From: david.j.worrell@gmail.com

Corn!

The corn of the future is the corn of the past?
http://tinyurl.com/yddsdv9w

Smithsonian
The Corn of the Future Is Hundreds of Years Old and Makes Its Own Mucus
This rare variety of corn has evolved a way to make its own nitrogen

Excerpts:

The corn variety Sierra Mixe grows aerial roots that produce a sweet mucus that
feeds bacteria. The bacteria, in turn, pull nitrogen out of the air and fertilize the corn. If scientists can breed this trait into conventional corn, it could lead to a
revolution in agriculture.

In the 1980s, Howard-Yana Shapiro, now chief agricultural officer at Mars, Incorporated, was looking for new kinds of corn. He was in the Mixes District of Oaxaca in southern Mexico, the area where the precursors to maize (aka corn)
first evolved, when
he located some of the strangest corn ever seen. Not only was it 16 to 20 feet tall, dwarfing the 12-foot stuff in American fields, it took six to eight months to mature, far longer than the 3 months needed for conventional corn. Yet it grew to those
impressive heights in what can charitably be called poor soil, without the use of fertilizer. But the strangest part of the corn was its aerial roots--green and rose-colored, finger-like protrusions sticking out of the corn’s stalk, dripping with a
clear, syrupy gel.

Shapiro suspected that those mucousy fingers might be the Holy Grail of agriculture. He believed that the roots allowed this unique variety of corn, dubbed Sierra Mixe and locally bred over hundreds or even thousands of years, to produce its own nitrogen,
an essential nutrient for crops that is usually applied as fertilizer in epic amounts.

The idea seemed promising, but without DNA tools to look into the specifics of how the corn was making nitrogen, the discovery was shelved. Nearly two decades
later, in 2005, Alan B. Bennett of the University of Davis—along with Shapiro
and other
researchers—began using cutting-edge technology to look into the nitrogen-fixing properties of the phlegmy corn, finding that indeed, bacteria living in the mucus were pulling nitrogen from the air, transmuting it into a form the corn could absorb.

Now, after over a decade of field research and genetic analysis, the team has published their work in the journal PLOS Biology. If the nitrogen-fixing trait could be bred into conventional corn, allowing it to produce even a portion of its own nitrogen,
it could reduce the cost of farming, reduce greenhouse gas emissions and halt one of the major pollutants in lakes, rivers and the ocean. In other words, it could lead to a second nitrogen revolution.

The synthetic production of nitrogen may be the greatest achievement of the 20th century. The discovery of the Haber-Bosch process and its refinements, in which nitrogen is stripped out of the air under high heat and pressure in the presence of a
catalyst, has led to three separate Nobel prizes. And they are well deserved. It’s estimated that crop yields more than doubled between 1908 and 2008, with
synthetic nitrogen fertilizer responsible for up to half that growth. Some researchers have tied
the massive growth in human population in the last seventy years to the increased use of nitrogen fertilizer. Without it, we’d have to farm almost four times as much land or have billions of fewer people in the world.

But producing all that nitrogen has consequences. It’s estimated that making fertilizer via the Haber-Bosch process uses between 1 and 2 percent of the world’s energy, emitting lots of greenhouse gases. And synthetic nitrogen routinely washes off
fields into waterways, leading to massive algae blooms that suck up all the oxygen, killing fish and other organisms. So much nitrogen goes into rivers and
streams that large dead zones have developed at the mouths of the world’s rivers, including one
in the Gulf of Mexico that last year was the size of New Jersey. Mark Sutton of
the UK Centre for Ecology and Hydrology calls nitrogen “the Godfather of pollution”—its effects are everywhere, but you never really see the culprit.
...
It turns out that nature has even more nitrogen-producing tricks up her sleeve that researchers are just getting a handle on. There are several other ongoing projects aimed at getting cereal and vegetable crops to do the Haber-Bosching for us. One of the
most promising is the use of endophytes, or microorganisms like bacteria and fungi that live in the intercellular spaces of plants. University of Washington
researcher Sharon Doty got interested in the organisms a couple decades ago. She was studying
willow and poplar trees, which are among the first trees to grow on disturbed land after events like a volcanic eruption, floods or rockfall. These trees were growing out of river gravel, with hardly any access to nitrogen in the soil. Inside their stems,
however, Doty found endophytes that fixed the nitrogen for the trees, no root nodules necessary. Since then, she’s teased out dozens of various endophyte strains, many of which help plants in surprising ways. Some produce nitrogen or
phosphorus,
another important nutrient, while others improve root growth and some allow plants to survive in drought or high-salt conditions.

“There [are] a whole slew of different microbes that can fix nitrogen and a broad range of plant species impacted by them,” she says. Her tests have shown that the microbes can double the productivity of pepper and tomato plants, improve growth in
rice, and impart drought tolerance to trees like Douglas firs. Some even allow trees and plants to suck up and break down industrial contaminants and are now being used to clean up Superfund sites. “The advantage of using endophytes is
that it’s a
really large group. We’ve found strains that work with rice, maize, tomatoes,
peppers and other agriculturally important crop plants.”

Can We Grow One of the World’s Largest Food Crops Without Fertilizer? https://www.youtube.com/watch?time_continue=6&v=5A-FMRqictE

In fact, endophytes might make it into farmers’ hands sooner rather than later. The Los Altos, California-based Intrinsyx Research Corporation is commercializing some of Doty’s endophytes. Chief Science Officer John L. Friedman says in an interview
the company is on track to have a product ready for market in 2019. The goal is
to deliver several strains of endophytes into plants, most likely by coating the seeds. After those bacteria take up residence inside the plant, they should
pump out about 25
percent of the nitrogen it needs.

Another biotech company, called Pivot Bio, recently announced it is beta testing a similar solution, using nitrogen-fixing microbes that grow in the root systems of corn.

The newly emerging field of synthetic biology is also taking a crack at the nitrogen problem. Boston-based Joyn Bio, formed last September, is a co-project
between Bayer and Gingko Bioworks, a biotech company with experience creating custom yeasts and
bacteria for the food and flavoring industry, among other “designer microbe” projects. Joyn is currently combing through Bayer’s library of over 100,000 microbes to find a host that can successfully colonize plants, similar to Doty’s endophytes.
Then they hope to tweak that “host chassis” with genes that will allow it to fix nitrogen. “Rather than rely on nature and find a magic microbe, which we don’t think exists, we want to find our host microbe and fine tune it to do what we need it
to do for corn or wheat,” says Joyn CEO Michael Miille.

The Gates Foundation is also in on the game, supporting projects attempting to impart the nitrogen-fixing abilities of legumes into cereals. Still other teams
are hoping that the advent of supercharged quantum computing will open up new realms of
chemistry and identify new catalysts that will make the Haber-Bosch process much more efficient.

While it’s unlikely that one solution alone will be able to replace 100 percent of the synthetic fertilizer humans use, perhaps together these projects
could make a serious dent in nitrogen pollution. Bennett hopes that Sierra Mixe
and what his team
has learned from it will be part of the nitrogen revolution, though he admits it’s a very long leap before his slimy corn fingers start producing nitrogen in conventional crops. He now wants to identify the genes that produce the aerial roots and pin
down which of the thousands of microbes discovered in the mucilage are actually
fixing the nitrogen.

“I think what we’re doing could be complementary to those [endoyphte and synthetic biology] approaches,” he says. “I think we’ll see many divergent strategies, and in 5 to 10 years something will emerge that impacts how corn gets nitrogen.”

***

Many new ways of reducing energy usage and pollution are in the works.

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* Origin: www.darkrealms.ca (1:229/2)

From: david.j.worrell@gmail.com

California Is the First State to Scrap Cash Bail

By Thomas Fuller
Aug. 28, 2018

http://tinyurl.com/ya5zjn8o

SAN FRANCISCO — California on Tuesday became the first state to fully abolish
cash bail, a step that backers said would create a more equitable criminal justice system, one less dependent on a person’s wealth.

“Today, California reforms its bail system so that rich and poor alike are treated fairly,” said Gov. Jerry Brown, who signed the California Money Bail Reform Act into law on Tuesday.

The driving principle of the law is that a suspect will be evaluated on the basis of risk to public safety and the likelihood of not appearing in court, rather than on his or her ability to post a certain bail amount. Those evaluations would help
determine if the suspect would be held while awaiting trial or released.

The California law is part of a wave of criminal justice reforms taking place across the country. A number of states, including New Jersey, New Mexico and Kentucky, have sharply curtailed their cash bail system, but California is the first to completely
dismantle it.

“This is a transformative day for our justice system,” said Tani Cantil-Sakauye, the chief justice of California and a main backer of the legislation, in a statement. “Our old system of money bail was outdated, unsafe and unfair.”

She called the new law “a fair and just solution for all Californians.”

The law relies on the state’s Judicial Council, a body that sets the rules for California’s courts, to create the new system of pretrial assessments. Suspects will be classified into “low risk,” “medium risk” and “high risk” by Pretrial
Assessment Services, which already exist in some California counties but which will be somewhat standardized by the law.

The law allows courts to detain a suspect “if there is a substantial likelihood that no condition or combination of conditions of pretrial supervision will reasonably assure public safety or the appearance of the person in court.”

California had already taken steps earlier in the year to mitigate the effect of cash bail on the indigent. In January, a California Court of Appeal criticized the practice of setting bail above what defendants can pay, ruling that a defendant “may not
be imprisoned solely due to poverty.”

***

For one thing, this move eliminates terrible practices like these: https://www.youtube.com/watch?v=TGomdoO368g

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* Origin: www.darkrealms.ca (1:229/2)

From: jeremyhdonovan@gmail.com

It's Coming Up...

11 EU Nations Kicked Off a Plan to Make Public Science Free http://tinyurl.com/yay3ynar

Screw paywalls.

PETER DOCKRILL 5 SEP 2018

The paywall that separates millions from free access to scientific knowledge is
finally being torn down, thanks to a radical new initiative announced by 11 European nations.

The UK, France, Italy, and eight other countries have formed a bold pact called
cOAlition S, designed to ensure that from 1 January 2020, all publicly funded scientific research is freely, immediately available and fully open access (OA).

For the nations taking part, the plan represents the imminent realisation of an
open access dream that began decades ago, and looks destined to signify the end
of the paywall as we know it.

"'Knowledge is power' and I firmly believe that free access to all scientific publications from publicly funded research is a moral right of citizens," the EU's Commissioner for Research, Science and Innovation, Carlos Moedas, said in a statement.

"It is one of the most important political commitments on science of recent times and puts Europe at the forefront of the global transition to open science."

cOAlition S – which also involves research funding agencies from Austria, Ireland, Luxembourg, the Netherlands, Norway, Poland, Slovenia, and Sweden – is designed to deliver the goals of Plan S, first announced in July, and spearheaded by the Open
Access Envoy of the European Commission, Robert-Jan Smits.

Of course, Europe has signaled these exact noble sentiments before, but this time, cOAlition S is determined to anchor their ambitious plans in reality.

"We think this could create a tipping point," the president of Science Europe, Marc Schiltz, who helped frame the plan, told Science.

"Really the idea was to make a big, decisive step – not to come up with another statement or an expression of intent."

The key principle of Plan S is that from 2020 forward, all scientific research funded by public grants awarded by the 11 nation funders must be published in compliant Open Access journals or on compliant Open Access platforms – immediately, and with no
restrictions.

The chief goal is to prevent paywalls from obstructing universal access to science, which Schiltz says, as a system of knowledge, can only function properly when researchers have free, unfettered access to one another's results, findings, and ideas –
themselves the fruit of taxpayers' money.

"Publication paywalls are withholding a substantial amount of research results from a large fraction of the scientific community and from society as a whole,"
Schiltz explains in a preamble document outlining cOAlition S's aims.

"This constitutes an absolute anomaly, which hinders the scientific enterprise in its very foundations and hampers its uptake by society… no science should be locked behind paywalls!"

While the open ideals can be applauded, executing the plan won't be easy.

Right now, the terms of Plan S would actually prevent researchers from publishing their papers in approximately 85 percent of existing journals, and even 'hybrid' journals (which publish a mixture of paywalled and OA content) would be forbidden – and
in the strong terms of the preamble, "should therefore be terminated".

These dramatic changes have predictably been seized upon by traditional journal
publishers.

"Implementing such a plan, in our view, would disrupt scholarly communications,
be a disservice to researchers, and impinge academic freedom," a spokesperson for AAAS told Science.

There are also concerns that the shakeups could jeopardise high-quality peer-review enabled by traditional systems – something which Smits is adamant
can't be allowed to happen.

"Publishers are not the enemy," he told Nature. "I want them to be part of the change."

As for how these issues can be addressed (and new platforms established) before
the January 2020 deadline is unclear, but those behind cOAlition S are hoping their coordinated, international effort will be the springboard that launches science into a new,
free, and truly universal epoch.

"The subscription-based model of scientific publishing emerged at a certain point in the history of science, when research papers needed extensive typesetting, layout design, printing, and when hardcopies of journals needed to
be distributed throughout
the world," Schiltz explains.

"There is no valid reason to maintain any kind of subscription-based business model for scientific publishing in the digital world."

***

It will be very interesting to see if they can really pull this off.

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From: allmyslotties@gmail.com

On Tuesday, 25 September 2018 20:48:53 UTC+1, Jeremy H. Donovan wrote:

It's Coming Up...

11 EU Nations Kicked Off a Plan to Make Public Science Free

### - whoo-hoo! free 'religion' for... everyone!!!

jeez, they'll no doubt be sending round the fuckin' collection plate in a minute too eh? lol :D

i gots yer 'science' right here pally! :)))

it's a shit god to believe in/worship!

and amen to that :D

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