Saturday, December 25, 2021

What is green hydrogen and why do we need it? An expert explains



Green Hydrogen might be the fuel of the future

Image: REUTERS/ Jane Barlow
21 Dec 2021
Abhinav Chugh
Acting Content and Partnerships Lead,
 World Economic Forum
Head of the Power Sector Transformation Strategies, 
International Renewable Energy Agency


The world's progress on transitioning to sustainable energy has stalled. Here’s how to fix it.


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Hydrogen

Explore the latest strategic trends, research and analysis

Green hydrogen could be a critical enabler of the global transition to sustainable energy and net zero emissions economies.

There is unprecedented momentum around the world to fulfil hydrogen’s longstanding potential as a clean energy solution.

Dr Emanuele Taibi lays out where things with hydrogen stand now and how it can help to achieve a clean, secure and affordable energy future.

The time is right to tap into hydrogen’s potential to play a key role in tackling critical energy challenges. The recent successes of renewable energy technologies and electric vehicles have shown that policy and technology innovation have the power to build global clean energy industries.

Hydrogen is emerging as one of the leading options for storing energy from renewables with hydrogen-based fuels potentially transporting energy from renewables over long distances – from regions with abundant energy resources, to energy-hungry areas thousands of kilometers away.

Green hydrogen featured in a number of emissions reduction pledges at the UN Climate Conference, COP26, as a means to decarbonize heavy industry, long haul freight, shipping, and aviation. Governments and industry have both acknowledged hydrogen as an important pillar of a net zero economy.

The Green Hydrogen Catapult, a United Nations initiative to bring down the cost of green hydrogen announced that it is almost doubling its goal for green electrolysers from 25 gigawatts set last year, to 45 gigawatts by 2027. The European Commission has adopted a set of legislative proposals to decarbonize the EU gas market by facilitating the uptake of renewable and low carbon gases, including hydrogen, and to ensure energy security for all citizens in Europe. The United Arab Emirates is also raising ambition, with the country’s new hydrogen strategy aiming to hold a fourth of the global low-carbon hydrogen market by 2030 and Japan recently announced it will invest $3.4 billion from its green innovation fund to accelerate research and development and promotion of hydrogen use over the next 10 years.

You might encounter the terms ‘grey’, ‘blue’, ‘green’ being associated when describing hydrogen technologies. It all comes down to the way it is produced. Hydrogen emits only water when burned but creating it can be carbon intensive. Depending on production methods, hydrogen can be grey, blue or green – and sometimes even pink, yellow or turquoise. However, green hydrogen is the only type produced in a climate-neutral manner making it critical to reach net zero by 2050.

We asked Dr Emanuele Taibi, Head of the Power Sector Transformation Strategies, International Renewable Energy Agency (IRENA) to explain what green hydrogen is and how it could pave the way towards net zero emissions. He is currently based with the IRENA Innovation and Technology Center in Bonn, Germany, where he is responsible for assisting Member Countries in devising strategies for the transformation of the power sector, and currently managing the work on power system flexibility, hydrogen and storage as key enablers for the energy transition. Dr Taibi is also a co curator for the World Economic Forum’s Strategic Intelligence platform, where his team developed the transformation map on Hydrogen.

Green hydrogen technologies


What motivated you to develop your expertise in energy technologies and how does your work at IRENA contribute to it?


It was during my Master’s thesis. I did an internship in the Italian National Agency for Energy and Environment (ENEA), where I learnt about sustainable development and energy, and the nexus between the two. I wrote my thesis in management engineering about it and decided this was the area where I wanted to focus my working life. Fast forward almost 20 years of experience in energy and international cooperation, a PhD in Energy Technology and time spent in private sector, research and intergovernmental agencies, I currently lead the power sector transformation team at IRENA since 2017.


My work at IRENA is to contribute, with my team and in close cooperation with colleagues across the agency and external partners such as the World Economic Forum, in supporting our 166 Member Countries in the energy transition, with a focus on renewable electricity supply and its use to decarbonize the energy sector through green electrons as well as green molecules like hydrogen and its derivatives.


What is green hydrogen? How does it differ from traditional emissions-intensive ‘grey’ hydrogen and blue hydrogen?


Hydrogen is the simplest and smallest element in the periodic table. No matter how it is produced, it ends up with the same carbon-free molecule. However, the pathways to produce it are very diverse, and so are the emissions of greenhouse gases like carbon dioxide (CO2) and methane (CH4).


Green hydrogen is defined as hydrogen produced by splitting water into hydrogen and oxygen using renewable electricity. This is a very different pathway compared to both grey and blue.


Grey hydrogen is traditionally produced from methane (CH4), split with steam into CO2 – the main culprit for climate change – and H2, hydrogen. Grey hydrogen has increasingly been produced also from coal, with significantly higher CO2 emissions per unit of hydrogen produced, so much that is often called brown or black hydrogen instead of grey. It is produced at industrial scale today, with associated emissions comparable to the combined emissions of UK and Indonesia. It has no energy transition value, quite the opposite.


Blue hydrogen follows the same process as grey, with the additional technologies necessary to capture the CO2 produced when hydrogen is split from methane (or from coal) and store it for long term. It is not one colour but rather a very broad gradation, as not 100% of the CO2 produced can be captured, and not all means of storing it are equally effective in the long term. The main point is that capturing large part of the CO2, the climate impact of hydrogen production can be reduced significantly.

Depending on production methods, hydrogen can be grey, blue or green – and sometimes even pink, yellow or turquoise
Image: International Renewable Energy Agency


There are technologies (i.e. methane pyrolysis) that hold a promise for high capture rates (90-95%) and effective longterm storage of the CO2 in solid form, potentially so much better than blue that they deserve their own colour in the “hydrogen taxonomy rainbow”, turquoise hydrogen. However, methane pyrolysis is still at pilot stage, while green hydrogen is rapidly scaling up based on two key technologies - renewable power (in particular from solar PV and wind, but not only) and electrolysis.


Unlike renewable power, which is the cheapest source of electricity in most countries and region today, electrolysis for green hydrogen production needs to significantly scale-up and reduce its cost by at least three times over the next decade or two. However, unlike CCS and methane pyrolysis, electrolysis is commercially available today and can be procured from multiple international suppliers right now.
Green hydrogen energy solutions


What are the merits of energy transition solutions towards a ‘green’ hydrogen economy? How could we transition to a green hydrogen economy from where we are currently with grey hydrogen?


Green hydrogen is an important piece of the energy transition. It is not the next immediate step, as we first need to further accelerate the deployment of renewable electricity to decarbonize existing power systems, accelerate electrification of the energy sector to leverage low-cost renewable electricity, before finally decarbonize sectors that are difficult to electrify – like heavy industry, shipping and aviation – through green hydrogen.


It is important to note that today we produce significant amount of grey hydrogen, with high CO2 (and methane) emissions: priority would be to start decarbonizing existing hydrogen demand, for example by replacing ammonia from natural gas with green ammonia.


Recent studies have sparked a debate about the concept of blue hydrogen as a transition fuel till green hydrogen becomes cost-competitive. How would green hydrogen become cost competitive vis-à-vis blue hydrogen? What sort of strategic investments need to occur in the technology development process?


The first step is to provide a signal for blue hydrogen to replace grey, as without a price for emitting CO2, there is no business case for companies to invest in complex and costly carbon capture system (CCS) and geological storages of CO2. Once the framework is such that low-carbon hydrogen (blue, green, turquoise) is competitive with grey hydrogen, then the question becomes: should we invest in CCS if the risk is to have stranded assets, and how soon will green become cheaper than blue.


The answer will of course differ depending on the region. In a net zero world, an objective that more and more countries are committing to, the remaining emissions from blue hydrogen would have to be offset with negative emissions. This will come at a cost. In parallel, gas prices have been very volatile lately, leaving blue hydrogen price highly correlated to gas price, and exposed not only to CO2 price uncertainty, but also to natural gas price volatility.


For green hydrogen, however, we might witness a similar story to that of solar PV. It is capital intensive, therefore we need to reduce investment cost as well as the cost of investment, through scaling up manufacturing of renewable technologies and electrolysers, while creating a low-risk offtake to reduce the cost of capital for green hydrogen investments. This will lead to a stable, decreasing cost of green hydrogen, as opposed to a volatile and potentially increasing cost of blue hydrogen.


Renewable energy technologies reached a level of maturity already today that allows competitive renewable electricity generation all around the world, a prerequisite for competitive green hydrogen production. Electrolysers though are still deployed at very small scale, needing a scale up of three orders of magnitude in the next three decades to reduce their cost threefold.


Today the pipeline for green hydrogen projects is on track for a halving of electrolyser cost before 2030. This, combined with large projects located where the best renewable resources are, can lead to competitive green hydrogen to be available at scale in the next 5-10 years. This does not leave much time for blue hydrogen – still at pilot stage today – to scale up from pilot to commercial scale, deploy complex projects (e.g. the longterm geological CO2 storage) at commercial scale and competitive cost, and recover the investments made in the next 10-15 years.


Several governments have now included hydrogen fuel technologies in their national strategies. Given the rising demands to transition towards decarbonization of the economy and enabling technologies with higher carbon capture rates, what would be your advice to policymakers and decisionmakers who are evaluating the pros and cons of green hydrogen?


We will need green hydrogen to reach net zero emissions, in particular for industry, shipping and aviation. However, what we need most urgently is:


1) energy efficiency;


2) electrification;


3) accelerated growth of renewable power generation.


Once this is achieved, we are left with ca. 40% of demand to be decarbonised, and this is where we need green hydrogen, modern bioenergy and direct use of renewables. Once we further scale up renewable power to decarbonise electricity, we will be in a position to further expand renewable power capacity to produce competitive green hydrogen and decarbonise hard-to-abate sectors at minimal extra cost.

How green hydrogen can be produced, converted and used across the energy system.
Image: International Renewable Energy Agency
The future of green hydrogen


Where do you see energy technologies relating to hydrogen evolving by 2030? Could we anticipate hydrogen-powered commercial vehicles?


We see the opportunity for rapid uptake of green hydrogen in the next decade where hydrogen demand already exists: decarbonising ammonia, iron and other existing commodities. Many industrial processes that use hydrogen can replace grey with green or blue, provided CO2 is adequately priced or other mechanisms for the decarbonisation of those sectors are put in place.


For shipping and aviation, the situation is slightly different. Drop-in fuels, based on green hydrogen but essentially identical to jet fuel and methanol produced from oil, can be used in existing planes and ships, with minimal to no adjustments. However, those fuels contain CO2, which has to be captured from somewhere and added to the hydrogen, to be released again during combustion: this reduces but does not solve the problem of CO2 emissions. Synthetic fuels can be deployed before 2030, if the right incentives are in place to justify the extra cost of reduced (not eliminated) emissions.


In the coming years, ships can switch to green ammonia, a fuel produced from green hydrogen and nitrogen from the air, which does not contain CO2, but investments will be needed to replace engines and tanks, and green ammonia is currently much more expensive than fuel oil.


Hydrogen (or ammonia) planes are further away, and these will be essentially new planes that have to be designed, built and sold to airlines to replace existing jet-fuel-powered planes – clearly not feasible by 2030: in this sense, green jet fuel – produced with a combination of green hydrogen and sustainable bioenergy – is a solutions that can be deployed in the near term.


In conclusion, the main actions to accelerate decarbonisation between now and 2030 are 1) energy efficiency 2) electrification with renewables 3) rapid acceleration of renewable power generation (which will further reduce the already low cost of renewable electricity) 4) scale up of sustainable, modern bioenergy, needed - among others - to produce green fuels that require CO2 5) decarbonisation of grey hydrogen with green hydrogen, which would bring scale and reduce the cost of electrolysis, making green hydrogen competitive and ready for a further scale up in the 2030s, towards the objective of reaching net zero emissions by 2050.


The World Economic Forum is a longstanding supporter of the clean hydrogen agenda since 2017, having helped -inter alia- with the creation of the Hydrogen Council, the establishment of a hydrogen Innovation Challenge in partnership with Mission Innovation, and the creation, together with the Energy Transitions Commission, of the Mission Possible platform to help transition hard-to-abate sectors to net zero emissions by 2050. Read more on the Accelerating Clean Hydrogen Initiative here.
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Written by

Abhinav Chugh, Acting Content and Partnerships Lead, World Economic Forum

Emanuele Taibi, Head of the Power Sector Transformation Strategies, International Renewable Energy Agency

The views expressed in this article are those of the author alone and not the World Economic Forum.





CleanTechnica
~0.03% Of Hydrogen Is Green Hydrogen




CLEAN POWER
By Zachary Shahan
Published3 days ago

It seems that 95% of headlines and stories about hydrogen focus on green hydrogen, yet green hydrogen is barely present here on planet Earth. So, how much of a disservice is being done to society by all of these headlines and articles implying that hydrogen is clean?

When Mike Barnard interviewed Paul Martin for CleanTech Talk a few months ago, one stat caught my attention above all else — that 0.1% of global hydrogen production came from “green hydrogen” (hydrogen produced by splitting water using electricity produced by clean, renewable power). The focus of their discussion was the “Hydrogen Ladder.” (Read about part one and part two for more commentary, or listen to the podcasts — embedded below.)

While I knew that “green hydrogen” was mostly hype, small science projects, and a dream for the future, I didn’t realize it was just 0.1% of global hydrogen production. That stunningly low figure makes the hydrogen hype all the more irritating. You can listen to the full, super informative interview here:

Looking around the internet (thanks, Google), I couldn’t find much reference to this figure of 0.1% (or actually less than 0.1%) of global hydrogen production being green hydrogen production (ugh, Google). I did find a CNBC article from a year ago citing an International Energy Agency (IEA) report and saying, “less than 0.1% of hydrogen today is produced through water electrolysis.” That led me to this report from June 2019. It stated, “While less than 0.1% of global dedicated hydrogen production today comes from water electrolysis, with declining costs for renewable electricity, in particular from solar PV and wind, there is growing interest in electrolytic hydrogen.” Ah, yes, interest.

Luckily, Google did swiftly show me that there’s an updated report published in October 2021 and revised in November 2021, Global Hydrogen Review 2021. So, with all of this interest in green hydrogen in the past few years, where are we at?

The new report indicates that “water electrolysis made up ~0.03%” of global hydrogen production last year. That’s right — not even 0.3%, but a lowly 0.03%! It doesn’t show up on a pie chart of hydrogen sources, of course. (See image at top.) Nonetheless, headline after headline is about “green hydrogen.” Is the hype around green hydrogen doing more damage than good, or is it spurring on a yet-to-sprout green industry?

If you want to count carbon capture, utilization, and storage (CCUS), it provided another 0.7% of global hydrogen supply in 2020. However, that’s from 16 fossil fuel plants, and the CCUS components of the plants are surely heavily subsidized and are quite expensive methods of getting hydrogen. Many experts argue this can never be cost-competitive.

At the end of the day, the following chart shows three things: “green hydrogen” expectations from projects under construction or planned, the amount of it that is in country pledges by 2030, and the amount needed for an IEA net zero emissions scenario.



As it stands, despite all of the hype, the green hydrogen market is looking a bit anemic, and the 2030 projections based on plans or even pledges are not where the world needs it to be. Green hydrogen proponents will say that means that more money needs to be tossed at green hydrogen. Critics will say that we are throwing our money away on many of these green hydrogen projects and programs, money that could be used to fund more capital-efficient decarbonization tech.

The two bottom lines of this matter, in my opinion, are: 1) any funding for green hydrogen needs to be focused on solutions that have a serious chance at becoming cost competitive and thus truly useful in the effort to decarbonize, and 2) any coverage of green hydrogen needs to put this industry in context, should explain where 99.97% of hydrogen comes from, and should at least bring to mind why it is that fossil fuel companies are so keen on hyping the green hydrogen dream.
 CleanTechnica.com


Namibia eyeing emerging market for green hydrogen: WSJ



https://arab.news/nqvz4
Updated 25 December 2021
ARAB NEWS

RIYADH: Namibia is one of many countries seeking to cash in on the green energy rush and it is positioning itself as a leader in the emerging market for green hydrogen, The Wall Street Journal reported.

Many experts agree that “green” hydrogen, a carbon-friendly nontoxic gas produced using renewable energy, can play a significant role in achieving a green gas-neutral economy by 2050, helping to combat global warming.

The southwest African nation is already “putting up to €40 million ($45.3 million) from Germany to use on on feasibility studies and pilot projects related to so-called green hydrogen.”

“Germany’s government says Namibia’s natural advantages could help it produce the world’s cheapest green hydrogen — a crucial ingredient in policies hoping to cut carbon emissions to the net-zero benchmark by 2050,” the WSJ reported.

“The list is quite short of those new potential large renewable capable countries and Namibia is there,” the reported quoted Noel Tomnay, global head of hydrogen consulting at Wood Mackenzie, as saying. But he also pointed to significant challenges. “Infrastructure, suitable water and just the uncertainty associated with someone who’s not been doing that in the past on a large scale,” he said.

According to the report, several global players expressed interest after Namibia’s government put out a request for proposals to develop two separate but adjacent sites, where it envisions massive desalination plants.

The sites would also include wind and solar farms as well as electrolysers — systems that use electricity to split water into hydrogen and oxygen—which would be used to produce green hydrogen and ammonia for export.

Namibia received nine bids from six developers for the two sites, including South Africa’s Sasol Ltd., Australia’s Fortescue Metals Group Ltd. and Germany’s Enertrag AG—a shareholder in Hyphen Hydrogen Energy (Pty) Ltd., which has been awarded both sites.

In the global race for green hydrogen, Namibia is the latest sub-Saharan African country with major natural assets to position itself as a potential green energy hub.

The Hydrogen Stream: Storing hydrogen in offshore caverns

The European Commission has approved, under EU state aid rules, a €900 million German scheme to support investment in the production of renewable hydrogen in non-EU countries, which will be then imported to the EU. “The scheme, called H2Global, aims at meeting the EU demand for renewable hydrogen that is expected to significantly increase in the coming years, by supporting the development of the unexploited renewable resource potential outside the EU,” wrote the commission yesterday. The ten-year project will be managed by special-purpose entity Hint.co. “This intermediary will conclude long-term purchase contracts on the supply side ([for] green hydrogen production) and short-term resale contracts on the demand side (green hydrogen usage),” said the commission. Prices will be determined via a double-auction model, where the lowest bid price for hydrogen production and the highest selling price for hydrogen consumption will each be awarded contracts.

Spanish company H2B2 Electrolysis Technologies is developing a project to generate up to 1,000kg per day of solar-powered emission-free hydrogen in California. The SoHyCal project, in Fresno County, consists of the construction, financing and operation of a renewable hydrogen production plant using polymer electrolyte membrane (PEM) technology, and with a nameplate capacity of up to 3,000kg per day.

The government of Western Australia is backing its hydrogen industry with three projects set to receive support from its lead agency services. Province Resources' HyEnergy Project will harness 8 GW of solar and wind power generation capacity to produce around 550,000 tons of hydrogen per year. The Murchison Hydrogen Renewables facility will use solar and wind to produce 5.2 GW of electricity to power the production of hydrogen which will be converted into 2 million tons of green ammonia annually. It is expected InterContinental Energy's Western Green Energy Hub will use up to 50 GW of solar and wind capacity to produce up to 3.5 million tons of hydrogen or 20 million tons of green ammonia per year.

Hydrogen-powered equipment was mentioned as part of Hyundai Construction Equipment‘s plan to invest €150 million into its Ulsan production plant, in South Korea, to increase capacity by 50% to more than 15,000 machines per year. “The move will support Hyundai’s growing presence in the booming global construction equipment market while providing a manufacturing base for a new generation of electric and hydrogen-powered equipment,” the company wrote yesterday.

Sweden has shown it has the potential to become a pioneer in green steel production, according to a note released today by U.S.-owned analyst Wood Mackenzie. The Nordic nation produces 3.2% of the crude steel made in the EU and U.K. Sweden's steelmakers expected to bank on the cost reductions offered by alkaline electrolysis technology, as well as benefiting from the declining cost of renewables and rising carbon prices, according to WoodMac. “At a levelized cost of electricity at $30/MWh, wind power is a highly economical source of power generation in Sweden today,” wrote the analyst. “Further cost reductions are expected, with better financing structures for onshore wind, lower capex [capital expenditure levels] for onshore and offshore installations, technological optimization for asset management, and state support for offshore grid infrastructure.” WoodMac added, the combination of hydrogen from alkaline electrolysis and energy from onshore wind is the most cost-effective option for green crude steel production in Sweden. “Assuming a carbon price of $100/ton, green steel producers could benefit from $85/ton of carbon credits,” wrote the analyst. “Better financing models for onshore wind and 48% lower capex for alkaline technology in 2025, yield [a] steel cost of $360-390/ton in carbon price scenarios ranging between $50/ton and $150/ton.”

This copy was amended on 21/12/21 to add details of the SoHyCal project.

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How one B.C. group, First Nations bought out trophy hunters

Buying out trophy hunters

Butchart Gardens, the slopes of Whistler, a wine-lover’s adventure through the Okanagan — these are some of the hot spots many tourists to British Columbia look to tick off on their way through YVR.

But for a select few, the province’s draw lies in its woods, broken highlands and rugged coastlines, a canvas to hook a 30-pound salmon or bag a huge diversity of big game.

“About 75 per cent of our clientele are international clients,” says Scott Ellis, CEO at the Guide Outfitters Association of British Columbia (GOABC), which represents between 60 to 70 per cent of the roughly 245 fishing and hunting outfitters in the province.

“We've got species of stone sheep and mountain goat you’ve got nowhere else. We’ve got three kinds of moose.”

As of 2017, GOABC says the industries brought in $192 million and employed about 2,500 people. When the pandemic hit, that business evaporated overnight, leaving fishing lodges and hunting guides to shut down or struggle on a trickle of dedicated hunters from places like Ontario.

According to government data, the 2020-21 season saw a more than a four-fold decline in the number of hunting licences issued to hunters from outside of B.C. In the biggest post-pandemic decline, the number of licences sold to non-residents to kill black bears fell 23-fold, dropping from 2,210 in the 2019-20 season to 96 last year.

Elsewhere across Canada, Dominic Dugre, president of the Canadian Federation of Outfitter Associations, says hunting guides have lost 99 per cent of their clients.

Desperate for a paycheque, many guides had moved into construction or the oil and gas industry. Business had climbed back up to 85 per cent in the fall and things looked up.

Then Omicron hit. Now many of the guides still operating are turning to offer their hunting cabins to clients more interested in snowshoeing, hiking or viewing wildlife, says Ellis.

“You don’t have any revenue for a year and a half, it’s pretty devastating for those folks,” he says.

For others, that pivot isn’t coming fast enough. The drop in foreign trophy hunters during the pandemic has offered a glimpse of a province where killing animals for sport is relegated to the past.

Most British Columbians agree. One 2015 survey found 91 per cent of B.C. residents opposed hunting animals for sport; another in 2017 found four in five Canadians supported an outright ban on trophy hunting.

In 2017, the province banned the grizzly trophy hunt, but left opponents questioning, what if another government overturns that decision?

A more pressing concern, say conservationists: the B.C. government has moved to defer old-growth logging, there remains no legal shield to protect roughly 60 species preferred by trophy hunters, such as black bears, wolverines, cougars and wolves.

Some B.C. First Nations run their own trophy hunting guide operations, while others, like the Coastal First Nations, argue that there is no good economic or ecological justification to kill animals for sport — a bear, they say, is worth far more alive than dead.

Over 500 kilometres from British Columbia’s biggest urban centres, where fjords butt up against the largest intact coastal temperate rainforest in the world, First Nations fought trophy hunters and won.

As B.C. looks to reset how it manages forests in the province, the victory against trophy hunting offers lessons for an alternative path: how to phase out an extractive industry and replace it with something that lasts. ?

BUYING THE RIGHT TO LIVE

One day over two decades ago, Brian Falconer remembers looking around and thinking, “I have nothing in common with these people.”

A former angling guide turned conservationist, in 2005, Falconer, along with other First Nations, began to have some “serious confrontations” with a guide outfitter who owned a trophy hunting tenure in the Great Bear Rainforest.

At the time, Falconer says there was “zero interest” in moving away from trophy hunting. The province charges less than $2,000 for a five-year commercial hunting guide licence. But the seemingly endless supply of rich foreign hunters willing to pay thousands of dollars for a single trip means the value of commercial hunting licences skyrocket.

Despite the financial incentive to hold on to the licences, hunting guides still had to put up with the people opposing them. “When are you going to leave us alone?” Falconer remembers the guide telling him.

At the time, Doug Neasloss, chief councillor of the Kitasoo/Xai’xais, had been working to build up an ecotourism industry in his community of Klemtu since the 1990s.

The First Nation’s 5,000 square kilometres of traditional territory extends deep into the Great Bear Rainforest, a place with a huge diversity of wildlife and the highest concentrations of spirit bears in the world.

The early years were bumpy. After the First Nation’s kayak guide business failed, Neasloss says they decided to focus on the bears.

People started coming from around the world to see them. But there was a problem. In the early 2000s, Neasloss says wildlife guides would keep running into gruesome signs of a trophy hunt: dead bears with no head, no fur and no paws, left to rot.

When they did see a live bear, Neasloss says they were so terrified of the hunters they would usually be running away into the bush.

That’s when Kitasoo/Xai’xais and Falconer’s organization, Raincoast Conservation Foundation, struck upon a solution. Why not buy out the hunting guides directly??

In 2005, the hunting outfitter agreed and Raincoast bought the commercial hunting rights to a 25,000-square-kilometre tract of land. Since then, they’ve purchased four more tenures, effectively ending trophy hunting in over 38,000 square kilometres of forest, an area larger than Vancouver Island.

Instead of bringing in hunters with long-barrel rifles to shoot bears, guides take visitors on boats, helicopters and into the forest wielding camera lenses and binoculars. Slowly, the animals learned to no longer fear the mere presence of humans, says Neasloss.

Evidence shows the strategy is paying off.

Since 2005, Falconer calculates more than 1,300 animals, including nearly 900 bears, have had their lives spared in the commercial hunting tenures they control. By 2030, the number of animals saved from a trophy hunt will soar to nearly 5,000, including second- and third-generation bears that would never be born were their parents killed.

“You’re literally buying the right not to kill these animals. You’re buying the lives of these animals to live every year,” says Falconer, who now works as Raincoast’s Guide Outfitter Coordinator.

REBUILDING A COMMUNITY

Long before he was chief, Neasloss was a guide. When he started in the 1990s, unemployment had soared to almost 90 per cent in Klemtu.

“There just wasn't a lot of opportunities here. We live on an island on the Central Coast, extremely isolated,” he says.

In a year Neasloss describes as “a dark time for our community,” Klemtu was devastated by a series of deaths. Suicide, he says, spread like a "contagious virus" taking many of the community's young people.

The community organized to make changes, but many were skeptical tourism would take them in a positive direction.

At one band meeting, people stood up and said they worried outsiders would come into the community, peering into people's windows, buying up all the food at the store and running the fuel station dry.

For a people who have bears embedded in their dance, stories, art and identity, the biggest question, says Neasloss, was “am I selling my culture?”

The community of Klemtu spent a lot of time deciding what was culturally appropriate to share with outsiders and what was off-limits.

In the decades since, Klemtu has seen significant change. One of its architectural showpieces, the Spirit Bear Lodge, is a modern take on a traditional longhouse overlooking the Great Bear Sea. From bedroom windows, visitors from around the world can spot humpback whales and otters before setting out to explore the First Nation’s territory.?

Tourist revenue started to double, growing from $100,000 annually to roughly $2.5 million in 2019. Jobs followed. The ecotourism operation has grown from a two-man operation to employing roughly 40 per cent of the community’s working population. Dozens more benefit from the outfit’s economic spin-offs, from the band store to boat operators and local artists.

Beyond a financial windfall, it’s given the people of Klemtu a chance to raise the next generation of stewards to look after their traditional territory and stay connected with their culture.

“They get paid to be themselves, they get paid to be Indigenous. They get paid to interpret who they are and where they're from, and share the culture with people from around the world,” says the chief.

A GROWING SOLUTION — WITH LIMITS

Beyond Klemtu, nine other Coastal First Nations — out of 204 total across B.C. — have entered into partnerships with Raincoast to manage their territories.

Falconer says his group can only buy out trophy hunting licences where there’s a willing buyer and he has support from First Nations. Ellis, meanwhile, says he supports any “willing seller, willing buyer” agreement.

First Nations’ roles are essential. Without them, there would be nobody to keep an eye on roaming trophy hunters, or regulate a permit system to limit the number of non-Indigenous tour guides operating in the territory.

“We don't want it to be overrun,” says Neasloss, whose nation offers 18 permits to sport fishing and ecotourism guides. “We don't want it to be like the Galapagos and we want to make sure it's sustainable.”

More than 400 kilometres down the coast at the southern end of the Great Bear Rainforest, the Homalco First Nation is the latest community to partner with the Raincoast Conservation Foundation.

Last month, the conservation group announced it was working to raise $1.92 million to purchase its sixth hunting tenure — this one at more than 18,000 square kilometres. If the sale goes through, First Nations and conservationists will have protected a piece of land bigger than the entire country of Costa Rica.

As Falconer put it at the time, “This is part of a just transition to a new economy.”

That “new economy” means Homalco tour operators have hosted a number of high-profile celebrities over the years, adding an even bigger draw for young people deciding what to do with their future.

“What the residential schools have done was the shaming around our culture and being First Nations,” says Homalco Chief Darren Blaney. “It takes that away and then it shows you there's people that value what our people knew — artisanal knowledge, how our people survived in the territory.”

With the rich and famous come big tips from such celebrities as Prince Edward, Microsoft's Bill Gates, and one of the guides' favourites, actor and comedian Chris Rock.

Studies carried out by Raincoast and First Nations have found an economy based on ecotourism generates 15 times more employment and 11 times more direct revenue than one based on trophy hunting. But relying on destination tourists also has its downside.

The flights, the lodging, the time — it all adds up, meaning many of those who can afford it are wealthy clients coming from Europe and Australia, or from the United States. A border closure that affects trophy hunters also affects wildlife guides in Klemtu and the Bute Inlet.

Guides haven't been idle. Kitasoo/Xai’xais operators have used the opportunity to help scientists determine how long a bear viewing group can stay and how big it can get before impacting the local ecosystem.

“A lot of that science is not out there in British Columbia, so we thought we'd take a lead on it and that gives us the information to be able to back up some of our management closures,” says Neasloss.

The two years downtime has also prompted Coastal First Nations, including the Kitasoo/Xai’xais, to remove hundreds of tonnes of trash in one of the largest beach cleanup operations in the province’s history.

And despite the pandemic, bear viewing tours are booked two years in advance with a full slate of visitors scheduled to arrive in Klemtu next spring. With the rise in Omicron cases, Neasloss says they still have another month before they have to start making decisions on delaying tours.

In the end, he says, “we’ll find ways to keep people employed.”?

'AN INCREMENTAL APPROACH'

Outside the pandemic, both communities are looking ahead to an even bigger transition, a carbon-neutral world. Klemtu already runs its own micro-hydropower generating station and a number of houses have been upgraded with heat pumps and solar panels.

But like any ecotourism operation relying on foreign visitors, mitigating emissions from international flights remains a big unanswered question. How do you build a business celebrating nature when clients are dumping thousands of litres of jet fuel emissions into the atmosphere to see you?

One solution is to turn to clients closer to home. While Neasloss and Blaney both say they’ve seen a growing number of Canadians join their tours, there’s still not a big enough pool of local people to replace international travellers.

For the Homalco, Blaney says removing trophy hunters from their territory needs to be seen for what it is — a cog in a system of government-regulated extractive industries that have long shut out First Nations.

In that light, partnering with Raincoast and working to build the high-end tourism infrastructure seen in Klemtu is part of what he calls “an incremental approach” to regain full control over its territory.

It's an understanding of a world where biodiversity loss and a warming global climate system cannot be separated. But neither can the people that keep watch over the land.

“We're gonna start saying ‘it’s our land,’” says Blaney. “You got to get ready for a new landlord.”

CORPORATE INTIMIDATION
Charges no longer proceeding against journalists arrested at B.C. pipeline protest



Fri., December 24, 2021

PRINCE GEORGE, B.C. — Charges are no longer being pursued against two journalists who were arrested last month while reporting on the RCMP's enforcement of an injunction at a pipeline construction site in northern British Columbia.

Documents filed with B.C. Supreme Court this week show the company building the Coastal GasLink pipeline filed notices to discontinue the proceedings against photojournalist Amber Bracken and documentary filmmaker Michael Toledano.

The pair had been charged with civil contempt of court and were conditionally released by a judge three days after they were arrested along with members of the Gidimt'en clan, who oppose the construction of the natural gas pipeline in Wet'suwet'en territory.

Bracken and Toledano are no longer required to appear in court in February or to comply with the terms of the injunction first granted in December 2019.

Opposition among Wet'suwet'en hereditary chiefs to the 670-kilometre pipeline sparked rallies and rail blockades across Canada last year, while the elected council of the Wet'suwet'en First Nation and others nearby have agreed to the project.

The pipeline would transport natural gas from Dawson Creek in northeastern B.C. to a processing facility in Kitimat.

It is more than halfway finished with almost all the route cleared and 200 kilometres of pipeline installed, Coastal GasLink has said.

This report by The Canadian Press was first published Dec. 24, 2021.

The Canadian Press
HE HAS A DIFFERENT VIEW
ONTARIO
Light show's solar system put back in order by seven-year-old stargazer


STRATFORD – It took a seven-year-old with a surprisingly expansive knowledge of our solar system to literally put the planets back in order for a holiday lights display here.

Author of the article: Galen Simmons
 • Stratford Beacon Herald
Publishing date:Dec 25, 2021 • 
Lights On Stratford general manager Kaileigh Krysztofiak, seven-year-old Jaxon Brooks and Destination Stratford executive director Zac Gribble point out the storm in Neptune's southern hemisphere that recently led Jaxon to realize Neptune and Uranus were out of order in the winter lights festival's Journey to the Stars exhibit on Tom Patterson Island. (Galen Simmons/the Beacon Herald)

STRATFORD – It took a seven-year-old with a surprisingly expansive knowledge of our solar system to literally put the planets back in order for a holiday lights display here.

On his first visit to the Lights On Stratford winter festival’s Journey to the Stars display on Tom Patterson Island, Jaxon Brooks noticed something wasn’t quite right with two of the planets.

“I just saw that Neptune was where Uranus was because it’s a darker shade than Uranus, so I instantly knew it was wrong,” Brooks said. “I’ve been learning (about planets) on my own since about 2020, I think.”

According to his mom, Kelsea Flood, Jaxon has been reading and re-reading a book about the solar system in bed every night for the past few years, which gave him an in-depth understanding of the physical details of each planet.

Since the lit-up planet balloons on Tom Patterson Island are about as detailed as they can be, it didn’t take long for Jaxon to recognize Neptune was out of order based on the characteristic dark spot in its southern hemisphere. On the actual planet, that spot is a massive spinning storm with wind speeds of up to 2,400 kilometres per hour – the highest recorded wind speeds ever recorded on any planet in the solar system.

So, after a quick Google search to convince his mom the planets were, in fact, misplaced, Flood messaged Destination Stratford executive director Zac Gribble to see if the mistake could be fixed.

“When we received the planet display, the planets were not labelled,” Gribble said. “After some debate, we figured out (what we thought) was the proper order from the Sun and we set it up. It turned out that it was a mistake on a planetary scale with the final two planets”

While more than 8,000 people walked through the planets on Tom Patterson Island over the exhibit’s first few days, enjoying the 1,000 stars overhead, the giant sun in the centre and the planets of our solar system around the edge, Jaxon was the only person to spot the error, Gribble said.

“I was just thrilled that Jaxon insisted that his mom get in touch with us and let us know about this mistake,” Gribble said. “We verified it and immediately corrected it, so the universe is back in alignment.”

Overall, Jaxon said he loves the Journey to the Stars display, and is happy Gribble and his team at Destination Stratford were able to put Neptune and Uranus back in their rightful positions around the Sun.

“He was just so excited that he could literally move the planets,” a laughing Flood said.

gsimmons@postmedia.com

Five of the most exciting telescope pictures of the universe

Five of the most exciting telescope pictures of the universe
Credit: Hubble: NASA, ESA, and Q.D. Wang (University of Massachusetts, Amherst); Spitzer: NASA, Jet Propulsion Laboratory, and S. Stolovy (Spitzer Science Center/Caltech)

The forthcoming launch of the James Webb Space Telescope offers unprecedented new opportunities for astronomers. It's also a timely opportunity to reflect on what previous generations of telescopes have shown us.

Astronomers rarely use their telescopes to simply take pictures. The pictures in astrophysics are usually generated by a process of scientific inference and imagination, sometimes visualized in artist's impressions of what the data suggests.

Choosing just a handful of images was not easy. I limited my selection to images produced by publicly-funded telescopes and which reveal some interesting science. I tried to avoid very popular images which have already been viewed widely.

The selection below is a personal one and I'm sure many readers could advocate for different choices. Feel free to share them in the comments.

1. Jupiter's poles

The first image I've chosen was produced by Nasa's Juno mission, which is currently orbiting Jupiter. The image was taken in October 2017 when the spacecraft was 18,906 kilometers away from the tops of Jupiter's clouds. It captures a cloud system in the planet's northern hemisphere, and represents our first view of Jupiter's poles (the north pole).

The images this picture is based on reveal complex flow patterns, akin to cyclones in Earth's atmosphere, and striking effects caused by the variety of clouds at different altitudes, sometimes casting shadows on layers of clouds below.

I chose this image for its beauty as well as the surprise it produced: the parts of the planet near its north pole look very different to the parts we had previously seen closer to the equator. By looking down on the poles of Jupiter, Juno showed us a different view of a familiar planet.

2. The Eagle Nebula

Five of the most exciting telescope pictures of the universe
This image allows us to see into the dense, dusty regions of space where star formation takes place. Credit: G. Li Causi, IAPS/INAF, Italy, CC BY 4.0

Astronomers can obtain unique information by building telescopes which are sensitive to light of "colors" beyond those our eyes can see. The familiar rainbow of colors is only a tiny fraction of what physicists call the electromagnetic spectrum.

Beyond red is the infrared, which carries less energy than optical light. An infrared camera can see objects too cool to be detectable by the human eye. In space, it can also see through dust, which otherwise completely obscures our view.

The James Webb Space Telescope will be the largest infrared observatory ever launched. Until now, the European Space Agency's Herschel Space Observatory has been the largest. The next image I've chosen is Herschel view of star formation in the Eagle Nebula, also known as M16.

A nebula is a cloud of gas in space. The Eagle Nebula is 6,500 light years away from Earth, which is quite close by astronomical standards. This nebula is a site of vigorous star formation.

A close-up view of a feature near the center of this image has been called the "Pillars of Creation". Appearing a bit like a thumb and forefinger pointing upwards and slightly to the left, these pillars protrude into a cavity in a giant cloud of molecular gas and dust. The cavity is being swept out by winds emanating from energetic new stars which have recently formed deeper within the cloud.

3. The Galactic Center

This image looks deeper into space to the center of our Milky Way Galaxy. It also uses infrared light, this time combining data from two Nasa telescopes, Hubble and Spitzer.

The bright white region in the lower right of the image is the very center of our Galaxy. It contains a massive black hole called Sagittarius A*, a  and the remains of a massive star which exploded as a supernova about 10,000 years ago.

Other star clusters are visible too. There's the Quintuplet cluster in the lower left of the image within a bubble where the stars' winds have cleared the local gas and dust. In the upper left there's a cluster called the Arches, which was named for the illuminated arcs of gas which extend above it and out of the image. These two clusters include some of the most massive stars known.

4. Abell 370

Five of the most exciting telescope pictures of the universe
Abell 370 is a cluster of hundreds of galaxies about five billion light years away from Earth. Credit: NASA, ESA, and J. Lotz and the HFF Team (STScI)

On much larger scales than individual galaxies, the universe is structured as a web of filaments (long connected strands) of dark matter. Some of the most dramatic visible objects are clusters of galaxies which form at the intersection of filaments.

If we look at galaxy clusters nearby (relatively speaking, of course), we can see dramatic proof that Einstein was right when he asserted that mass curves space. One of the prettiest examples which reveals this warping of space can be seen in Hubble's image of Abell 370, released in 2017.

Abell 370 is a cluster of hundreds of galaxies about five billion  away from us. In the picture you can see elongated arcs of light. These are the magnified and distorted images of far more distant galaxies. The mass of the cluster distorts spacetime and bends the light from the more distant objects, magnifying them and in some cases creating multiple images of the same . This phenomenon is called gravitational lensing, because the warped spacetime acts like an optical lens.

The most prominent of these magnified images is the thickest bright arc above and to the left of the center of the picture. Called "the Dragon," this arc consists of two images of the same distant galaxy at its head and tail. Overlapping images of several other distant galaxies comprise the arc of the dragon's body.

These gravitationally magnified images are useful to astronomers, because the magnification reveals more detail of the distant lensed object than would otherwise be seen. In this case the lensed galaxy's population of stars can be examined in detail.

5. The Hubble Ultra Deep Field

In an inspired idea, astronomers decided to point Hubble at a blank patch of sky for several days to discover what extremely distant objects might be seen at the edge of the observable universe.

The Hubble Ultra Deep Field contains nearly 10,000 objects, almost all of which are very distant galaxies. The light from some of these galaxies has been traveling for over 13 billion years, since the universe was only about half a billion years old.

Some of these objects are among the oldest and most distant known. Here we're seeing light from ancient stars whose local contemporaries have long since been extinguished.

The oldest  formed during the epoch of reionisation, when the tenuous gas in the universe first became bathed in starlight which was capable of separating electrons from hydrogen. This was the last major change in properties of the universe as a whole.

The fact that light carries so much information, allowing us to piece together the history of the universe, is remarkable. The launch of the James Webb Space Telescope will give us some vastly improved infrared images, and will inevitably raise new questions to challenge future generations of scientists.

Image: Hubble snaps a stunning spiral's side
Provided by The Conversation 
This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation
Comet Leonard shines amid the Northern Lights and a meteor shower in stunning footage captured by a Chinese spacecraft as the bright green iceball passes by Earth for the first time in 70,000 YEARS

Comet Leonard was discovered in January 2021 by astronomer Gregory Leonard

He saw it in images that were taken from Mt. Lemmon Observatory in Arizona

The ball of ice will make its closest approach to the Sun on January 3, 2022

After its closest approach, if it doesn't disintegrate, it will leave the solar system


By RYAN MORRISON FOR MAILONLINE

PUBLISHED:  24 December 2021

A Chinese satellite captured a stunning view of Comet Leonard as it made its closest approach to Earth, with a strong Aurora visible in the foreground.

Since its discovery in January this year, the comet has been fast approaching both the Sun and Earth, at nearly 160,000 miles per hour.

The image was captured by Yangwang 1, which is a small satellite launched by Chinese technology company, Origin Space, based in Guangdong, China.
Scientist who warned the world of Omicron variant says China's 'Zero Covid' policy WON'T WORK against super-transmissible mutant strain as city of 13 million is locked down, and other top stories from December 26, 2021.

It took it from a short clip while the comet was close to Earth on December 12, which is the closest it has come to our planet in 70,000 years.


A Chinese satellite captured a stunning view of Comet Leonard as it made its closest approach to Earth, with a strong Aurora visible in the foreground
Stunning Comet Leonard approaches Earth amid a meteor shower


LEONARD: AN INBOUND LONG PERIOD COMET


Catalogued as C/2021 AI, comet Leonard is named after the astronomer that first discovered it.

Gregory J Leonard spotted the comet using the Mount Lemmon Observatory on January 3, 2021 .

This was a year before it hit perihelion (the closest approach to the sun).

It last appeared in the inner solar system 70,000 years ago and so is on a 70,000 year orbit of the sun.

This will be its last orbit as it is on a hyperbolic trajectory, meaning it will leave the solar system after its close approach to our host star.
The images comes after two satellites designed to observe the Sun captured video of Comet Leonard as it sped past the Earth on its one way trip past our host star.

Yangwang-1 is a commercial space telescope that was launched earlier this year to image the universe in visible and ultraviolet light.

It is also working on the search for near-Earth asteroids that could one day be mined for resources and returned to Earth.

It was the first commercial Chinese space mission, and was available for use by commercial and non-commercial uses, according to Origin Space.

The spacecraft captured the image of Comet Leonard, seen amidst a sky full of satellites and distant stars, on December 12, 2021.

It is just the latest in a series of aurora images captured by the commercial telescope.

The ball of ice and dust is about half a mile wide, and was discovered in January 2021 by Gregory Leonard, who spotted it in images taken from the Mt. Lemmon Observatory in Arizona.

Back garden astronomers, telescopes around the world, and a range of space observatories have captured images of the bright green comet.



The colorised image, shared by Origin Space, shows the comet with its extended tail visible across the night sky

This is similar to images captured by the NASA Solar Terrestrial Relations Observatory Aspacecraft (STEREO-A), and the European Space Agency (ESA) Solar Orbiter observatory.

STEREO-A has been focused on following the green comet since November, and the team from NASA were able to produce a short animation from dozens of images.

NASA published a 'difference image' to highlight 'outbursts' from the comet, caused when it throws off volatile material like gas and water ice - changing its brightness.

The ESA spacecraft, a joint project with the US space agency, captured a video of the comet streaking across its field of view between December 17 and 19, 2021.
Comet Leonard hurtles through space with Milky Way in the background




A pair of satellite designed to observe the sun have captured video of the bright green Comet Leonard, as it speeds past the Earth for the first time in 70,000 years

Comet Leonard will make its closest approach to the Sun in millennia on January 3, 2022, and ahead of that event both solar observing satellites were pointed in its direction.

NASA produced an animated 'difference image' with a grainy grey background designed to highlight the comet and its tail as it streaks through space.

This was created by subtracting the current frame from the previous frame to highlight differences between them.

Difference images are useful for seeing subtle changes in Leonard’s ion tail, which is the trail of ionised gases streaming from the comet’s body.




The ball of ice and dust is about half a mile wide, and was captured by the NASA Solar Terrestrial Relations Observatory Aspacecraft (STEREO-A) (right), and the European Space Agency (ESA) Solar Orbiter observatory (left)

It can be seen getting brighter and longer towards the end of the short clip.

The video captured by the Solar Orbiter Heliospheric Imager (SoloHI) which is a camera on board the Solar Orbiter spacecraft, shows it streak diagonally across its field of view, with the Milky Way, Venus and Mercury also visible.

During the short sequence, Solar Orbiter moves toward a sidelong view of the comet, revealing more of its tail as it moves through space.

More video could be published of the comet, as SoloHI continued to observe the comet until it left its field of view today.

Its closest pass of the the Sun, on January 3, 2022 will take it within 56 million miles of our star, which is about half the distance between Earth and the Sun.

If it doesn’t disintegrate on its way to the Sun, then Comet Leonard's trajectory will fling it into interstellar space, never to return.

But according to scientists, it may already be splitting up less than a year after it was first discovered, or it will begin to split up soon.

When a comet's orbit brings it close to the Sun, it heats up and spews dust and gases into a giant glowing head larger than most planets.


It will make its closest approach to the Sun in millennia on January 3, 2022, and ahead of that event both solar observing satellites were pointed in its direction

Comets – also called 'cosmic snowballs' or 'icy dirtballs' – are conglomerations of frozen gas, dust and ice left over from the formation of the solar system.

They go around the Sun in an orbit that's highly elliptical, meaning they're not perfectly circular, and can spend hundreds and even thousands of years in the darkest depths of the Solar System before returning for their 'perihelion'.

But Comet Leonard has a hyperbolic orbit, meaning once it passes the Sun it will be ejected out of the Solar System and never seen again by Earthlings.


Comet Leonard was discovered in January 2021 by Gregory Leonard, who spotted it in images taken from the Mt. Lemmon Observatory in Arizona


When a comet's orbit brings it close to the Sun, it heats up and spews dust and gases into a giant glowing head larger than most planets

Comet Leonard likely spent about 35,000 years coming inbound from about 323 billion miles (520 billion km) away and may have last visited the inner solar system about 70,000 years ago.

Comet Leonard makes its closest approach to Earth on Sunday, December 12, prior to its perihelion on January 3.

The comet has a green tail because its icy rock interior heats up the closer it gets to the Sun, first emitting a blue dust, then yellow or white and finally green.

When it turns this teal colour, it means the comet is warm, contains lots of cyanide and diatomic carbon and the potential for it to break up is at its highest.

 Animation shows the trajectory of Solar Orbiter around the Sun



DIFFERENT TYPES OF SPACE ROCKS


An asteroid is a large chunk of rock left over from collisions or the early solar system. Most are located between Mars and Jupiter in the Main Belt.

A comet is a rock covered in ice, methane and other compounds. Their orbits take them much further out of the solar system.

A meteor is what astronomers call a flash of light in the atmosphere when debris burns up.

This debris itself is known as a meteoroid. Most are so small they are vapourised in the atmosphere.

If any of this meteoroid makes it to Earth, it is called a meteorite.

Meteors, meteoroids and meteorites normally originate from asteroids and comets.

Canadian scientists involved in James Webb space telescope say it's a dream come true

This photo provided by NASA, the James Webb Space Telescope is separated in space on Saturday, Dec. 25, 2021. NASA's James Webb Space Telescope soared from French Guiana on South America's northeastern coast, riding a European Ariane rocket into the Christmas morning sky. The $10 billion infrared observatory is intended as the successor to the aging Hubble Space Telescope. (NASA via AP)

Virginie Ann, The Canadian Press
Published Saturday, December 25, 2021 

MONTREAL - As the world tuned in on Christmas morning to see NASA's James Webb Space Telescope lift off, Canadian scientists who played a crucial part in its creation were emotional.

The collaboration between European and Canadian space agencies soared from French Guiana on South America's northeastern coast on Saturday, riding a European Ariane rocket into the Christmas morning skies.

Rene Doyon, principal investigator of the telescope, said seeing the launch in-person was the best Christmas gift he could have ever hoped for. COVID-19 requirements meant most Canadian scientists who worked on the project had to stay home.


“It was an intense moment, absolutely incredible emotions after 20 years of working on the project,” Doyon said in an interview Saturday.

“I could have never imagined that it would have happened on Christmas. It was a good moment for Canada.”

Nathalie Ouellette, outreach scientist for the Webb at the Universite de Montreal, was with her family watching the long-awaited launch in Montreal.

“To see the telescope leave Earth … what a joy for Christmas,” Ouellette said.

“I cried. We took a video to commemorate the moment. The launch went perfectly.”

The telescope will search for unprecedented details on the first galaxies created after the Big Bang, and on the development of potentially life-friendly planets beyond our solar system.

For Lisa Campbell, president of the Canadian Space Agency, the launch was the culmination of a 30-year-old dream.

“What an exceptional day,” Campbell said.

“It's the most powerful and complex space observatory ever built.”

Canada has been working on the James Webb Space Telescope almost from the start and will be among the first countries to study its discoveries, she said.

“It is a new step in astronomy, in understanding the universe, and our place in it,” Campbell said.

“And these scientific discoveries will be possible thanks to Canada's expertise in astronomy.”

At least half of the 600 scientists in the Canadian Astronomical Society have been involved with the telescope and dozens of engineers are part of its design team.


Ouellette noted that the Webb's work is only beginning.

Most people are familiar with Hubble Space Telescope - which was launched in 1990 - but the Webb is set to be 100 times more powerful, she said.

“We often talk about Webb as Hubble's successor,” she explained.

“Webb is much bigger, it will capture more distant objects with low luminosity, look further into the history of the universe.”

The $10 billion telescope started to hurtle toward its destination 1.6 million kilometres away, or more than four times beyond the moon, on Saturday. It will take a month to get there and another five months before its infrared eyes are ready to start scanning the cosmos.

Key to that work will be the Fine Guidance Sensor, which helps aim the telescope, and the Near-Infrared Imager and Slitless Spectrograph, which helps analyze the light it observes.

Both have been designed and built in Canada.

“We are the eyes of the telescope, it's Canadian eyes that allow all observations,” Ouellette said. “Canada has never been involved at this level in this kind of project.”

Innovation Minister Francois-Philippe Champagne issued a statement to congratulate Canadian's expertise, saying past investments in space technologies made it possible for the country to be “an active partner in this exciting mission.”

“Once again, Canada's space sector is pushing the frontier of science and, more so, of astronomy,” Champagne said. “Webb is the largest space science project in the 60-year history of Canada's space program.”

For Daryl Haggard, a professor of physics at Montreal's McGill University and James Webb Space Telescope co-investigator, the telescope is an undeniable source of pride.

“We were looking at the launch video, and my husband was pointing out that he could see the logo for NASA, but also the Canadian Space Agency, right there on the rocket,” she said, her voice breaking with emotion.

“It's pretty awesome.”

Haggard said she hopes the project will put Canada on the map for its astronomical expertise.

People usually refer to Canadarm from the Canadian Space Agency, but this country does much more than that, she said. Canadarm is a robotic arm that supported American space shuttle missions for about 30 years from 1981.

In exchange for Canada's contribution on the telescope, the country is guaranteed at least five per cent of the telescope's observation time, once data starts to come in about six months.

Campbell said this will allow Canadian scientists to further their studies on exoplanets and black holes among other things.

“We will be able to see phenomena at the origin of the creation of our universe, its history,” she said.

“We often wonder why we explore space, but it will tell us so much.”

- With files from The Associated Press

- With files from Bob Weber in Edmonton

This report by The Canadian Press was first published Dec. 25, 2021.

Watch the launch of the James Webb Space Telescope—the most powerful space telescope ever made. This mission is scheduled to lift off at 7:20 a.m. EST (12:20 UTC), Dec. 25, 2021, aboard an Ariane 5 rocket from Europe’s Spaceport in French Guiana. With revolutionary technology, Webb will observe a part of space and time never seen before, providing a wealth of amazing views into an era when the very first stars and galaxies formed––over 13.5 billion years ago. It can explore our own solar system’s residents with exquisite new detail and study the atmospheres of distant worlds. From new forming stars to devouring black holes, Webb will reveal all this and more! It’s the world’s largest and most powerful space telescope ever built. Webb is an international collaboration between NASA, ESA (European Space Agency), and CSA (Canadian Space Agency). Thousands of engineers and hundreds of scientists worked to make Webb a reality, along with over 300 universities, organizations, and companies from 29 U.S. states and 14 countries! Ready to #UnfoldTheUniverse? The greatest origin story of all unfurls soon. Learn more at https://nasa.gov/jwst

 

Scientists tested air at the Pic du Midi observatory for four months and all samples contained microplastics  Photo: AFP/File
Environment

No mountain high enough: Study finds plastic in 'clean' air

Comment

From Mount Everest to the Mariana Trench, microplastics are everywhere – even high in the Earth’s troposphere where wind speeds allow them to travel vast distances, a study shows.

Microplastics are tiny fragments -- measuring less than 5 millimeters -- that come from packaging, clothing, vehicles and other sources and have been detected on land, in water and in the air.

Scientists from the French national research institute CNRS sampled air 2,877 meters above sea level at the Pic du Midi Observatory in the French Pyrenees, a so-called "clean station" because of the limited influence exerted on it by the local climate and environment.

There they tested 10,000 cubic meters of air per week between June and October of 2017 and found all samples contained microplastics.

Using weather data they calculated the trajectories of different air masses preceding each sample and discovered sources as far away as North Africa and North America.

The study's main author Steve Allen of Dalhousie University in Canada told AFP that the particles were able to travel such distances because they were able to reach great altitudes.

"Once it hits the troposphere, it's like a superfast highway," he said.

The research also points to microplastic sources in the Mediterranean Sea and the Atlantic Ocean.

"The marine source is the most interesting," Allen said. "Plastic leaving the ocean into the air that high -- it shows there is no eventual sink for this plastic," he said. "It's just moving around and around in an indefinite cycle."

While the amounts of miroplastics in the samples at the Pic du Midi don't pose a health risk, study co-author Deonie Allen notes that the particles are small enough for humans to breathe in.

And she says their presence in a zone thought to be protected and far from pollution sources should give pause.

"It questions the relationship we have with plastic," she said, adding that the problem is global.

Allen said that it also shows that disposing of plastic by shipping it abroad is a flawed strategy.

"It's going to come back to you," he said.

© 2021 AFP