Soil Scientist Quotes

What we contemplate here is more than ecological restoration; it is the restoration of relationship between plants and people. Scientists have made a dent in understanding how to put ecosystems back together, but our experiments focus on soil pH and hydrology—matter, to the exclusion of spirit. We might look to the Thanksgiving Address for guidance on weaving the two. We are dreaming of a time when the land might give thanks for the people.

If we present a man with a concept of man which is not true, we may well corrupt him. When we present man as an automaton of reflexes, as a mind-machine, as a bundle of instincts, as a pawn of drives and reactions, as a mere product of instinct, heredity and environment, we feed the nihilism to which modern man is, in any case, prone. I became acquainted with the last stage of that corruption in my second concentration camp, Auschwitz. The gas chambers of Auschwitz were the ultimate consequence of the theory that man is nothing but the product of heredity and environment; or as the Nazi liked to say, ‘of Blood and Soil.’ I am absolutely convinced that the gas chambers of Auschwitz, Treblinka, and Maidanek were ultimately prepared not in some Ministry or other in Berlin, but rather at the desks and lecture halls of nihilistic scientists and philosophers.

Perhaps the cause of our contemporary pessimism is our tendency to view history as a turbulent stream of conflicts – between individuals in economic life, between groups in politics, between creeds in religion, between states in war. This is the more dramatic side of history; it captures the eye of the historian and the interest of the reader. But if we turn from that Mississippi of strife, hot with hate and dark with blood, to look upon the banks of the stream, we find quieter but more inspiring scenes: women rearing children, men building homes, peasants drawing food from the soil, artisans making the conveniences of life, statesmen sometimes organizing peace instead of war, teachers forming savages into citizens, musicians taming our hearts with harmony and rhythm, scientists patiently accumulating knowledge, philosophers groping for truth, saints suggesting the wisdom of love. History has been too often a picture of the bloody stream. The history of civilization is a record of what happened on the banks.

Look, I don't know what you are, but you're more than a geologist, if you are one at all. I've met lots of geologists on different projects like this, and they're all tiny sunburned men with fetishes for geodes. They wear floppy hats and carry baggies for soil samples around with them. ... And geologists don't make rocks disappear like you did the other night. They keep them and build little shrines to them.

Gardens are simultaneously a material and a spiritual undertaking. That’s hard for scientists, so fully brainwashed by Cartesian dualism, to grasp. “Well, how would you know it’s love and not just good soil?” she asks. “Where’s the evidence? What are the key elements for detecting loving behavior?” That’s easy. No one would doubt that I love my children, and even a quantitative social psychologist would find no fault with my list of loving behaviors: nurturing health and well-being protection from harm encouraging individual growth and development desire to be together generous sharing of resources working together for a common goal celebration of shared values interdependence sacrifice by one for the other creation of beauty If we observed these behaviors between humans, we would say, “She loves that person.” You might also observe these actions between a person and a bit of carefully tended ground and say, “She loves that garden.” Why then, seeing this list, would you not make the leap to say that the garden loves her back?

Soil scientists know all the dirt.

Reading about declining owl populations led him to deforestation which led to soil erosion which led to ocean pollution which led to coral bleaching, everything warming, melting, and dying faster than scientists predicted, every system on the planet connected by countless invisible threads to every other:

Scientists found that there are exactly as many skin pigment colors to the various races of this world as there are different colors of soil [dirt].

Sometimes they called themselves carbon farmers, knowing that it was carbon that was making their soils richer, moister, and darker.

New York state grape scientists go so far as to say that 'the site characteristics of rain fall, soil nutrients, organic matter, high lime, soil texture and pH are minor compared with soil depth, temperature and replant status.

Trillions of microorganisms, even in my own smallish backyard, like a great dark sea swarming with tiny creatures—it almost makes me feel a little seasick standing here, knowing how much business is being conducted right under my feet.

Dirt can heal: in two separate experiments in England and the United States in 2007 and 2010, the mice lucky enough to be exposed to a common soil bacterium, Mycobacterium vaccae, performed better in a maze, showed less anxiety and produced more serotonin, a neurotransmitter many scientists think is associated with happiness. To test the phytoncide theory, Li locked thirteen subjects in hotel rooms for three nights.

In 1909 Carl Bosch perfected a process invented by Fritz Haber which used methane and steam to pull nitrogen out of the air and turn it into fertilizer on an industrial scale, replacing the massive quantities of bird poop that had previously been needed to return nitrogen to depleted soils. Those two chemists top the list of the 20th-century scientists who saved the greatest number of lives in history, with 2.7 billion.

There is one itty-bitty ray of hope in the coming global fertilizer—and from that, food—shortage: most studies by most agricultural scientists suggest that most farmers have been overfertilizing for decades, especially when it comes to potassium fertilizers. This would suggest that at present most farms in most places have a potassium surplus baked into the soil. This would further suggest that most farmers can reduce their inputs of fertilizer without sacrificing yields by all that much. The question is, for how long?

In recent years scientists have discovered that coastal wetlands—salt marshes, but also mangroves and saw grass meadows—store a quarter of the carbon found in the earth’s soil, despite covering only 5 percent of the planet’s land area. That means that an acre of healthy coastal wetlands will clean far more air than an acre of the Amazon. “They sequester about fifteen times more carbon than upland forests,” Beverly tells me. “But how effective are these ecosystems when they have been dammed, diked, culverted, or drained? That’s what we’d like to know.

If a fountain could jet bouquets of chrome yellow in dazzling arches of chrysanthemum fireworks, that would be Canada Goldenrod. Each three-foot stem is a geyser of tiny gold daisies, ladylike in miniature, exuberant en masse. Where the soil is damp enough, they stand side by side with their perfect counterpart, New England Asters. Not the pale domesticates of the perennial border, the weak sauce of lavender or sky blue, but full-on royal purple that would make a violet shrink. The daisylike fringe of purple petals surrounds a disc as bright as the sun at high noon, a golden-orange pool, just a tantalizing shade darker than the surrounding goldenrod. Alone, each is a botanical superlative. Together, the visual effect is stunning. Purple and gold, the heraldic colors of the king and queen of the meadow, a regal procession in complementary colors. I just wanted to know why. In composing a palette, putting them together makes each more vivid; just a touch of one will bring out the other. In an 1890 treatise on color perception, Goethe, who was both a scientist and a poet, wrote that “the colors diametrically opposed to each other . . . are those which reciprocally evoke each other in the eye.” Purple and yellow are a reciprocal pair. Growing together, both receive more pollinator visits than they would if they were growing alone. It’s a testable hypothesis; it’s a question of science, a question of art, and a question of beauty. Why are they beautiful together? It is a phenomenon simultaneously material and spiritual, for which we need all wavelengths, for which we need depth perception. When I stare too long at the world with science eyes, I see an afterimage of traditional knowledge. Might science and traditional knowledge be purple and yellow to one another, might they be goldenrod and asters? We see the world more fully when we use both. The question of goldenrod and asters was of course just emblematic of what I really wanted to know. It was an architecture of relationships, of connections that I yearned to understand. I wanted to see the shimmering threads that hold it all together. And I wanted to know why we love the world, why the most ordinary scrap of meadow can rock us back on our heels in awe.

AI Con (The Sonnet) Everybody is concerned about psychics conning people, How 'bout the billionaires who con people using science! Con artists come in all shapes and sizes, Some use barnum statements, others artificial intelligence. Most scientists speak up against only the little frauds, But not the big frauds who support their livelihood. Am I not afraid to be blacklisted by the big algorithms! Is the sun afraid, its light will offend some puny hoods! I come from the soil, I'll die struggling in the soil. My needs are less, hence my integrity is dangerous. I am here to show this infantile species how to grow up. I can't be bothered by the fragility of a few spoiled brats. Reason and fiction both are fundamental to build a civilization. Neither is the problem, the problem is greed and self-absorption.

Darwin’s Bestiary PROLOGUE Animals tame and animals feral prowled the Dark Ages in search of a moral: the canine was Loyal, the lion was Virile, rabbits were Potent and gryphons were Sterile. Sloth, Envy, Gluttony, Pride—every peril was fleshed into something phantasmic and rural, while Courage, Devotion, Thrift—every bright laurel crowned a creature in some mythological mural. Scientists think there is something immoral in singular brutes having meat that is plural: beasts are mere beasts, just as flowers are floral. Yet between the lines there’s an implicit demurral; the habit stays with us, albeit it’s puerile: when Darwin saw squirrels, he saw more than Squirrel. 1. THE ANT The ant, Darwin reminded us, defies all simple-mindedness: Take nothing (says the ant) on faith, and never trust a simple truth. The PR men of bestiaries eulogized for centuries this busy little paragon, nature’s proletarian— but look here, Darwin said: some ants make slaves of smaller ants, and end exploiting in their peonages the sweating brows of their tiny drudges. Thus the ant speaks out of both sides of its mealy little mouth: its example is extolled to the workers of the world, but its habits also preach the virtues of the idle rich. 2. THE WORM Eyeless in Gaza, earless in Britain, lower than a rattlesnake’s belly-button, deaf as a judge and dumb as an audit: nobody gave the worm much credit till Darwin looked a little closer at this spaghetti-torsoed loser. Look, he said, a worm can feel and taste and touch and learn and smell; and ounce for ounce, they’re tough as wrestlers, and love can turn them into hustlers, and as to work, their labors are mythic, small devotees of the Protestant Ethic: they’ll go anywhere, to mountains or grassland, south to the rain forests, north to Iceland, fifty thousand to every acre guzzling earth like a drunk on liquor, churning the soil and making it fertile, earning the thanks of every mortal: proud Homo sapiens, with legs and arms— his whole existence depends on worms. So, History, no longer let the worm’s be an ignoble lot unwept, unhonored, and unsung. Moral: even a worm can turn. 3. THE RABBIT a. Except in distress, the rabbit is silent, but social as teacups: no hare is an island. (Moral: silence is golden—or anyway harmless; rabbits may run, but never for Congress.) b. When a rabbit gets miffed, he bounds in an orbit, kicking and scratching like—well, like a rabbit. (Moral: to thine own self be true—or as true as you can; a wolf in sheep’s clothing fleeces his skin.) c. He populates prairies and mountains and moors, but in Sweden the rabbit can’t live out of doors. (Moral: to know your own strength, take a tug at your shackles; to understand purity, ponder your freckles.) d. Survival developed these small furry tutors; the morals of rabbits outnumber their litters. (Conclusion: you needn’t be brainy, benign, or bizarre to be thought a great prophet. Endure. Just endure.) 4. THE GOSSAMER Sixty miles from land the gentle trades that silk the Yankee clippers to Cathay sift a million gossamers, like tides of fluff above the menace of the sea. These tiny spiders spin their bits of webbing and ride the air as schooners ride the ocean; the Beagle trapped a thousand in its rigging, small aeronauts on some elusive mission. The Megatherium, done to extinction by its own bigness, makes a counterpoint to gossamers, who breathe us this small lesson: for survival, it’s the little things that count.

With Britain preoccupied by World War II and the United States not yet in it, the quest to produce bulk penicillin moved to a U.S. government research facility in Peoria, Illinois. Scientists and other interested parties all over the Allied world were secretly asked to send in soil and mold samples. Hundreds responded, but nothing they sent proved promising. Then, two years after testing had begun, a lab assistant in Peoria named Mary Hunt brought in a cantaloupe from a local grocery store. It had a “pretty golden mold” growing on it, she recalled later. That mold proved to be two hundred times more potent than anything previously tested. The name and location of the store where Mary Hunt shopped are now forgotten, and the historic cantaloupe itself was not preserved: after the mold was scraped off, it was cut into pieces and eaten by the staff. But the mold lived on. Every bit of penicillin made since that day is descended from that single random cantaloupe. Within a year, American pharmaceutical companies were producing 100 billion units of penicillin a month.

Seymour studies the quantities of methane locked in melting Siberian permafrost. Reading about declining owl populations led him to deforestation which led to soil erosion which led to ocean pollution which led to coral bleaching, everything warming, melting, and dying faster than scientists predicted, every system on the planet connected by countless invisible threads to every other: cricket players in Delhi vomiting from Chinese air pollution, Indonesian peat fires pushing billions of tons of carbon into the atmosphere over California, million-acre bushfires in Australia turning what’s left of New Zealand’s glaciers pink. A warmer planet = more water vapor in the atmosphere = even warmer planet = more water vapor = warmer planet still = thawing permafrost = more carbon and methane trapped in that permafrost releasing into the atmosphere = more heat = less permafrost = less polar ice to reflect the sun’s energy, and all this evidence, all these studies are sitting there in the library for anybody to find, but as far as Seymour can tell, he’s the only one looking.

Thomas A. Edison told his associates that "Carver is worth a fortune" and backed up his statement by offering to employ the black chemist at an astronomically high salary. Carver turned down the offer. Henry Ford, who thought Carver "the greatest scientist living," tried to get him to come to his River Rouge establishment, with an equal lack of success. Because of the strangely unaccountable source from which his magic with plant products sprang, his methods continued to be as wholly inscrutable as Burbank's to scientists and to the general public. Visitors finding Carver puttering at his workbench amid a confusing clutter of molds, soils, plants, and insects were baffled by the utter and, to many of them, meaningless simpFcity of his replies to their persistent pleas for him to reveal his secrets. To one puzzled interlocutor he said: "The secrets are in the plants. To elicit them you have to love them enough." "But why do so few people have your power?" the man persisted. "Who besides you can do these things?" "Everyone can," said Carver, "if only they believe it.

The beauty of Mars exists in the human mind. without the human presence it is just a concatenation of atoms, no different than any other random speck of matter in the universe. It's we who understand it, and we who give it meaning. All our centuries of looking up at the night sky and watching it wander through the stars. All those nights of watching it through the telescopes, looking at a tiny disk trying to see canals in the albedo changes. All those dumb sci-fi novels with their monsters and maidens and dying civilizations. And all the scientists who studied the data, or got us here. That's what makes Mars Beautiful. Not the basalt and the oxides. Now that we are here, it isn't enough to just hide under ten meters of soil and study the rock. That's science, yes, and needed science too. But science is more than that. Science is part of a larger human enterprise, and that enterprise includes going to the stars, adapting to other planets, adapting them to us. Science is creation. The lack of life here, and the lack of any finding in fifty years of the SETI program, indicates that life is rare, and intelligent life even rarer. And yet the whole meaning of the universe, its beauty, is contained in the consciousness of intelligent life. We are the consciousness of the universe, and our job is to spread that around, to go look at things, to live everywhere we can. It's too dangerous to keep the consciousness of the universe on only one planet, it could be wiped out. And so now we're on two, three if you count the moon. And we can change this one to make it safer to live on. Changing it won't destroy it. Reading its past might get harder, but the beauty of it won't go away. If there are lakes, or forests, or glaciers, how does that diminish Mars beauty? I don't think it does. I think it only enhances it. It adds life, the most beautiful system of all. But nothing life can do will bring Tharsis down, or fill Marineris. Mars will always remain Mars, different from Earth, colder and wilder. But it can be Mars and ours at the same time. And it will be. There is this about the human mind; if it can be done, it will be done. We can transform Mars and build it like you would build a cathedral, as a monument to humanity and the universe both. We can do it, so we will do it. So, we might as well start.

In 1969, NASA scientist James Lovelock noticed something unusual happening in the earth’s atmosphere: inexplicably, its balance of oxygen and other gases was regulating itself like a thermostat. But what was doing the regulating? He looked at other planetary processes—including the stable concentration of ocean salinity and the cycling of nutrients—and came to a startling conclusion: the earth is alive. He proposed that the earth is a superorganism—one giant living system that includes not just animals and plants but rocks, gases, and soil—acting together as if the planet was a single living being. Its bodily systems, such as the water cycle and nitrogen cycle, are balanced to maintain life on earth. The throb of the tides was the systole and diastole of the earth, and water coursed like blood through its veins. We proud humans may simply be microbes on the surface of a superbeing whose entirety we cannot fully comprehend. Like the bacteria in our body, is it possible that we, too, are part of a larger living earth, a speck on the eyeball of the universe? Tree roots break the sidewalk. Dandelions spring through the cracks. Insects grow resistant to pesticides

There are hundreds of examples of highly functioning commons around the world today. Some have been around for centuries, others have risen in response to economic and environmental crises, and still others have been inspired by the distributive bias of digital networks. From the seed-sharing commons of India to the Potato Park of Peru, indigenous populations have been maintaining their lands and managing biodiversity through a highly articulated set of rules about sharing and preservation. From informal rationing of parking spaces in Boston to Richard Stallman’s General Public License (GPL) for software, new commons are serving to reinstate the value of land and labor, as well as the ability of people to manage them better than markets can. In the 1990s, Elinor Ostrom, the American political scientist most responsible for reviving serious thought about commoning, studied what specifically makes a commons successful. She concluded that a commons must have an evolving set of rules about access and usage and that it must have a way of punishing transgressions. It must also respect the particular character of the resource being managed and the people who have worked with that resource the longest. Managing a fixed supply of minerals is different from managing a replenishing supply of timber. Finally, size and place matter. It’s easier for a town to manage its water supply than for the planet to establish water-sharing rules.78 In short, a commons must be bound by people, place, and rules. Contrary to prevailing wisdom, it’s not an anything-goes race to the bottom. It is simply a recognition of boundaries and limits. It’s pooled, multifaceted investment in pursuit of sustainable production. It is also an affront to the limitless expansion sought by pure capital. If anything, the notion of a commons’ becoming “enclosed” by privatization is a misnomer: privatizing a commons breaks the boundaries that protected its land and labor from pure market forces. For instance, the open-source seed-sharing networks of India promote biodiversity and fertilizer-free practices among farmers who can’t afford Western pesticides.79 They have sustained themselves over many generations by developing and adhering to a complex set of rules about how seed species are preserved, as well as how to mix crops on soil to recycle its nutrients over centuries of growing. Today, they are in battle with corporations claiming patents on these heirloom seeds and indigenous plants. So it’s not the seed commons that have been enclosed by the market at all; rather, the many-generations-old boundaries have been penetrated and dissolved by disingenuously argued free-market principles.

The black magic that evil-minded people of all religions practice for their ugly and inhuman motives. The modern world ignores that and even do not believe in it; however, it exists, and it sufficiently works too. When I was an assistant editor, in an evening newspaper, I edited and published such stories. As a believer, I believe that. However, not that can affect everyone; otherwise, every human would have been under the attack of it. No one can explain and define black magic and such practices. The scientists today fail to recognize such a phenomenon; therefore, routes are open for black magic to proceeds its practices without hindrances. One can search online websites, and YouTube; it will realize a large number of the victims of that the evil practice by evil-minded peoples of various societies. The magic, black magic, or evil power exists, and it works too. Evil power causes, effects, and appears, as diseases and psychological issues since no one can realize, trace, and prove that horror practice; it is the secret and privilege of the evil-minded people that law fails to catch and punish them, for such crime. I exemplify here, the two events briefly, one a very authentic that I suffered from it and another, a person, who also became a victim of it. The first, when I landed on the soil of the Netherlands, I thought, I was in the safest place; however, within one year, I faced the incident, which was a practice of my family, involving my brothers, my country mates, who lived in the Netherlands. The most suspected were the evil-minded people of the Ahmadiyya movement of Surinam people, and possibly my ex-wife and a Pakistani couple. I had seen the evidence of the black magic, which my family did upon me, but I could not trace the reality of other suspected ones that destroyed my career, future, health, and even life. The second, a Pakistani, who lived in Germany, for several years, as an active member of the Ahmadiyya Movement, he told me his story briefly, during a trip to London, attending a literary gathering. He received a gold medal for his poetry work, and also he served Ahmadiyya TV channel; however when he became a real Muslim; as a result, Ahmadiyya worriers turned against him. When they could not force him to back in their group, they practiced the devil's work to punish him. The symptoms of magic were well-known to me that he told me since I bore that on my body too. The multiple other stories that reveal that the Ahmadiyya Movement, possibly practices black magic ways, to achieve its goals. As my observation, they involve, to eliminate Muslim Imams and scholars, who cause the failure of that new religion and false prophet, claiming as Jesus. I am a victim of their such practices. Social Media and such websites are a stronghold of their activities. In Pakistan, they are active, in the guise of the real Muslims, to dodge the simple ones, as they do in Europe and other parts of the word. Such possibility and chance can be possible that use of drugs and chemicals, to defeat their opponents, it needs, wide-scale investigation to save, the humanity. The incident that occurred to me, in the Netherlands, in 1980, I tried and appealed to the authorities of the Netherlands, but they openly refused to cooperate that. However, I still hope and look forward to any miracle that someone from somewhere gives the courage to verify that.

Perhaps the elements of memory in plants are superficially treated," he writes, "but at least there they are in black and white! Yet no one calls his friends or neighbors, no one shouts in a drunken voice over the telephone: Have you heard the news? Plants can feel! They can feel pain! They cry out! Plants remember everything!" When Soloukhin began to telephone his own friends in excitement he learned from one of them that a prominent member of the Soviet Academy of Sciences, working in Akademgorodok, the new town inhab­ ited almost exclusively by research scientists on the outskirts of Siberia's largest industrial center, Novosibirsk, had stated: Don't be amazed! We too are carrying out many experiments of this kind and they all point to one thing: plants have memory. They are able to gather impressions and retain them over long periods. We had a man molest, even torture, a geranium for several days in a row. He pinched it, tore it, pricked its leaves with a needle, dripped acid on its living tissues, burned it with a lighted match, and cut its roots. Another man took tender care of the same geranium, watered it, worked its soil, sprayed it with fresh water, supported its heavy branches, and treated its burns and wounds. When we electroded our instruments to the plant, what do you think? No sooner did the torturer come near the plant than the recorder of the instrument began to go wild. The plant didn't just get "nervous"; it was afraid, it was horrified. If it could have, it would have either thrown itself out the window or attacked its torturer. Hardly had this inquisitor left and the good man taken his place near the plant than the geranium was appeased, its impulses died down, the recorder traced out smooth­ one might almost say tender-lines on the graph.

In 1995, the gray wolf was reintroduced to Yellowstone National Park after a seventy-year hiatus. Scientists expected an ecological ripple effect, but the size and scope of the trophic cascade took them by surprise.7 Wolves are predators that kill certain species of animals, but they indirectly give life to others. When the wolves reentered the ecological equation, it radically changed the behavioral patterns of other wildlife. As the wolves began killing coyotes, the rabbit and mouse populations increased, thereby attracting more hawks, weasels, foxes, and badgers. In the absence of predators, deer had overpopulated the park and overgrazed parts of Yellowstone. Their new traffic patterns, however, allowed the flora and fauna to regenerate. The berries on those regenerated shrubs caused a spike in the bear population. In six years’ time, the trees in overgrazed parts of the park had quintupled in height. Bare valleys were reforested with aspen, willow, and cottonwood trees. And as soon as that happened, songbirds started nesting in the trees. Then beavers started chewing them down. Beavers are ecosystem engineers, building dams that create natural habitats for otters, muskrats, and ducks, as well as fish, reptiles, and amphibians. One last ripple effect. The wolves even changed the behavior of rivers—they meandered less because of less soil erosion. The channels narrowed and pools formed as the regenerated forests stabilized the riverbanks. My point? We need wolves! When you take the wolf out of the equation, there are unintended consequences. In the absence of danger, a sheep remains a sheep. And the same is true of men. The way we play the man is by overcoming overwhelming obstacles, by meeting daunting challenges. We may fear the wolf, but we also crave it. It’s what we want. It’s what we need. Picture a cage fight between a sheep and a wolf. The sheep doesn’t stand a chance, right? Unless there is a Shepherd. And I wonder if that’s why we play it safe instead of playing the man—we don’t trust the Shepherd. Playing the man starts there! Ecologists recently coined a wonderful new word. Invented in 2011, rewilding has a multiplicity of meanings. It’s resisting the urge to control nature. It’s the restoration of wilderness. It’s the reintroduction of animals back into their natural habitat. It’s an ecological term, but rewilding has spiritual implications. As I look at the Gospels, rewilding seems to be a subplot. The Pharisees were so civilized—too civilized. Their religion was nothing more than a stage play. They were wolves in sheep’s clothing.8 But Jesus taught a very different brand of spirituality. “Foxes have dens and birds have nests,” said Jesus, “but the Son of Man has no place to lay his head.”9 So Jesus spent the better part of three years camping, fishing, and hiking with His disciples. It seems to me Jesus was rewilding them. Jesus didn’t just teach them how to be fishers of men. Jesus taught them how to play the man! That was my goal with the Year of Discipleship,

There were actual land sites all over the planet that should be very badly contaminated by lipofuscin, because their soil has been seeded with the stuff for generations. I speak, of course, of graveyards. Think about it: hundreds of bodies put into the ground—sometimes en masse, as happened throughout Europe during the horrors of the Plague, and more recently following acts of genocide in Rwanda and elsewhere. These soils should be chockablock with aggregates from their inhabitants’ decaying bodies. Yet, to my knowledge, there was no accumulation of lipofuscin in cemeteries—and if there were, we certainly ought to be aware of it, because lipofuscin is fluorescent. Months later, when I was discussing the issue with fellow Cambridge scientist John Archer, he would put the disconnect succinctly: “Why don’t graveyards glow in the dark?

Galton’s gospel of eugenics found fertile soil in Britain, in the intellectual salons of Europe, and in the United States. Beginning in the early years of the twentieth century, eugenics scientists called for programs to manipulate human reproduction. They advocated for laws to segregate the so-called feebleminded into state colonies, to live out their lives in celibacy. They led the drive to restrict immigration from countries whose citizens might pollute their national gene pools. And they supported sterilization laws aimed at men and women whose “germplasm” threatened the eugenic vitality of the nation.

Vogt spent ten months in Mexico, much of it with Juana, at the behest of the Mexican agricultural ministry, writing a guide to conservation for Mexican schoolchildren, and struggling with his cane and braces through twenty-six national parks. Although statistics showed that the country was Latin America’s wealthiest, its landscapes were enshrouded by suffering: impoverished subsistence farmers, scratching at depleted soils, taking down the last stands of timber for their cookstoves. “Unless land-use patterns are radically altered,” Vogt said, “most of Mexico will be virtually desert within a hundred years.

the whole tapestry may unravel. After he saw the devastating environmental effects of colonial plantations at Lake Valencia in Venezuela in 1800, Humboldt became the first scientist to talk about harmful human-induced climate change. Deforestation there had made the land barren, water levels of the lake were falling and with the disappearance of brushwood torrential rains had washed away the soils on the surrounding mountain slopes. Humboldt was the first to explain the forest’s ability to enrich the atmosphere with moisture and its cooling effect, as well as its importance for water retention and protection against soil erosion. He warned that humans were meddling with the climate and that this could have an unforeseeable impact on ‘future generations’.

It rains in the Amazon because the trees want it to. There is plenty of moisture in the oceans that surround the continent, but there is also hidden reservoir on the land, feeding an invisible river that flow upward to the sky. The water held in the soil is lifted up the bodies of trees and lost to the atmosphere through the surface of the leaves. The local sky plumps with moisture, primed for the arrival of the seasonal rains driven by the annual back-and-forth march of the sun’s rays. As climate scientist Alex Hall put it, the trees are co-conspiring with the sky to attract an earlier monsoon. A HANDFUL OF DUST by Kate Marvel

See, In India I am going to say as I am Indian citizen, yes there is environmental concerns everywhere in India but they seem to be tiny and can be tackled within 20 years. So either it is exaggerated problem or the real pollution data is not open source i .e - Government is indirectly supporting and/ or hiding monopolies. Because governments focus is only on farming practices where land lords are having too much lands and using mixed system of farming because of unpredictable weather and indeed it does pollute the soil but applying biological remediation will obviously help treat and cleanse them. Why biological remediation is not at all considered? Animal genomics is under ethics, ok understood but microbial genomics, plant genomics? See there is certainly environmental problems from industries that affect farming, But i visualize that it is to eliminate land lords to make complete manu smiriti India. And who polluted farming system, obviously fertilizers and who allowed it? Indian government! before 200 years was there fertilizers in India? Why did they allow it, is it because they wanted pollute it for the money they get from foreign giants! or is it because they wanted to pollute the environment deliberately and then they want to cleanse it so that they get good names and meanwhile while cleansing strategies applied, as a partnership they enter into the system and then they eliminate land holders and make them sudras again manusmiriti concept! Isn't it? Do you know something this manu smiriti concept never much happened in South India, yeah it happened only upto certain level not completely like Uttar Pradesh and Rajasthan. You people have polluted the environment now just pretending to be gods of saving nature and after inturns slowly making manusmiriti India. Yes south has pollution, and we know how to tackle it, we have scientists, we have context specific reasons, we have languages and cultures to protect. Indian law says, every cultures have their own rights to preserve their culture. Yes world is one, I agree, Context specificity always remains same. We have problems yes agreed we resolve it, Indian government as a sovereign country, it your duty to support our work and question only when it is against law, humanism and immorality.

I am not your run-of-the-mill scholar. My philosophy comes from the streets. My science comes from the soil.

Perhaps the most remarkable geological observation ever made by a Muslim scientist, however, is al-Birūni's identification of the Ganges Plain in India as a sedimentary deposit. After studying extensively all aspects of India including its natural forms al-Birūni wrote in his unique work Taḥqīq mā li'l-hind (India): 'One of these plains is India, limited in the south by the above-mentioned Indian Ocean, and on three sides by lofty mountains, the waters of which flow down to it. But if you see the soil of India with your own eyes and meditate on its nature, if you consider the rounded stones found in the earth however deeply you dig, stones that are huge near the mountains and where the rivers have violent current, stones that are of smaller size at a greater distance from the mountains and where the streams flow more slowly, stones that appear pulverized in the shape of sand where the streams begin to stagnate near their mouths and near the sea — if you consider all this, you can scarcely help thinking that India was once a sea, which by degrees had been filled up the alluvium of the streams.

Soil research is not attractive to politicians. I tell them about 25-year sustainability, but the only have a four-year span of attention.

She had thought that industrial production was a value not to be questioned by anyone; she had thought that these men’s urge to expropriate the factories of others was their acknowledgment of the factories’ value. She, born of the industrial revolution, had not held as conceivable, had forgotten along with the tales of astrology and alchemy, what these men knew in their secret, furtive souls, knew not by means of thought, but by means of that nameless muck which they called their instincts and emotions: that so long as men struggle to stay alive, they’ll never produce so little but that the man with the club won’t be able to seize it and leave them still less, provided millions of them are willing to submit—that the harder their work and the less their gain, the more submissive the fiber of their spirit—that men who live by pulling levers at an electric switchboard, are not easily ruled, but men who live by digging the soil with their naked fingers, are—that the feudal baron did not need electronic factories in order to drink his brains away out of jeweled goblets, and neither did the rajahs of the People’s State of India. She saw what they wanted and to what goal their “instincts,” which they called unaccountable, were leading them. She saw that Eugene Lawson, the humanitarian, took pleasure at the prospect of human starvation—and Dr. Ferris, the scientist, was dreaming of the day when men would return to the hand-plow.

Even when beautifully maintained mammoth carcasses that are pulled out of frozen Siberian soils ooze with liquid resembling blood, the cells that scientists recover have always been damaged.

There were many such in the American Revolution. Thomas Paine spent much of his career designing a new form of iron bridge to aid transportation and communication. Dr. Joseph Priestley, another man who fled royalist and Anglican persecution and who removed himself from England to Philadelphia after a “Church and King” mob had smashed his laboratory, was a chemist and physician of great renown. Benjamin Franklin would be remembered for his deductions about the practical use of electricity if he had done nothing else. Jefferson, too, considered himself a scientist. He studied botany, fossils, crop cycles, and animals. He made copious notes on what he saw. He designed a new kind of plow, which would cut a deeper furrow in soil exhausted by the false economy of tobacco farming. He was fascinated by the invention of air balloons

The great pseudo-scientist of the time was Georges Leclerc, the Comte de Buffon. This highly learned and industrious old fraud was considered the master of natural history and zoology, and had formed the view that North America was a wasteland condemned by nature. Its climate and soil were inhospitable to all but the scrawniest and most puny life: nothing was to be expected of it. We need waste no time on Buffon’s theories except to say that they were rivaled in quasi-religious and creationist idiocy only by the opposing school.

Over a century timescale, a kilogram of methane is about 30 times as powerful as a kilogram of carbon dioxide. Now get this. There are billions of tons of methane in molecular cages of water ice, called “clathrates,” held tight in the permafrost soil of Earth’s northern regions and at the cold bottom of the ocean. As Siberia warms, and as the water that circulates along the seafloor warms, the clathrates in the sediments both on land and deep in the sea will release the trapped methane molecules. Once liberated, they’ll come bubbling up. The methane gas will come out in the same fashion that bubbles are released by opening a bottle of soda, or when you pop the cork on a bottle of champagne. Scientists don’t know yet how much methane clathrates will add to the warming process. But intuitively, when one considers how much permafrost there is, or used to be, it seems likely that there’s a lot of methane and a lot of potential for a lot of trouble. More important, the recent research into the possible impact of clathrates makes a crucial point: Yes, there are uncertainties in the climate projections, but many of those uncertainties are things that would make the warming much worse than restrained scientists are forecasting.

President Eisenhower liked scientists. Their culture and their mode of thinking, their ability to be nonideological and rational, appealed to him. “Love of liberty means the guarding of every resource that makes freedom possible—from the sanctity of our families and the wealth of our soil to the genius of our scientists,” he had proclaimed in his first inaugural address. He threw White House dinners for scientists, the way that the Kennedys would do for artists, and gathered many around him in advisory roles. Sputnik

Scientist Welsh is holding some soil in his hand, pours it into a container. The ＥＸＥＣＵＴＩＶＥＳ burst in. ＴＯＤＤ Dr. Welsh, these cave-ins are getting worse. ＪＡＮＥ Can't we put something in the holes, to fill it in? ＤＲ．  ＷＡＬＳＨ Yes, yes. The best thing I can devise is this foam. It hardens, and can support as much weight as dirt. ＴＯＤＤ Oh. Great. They seem relieved. Then… ＲＯＮ Why don't we just build our new planet out of that foam? ＤＲ．  ＷＡＬＳＨ Well it's poisonous. No reaction. ＲＯＮ Also it costs more than dirt. ＡＬＬ Ahhhh. BEAT. ＲＯＮ What's the main ingredient? ＤＲ．  ＷＡＬＳＨ Poison foam.

Wow,” Amos said over the comm. “Three hits. Small projectiles, probably PDC rounds. Managed to go right through us without hitting anything that mattered.” “It went through my room,” the scientist, Prax, said. “Bet that woke you up,” Amos said, his voice a grin. “I soiled myself,” Prax replied without a hint of humor.

Harl is a tenacious advocate for antitrust action against agribusiness, but he’s not optimistic that without pressure from consumers, the government will go after these huge monopolies that control our food. “There’s a huge amount of money and a lot of pressure applied whenever someone in Washington tries to do something about this,” he told me. “That pressure is applied in the form of messages like ‘Look, if you let this go on, we’re going to diminish our support for your campaign.’ When things get bad enough that consumers rise up, that’s when we’ll get another era of antitrust.” How much money is involved?

The seeds of Tolstoy's gospel of nonviolence fell mostly upon stony soil as they were carried all over the world, and nowhere was the soil stonier than in his native Russia.

The study of plant diseases for their own sake is proving an increasingly intricate game, to which modern scientists have devoted many wasted hours. Such studies would be amusing if they were not tragic, for no disease in plant, animal, or man can properly be viewed unless it is looked on as an interference with, or to speak more plainly, as the distortion or negation of that positive aspect of the growing organism which we call health.

These microbes need living or dead plants to get their foods—their sugars, carbohydrates, and proteins. They’d prefer a thick and diverse

Scientists made a number of breakthroughs that forever changed the economics of farming. Chemists figured out how to turn petrochemicals into nitrogen fertilizers that made soil more fertile. New pesticides wiped out insects that for centuries had made it impossible to grow thousands of acres of the same crop at one time. Farmers weren’t so much dependent on the rain or sun as they were on their relationship with their local chemical dealers. Buddy Wray was the face of this new mode of farming. He helped farmers do the two things necessary for modernization: get big and get specialized. They raised huge volumes of one crop—in this case chicken—and they did it with increasingly high costs and sophisticated equipment. Getting big and getting specialized made farmers more dependent on outside corporations like Tyson. In 1940 farmers bought only about 34 percent of the inputs like fuel and feed that they needed to run their farm. They produced the rest themselves. By the time Buddy Wray was knocking on doors and visiting farmers in the early 1960s, farmers bought about 63 percent of their inputs. As farms became more dependent on the outside economy, they also became more productive. Aggregate farm output rose by 54 percent between 1940 and 1962, even as farm inputs rose by just 4 percent.

During the three years that the Pilgrims had been organizing their voyage to America, the Indians of southern New England had been hit by what scientists refer to as a virgin soil epidemic—a contagion against which they had no antibodies. From 1616 to 1619, what may have been bubonic plague introduced by European fishermen in modern Maine spread south along the Atlantic seaboard to the eastern shore of Narragansett Bay, killing in some cases as many as 90 percent of the region’s inhabitants.

In the 1940s military and scientific personnel chose the Pajarito Plateau to site Project Y (or Site Y) of the secret Manhattan Project, where scientists would develop the atomic bomb. My grandmother’s family and other Nuevomexicanas/os and Tewa people were forcibly dispossessed of their ranches and sacred land on the Pajarito Plateau with inequitable or no compensation. Beginning in the 1940s, Lab personnel directed Valley vecinos2 to bury contaminated everything in the Los Alamos canyon and nearby along the Rio Grande. The soil and the water that Nuevomexicanas/os once used to irrigate crops is now polluted with toxic chemicals and remnants of nuclear materials.3 Cancer, thyroid disease, and unexplained organ failure, among other illnesses, now plague our community.

JUSTIFYING OPPRESSION While history has proven Malthusianism empirically false, however, it provides the ideal foundation for justifying human oppression and tyranny. The theory holds that there isn’t enough to go around, and can never be. Therefore human aspirations and liberties must be constrained, and authorities must be empowered to enforce the constraining. During Malthus’s own time, his theory was used to justify regressive legislation directed against England’s lower classes, most notably the Poor Law Act of 1834, which forced hundreds of thousands of poor Britons into virtual slavery. 11 However, a far more horrifying example of the impact of Malthusianism was to occur a few years later, when the doctrine motivated the British government’s refusal to provide relief during the great Irish famine of 1846. In a letter to economist David Ricardo, Malthus laid out the basis for this policy: “The land in Ireland is infinitely more peopled than in England; and to give full effect to the natural resources of the country, a great part of the population should be swept from the soil.” 12 For the last century and a half, the Irish famine has been cited by Malthusians as proof of their theory of overpopulation, so a few words are in order here to set the record straight. 13 Ireland was certainly not overpopulated in 1846. In fact, based on census data from 1841 and 1851, the Emerald Isle boasted a mere 7.5 million people in 1846, less than half of England’s 15.8 million, living on a land mass about two-thirds that of England and of similar quality. So compared to England, Ireland before the famine was if anything somewhat underpopulated. 14 Nor, as is sometimes said, was the famine caused by a foolish decision of the Irish to confine their diet to potatoes, thereby exposing themselves to starvation when a blight destroyed their only crop. In fact, in 1846 alone, at the height of the famine, Ireland exported over 730,000 cattle and other livestock, and over 3 million quarts of corn and grain flour to Great Britain. 15 The Irish diet was confined to potatoes because—having had their land expropriated, having been forced to endure merciless rack-rents and taxes, and having been denied any opportunity to acquire income through manufactures or other means—tubers were the only food the Irish could afford. So when the potato crop failed, there was nothing for the Irish themselves to eat, despite the fact that throughout the famine, their homeland continued to export massive amounts of grain, butter, cheese, and meat for foreign consumption. As English reformer William Cobbett noted in his Political Register: Hundreds of thousands of living hogs, thousands upon thousands of sheep and oxen alive; thousands upon thousands of barrels of beef, pork, and butter; thousands upon thousands of sides of bacon; and thousands and thousands of hams; shiploads and boats coming daily and hourly from Ireland to feed the west of Scotland; to feed a million and a half people in the West Riding of Yorkshire, and in Lancashire; to feed London and its vicinity; and to fill the country shops in the southern counties of England; we beheld all this, while famine raged in Ireland amongst the raisers of this very food. 16 “The population should be swept from the soil.” Evicted from their homes, millions of Irish men, women, and children starved to death or died of exposure. (Contemporary drawings from Illustrated London News.)

Having said that there's no such thing as real psychics, there are many people who genuinely believe that they are psychic and they genuinely want to help people. But then there are frauds who know they ain't psychic and their sole purpose is to exploit vulnerable masses, just like there are frauds and morons in the field of science. In science, frauds are those scientists who manipulate research date to suit their expectations, and morons are those scientists who won't mind causing hurt and harm to everyday people in the name of science. We ought to stand up against these frauds and morons no matter their line of work, instead of looking down on regular people for their every little illogicality. Enough with this condescending outlook of life from a high and mighty, intellectual pedestal! Come down, come down to earth, come down to the street, come down to the soil, for that's where life is.

As concentration levels rise, scientists warn we could get to the point where so much CO2 has accumulated in the atmosphere that we will need to achieve “negative” emissions; that is, we will need processes or technologies that remove carbon dioxide from the atmosphere in a permanent way. One such process is pyrolysis of biofuels, whereby a biomaterial, such as algae or crop residues, is heated in the absence of oxygen resulting in a pure form of carbon known as biochar, as well as bio-oil that can be a diesel substitute and syngas that can be used to generate electricity. Biochar can be used as a soil additive, which holds the carbon sequestered in the ground.

It's called; “Grounding or ‘Earthing,” when you walk on the ground, placing your feet directly on the ground without shoes or socks, the earth has an intense negative charge carried by the Earth. This charge is rich in electrons the scientists say. The earth and its soil are full of antioxidants and free radical destroying electrons. By walking barefoot, one allows the earth to protect them against chronic stress, inflammation, pain, poor sleep, blood sugar, and many common health disorders, including cardiovascular disease." “It is believed that all disease begins with inflammation, this is one easy and comfortable way of fighting off the illness associated with age, weight and stress. Kick off your shoes sometimes, it’s very calming

Silicon Valley’s and China’s internet ecosystems grew out of very different cultural soil. Entrepreneurs in the valley are often the children of successful professionals, such as computer scientists, dentists, engineers, and academics. Growing up they were constantly told that they—yes, they in particular—could change the world. Their undergraduate years were spent learning the art of coding from the world’s leading researchers but also basking in the philosophical debates of a liberal arts education. When they arrived in Silicon Valley, their commutes to and from work took them through the gently curving, tree-lined streets of suburban California. It’s an environment of abundance that lends itself to lofty thinking, to envisioning elegant technical solutions to abstract problems. Throw in the valley’s rich history of computer science breakthroughs, and you’ve set the stage for the geeky-hippie hybrid ideology that has long defined Silicon Valley. Central to that ideology is a wide-eyed techno-optimism, a belief that every person and company can truly change the world through innovative thinking. Copying ideas or product features is frowned upon as a betrayal of the zeitgeist and an act that is beneath the moral code of a true entrepreneur. It’s all about “pure” innovation, creating a totally original product that generates what Steve Jobs called a “dent in the universe.” Startups that grow up in this kind of environment tend to be mission-driven. They start with a novel idea or idealistic goal, and they build a company around that. Company mission statements are clean and lofty, detached from earthly concerns or financial motivations. In stark contrast, China’s startup culture is the yin to Silicon Valley’s yang: instead of being mission-driven, Chinese companies are first and foremost market-driven. Their ultimate goal is to make money, and they’re willing to create any product, adopt any model, or go into any business that will accomplish that objective. That mentality leads to incredible flexibility in business models and execution, a perfect distillation of the “lean startup” model often praised in Silicon Valley. It doesn’t matter where an idea came from or who came up with it. All that matters is whether you can execute it to make a financial profit. The core motivation for China’s market-driven entrepreneurs is not fame, glory, or changing the world. Those things are all nice side benefits, but the grand prize is getting rich, and it doesn’t matter how you get there.

With the web uncovered, the intricacies of the belowground alliance still remained a mystery to me, until I started my doctoral research in 1992. Paper birches, with their lush leaves and gossamer bark, seemed to be feeding the soil and helping their coniferous neighbors. But how? In pulling back the forest floor using microscopic and genetic tools, I discovered that the vast belowground mycelial network was a bustling community of mycorrhizal fungal species. These fungi are mutualistic. They connect the trees with the soil in a market exchange of carbon and nutrients and link the roots of paper birches and Douglas firs in a busy, cooperative Internet. When the interwoven birches and firs were spiked with stable and radioactive isotopes, I could see, using mass spectrometers and scintillation counters, carbon being transmitted back and forth between the trees, like neurotransmitters firing in our own neural networks. The trees were communicating through the web! I was staggered to discover that Douglas firs were receiving more photosynthetic carbon from paper birches than they were transmitting, especially when the firs were in the shade of their leafy neighbors. This helped explain the synergy of the pair’s relationship. The birches, it turns out, were spurring the growth of the firs, like carers in human social networks. Looking further, we discovered that the exchange between the two tree species was dynamic: each took different turns as “mother,” depending on the season. And so, they forged their duality into a oneness, making a forest. This discovery was published by Nature in 1997 and called the “wood wide web.” The research has continued unabated ever since, undertaken by students, postdoctoral researchers, and other scientists, with a myriad of discoveries about belowground communication among trees. We have used new scientific tools, as they are invented, along with our curiosity and dreams, to peer into the dark world of the soil and illuminate the social network of trees. The wood wide web has been mapped, traced, monitored, and coaxed to reveal the beautiful structures and finely adapted languages of the forest network. We have learned that mother trees recognize and talk with their kin, shaping future generations. In addition, injured trees pass their legacies on to their neighbors, affecting gene regulation, defense chemistry, and resilience in the forest community. These discoveries have transformed our understanding of trees from competitive crusaders of the self to members of a connected, relating, communicating system. Ours is not the only lab making these discoveries—there is a burst of careful scientific research occurring worldwide that is uncovering all manner of ways that trees communicate with each other above and below ground.

Inextricably linked to the climate emergency is a broader environmental crisis. A third of the Earth’s land is now acutely degraded, with fertile soil being lost at a rate of 24 billion tonnes a year through intensive farming.[19] Generating three centimetres of top soil takes 1,000 years, and, the UN said in 2014, if current rates of degradation continue all of the world's top soil could be gone within 60 years.[20] 95% of our food presently comes from the soil. Unless new approaches are adopted, the global amount of arable and productive land per person in 2050 will be only a quarter of the level in 1960. The equivalent of 30 football pitches of soil are being lost every minute. Heavy tilling, monocropping multiple harvests and abundant use of agrochemicals have increased yields at the expense of long-term sustainability. Agriculture is actually the number one reason for deforestation. In the past 20 years, agricultural production has increased threefold and the amount of irrigated land has doubled, often leading to land abandonment and desertification. Decreasing productivity has been observed, due to diminished fertility, on 20% of the world’s cropland, 16% of forest land, 19% of grassland, and 27% of rangeland. Furthermore, tropical forests have become a source rather than a sink of carbon.[21] Forest areas in South America, Africa and Asia – which have until recently played a crucial role in absorbing GHG – are now releasing 425 teragrams of carbon annually, more than all the traffic in the US. This is due to the thinning of tree density and culling of biodiversity, reducing biomass by up to 75%. Scientists combined 12 years of satellite data with field studies. They found a net carbon loss on every continent. Latin America – home to the world’s biggest forest, the Amazon, which is responsible for 20% of its oxygen – accounted for nearly 60% of the emissions, while 24% came from Africa and 16% from Asia. Every year about 18 million hectares of forest – an area the size of England and Wales – is felled. In just 40 years, possibly one billion hectares, the equivalent of Europe, has been torn down. Half the world’s rainforests have been razed in a century and they will vanish altogether at current rates within another. Earth’s “sixth mass extinction”[22] is well underway: up to 50% of all individual animals have been lost in recent decades and almost half of land mammals have lost 80% of their range in the last century. Vertebrate populations have fallen by an average of 60% since the 1970s, and in some countries there has been an even faster decline of insects – vital, of course, for aerating the soil, pollinating blossoms, and controlling insect and plant pests.

In Burkina Faso, an aid worker named Mathieu Ouédraogo assembled the farmers in his area to experiment with soil-restoration techniques, some of them traditions that Ouédraogo had read about in school. One of them was cordons pierreux: long lines of stones, each no bigger than a fist. Because the area’s rare rains wash over the crusty soil, it stores too little moisture for plants to survive. Snagged by the cordon, the water pauses long enough for seeds to sprout and grow in this slightly richer environment. The line of stones becomes a line of grass that slows the water further. Shrubs and then trees replace grasses, enriching the soil with falling leaves. In a few years, a minimal line of rocks can restore an entire field. As a rule, poor farmers are wary of new techniques—the penalty for failure is too high. But these people in Burkina were desperate and rocks were everywhere and cost nothing but labor. Hundreds of farmers put in cordons, bringing back thousands of acres of desertified land.

Unsurprisingly, the new techniques, uncomplicated and inexpensive, spread far and wide. The more people worked the soil, the richer it became, the more trees grew.

None of this is to deny that environmental problems are real. Overfishing, deforestation, soil degradation, contaminated groundwater, declining populations of mammals and birds, and, most alarming, the possibility of very rapid climate change—all of these are important. But the contribution of population growth to them is indirect, and the relationship to economic growth is equivocal. Focusing on them as a root cause, as Vogt did, is a distraction. It was a waste of two decades, and doubly unfortunate because the fight over population sometimes shrouded the more important part of Vogt’s message, the part about limits. He denounced social scientists as fools, but he should have listened to them. And that, alas, applies to Borlaug, too.

if only 11 percent of the world’s cropland—land that is typically not in use—improved its community of soil microorganisms as much as Johnson and his colleagues did in their test plots, the amount of carbon sequestered in the soil would offset all our current emissions of carbon dioxide.

Hard by the social costs were the environmental costs. The intensive fertilization mandated by the Green Revolution has heavily contributed to nitrogen problems on land and water. Pesticides have wreaked havoc on agricultural ecosystems and sometimes poisoned sources of drinking water. Poorly constructed and managed irrigation systems have drained aquifers. Soils have become waterlogged or, worse, loaded with salts when irrigation water evaporated. Possibly most worrisome, the energy costs of agriculture, mainly from making fertilizer, have soared. Industrial-style Borlaugian agriculture is a significant contributor to air pollution and climate change.

Pinchot was the first professional forester in the United States. He admired and respected Muir but on the whole regarded the other man’s mystic effusions as hooey. Instead of individual spiritual enlightenment, Pinchot sought the common material good—“the greatest good, for the greatest number, for the longest run.” Born in 1865 to a wealthy family, he was a shrewd self-promoter, clever with other people’s ideas, who cast himself as an avatar of Science (in fact, he had attended a year of forestry school in France, leaving before his professors thought he was ready). An inauthentic scientist but a visionary as authentic as Muir, he proclaimed that the world’s prosperity depended on sustaining its resources, especially renewable resources like timber, soil, and freshwater. He wanted to protect them not by leaving great swathes of terrain free from human influence but by managing forests and fields with an elite cadre of scientific mandarins. “The first principle of conservation is development,” he said. Development had to be conceived in the long term: “the welfare of this generation and afterwards the welfare of the generations to follow.” He said, “The human race controls the earth it lives upon.

Prophets smite their brows in exasperation at this logic. To their minds, evaluating farming systems wholly in terms of calories produced—in terms of usable energy—is a perfect example of the flaws of reductive thinking. It does not include the costs of overfertilization, habitat loss, watershed degradation, soil erosion and compaction, and pesticide and antibiotic overuse; it doesn’t account for the destruction of rural communities; it doesn’t consider whether the food is tasty and nutritious. It’s like evaluating automobiles entirely by their gasoline mileage, without taking into account safety, comfort, reliability, emissions, or any of the other factors that people consider when buying cars.

Farmers have injected so much synthetic fertilizer into their fields that soil and groundwater nitrogen levels have risen worldwide. Today, almost half of all the crops consumed by humankind depend on nitrogen derived from synthetic fertilizer. Another way of putting this is to say that Haber and Bosch enabled our species to extract an additional 3 billion people’s worth of food from the same land.

Escaping from fascism, European Jews had poured into Palestine—more than sixty thousand in 1935 alone. Arab residents reacted angrily to the flood of immigrants. The British government was convinced that the hostility was due, in part, to the region’s lack of resources; the immigrants were exceeding Palestine’s “absorptive capacity” (that is, its carrying capacity). The limit to absorptive capacity was water—British experts argued that regional supplies couldn’t sustain a big influx of immigrants. In this arid, eroded landscape, the supply of well-watered farmland was so small that incoming Jews who used their superior financial resources to acquire it would necessarily create “a considerable landless Arab population.” Zionist groups sent out water testers, who proclaimed that they had found much more water than Britain allowed. London ignored the reports and in 1939 restricted Jewish immigration to fifteen thousand a year. No! Lowdermilk protested. Britain had it backward! The new Jewish settlements were the only bright spots he had seen in the entire dismal region! In the midst of the desolation were Zionist village cooperatives where jointly owned farms grew newly bred crop varieties that thrived in the dry heat. The farms were investing their profits to buy advanced well-boring equipment and create small industries—carpentry and printing shops, food-processing facilities, factories for building material. Most important to Lowdermilk were the irrigation and soil-retention programs—“the most remarkable” he had encountered “in twenty-four countries.” If the British increased immigration, rather than restricted it, he said, Palestine would be able to support “at least four million Jewish refugees from Europe.

all the fossil fuels humankind will ever have are already here, waiting to be extracted from the ground—in contrast to food, which is grown every season from the soil, and freshwater, which is drawn in constant but limited amounts from rivers, lakes, and aquifers.

What is Civil Engineering? Technology could be a skilled engineering regulation that chargeable for appearance, structure, and maintenance of the substantial surroundings. An Engineer, he is practices as an applied scientist and use the technology equipments throughout testing technique of foundation, for the period of this method engineer get appear at the actual a part of transportation. Civil engineering lab testing equipments square measured and utilized by civil engineers.

A mountain on Mars may have built up over time from lake sediments, according to NASA scientists who have been studying observations from the Curiosity rover scouring the Red Planet. The latest analysis is based on rocks discovered at the lower edges of Mount Sharp, which is located, rather oddly, in the midst of a crater on Earth’s neighbouring planet. While scientists are still not sure how long Mars was wet for any given spell through history, a “great surprise” was finding slanted rocks and soil that point to the existence of a lake bed in the crater, said Curiosity project scientist John Grotzinger of the California Institute of Technology. Curiosity’s pictures and data collected from the Martian soil in the lowest sedimentary layers of Mount Sharp has helped scientists see the remnants of how rivers once carried sand and silt to the lake, depositing sediment at the mouth of the river. This process would have repeated itself again and again to form a delta. Billions of years ago, the planet is believed to have been much warmer, with a thicker atmosphere that would have supported liquid water and potentially some form of life. — AFP

Human breast milk contains sugars called oligo-saccharides. At first, scientists struggled to understand why mothers express these compounds, as babies can't digest them. It now seems that their sole purpose is to feed the bacteria with which the child will grow. They selectively cultivate a particular bacterial species with a crucial role in helping the gut to develop and calibrating the immune system. Similarly, young plants release large quantities of sucrose into the soil, to feed and develop their new microbiomes. Like the human gut, the rhizosphere not only digests food, but also helps to protect plants from disease. Just as the bacteria that live in our guts out compete and attack invading pathogens, the microbes in the rhizosphere create a defensive ring around the root. Plants feed beneficial bacteria species, so that they crowd out pathogenic microbes and fungi.

In Yakutia, where the earth’s largest thermokarst—the “Batagai Depression”—a kilometer in length, 100 meters deep and still growing rapidly, is also the site for scientists who are gathering samples of preserved and frozen soils up to 200,000 years old. Using molecular genetic and microbiological procedures they hope to extract bacteria and viruses from the soils that could lead to new antibiotics. But for the third straight year terrible fires are devouring the forests of Yakutia. The smoke drifts out into the Pacific and people on ships and in Alaska and along the North American west coast cough and gasp in the pungent brown haze.