercepted trucks, 2,000 tons of perishable and 1,000 tons of non-perishable products were lost.

Following the looting, the association that gathers artisanal miners in Cáceres issued a statement condemning the violence and distancing themselves from the riotous actions.
CHILE
Los Pelambres union urges workers to support strike action

Valentina Ruiz Leotaud | September 25, 2022 | 

Contract negotiations between Antofagasta and Los Pelambres union.
 (Image by the Board of Supervisors of the Los Pelambres Union.)

The union at Antofagasta’s (LON: ANTO) Los Pelambres copper mine in Chile has rejected the company’s most recent contract offer and launched a strike threat.


In a media statement, the Board of the Supervisors Union of Los Pelambres said that even though at first glance the company’s proposal seems attractive, it doesn’t include all the demands presented by the workers and is far from what was expected by both leadership and union members.

“The company’s offer does not recognize or compensate us at the same level as our colleagues from the other AMSA [Antofagasta Minerals] companies and from the industry, despite the fact that Pelambres is the largest contributor to the group in terms of production, profits and profitability (52%). Under these circumstances, as directors, we take a specific position: reject the latest offer and, at the same time, call our bases to vote for the strike on September 29 and 30,” the commiuniqué reads.

The union leadership urged workers to join the general assemblies taking place the last week of September, read the company’s offer in detail and become informed on how to vote in favour of the strike.

It is still uncertain how a stoppage at Los Pelambres would affect Antofagasta’s full-year copper production. However, the company had already announced, back in June, that it was likely to reach only the lower end of its previous guidance of 660-690,000 tonnes, following a series of community-led blockades and protests in the High Valley of Salamanca.
WORD OF THE DAY: Phytoremediation 
Southern cattail highly effective for rehabilitation of areas affected by iron mine tailings

Staff Writer | September 26, 2022 |

Phytoremediation involves the use of plants to extract and remove elemental pollutants or lower their bioavailability in soil. 
(Image by Amanda Duim Ferreira, courtesy of FAPESP).

A recent study conducted by Brazilian researchers and reported on by the São Paulo Research Foundation demonstrated the potential of Southern cattail for use in the sustainable rehabilitation of areas affected by iron ore mine tailings.


In a paper published in the Journal of Cleaner Production, the researchers explain that their experiments showed that the plant can scavenge up to 34 times more manganese from contaminated soil than other plants found in similar environments.

Typha domingensis or Southern cattail is a reedy marsh plant that inhabits fresh to slightly brackish waters and is about 2.5 m tall.


The analysis performed by the researchers showed the amount of manganese to correspond to 6,858 milligrams per kilogram (mg/kg) in the plant’s shoots, compared with an average of 200 mg/kg for other species.

The fieldwork was conducted in Regência on the Doce River estuary, Espírito Santo state, an area inundated by part of the 50 million cubic meters of iron mining waste released when the Fundão tailings dam burst in November 2015 in the locality of Mariana, Minas Gerais (a neighbouring state to Espírito Santo), causing the worst environmental disaster in Brazilian history.


The disaster affected 41 towns in Minas Gerais and Espírito Santo, and 19 people died. The toxic waste reached the estuary some two weeks later and is estimated to have contaminated 240.8 hectares of Atlantic Rainforest and killed 14 metric tons of fish.

Many projects and programs have been launched since then to try to mitigate the damage, but the estuary is still contaminated.

The study showed that the plants in the estuary extracted 147 metric tons of manganese, or 75.7 tons per hectare (t/ha).

An earlier study conducted in the same area showed that the same plants removed larger amounts of iron from contaminated soil and water than Hibiscus tiliaceus, a 4–10 m tree with yellow flowers often called beach hibiscus.

“We’ve been working on the Doce since 2015 and have achieved a good grasp of the geochemical dynamics of several metals contained in the tailings, such as iron, manganese and other potentially toxic elements,” Tiago Osório Ferreira, senior author of both articles, said in a media statement.

“This gives us the opportunity for progress in planning more effective remediation strategies for these contaminated areas. The knowledge built up in these studies will be used not only to rehabilitate degraded areas but also to formulate agromining strategies as a contribution to more sustainable mining.”

Phytoremediation and agromining


Phytoremediation involves the use of plants to extract and remove elemental pollutants or lower their bioavailability in soil. Agromining consists of growing plants capable of storing metals in their roots and leaves in order to extract these metals for industrial use.

“We knew from research by others that manganese is a problem in the region, contaminating the water, soil and fish. When we went to the area affected by iron ore tailings, we expected to find that T. domingensis and Eleocharis acutangula [acute spikerush] accumulated more manganese than H. tiliaceus, a tree species found in the area, but the results showed that T. domingensis can accumulate 13 times more manganese in its aerial parts than the other two species.

The process had less impact via root iron plaque [a form of physiological adaptation whereby iron oxide precipitates to form iron plaque on the surface of the plant’s roots],” said Amanda Duim Ferreira, first author of both articles.

According to the latest study, T. domingensis accumulated 18 mg/kg in roots and 55 mg/kg in iron plaque.

Plants adapted to wetland environments capture oxygen from the atmosphere via their aerial parts and transfer it to the roots via porous tissue called aerenchyma. This oxygenation maintains the root system, which is responsible for anchorage as well as the ingestion of water and mineral salts.

Absorption of organic matter by plants favours the dissolution of manganese oxide, and the release of protons can trigger the dissolution of manganese carbonate. On the other hand, aquatic plants can also oxidize their rhizosphere (the zone surrounding plant roots where soil biology and chemistry are influenced by the roots) owing to the internal transport of oxygen to the roots to avoid hypoxia. This process can reduce the bioavailability of manganese.

The measurement

The researchers measured the soil’s physicochemical parameters (rhizosphere pH, bulk soil pH and redox potential) as well as total carbon organic content. They also extracted manganese from the soil under sites naturally vegetated by the three plant species and performed geochemical fractionation of manganese in the soils studied.

Manganese levels were measured in the plants’ roots, aerial portion and iron plaques. Bioconcentration and translocation factors were determined to estimate their capacity to act as hyperaccumulators of manganese and their potential use in phytoremediation programs.

“These discoveries open up a range of possibilities for the use of phytoremediation. Knowledge of absorption mechanisms can be a basis for growing T. domingensis via different strategies to obtain optimal results. We’ve moved on from phytoremediation to agromining as we continue this research,” Osório Ferreira said.
Transparency International urges EU sanctions on Russian diamonds, Alrosa

Reuters | September 26, 2022 |

Russian diamonds. (Image by Ptukhina Natasha, Wikimedia Commons.)

The European Union should bar Russian diamond imports and blacklist diamond miner Alrosa and its head Sergei Ivanov, Transparency International told Reuters on Monday, as the 27-nation bloc prepares new sanctions over Russia’s war in Ukraine.


Galvanized by Russian President Vladimir Putin announcing a partial military mobilization and issuing a thinly veiled nuclear threat to the West, EU countries were quick to say last week that they will respond with new sanctions.


Two diplomatic sources, however, told Reuters on Monday the process would take time as the 27 EU countries need to agree unanimously in order to impose sanctions.

The bloc’s executive European Commission is expected to make a formal proposal on that in the coming days and it might get final approval from the 27 national EU leaders meeting in Prague on Oct. 6-7.

Highlighting how fragile EU unity is on Russia, Hungary’s Prime Minister Viktor Orban – who had cultivated a close relationship with Putin – spoke against such sanctions on Monday.

Those in the bloc who take a hawkish view of Russia, such as Poland and the Baltic states, have proposed introducing a cap on the oil price paid to Russia to match a G7 agreement, banning imports of Russian diamonds and imposing wider export restrictions covering technical equipment and other areas.

More sanctions on individuals – including those involved in organizing Moscow’s ad hoc votes in occupied east Ukraine on joining Russia – are also expected.

Transparency International said that, beyond the diamond embargo, Russia’s state-controlled Alrosa – the world’s largest producer of rough diamonds – and its CEO Sergei Ivanov should be added to the EU’s blacklist, which includes 108 entities and 1,206 individuals.

“This sectoral ban needs to be extended for the assets of Alrosa,” said Transparency International’s Roland Papp. “Targeting them would be a logical next step.”

“Ivanov himself is closely linked with the Kremlin, he is already sanctioned by the USA, so it would be time to include him on the EU sanctions list as well.”

The United States has sanctions in place on Alrosa, while Britain has blacklisted Ivanov.

(By Gabriela Baczynska; Editing by Hugh Lawson)