Wednesday, January 29, 2020

EXTINCTION LEVEL EVENTS THAT COULD END LIFE ON EARTH - You know about some of the threats that could end life as we know it. The Sun could do something nasty. A meteor could strike. We could nuke ourselves out of existence. These are only a few well-known extinction level events. There are so many more ways to die! An extinction level event or ELE is a catastrophe resulting in the extinction of the majority of species on the planet. It's not the normal extinction of species that occurs every day. It isn't necessarily the sterilization of all living organisms. If a strong solar flare hit the Earth, the results could be devastating. Scientists estimate a big meteor needs to be about 100 kilometers (60 miles) across to wipe out all life on earth. Most extinction level events have been caused by volcanoes. Volcanoes kill by releasing dust, sulfur oxides, and carbon dioxide that collapse food chains by inhibiting photosynthesis, poison the land and sea with acid rain, and produce global warming.

A big meteor impact could be an extinction level event.
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Historically, most extinction level events have been caused by volcanoes.
Extinction Level Events
7 Extinction Level Events That Could End Life as We Know It
by Anne Marie Helmenstine, Ph.D.





If you've watched the movies "2012" or "Armageddon" or read "On the Beach," you know about some of the threats that could end life as we know it.
The Sun could do something nasty. A meteor could strike. We could nuke ourselves out of existence. These are only a few well-known extinction level events. There are so many more ways to die!
But first, what exactly is an extinction event?
An extinction level event or ELE is a catastrophe resulting in the extinction of the majority of species on the planet.
It's not the normal extinction of species that occurs every day. It isn't necessarily the sterilization of all living organisms.
We can identify major extinction events by examining the deposition and chemical composition of rocks, the fossil record, and evidence of major events on moons and other planets.
There are dozens of phenomena capable of causing widespread extinctions, but they can be grouped into a few categories:
The Sun Will Kill Us
If a strong solar flare hit the Earth, the results could be devastating.
Life as we know it wouldn't exist without the Sun, but let's be honest. The Sun has it out for planet Earth.
Even if none of the other catastrophes on this list ever happen, the Sun will end us. Stars like the Sun burn brighter over time as they fuse hydrogen into helium.
In another billion years, it will be about 10 percent brighter. While this might not seem significant, it will cause more water to evaporate.
Water is a greenhouse gas, so it traps heat in the atmosphere, leading to more evaporation. Sunlight will break water into hydrogen and oxygen, so it can bleed away into space.
Should any life survive, it will meet a fiery fate when the Sun enters its red giant phase, expanding out to the orbit of Mars. It's not likely any life will survive inside the Sun.
But the Sun can kill us any old day it wants via a coronal mass ejection (CME). As you can guess from the name, this is when our favorite star expels charged particles outward from its corona.
Since a CME can sent matter any direction, it doesn't usually shoot directly toward Earth. Sometimes only a tiny fraction of particles reach us, granting us an aurora or a solar storm. However, it's possible for a CME to barbecue the planet.
The Sun has pals (and they hate Earth too). A nearby (within 6000 light years) supernova, nova, or gamma ray burst could irradiate organisms and destroy the ozone layer, leaving life at the mercy of the Sun's ultraviolet radiation.
Scientists think a gamma burst or supernova might have led to the End-Ordovician extinction.
Geomagnetic Reversals May Kill Us
Scientists believe magnetic pole reversals were involved in some past mass extinctions.
The Earth is a giant magnet that has a love-hate relationship with life. The magnetic field protects us from the worst the Sun throws at us.
Every so often, the positions of the north and south magnetic poles flip. How often the reversals occur and how long it takes the magnetic field to get settled is highly variable.
Scientists aren't completely sure what will happen when the poles flip. Maybe nothing. Or maybe the weakened magnetic field will expose the Earth to the solar wind, letting the Sun steal a lot of our oxygen.
You know, that gas humans breathe. Scientists say magnetic field reversals aren't always extinction level events. Just sometimes.
The Big Bad Meteor
A big meteor impact could be an extinction level event.
You may be surprised to learn the impact of an asteroid or meteor has only been connected with certainty to one mass extinction, the Cretaceous-Paleogene extinction event.
Other impacts have been contributing factors to extinctions, but not the primary cause.
The good news is that NASA claims about 95 percent of comets and asteroids bigger than 1 kilometer in diameter have been identified.
The other good news is that scientists estimate an object needs to be about 100 kilometers (60 miles) across to wipe out all life.
The bad news is there are another 5 percent out there and not much we can do about a significant threat with our present technology (no, Bruce Willis cannot detonate a nuke and save us).
Obviously, living things at ground zero for a meteor strike will die. Many more will die from the shock wave, earthquakes, tsunamis, and firestorms.
Those that survive the initial impact would have a hard time finding food, as the debris thrown into the atmosphere would change the climate, leading to mass extinctions. You're probably better off at ground zero for this one.
The Sea
A tsunami is dangerous, but the sea has more lethal tricks.
A day at the beach might seem idyllic, until you realize the blue part of the marble we call Earth is deadlier than all of the sharks in its depths. The ocean has various ways of causing ELEs.
Methane clathrates (molecules made of water and methane) sometimes break from the continental shelves, producing a methane eruption called a clathrate gun.
The "gun" shoots immense amounts of the greenhouse gas methane into the atmosphere. Such events are linked to the end-Permian extinction and Paleocene-Eocene Thermal Maximum.
Prolonged sea level rise or fall also leads to extinctions. Falling sea levels are more insidious, as exposing the continental shelf kills off innumerable marine species. This, in turn, upsets the terrestrial ecosystem, leading to an ELE.
Chemical imbalances in the sea also cause extinction events. When the middle or upper layers of the ocean become anoxic, a chain reaction of death occurs. The Ordovician-Silurian, late Devonian, Permian-Triassic, and Triassic-Jurassic extinctions all included anoxic events.
Sometimes the levels of essential trace elements (e.g., selenium) fall, leading to mass extinctions.
Sometimes the sulfate-reducing bacteria in thermal vents get out of control, releasing an excess of hydrogen sulfide that weakens the ozone layer, exposing life to lethal UV.
The ocean also undergoes a periodic overturn in which the high-salinity surface water sinks to the depths. Anoxic deep water rises, killing surface organisms. The late-Devonian and Permian-Triassic extinctions are associated oceanic overturn.
The beach doesn't look so nice now, does it?
And the "Winner" Is... Volcanoes
Historically, most extinction level events have been caused by volcanoes.
While falling sea level has been associated with 12 extinction events, only seven involved a significant loss of species.
On the other hand, volcanoes have led to 11 ELEs, all of them significant. The End-Permian, End-Triassic, and End-Cretaceous extinctions are associated with volcanic eruptions called flood basalt events.
Volcanoes kill by releasing dust, sulfur oxides, and carbon dioxide that collapse food chains by inhibiting photosynthesis, poison the land and sea with acid rain, and produce global warming.
The next time you vacation at Yellowstone, take a moment to stop and ponder the implications when the volcano erupts. At least the volcanoes in Hawaii aren't planet killers.
Global Warming and Cooling
Runaway global warming could make Earth more like Venus.
In the end, the ultimate cause of mass extinctions is global warming or global cooling, usually caused by one of the other events. Global cooling and glaciation are believed to have contributed to the End-Ordovician, Permian-Triassic, and Late Devonian extinctions.
While the temperature drop killed some species, the sea level fall as water turned to ice had a much greater effect.
Global warming is a much more efficient killer. But, the extreme heating of a solar storm or red giant isn't required.
Sustained heating is associated with the Paleocene-Eocene Thermal Maximum, the Triassic-Jurassic extinction, and the Permian-Triassic extinction.
Mostly the problem seems to be the way higher temperatures release water, adding the greenhouse effect to the equation and causing anoxic events in the ocean.
On Earth, these events have always balanced out over time, yet some scientists believe there is potential for Earth to go the way of Venus. In such a scenario, global warming would sterilize the entire planet.
Our Own Worst Enemy
Global nuclear war would irradiate the planet and likely lead to either nuclear summer or nuclear winter.
Humanity has plenty of options at its disposal, should we decide it's taking too long for the meteor to strike or the volcano to erupt.
We're capable of causing an ELE via a global nuclear war, climate change caused by our activities, or by killing enough other species to cause a collapse of the ecosystem.
The insidious thing about extinction events is that they tend to be gradual, often leading to a domino effect in which one event stresses one or more species, leading to another event that destroys many more.
Thus, any cascade of death typically involves multiple killers on this list.
Key Points
Extinction level events or ELEs are calamities that result in the annihilation of most species on the planet.
Scientists can predict some ELEs, but most are neither predictable nor preventable.
Even if some organisms survive all other extinction events, eventually the Sun will eradicate life on Earth.

Anne Marie Helmenstine, Ph.D.
Chemistry Expert
Education
Ph.D., Biomedical Sciences, University of Tennessee at Knoxville
B.A., Physics and Mathematics, Hastings College
Introduction
Ph.D. in biomedical sciences from the University of Tennessee at Knoxville - Oak Ridge National Laboratory.
Science educator with experience teaching chemistry, biology, astronomy, and physics at the high school, college, and graduate levels.
ThoughtCo and About Education chemistry expert since 2001.
Widely-published graphic artist, responsible for printable periodic tables and other illustrations used in science.
Experience
Anne Helmenstine, Ph.D. has covered chemistry for ThoughtCo and About Education since 2001, and other sciences since 2013. She taught chemistry, biology, astronomy, and physics at the high school, college, and graduate levels. She has worked as a research scientist and also abstracting and indexing diverse scientific literature for the Department of Energy.
In addition to her work as a science writer, Dr. Helmenstine currently serves as a scientific consultant, specializing in problems requiring an interdisciplinary approach. Previously, she worked as a research scientist and college professor.
Education
Dr. Helmenstine holds a Ph.D. in biomedical sciences from the University of Tennessee at Knoxville and a B.A. in physics and mathematics with a minor in chemistry from Hastings College. In her doctoral work, Dr. Helmenstine developed ultra-sensitive chemical detection and medical diagnostic tests.
ThoughtCo and Dotdash
ThoughtCo is a premier reference site focusing on expert-created education content. We are one of the top-10 information sites in the world as rated by comScore, a leading Internet measurement company. Every month, more than 13 million readers seek answers to their questions on ThoughtCo.
For more than 20 years, Dotdash brands have been helping people find answers, solve problems, and get inspired. We are one of the top-20 largest content publishers on the Internet according to comScore, and reach more than 30% of the U.S. population monthly. Our brands collectively have won more than 20 industry awards in the last year alone, and recently Dotdash was named Publisher of the Year by Digiday, a leading industry publication.
https://www.thoughtco.com/extinction-level-events-4158931




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 Global nuclear war would irradiate the planet and likely lead to either nuclear summer or nuclear winter.

65 million years ago a meteor struck the Mexican Yucatan peninsula, throwing tons of dust in the air and contributing to mass extinctions.
65 million years ago a meteor struck the Mexican Yucatan peninsula,
throwing tons of dust in the air and contributing to mass extinctions.
If a strong solar flare hit the Earth, the results could be devastating.
If a strong solar flare hit the Earth, the results could be devastating.
Scientists believe magnetic pole reversals were involved in some past mass extinctions.
Scientists believe magnetic pole reversals were involved in some past mass extinctions. 

A big meteor impact could be an extinction level event.
A big meteor impact could be an extinction level event. 

A tsunami is dangerous, but the sea has more lethal tricks.
A tsunami is dangerous, but the sea has more lethal tricks.

Historically, most extinction level events have been caused by volcanoes.
Historically, most extinction level events have been caused by volcanoes. 

Runaway global warming could make Earth more like Venus.
Runaway global warming could make Earth more like Venus. 

Global nuclear war would irradiate the planet and likely lead to either nuclear summer or nuclear winter.
Global nuclear war would irradiate the planet and likely lead to either nuclear summer or nuclear winter.

Thursday, June 21, 2018

LEAVE NO TRACE - The Leave No Trace Seven Principles - They provide guidance to enjoy our natural world in a sustainable way that avoids human-created impacts. The principles have been adapted so they can be applied in your backyard or your backcountry.


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Leave No 
Trace
The Leave No Trace Seven Principles 
The Leave No Trace Seven Principles are the bedrock of the Leave No Trace program.
They provide guidance to enjoy our natural world in a sustainable way that avoids human-created impacts.
The principles have been adapted so they can be applied in your backyard or your back country.
Note: click any of the headers below for a much deeper explanation on each principle.
·      Know the regulations and special concerns for the area you'll visit.
·      Prepare for extreme weather, hazards, and emergencies.
·      Schedule your trip to avoid times of high use.
·      Visit in small groups when possible. Consider splitting larger groups into smaller groups.
·      Repackage food to minimize waste.
·      Use a map and compass to eliminate the use of marking paint, rock cairns or flagging. 
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·      Durable surfaces include established trails and campsites, rock, gravel, dry grasses or snow.
·      Protect riparian areas by camping at least 200 feet from lakes and streams.
·      Good campsites are found, not made. Altering a site is not necessary.
·         In popular areas:
·      Concentrate use on existing trails and campsites.
·      Walk single file in the middle of the trail, even when wet or muddy.
·      Keep campsites small. Focus activity in areas where vegetation is absent.
·      In pristine areas:
·      Disperse use to prevent the creation of campsites and trails.
·      Avoid places where impacts are just beginning.
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·     Pack it in, pack it out. Inspect your campsite and rest areas for trash or spilled foods. Pack out all trash, leftover food and litter.
·    Deposit solid human waste in catholes dug 6 to 8 inches deep, at least 200 feet from water, camp and trails. Cover and disguise the cathole when finished.
·    Pack out toilet paper and hygiene products.
·    To wash yourself or your dishes, carry water 200 feet away from streams or lakes and use small amounts of biodegradable soap. Scatter strained dishwater. 
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·      Preserve the past: examine, but do not touch cultural or historic structures and artifacts.
·      Leave rocks, plants and other natural objects as you find them.
·      Avoid introducing or transporting non-native species.
·      Do not build structures, furniture, or dig trenches.
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·      Campfires can cause lasting impacts to the backcountry. Use a lightweight stove for cooking and enjoy a candle lantern for light.
·      Where fires are permitted, use established fire rings, fire pans, or mound fires.
·      Keep fires small. Only use sticks from the ground that can be broken by hand.
·      Burn all wood and coals to ash, put out campfires completely, then scatter cool ashes.
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·         Observe wildlife from a distance. Do not follow or  approach them.
·      Never feed animals. Feeding wildlife damages their health, alters natural behaviors, and exposes them to predators and other dangers.
·      Protect wildlife and your food by storing rations and trash securely.
·      Control pets at all times, or leave them at home.
·      Avoid wildlife during sensitive times: mating, nesting, raising young, or winter.
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·      Respect other visitors and protect the quality of their experience.
·      Be courteous. Yield to other users on the trail.
·      Step to the downhill side of the trail when encountering pack stock.
·      Take breaks and camp away from trails and other visitors.
·      Let nature's sounds prevail. Avoid loud voices and noises.
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Multi-Media Filter, Highly-Activated Carbon Filter,
Zeolite-Process Water Softener With Brine Tank,
Fiberglass Ballast-Type Pressure Tank
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PURICARE 
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Aganan, Pavia, Iloilo, Philippines