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terça-feira, 28 de dezembro de 2021

VIRUSES HAVE ALWAYS EXISTED AND WILL ALWAYS EXIST. VIRUS DISEASES TOO, BUT WITH NEW CONNOTATIONS!

 Reproduced from

https://www.nationalgeographic.com/science/article/factors-allow-viruses-infect-humans-coronavirus


An estimated 10 nonillion (10 to the 31st power) individual viruses exist on our planet—enough to assign one to every star in the universe 100 million times over.

Viruses infiltrate every aspect of our natural world, seething in seawaterdrifting through the atmosphere, and lurking in miniscule motes of soil. Generally considered non-living entities, these pathogens can only replicate with the help of a host, and they are capable of hijacking organisms from every branch of the tree of life—including a multitude of human cells.

Yet, most of the time, our species manages to live in this virus-filled world relatively free of illness. The reason has less to do with the human body’s resilience to disease than the biological quirks of viruses themselves, says Sara Sawyer, a virologist and disease ecologist at the University of Colorado Boulder. These pathogens are extraordinarily picky about the cells they infect, and only an infinitesimally small fraction of the viruses that surround us actually pose any threat to humans.

Still, as the ongoing COVID-19 pandemic clearly demonstrates, outbreaks of new human viruses do happen—and they aren’t as unexpected as they might seem.

To better forecast and prevent outbreaks, scientists are homing in on the traits that may explain why some viruses, and not others, can make the hop into humans. Some mutate more frequently, perhaps easing their spread into new hosts, while others are helped along by human encounters with animals that provide opportunities to jump species.

When it comes to epidemics, “there are actually patterns there,” says Raina Plowright, a disease ecologist at Montana State University. “And they are predictable patterns.”

Crossing the species divide

Most new infectious illnesses enter the human population the same way COVID-19 did: as a zoonosis, or a disease that infects people by way of an animal. Mammals and birds alone are thought to host about 1.7 million undiscovered types of viruses—a number that has spurred scientists around the world to survey Earth’s wildlife for the cause of our species’ next pandemic. (Bacteria, fungi, and parasites can also pass from animals to people, but these pathogens can typically reproduce without infecting hosts, and many viruses are better equipped to cross species.)

To make a successful transition from one species to another, a virus must clear a series of biological hurdles. The pathogen has to exit one animal and come into contact with another, then establish an infection in the second host, says Jemma Geoghegan, a virologist at Macquarie University. This is known as a spillover event. After the virus has set up shop in a new host, it then needs to spread to other members of that species.

Exact numbers are hard to estimate, but the vast majority of animal-to-human spillovers likely result in dead-end infections that never progress past the first individual. For a new virus to actually spark an outbreak, “so many factors need to align,” says Dorothy Tovar, a virologist and disease ecologist at Stanford University.

Those factors include how often a virus-carrying animal encounters humans, the means through which a virus is spread, how long a virus can persist outside of a host, and how efficiently a virus can subvert the human immune system. A wrinkle at any step along the chain of transmission could foil the pathogen’s attempt to infect a new species. Even factors that seem innocuous—like above-average rainfall, or a local food shortage—can rejigger the dynamics of how humans and animals interact.

For a virus, one of most challenging aspects of transmission is gaining entry to a new host’s cells, which contain the molecular machinery that these pathogens need to replicate. This process typically involves a virus latching on to a molecule that studs the outside of a human cell—a bit like a key clicking into a lock. The better the fit, the more likely the pathogen is to access the cell’s interior. SARS-CoV-2, the coronavirus that causes COVID-19, engages with the protein ACE2 to enter cells in the human airway.

For any given host, “there’s a very small number of pathogens that are able to” break into its cells this way, Sawyer says. The vast majority of the viruses we encounter simply bounce off our cells, eventually exiting our bodies as harmless visitors.

The many faces of viruses

Sometimes, however, a pathogen manages to slip through. More than 200 viruses are known to cause disease in humans, and all are capable of breaking into human cells. But they almost certainly didn’t start out with that ability.

The host molecules that viruses glom on to, which are called receptors, tend to be highly variable from one species to the next, Sawyer says. “A key property of a virus that can accomplish a zoonosis is that it can, with a small number of evolutionary steps, adapt to use the human version of that receptor.”

Viruses with a lot of genetic flexibility, and particularly those that encode their genomes as RNA rather than DNA, are well-suited to crossing the species divide. Compared to viruses and cells that rely on DNA, RNA viruses tend to be sloppy when copying over their genetic code, introducing mutations at a high rate. This error-prone process creates an immense amount of diversity into populations of RNA viruses, allowing them to adapt to new environments—including new host species—at a rapid pace, says Sarah Zohdy, a disease ecologist at Auburn University.

Of the pathogens that have infected the human population in recent decades, the majority have been RNA viruses, including Ebola, SARS, MERS, Zika, several influenza viruses, and SARS-CoV-2.

Some viruses can also change up their genetic code through a second method that’s a bit like sexual reproduction. When two genetically dissimilar viruses infect the same cell, they may swap segments of their genomes with each other as they replicate, yielding hybrid viruses that differ from both their “parents.” Flu viruses, which rely on RNA, are among those that both mutate independently and frequently mingle their genomes—traits that have helped influenza shuttle back and forth between an entire menagerie of wild and domestic species, including pigs, whales, horses, seals, several types of birds, and, of course, humans.

The “perfect” pathogen

Neither mutation nor viral interbreeding, however, can guarantee spillover—and viruses that lack one or both traits can still infect a wide range of hosts.

A few years ago, Geoghegan and her colleagues identified a slew of other characteristics common to viruses that cause disease in humans. Their analysis revealed that viruses seemed to benefit from hiding in their hosts for long periods of time without being lethal. Lengthier infections, she says, likely give these stealthy pathogens more time to adapt and spread to new species.

Many of the pathogens that jump into people do so from rodents, bats, and non-human primates, likely due to some combination of these species’ abundance, proximity to people, and biological similarities to humans, Zohdy says. And of course, viruses related to known human pathogens, such as new strains of influenza and the novel coronavirus, are always possible threats. Although many of these microbes end up being harmless to humans, a handful of genetic changes can make them compatible with our cells.

Viral traits alone aren’t enough to predict pandemics. But as scientists continue to catalog the diverse viruses that inhabit our planet, knowing some of these telltale traits can help them prioritize pathogens for further study, says Tracey Goldstein, associate director of the University of California, Davis’ One Health Institute. After a candidate virus is identified in the field, it can be brought into the lab to see if it’s actually capable of infecting and replicating in human cells.

Traditionally, many of these steps have been performed by different groups of researchers, with some focusing their efforts on sampling viruses in the wild, and others sticking mostly to characterizing pathogens in the lab, Tovar says. However, scientists can’t get a full picture of the pathogens that could put us at risk without surveillance in the field, and they can’t confirm which ones pose the biggest threats without laboratory experiments.

“So many things need to come together, and it all matters,” Plowright says. But this complexity can work in humans’ favor: The more spillover factors that researchers identify, the more opportunities they have to intervene. Eventually, with enough information, we might even be able to stop outbreaks before they occur.

“The amount of information we’ve been able to get in such a short period of time … is incredible,” Zohdy says. “That’s already giving me hope.”


terça-feira, 14 de dezembro de 2021

HIGHLY DESTRUCTIVE TORNADOES IN SIX STATES IN THE U.S.: WOULD BE RELATED TO GLOBAL WARMING?!

 Reproduced from 

https://www.bbc.co.uk/news/59641376


How are tornadoes formed?

When warm moist air is trapped by cooler air, it causes thunder clouds to form.

The warm air rises, creating an updraft. 

And if there are also strong winds moving in different directions, the air column starts to rotate.

Increasing amounts of warm air are drawn in, speeding up the wind spiral, which then extends out of the bottom of the thunder clouds. 

And once this touches the ground, it is a tornado.

domingo, 21 de novembro de 2021

HIGHLY PRODUCTIVE FARM IN THE SEMIARID REGION NORTHEASTERN BRAZIL

An enterprise carried out by a Swissman, Pierre Landolt, in the municipality of Santa Teresinha, close to the city of Patos in the “sertão” (similar to Australian Outback) of Paraíba state, northeastern Brazil. 

 https://youtu.be/Mwh0M0PJ9A0








terça-feira, 2 de novembro de 2021

HEY… HEY… EUROPEAN PEOPLE!!! WAKE UP!!! THE AMAZON FOREST HAVE RESERVATION AS SANCTUARIES BUT ALSO PRODUCE FOOD IN SUSTAINABLE PROCESS …

 … because in 2050 our planet must feed around 9.5 BILLION people!!!



Access the following link:

From publication of EMBRAPA (Brazilian Agricultural Research Corporation):

Four distinct production systems can be thus classified:

  1. Integrated Crop-Livestock or Agro-Pasture System: a production system integrating the crop and livestock components in rotation, combination or succession in the same area and in a same crop year or for multiple years.
  2. Integrated Livestock-Forest, Forest-Pasture, or Silvopasture System: a production system integrating the livestock and forest components in combination.
  3. Integrated Crop-Forest or Agroforestry System: a production system integrating the crop and forest components through the combination of tree species and agricultural(annual or perennial)crops.
  4. Integrated Crop-Livestock-Forestry System: a production system integrating the crop, livestock and forest components in rotation, combination or succession in the same area. The "crop" component may or may not be restricted to the initial forest introduction phase



sábado, 2 de outubro de 2021

DEFORESTATION IN THE NORTH AND WATER SHORTAGE IN SOUTHEAST BRAZIL

 Brazil: A drought with roots in the Amazon jungle https://www.bbc.co.uk/news/world-latin-america-58743367

Access this following link, for a good explanation on likely most important cause of dryness in southeast Brazil:

https://youtu.be/jT0FgvjRthY




sexta-feira, 10 de setembro de 2021

MACHINE FOR CAPTURING ATMOSPHERIC CO2 AND INJECT IT DEEP INTO THE GROUND TO BE MINERALISED

 Reproduced from https://www.theguardian.com/environment/2021/sep/09/worlds-biggest-plant-to-turn-carbon-dioxide-into-rock-opens-in-iceland-orca?CMP=Share_iOSApp_Other


The world’s largest plant designed to suck carbon dioxide out of the air and turn it into rock has started running, the companies behind the project said on Wednesday.

The plant, named Orca after the Icelandic word “orka” meaning “energy”, consists of four units, each made up of two metal boxes that look like shipping containers.

Constructed by Switzerland’s Climeworks and Iceland’s Carbfix, when operating at capacity the plant will draw 4,000 tonnes of carbon dioxide out of the air every year, according to the companies.

According to the US Environmental Protection Agency, that equates to the emissions from about 870 cars. The plant cost between US$10 and 15m to build, Bloomberg reported.

To collect the carbon dioxide, the plant uses fans to draw air into a collector, which has a filter material inside.

Once the filter material is filled with CO2, the collector is closed and the temperature is raised to release the CO2 from the material, after which the highly concentrated gas can be collected.

The CO2 is then mixed with the water before being injected at a depth of 1,000 metres into the nearby basalt rock where it is mineralised.

Proponents of so-called carbon capture and storage believe these technologies can become a major tool in the fight against climate change.

Critics however argue that the technology is still prohibitively expensive and might take decades to operate at scale.



quinta-feira, 29 de julho de 2021

DESPITE GOVERNMENT’S PROMISES… CONSERVATION UNITS AND INDIGENOUS LANDS ARE OUR ULTIMATE HOPE!

 The creation of Protected Areas (Conservation Units and Indigenous Lands) has been one of the most effective strategies against deforestation in the Amazon. These areas, which occupy about 44% of the Amazon, play an essential role in the conservation of natural resources (especially biodiversity) and maintenance of environmental services, in addition to guaranteeing the rights of traditional and indigenous populations.

The challenge now is to ensure the effective protection of these territories against illegal deforestation, predatory logging and the risks of disaffection. In addition, it is necessary to advance in the process of consolidation of these areas with the elaboration and implementation of land management and regularization plans (where necessary).


The deforested area from January to June reached 4,014 km², 55% more than in the same period last year

Deforestation in the Brazilian Amazon region from January to June is already the highest in 10 years, according to Imazon. The research center that monitors the forest through satellite images published that the deforested area in this year reached 4,014 km², 55% more than in the same period in 2020.

Only in June of this year, the destruction of the forest reached 926 km². This number represents the third-highest of the decade for June. “We had already been following this increase in deforestation every month, with negative records. In March, April, and May, the deforested areas were the largest in the last ten years for each month”, explains Antonio Fonseca, Imazon’s researcher.

The June data also showed that only two of the nine states in the Brazilian Amazon registered 61% of all deforestation in the biome: Pará and Amazonas. Both added up 568 km² of deforested area in the period.

quinta-feira, 15 de julho de 2021

NEW TRAITOR TO SUSTAINABILITY?!


 […]

But now the green body says the relationship has "become untenable" and Korindo's trademark licenses with FSC will be terminated from October.  

"We were not able to verify improvements in Korindo's social and environmental performance," Kim Carstensen, FSC international director general said.

He said the decision would "give us clarity and a breath of fresh air while Korindo continues its efforts to improve." 

Korindo groups chief sustainability officer Kwangyul Peck said in a statement that the company was "very shocked by the FSC decision." 

He insists they were following all the steps of "an agreed roadmap of improvements" and said despite their expulsion from the FSC "they remain committed to sustainability and human rights."

Reported from:

 https://www.bbc.co.uk/news/world-asia-57845156


domingo, 6 de junho de 2021

PANDEMICS : MAY BE CAUSED BY DESTRUCTION OF NATURE (DIRECTLY OR NOT)

Reproduced from


The root cause of pandemics – the destruction of nature – is being ignored, scientists have warned. The focus of world leaders on responding to future outbreaks overlooks the far cheaper and more effective strategy of stopping the spillover of disease from animals to humans in the first place, they have said.

The razing of forests and hunting of wildlife is increasingly bringing animals and the microbes they harbour into contact with people and livestock. About 70% of new infectious diseases have come from animals, including Covid-19, Sars, bird flu, Ebola and HIV.

However, preventing this root cause of spillover is scarcely mentioned by leaders and authorities, said the scientists behind a new independent taskforce, which will report to the coalition on Preventing Pandemics at the Source. The PPS said the issue has been ignored by the World Health Assembly, and a recent report for the World Health Organization on the coronavirus pandemic.

Recent research estimated the annual cost of preventing further pandemics over the next decade to be $26bn (£18bn), just 2% of the financial damage caused by Covid-19. The measures would include protecting forests, shutting down risky trade in wildlife, better protecting farm animals from infection and rapid disease detection in wildlife markets.

[…]

“Covid-19 was a warning shot from the whole of nature to our species,” said Aaron Bernstein, a doctor at Harvard’s Center for Climate, Health and the Global Environment who is leading the taskforce. “But so far world leaders are far from acting. You hear from [them] about the actions to supposedly prevent pandemics, but the idea of preventing their root causes is scarcely even mentioned, let alone discussed.

[…]


segunda-feira, 29 de março de 2021

BOTH SIDES DO NOT GIVE UP! INVADERS AND DEFENDERS




 The Canadian mining company, Belo Sun, experienced a setback in its plans to open a massive gold mine in the Xingu river: it lost authorization to meet with Indigenous communities during the pandemic due to a pressure campaign by Indigenous leaders and human rights organizations. 

Groups began mobilizing after a white paper was published on February 10, 2021, by the Brazilian National Indigenous Foundation (Fundação Nacional do Índio – FUNAI). It provided details on “health protocols” so that Belo Sun could hold in-person and virtual meetings to present and validate its Environmental Impact Study (EIA) to Indigenous residents from the Indigenous Lands in Pará state.

After the publication of the paper, FUNAI authorized in-person meetings between Belo Sun and the Indigenous peoples that would be impacted by its proposed project. Amazon Watch, together with a coalition of organizations, released a statement opposing this decision, as it was made during one of the most dangerous moments of the COVID-19 pandemic in Brazil. Indigenous peoples remain one of the most impacted and vulnerable groups. To date, the country has recorded more than 266,000 deaths and 11 million cases and about 994 Indigenous Brazilians have died since the COVID-19 pandemic began last March, according to the Association of Brazil’s Indigenous Peoples (APIB), Brazil’s largest Indigenous association. 

The coalition’s statement followed a strong recommendation by Brazil’s Federal Public Defender’s Office (DPU) that urged FUNAI not to authorize or participate in in-person meetings while the COVID-19 crisis still poses a threat to the Indigenous peoples of the region. Altamira – the city including the Indigenous lands where some of these in-person meetings would be held – has recorded 19,100 cases so far. Moreover, the regional hospital occupancy rate has exceeded 90%.

By Wednesday, March 17, FUNAI had withdrawn its decision and vetoed any encounters between members of the company and the Indigenous peoples of Volta Grande do Xingu. Although a full halt to all activities would be the most appropriate step to take, Belo Sun remains more concerned with speeding up the process for the approval of its environmental license than with the lives of Indigenous peoples. A face-to-face meeting with Indigenous peoples from different communities in the city of Altamira could have had catastrophic consequences for their health and further burdened the health system.

Volta Grande do Xingu, one of the most biodiverse places in the world, has already been grappling with the negative impacts of the Belo Monte hydroelectric plant. The project is also rife with several technical issues, as recent expert reports and researchers attest that the project is not viable from a socio-environmental perspective and raised concerns about its impacts on Indigenous communities. In this context, Brazilian authorities should guarantee the protection of Indigenous peoples and address the serious technical shortcomings of the project. When they authorized in-person meetings, both FUNAI and the Brazilian government made it clear what side they are on: that of the big mining companies. 

Belo Sun plans on becoming the largest open-pit gold miner in Brazil by running roughshod over the rights of communities in Volta Grande do Xingu. In addition to the Juruna (Yudjá) and Arara Indigenous peoples, the region is home to other Indigenous groups and several riverside communities. Contrary to the company’s claims, these communities have not yet been properly consulted on a project that could irreversibly change their lives and their traditional lands.

With our partners in Brazil and Canada, such as Mining Watch, Rede Xingu+, Movimento Xingu Vivo para Sempre, Instituto Socioambiental (ISA), International Rivers, Above Ground, and the Interamerican Association for Environmental Defense (AIDA), Amazon Watch has been resisting and advocating to have the voices of impacted communities heard while continuing to highlight the impacts of yet another destructive mining project.

Belo Sun is hardly the first extractive company to put its profit margin over the lives of Indigenous peoples, but through swift organizing across our coalition of allied NGOs and Indigenous partners, we have secured an important victory. This is but one stop along this campaign’s road to resist Belo Sun’s ambitions to permanently alter the Xingu region through open-pit mining. It is important that we maintain the pressure to assure that the rights of the Indigenous peoples that would be impacted by Belo Sun’s project are upheld. This includes amplifying their calls against the project and campaigning until their decision is respected.



sexta-feira, 1 de janeiro de 2021

FORESTS WITH HIGH ECOLOGICAL INTEGRITY IN THE WORLD: 40%

 Reproduced from:

https://news.mongabay.com/2020/12/only-40-of-worlds-forests-have-high-ecological-integrity-a-new-index-reveals/






Highlights 

These forests provide livelihoods for millions of people, and are the cultural and ancestral heart of many indigenous first peoples who live in that area, people who depended on them for tens of thousands of years 

According to the index, 17.4 million square kilometers (6.7 million square miles) of remaining forests (40.5%) have high ecological integrity, a measure of human impact calculated using observed human pressure (infrastructure, agriculture, tree cover loss), inferred human pressure based on the proximity to known human pressures, and changes in forest connectivity.

The high-integrity forests are found mostly in Canada, Russia, the Amazon, Central Africa, and New Guinea. Of the remaining high-integrity forests, only 27% are currently in nationally designated protected areas.