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    TUHOKlimaticka zmena / Thank you so much for ruining my day


    "Given the sheer enormity of climate change, it’s okay to be depressed, to grieve. But please, don’t stay there too long. Join me in pure, unadulterated, righteous anger."


    "I don’t want your hope. I don’t want you to be hopeful. I want you to panic. I want you to feel the fear I feel every day. And then I want you to act. Once you start to act, the hope is everywhere."

    "Our best scientists tell us insistently that a calamity is unfolding, that the life-support systems of the Earth are being damaged in ways that threaten our survival. Yet in the face of these facts we carry on as usual."

    “We’ve got to stop burning fossil fuels. So many aspects of life depend on fossil fuels, except for music and love and education and happiness. These things, which hardly use fossil fuels, are what we must focus on.”

    A nejde o to, že na to nemáme dostatečné technologie, ty by na řešení použít šly, ale chybí nám vůle a představivost je využít. Zůstáváme při zemi, přemýšlíme až moc rezervovaně. Technologický pokrok to sám o sobě nevyřeší. Problém jsme my, ne technologické nástroje.

    Rostouci hladiny oceanu, zmena atmosferickeho proudeni, zmeny v distribuci srazek a sucha. Zmeny karbonoveho, fosforoveho a dusikoveho cyklu, okyselovani oceanu. Jake jsou bezpecnostni rizika a jake potencialni klady dramatickych zmen fungovani zemskeho systemu?
    Ale take jak funguji masove dezinformacni kampane ropneho prumyslu a boj o verejne mineni na prahu noveho klimatickeho rezimu post-holocenu.
    rozbalit záhlaví
    TUHO
    TUHO --- ---
    Trees and land absorbed almost no CO2 last year. Is nature’s carbon sink failing?
    The sudden collapse of carbon sinks was not factored into climate models – and could rapidly accelerate global heating

    It begins each day at nightfall. As the light disappears, billions of zooplankton, crustaceans and other marine organisms rise to the ocean surface to feed on microscopic algae, returning to the depths at sunrise. The waste from this frenzy – Earth’s largest migration of creatures – sinks to the ocean floor, removing millions of tonnes of carbon from the atmosphere each year.

    This activity is one of thousands of natural processes that regulate the Earth’s climate. Together, the planet’s oceans, forests, soils and other natural carbon sinks absorb about half of all human emissions.

    But as the Earth heats up, scientists are increasingly concerned that those crucial processes are breaking down.

    Trees and land absorbed almost no CO2 last year. Is nature’s carbon sink failing? | Oceans | The Guardian
    https://www.theguardian.com/environment/2024/oct/14/nature-carbon-sink-collapse-global-heating-models-emissions-targets-evidence-aoe?CMP=twt_a-environment_b-gdneco
    SHEFIK
    SHEFIK --- ---
    Europe’s algae market expanding, driven by product innovation, climate potential – Euractiv
    https://www.euractiv.com/section/agriculture-food/special_report/europes-algae-market-expanding-driven-by-product-innovation-climate-potential/

    The global algae products market size is estimated to surpass €8.2 billion by 2033.

    According to algae farming firm Global Algae: “building algae farms to stop deforestation and enable regrowth of tropical rainforests without loss of production or revenue could reduce carbon emissions by ~10 Gt CO2-eq /year.” With large-scale algae farming for feed and fuel, reducing emissions by 13 to 20 gigatons of CO2 per year.

    Recognised for their nutritional and functional benefits, algae such as seaweeds and microalgae are also used as foodstuffs. In February 2024, more than 20 algae species were added to the EU Novel Food Status Catalogue.
    SHEFIK
    SHEFIK --- ---
    $19 Million For Innovative Solar Panel Installation Over Canals From Investing In America Agenda - CleanTechnica
    https://cleantechnica.com/2024/04/05/19-million-for-innovative-solar-panel-installation-over-canals-from-investing-in-america-agenda/

    WASHINGTON — The Department of the Interior today announced a $19 million investment from President Biden’s Investing in America agenda to install solar panels over irrigation canals in California, Oregon and Utah, simultaneously decreasing evaporation of critical water supplies and advancing clean energy goals.

    ...

    Installing solar panels in irrigation canals has the potential to provide a variety of benefits, including:

    Generating renewable energy;

    Reducing evaporation losses of the canal;

    Increasing efficiency of and production from solar panels because of the cooling effect of the water beneath the panels;

    Creating land savings for open space and agricultural use;

    Reducing facility maintenance by mitigating algae and/or aquatic plant growth; and

    Reducing the energy footprint and carbon emissions required to operate and maintain the facility.
    SHEFIK
    SHEFIK --- ---
    #food #mitigation #nrg_saving #land_preservation

    A new breakthrough in biology allows scientists to grow food without sunlight
    https://interestingengineering.com/breakthrough-in-biology-grow-food-without-sunlight

    During their research, the scientists discovered that a large variety of food could be produced in the dark using their method, including green algae, yeast, and fungal mycelium, which produces mushrooms. According to their findings, growing yeast using their method is 18 times more energy-efficient than the way it is typically cultivated by extracting sugar from corn.

    ...

    The researchers believe that by reducing the reliance on direct sunlight, artificial photosynthesis could provide an important alternative for food growth in the coming years, as the world adapts to the worst effects of climate change — including droughts, floods, and reduced land availability. "Using artificial photosynthesis approaches to produce food could be a paradigm shift for how we feed people. By increasing the efficiency of food production, less land is needed, lessening the impact agriculture has on the environment. And for agriculture in non-traditional environments, like outer space, the increased energy efficiency could help feed more crew members with less inputs," Jinkerson explained.
    TADEAS
    TADEAS --- ---
    rethink shit

    Backed-up pipes, stinky yards: Climate change is wrecking septic tanks
    https://www.washingtonpost.com/climate-environment/2022/04/12/backed-up-pipes-stinky-yards-climate-change-is-wrecking-septic-tanks/

    As climate change intensifies, septic failures are emerging as a vexing issue for local governments. For decades, flushing a toilet and making wastewater disappear was a convenience that didn't warrant a second thought. No longer. From Miami to Minnesota, septic systems are failing, posing threats to clean water, ecosystems and public health.

    About 20 percent of U.S. households rely on septic, according to the Environmental Protection Agency. Many systems are clustered in coastal areas that are experiencing relative sea-level rise, including around Boston and New York. Nearly half of New England homes depend on them. Florida hosts 2.6 million systems. Of the 120,000 in Miami-Dade County, more than half of them fail to work properly at some point during the year, helping to fuel deadly algae blooms in Biscayne Bay, home to the nation’s only underwater national park. The cost to convert those systems into a central sewer plant would be more than $4 billion.
    TADEAS
    TADEAS --- ---
    Eliot Jacobson
    https://twitter.com/EliotJacobson/status/1508921878668521473?s=19

    Of the top 40 impacts of climate change, the ones that are most immediately urgent and deadly on a worldwide scale are crop failures and drought leading to famine. Civilization will never get to the point where SLR is a major issue.

    https://climatecasino.net/2021/10/top-40-impacts-of-climate-change/

    Top 40 Impacts of Climate Change
    1. Acid rain
    2. Algae blooms
    3. Ash & smoke
    4. Bees dying & pollination loss
    5. Climate refugees & migration
    6. Coral bleaching
    7. Crop failures
    8. Deforestation
    9. Desertification
    10. Disease, pandemics (plants & animals)
    11. Droughts
    12. Drying up of lakes, rivers, wells, springs
    13. Earth axis shift
    14. Earthquakes, Tsunamis, Volcanoes
    15. Extreme cold
    16. Financial/bank/stock collapse
    17. Fires
    18. Floods
    19. Food & water riots
    20. Hazardous & polluted air
    21. Heat waves: frequency, power, duration
    22. Hunger, famine & starvation
    23. Infrastructure collapse
    24. Melting Antarctic & Greenland land ice
    25. Melting Arctic Sea ice / Blue Ocean Event
    26. Melting glaciers (drinking water crisis)
    27. Methane (Siberia & Clathrates from ESAS)
    28. Nuclear plant meltdown
    29. Ocean acidification
    30. Ozone layer depletion
    31. Permafrost thaw
    32. Price instability & inflation
    33. Reanimated bacteria/viruses
    34. Sea level rise (e.g. Thwaites glacier)
    35. Shutdown of AMOC, SMOC
    36. Species extinction (100+/day)
    37. Storms — more frequent, power, duration
    38. Supply chain & transportation collapse
    39. Unemployment & poverty
    40. War & terrorism
    SHEFIK
    SHEFIK --- ---
    #funghi #carbonCycle

    Fungi Are Capturing More Carbon Than We Thought | Discover Magazine
    https://www.discovermagazine.com/environment/fungi-are-capturing-more-carbon-than-we-thought

    Scientists had long thought it simply evaporated into the atmosphere. But that didn’t sit right with Davinia Salvachúa Rodríguez, a microbiologist at the National Renewable Energy Laboratory in Golden, Colorado. After 10 years of studying white-rot fungi, she demonstrated that it eats the carbon in lignin to fuel its growth, according to a March study in Proceedings of the National Academy of Sciences (PNAS). Rodríguez’s discovery flags white-rot fungi as a key player in sequestering lignin-derived carbon in soil.

    Similarly, Stanford University microbiologist Anne Dekas published a study in June in PNAS showing that parasitic fungi that live on tiny algae in oceans and lakes remove some of the carbon inside the algae, which might otherwise reenter the atmosphere.

    Conventional wisdom had maintained that all of the carbon inside the algae remained in a microbial feedback loop near the water’s surface, where microbes consumed the green plants and then released the C02. But Dekas and colleagues showed instead that the fungi siphon off up to 20 percent of the algae’s carbon. Then — because the fungi outsize the microbes in the feedback loop — the fungi become a more likely meal for larger species, which remove them from the loop. As the carbon makes its way up the food chain, it may eventually sink to the ocean floor, which also sequesters carbon, when the top species dies.
    TADEAS
    TADEAS --- ---
    overshoot

    ‘Farmers are digging their own graves’: true cost of growing food in Spain’s arid south | Water | The Guardian
    https://www.theguardian.com/environment/2021/nov/16/farmers-are-digging-their-own-graves-true-cost-of-growing-food-in-spains-arid-south

    Las Tablas’ ecosystem relies on water from rainfall, the Guadiana river and a huge aquifer, but the climate crisis has resulted in Spain’s periods of drought getting longer. The Guadiana is drying up, while agriculture has depleted the aquifer and polluted the groundwater with phosphates and other chemical fertilisers. In 2009, the wetland was so dry that subterranean peat fires broke out.

    The 3,000 hectares (7,400 acres) of Las Tablas are all that remain of what, according to the World Wildlife Fund, was once a system of 50,000 hectares of wetland in Castilla-La Mancha.

    ...

    Gosálvez says the water needed to irrigate Castilla-La Mancha’s vines, olives, pistachios, onions and melons exceeds available resources and short of a run of several years of heavy rain, the wetland can only be saved by transferring water from the Tagus river – except the Tagus is overexploited and almost dried up four years ago.

    Much of the problem dates from the 1970s, when the Spanish government embarked on a plan to turn Murcia and Almería in the south-east into Europe’s market garden. The plan had one major flaw: there was no water.

    Spain’s south-east is arid and none of the country’s three major rivers flows near it. The Douro and Tagus both rise in north-central Spain and flow west into the Atlantic at, respectively, Porto and Lisbon, while the Ebro rises in the north-west and empties into the Mediterranean nearly 400km (250 miles) north of Murcia.

    The solution was to transfer water from the headwaters of the Tagus through almost 300km of pipeline to irrigate the barren south.

    However, rather than satisfy demand, the transfer has served to incentivise unsustainable intensive agriculture that has led to the exploitation of groundwater, with disastrous environmental consequences.

    The spectacle this summer of thousands of dead fish floating in the Mar Menor, a saltwater lagoon in Murcia once known for its crystal-clear waters, was the result of fertiliser polluting the groundwater that drains into the sea. The nitrates trigger vast algae blooms that deprive the fish of oxygen.

    “The Mar Menor disaster is the result of intensive agriculture which continues to expand in a manner that isn’t sustainable, both in Murcia and in many other parts of Spain,” says Martínez-Fernández.

    ...

    Neighbouring Almería – where the greenhouses making up the famous “sea of plastic” are visible from space – produces an estimated 3.5m tonnes of peppers, tomatoes, cucumber and melons a year. Together with Granada, it supplies about 50% of the European market. Every year Almería also produces thousands of tonnes of plastic waste, much of which ends up in the sea.

    The Tagus water transfer is not enough to meet the growing demands of agriculture in Almería, however. Over the past 40 years the amount of water that reaches the Tagus headwaters has fallen by about 40% according to estimates, and is continuing to fall. So Almería is increasingly reliant on desalinated seawater for irrigation.

    In an attempt to deal with the problem, in 1985 the Spanish government brought in a new water law to regulate its use. But it was forced to concede that anyone who had a well or access to water had the right to exploit it.

    Today, the government recognises that the situation is unsustainable. Teresa Ribera, minister for ecological transition, is under pressure for Spain to conform to European standards on water quality and quantity that come into force in 2027, and knows this can only be achieved by reducing irrigation.

    In presenting the country’s five-year water plan, Ribera recognised that water resources are in decline and parts of Spain face desertification.
    TUHO
    TUHO --- ---
    SEJDA: Tak nejaky paralely tam budou. Kurovec, podobne jako ty rasy je pritomny v kazdem zdravem lese. Za normalnich podminek, ale nedochazi k jeho exponencialnimu premnozeni (tzv gradaci). K tomu premnozeni dochazi imho bezne i v prirode, kdyz jsou ruzne naruseny ekosystemovy vazby. Ale tady je to zpusobeny teda zvysenim teploty, ale hlavne tim, ze se splachujou mineralni hnojiva ze zemedelsky produkce, ktery do oceanu dodavaj velky mnozstvi zivin a soucasne jsou vytezovanim naruseny ty casti ekosystemu, ktery se rasama zivi. Imho podobnej problem proste jako mame v nadrzich se sinicema. Celkove tyhle premnozeni jsou problem jako prase, protoze vytvarej mrtvy zony bez kysliku, ktery jsou smrtelny pro zivot. Nektery jsou dnes velky jako cely zeme... Viz treba Mexickej zaliv, kam usti splasky hnojiv z US zemedelsky produkce.
    Ale fuckup je to treba i v Baltskym mori, checkuj sateltni snimky ras:




    Less oxygen dissolved in the water is often referred to as a “dead zone” because most marine life either dies, or, if they are mobile such as fish, leave the area. Habitats that would normally be teeming with life become, essentially, biological deserts.
    Hypoxic zones can occur naturally, but scientists are concerned about the areas created or enhanced by human activity. There are many physical, chemical, and biological factors that combine to create dead zones, but nutrient pollution is the primary cause of those zones created by humans. Excess nutrients that run off land or are piped as wastewater into rivers and coasts can stimulate an overgrowth of algae, which then sinks and decomposes in the water. The decomposition process consumes oxygen and depletes the supply available to healthy marine life.
    Dead zones occur in coastal areas around the nation and in the Great Lakes — no part of the country or the world is immune. The second largest dead zone in the world is located in the U.S., in the northern Gulf of Mexico.

    What is a dead zone?
    https://oceanservice.noaa.gov/facts/deadzone.html
    TADEAS
    TADEAS --- ---
    TADEAS, TADEAS:

    Sweden-based startup Volta Greentech raises 1.7 million Euro to fight burps from cows — and is now eying to build the world’s largest algae factory | by Volta Greentech | May, 2021 | Medium
    https://medium.com/@VGreentech/sweden-based-startup-volta-greentech-raises-1-7-49de3e7923c4
    TADEAS
    TADEAS --- ---
    YMLADRIS: ad synteticky bilkoviny, uz jsem to sem poruznu daval, jde defakto o vetsi domestikaci autotrofnich organismu.



    Single-cell protein - Wikipedia
    https://en.wikipedia.org/wiki/Single-cell_protein

    Single-cell proteins (SCP) or microbial proteins[1] refer to edible unicellular microorganisms. The biomass or protein extract from pure or mixed cultures of algae, yeasts, fungi or bacteria may be used as an ingredient or a substitute for protein-rich foods, and is suitable for human consumption or as animal feeds


    Agriculture-independent, sustainable, fail-safe and efficient food production by autotrophic single-cell protein [PeerJ Preprints]
    https://peerj.com/preprints/1279/

    This hypothesis paper proposes autotrophic SCP bioprocess designs which enable sustainable, fail-safe and efficient production of edible biomass from CO2 and N2 or NH3. They can be driven by H2, CO or HCOOH from several sustainable sources. Besides H2O-electrolysis and syngas, surprisingly fossil fuel may provide an effectively carbon-negative and cheap supply of H2 through the decomposition of CH4 or oil. Most promising bioprocess designs consist of 2-stages. In the first stage, homoacetogenic bacteria fix CO2 up to 10 more efficiently than plants, and secrete it as acetate. In the second stage, selected microbes grow on the acetate and thereby form edible biomass. Bacteria have unique features including N2-fixation, H2S tolerance and O2-tolerant hydrogenases for fast light-independent growth. Eukaryotic microalgae are already approved as food and exhibit oxygenic photosynthesis which partly replaces solar-panels, seawater desalination and H2O-electrolyzers. Photoheterotrophic growth on acetate decouples these benefits from inefficient endogenous CO2 fixation. Slow gas mass-transfer, poor light distribution and expensive cell harvest are major challenges arising from the cultivation in liquid media. To cope with this, microbes grow as hydrated biofilms that are exposed directly to substrate gases, and that can be dry-harvested.



    Solar Foods - Wikipedia
    https://en.wikipedia.org/wiki/Solar_Foods



    Rethinking Food and Agriculture 2020-2030: The Second Domestication of Plants and Animals, the Disruption of the Cow, and the Collapse of Industrial Livestock Farming
    https://www.amazon.com/Rethinking-Food-Agriculture-2020-2030-Domestication/dp/0997047178

    + https://www.rethinkx.com/opinion-gallery/2019/11/29/disrupting-the-cow
    + https://www.rethinkx.com/food-and-agriculture




    asi se tam naskyta i vylozene nejaka jeste syntetictejsi cesta, neco ala:
    - vyroba renewable vyroba vodiku
    - v reverznich fuel cells vyroba amoniaku z vody a vzdusnyho dusiku: https://www.sciencemag.org/...renewable-fuel-made-sun-air-and-water-could-power-globe-without-carbon
    - amoniak a vodik vyuzivany pro syntezu bilkovin
    YMLADRIS
    YMLADRIS --- ---
    Geoengineering Is the Only Solution to Our Climate Calamities | WIRED
    https://www.wired.com/story/geoengineering-is-the-only-solution-to-our-climate-calamities/


    The most ambitious proposal for carbon removal involves fertilizing the ocean with iron sulfate and other nutrients to stimulate algae growth that could potentially revitalize the marine food chain while also absorbing atmospheric carbon. In terms of slowing global warming, injecting sulphur dioxide aerosol particles in the atmosphere would reflect sunlight and cool temperatures across the globe.

    a další
    TADEAS
    TADEAS --- ---
    2019 Algae and oxygen, humans and carbon: A Precambrian analogue for the Anthropocene
    https://journals.sagepub.com/doi/full/10.1177/2053019619852165

    In 2003 Paul Crutzen and Will Steffen asserted that across Earth’s 4.5-billion-year history no analogue could be found for the Anthropocene. An analogue can, however, be located in the dim Precambrian past when, through oxygenic photosynthesis, cyanobacteria produced enough oxygen to alter the composition and character of the Earth System. The ‘Great Oxygenation Event’ that followed wiped out much of Earth’s anaerobic life while giving rise to all subsequent aerobic life. It also offers a clear comparison with the Anthropocene that implicates how we think about our current predicament.

    ...

    What of the similarities? Despite their differences in scale, scientists have fixed both within the same geological reckoning of linear time. Both events derived from essential, inherent, and specific life processes. Both involved a lifeform finding a way to utilise energy in ever more efficient and potentially lethal ways. And the first culminated – while the second shows every sign of repeating the same pattern – in events that altered the course of life on Earth involving equal helpings of vast destruction and profound creation. If the analogue to the supposedly ‘no-analogue’ state has anything to tell, then, it is that a monotheistically derived scientific sense of anthropocentric and anthropocenic exceptionalism, more so than the chemical by-products of our consumption, perhaps puts us most in peril because it leads us to deny the implacable fact that both the Anthropocene and its analogue were and are wholly consistent with the destructive and creative processes of life and perhaps even normal and unremarkable when set against the broad sweep of Earth’s billions of years.
    TUHO
    TUHO --- ---
    Heating of the world’s oceans could radically reorganise marine food webs across the globe causing the numbers of some species to collapse while promoting the growth of algae, new research has warned.
    Healthy marine food webs that look like a pyramid, with smaller numbers of larger predatory species at the top and more abundant smaller organisms at the bottom, could become “bottom heavy”.
    The types of species that could become less abundant in the oceans are the same ones targeted by commercial fishing and also are socially and culturally important to many communities around the globe.
    In the research, published in the journal Science, researchers at the University of Adelaide recreated a marine habitat in a series of 1,800-litre tanks and then subjected some to temperature and CO2 changes.

    Marine food webs could be radically altered by heating of oceans, scientists warn | Environment | The Guardian
    https://www.theguardian.com/...-webs-could-be-radically-altered-by-heating-of-oceans-scientists-warn
    TUHO
    TUHO --- ---
    Another study, conducted by scientists at Stanford University and published in the journal Science, tracks found that primary production (the creation of energy, mostly through photosynthesis, that forms the base of food chains), increased by 57 percent between 1998 and 2018 in the Arctic Ocean.

    The study identifies an ongoing regime shift, with thickening amounts of photosynthesizing algae creating much more net biological production.

    The Stanford scientists in the past have examined the link between sea ice retreat and increased phytoplankton-driven production in the Arctic Ocean. That work has included tracking of phytoplankton blooms beneath the ice in the Chukchi Sea and the relationship of ice retreat to phytoplankton blooms in the Bering Sea.

    Now, the Arctic Ocean’s phytoplankton boom is no longer simply a product of more sunlight penetrating through the thinned ice or open waters, the study found. While loss of ice was the big driver of phytoplankton biomass increase during the first decade of the study period, a new factor became dominant in the second decade of the period; inflow of nutrients from the adjoining seas and oceans.


    https://www.arctictoday.com/...ctic-ocean-is-becoming-more-like-the-atlantic-and-pacific-studies-say
    TUHO
    TUHO --- ---
    Phytoplankton abundances in the Arctic Ocean have been increasing over recent decades as the region has warmed and sea ice has disappeared. The presumptive causes of this increase were expanding open water area and a longer growing season—at least until now. Lewis et al. show that although these factors may have driven the productivity trends before, over the past decade, phytoplankton primary production rose by more than half because of increased phytoplankton concentrations (see the Perspective by Babin). This finding means that there has been an influx of new nutrients into the region, suggesting that the Arctic Ocean could become more productive and export additional carbon in the future.

    Changes in phytoplankton concentration now drive increased Arctic Ocean primary production | Science
    https://science.sciencemag.org/content/369/6500/198

    There's a major change happening in the Arctic. Dark waters are blooming with algae, as sunlight floods spaces long obscured by sheets of ice.
    Over the past two decades, there's been a 57 percent increase in phytoplankton in the Arctic ocean, an analysis by researchers from Stanford University has revealed.

    A Major Food Chain Shift Appears to Be Happening in The Arctic Right Now
    https://www.sciencealert.com/...ft-in-how-the-arctic-locks-up-carbon-and-nobody-knows-what-to-expect
    SHEFIK
    SHEFIK --- ---
    A 'regime shift' is happening in the Arctic Ocean -- ScienceDaily
    https://www.sciencedaily.com/releases/2020/07/200709141558.htm

    Scientists find the growth of phytoplankton in the Arctic Ocean has increased 57 percent over just two decades, enhancing its ability to soak up carbon dioxide. While once linked to melting sea ice, the increase is now propelled by rising concentrations of tiny algae.
    TADEAS
    TADEAS --- ---
    Prehistoric climate change damaged the ozone layer and led to a mass extinction
    https://theconversation.com/...te-change-damaged-the-ozone-layer-and-led-to-a-mass-extinction-139519

    Our research suggests the Earth has a natural internal process triggered by a warming climate that can destroy the ozone layer, a serious warning for our own period of climate change.

    ...

    Other scientists have shown that high summer temperatures over continental areas can increase the transport of water vapour high into the atmosphere. This water vapour carries with it organic carbon compounds that include chlorine, which are produced naturally by a wide variety of plants, algae and fungi. Once these compounds are near the ozone layer, they release the chlorine and this breaks down ozone molecules.

    This produces a positive feedback loop because a collapsing terrestrial ecosystem will release a flush of nutrients into the oceans, which can cause a rapid increase in algae. So the more the ozone layer is damaged, the more plants die, and the more ozone-damaging compounds are released. Later on, the ozone layer will naturally recover as the climate cools and the algae helps remove carbon dioxide from the atmosphere.

    The discovery of this potential new extinction mechanism indicates that a warming climate, such as we have now, has the potential to erode the ozone layer to let in damaging ultra-violet radiation. This has consequences for all life on Earth, both on the land and in shallow waters.

    UV-B radiation was the Devonian-Carboniferous boundary terrestrial extinction kill mechanism | Science Advances
    https://advances.sciencemag.org/content/6/22/eaba0768
    TADEAS
    TADEAS --- ---
    Photosynthesis rewired to generate hydrogen | Research | Chemistry World
    https://www.chemistryworld.com/news/photosynthesis-rewired-to-generate-hydrogen/4011702.article

    Scientists have successfully directed photosynthetic electron flow away from fixing carbon dioxide and towards proton reduction by fusing together photosystem I (PSI) and algal hydrogenase in vivo. Modified algae cells expressing the PSI–hydrogenase chimera produce hydrogen in a light dependent fashion at high rates.


    ...

    Jenny Zhang, an expert in semi-artificial photosynthesis at the University of Cambridge, UK, says that identifying the site on photosystem I where redox enzymes can be fused is an exciting step forward. ‘This will no doubt form the foundation of future efforts to develop algal systems that can efficiently perform a range of solar-driven chemical formation processes, such as the conversion of carbon dioxide into useful feedstocks. The development of such breakthrough systems are still greatly needed in our repertoire of energy production and carbon dioxide recycling strategies.’

    ...

    We are now moving towards trying to find hydrogenase enzymes that are more oxygen-resistant,’ says Redding. ‘The hope is that by using directed evolution, we could force the algae cells to do all this in the presence of oxygen, so that in order to live, they would have to make hydrogen.’
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