Climate Change Isn’t a Hoax

⭐⭐Robert Crosby⭐⭐ on X: “Do you agree? https://t.co/atVS2xNv8s”
Climate change is not a hoax at all. Climate has been changing ever since the Earth developed a climate.

What is a hoax is that man has any control of climate other than local issues such as it being warmer over cities. I think so too. That doesn’t mean we should stop trying to reduce pollution and other things harming our planet.

NEHogman @CaptHogman 17h

Attention: My degrees are in Atmospheric Science, and I am a former USAF Weather Officer/Climatologist. Just retired from the US Forest Service. Man-made climate change/global warming is the biggest hoax ever perpetrated on the world’s population…except for maybe Covid-19.

YES. 100%. No actual SCIENTIFIC evidence it’s man made so paying a stupid carbon tax to the ultra wealthy RULERS isn’t going to help the planet.

Plymouth Rock It always has been at sea level for at least 404 years and how many thousands since 1620 was carved into it? The grift is worth trillions of dollars so people are going to grift

Climate change isn’t a hoax, why, climate change just occurred this morning.

Ask any “climatologist “ what the perfect temp of the earth is supposed to be and at what time in the Earth’s history did it occur ?

Global warming and its link to human interaction with the environment?

More fiction than fact. The amount of impact humans has had is minimal, especially considering the planet has been much warmer and still teaming with complex life.

The climate goes through warming and cooling cycles, greatly influenced by solar activity. Manmade Climate Change is indeed a hoax, but the climate changes every time a volcano erupts, axial precession and where the sun hits the earth, etc. Are there things we can do to be more environmentally friendly? 

Absolutely. I’m all for throwing mass, intentional polluters in prison.

 I’m all for working to curtail deforestation and replanting forests, clearing out brush to mitigate forest fires and the like. We need to be better stewards of the environment , but we can’t blame everything on Western civilization when the vast majority of pollution is created in 3rd world countries around Asia, Africa. and India. 

This entire world you think you live in is a hoax. Electrons, muons, tauons, quarks, and gluons have no internal structure and no physical size, meaning that they are entirely illusory or put another way, made up of energy. They are zero-dimensional and more like events than things. So you’re just a thought in a world in which you think is there. You are the center of your own universe which actually doesn’t exist except for the thought of it existing.

I think the climate is changing. Do I believe taxing the world to death will lower the temps even one degree ? Not a chance. And the people pushing this fly private jets and own yachts. Not really worried about carbon output are they ?

The idea that we can stop any sort of change in the climate is a hoax. If this planet wants to heat up, it’s gonna do it. The Middle East used to be tropical. That’s gonna happen again no matter what we do. Why else do they keep moving the goalposts? It’s not science (as many scientists agree), it’s propaganda, a tool of control. 

Consensus is a BIG FAT LIE protected by intimidation.

Climate change is real. The hoax is believing our half-baked solutions are the answer.

This is just another way for Grifters to get rich off of the backs of the unsuspecting!

The climate will change randomly as it has for billions of years. We don’t control it.

For anyone that studied paleontology or science know earth goes through cycles. 

Absolutely, Earth goes through various cycles that are well-documented in paleontology and other scientific fields.

Here are a few key cycles:

1. Milankovitch Cycles: These are long-term changes in Earth’s orbit and tilt, affecting climate over tens of thousands to hundreds of thousands of years. They include changes in the shape of Earth’s orbit (eccentricity), the angle of Earth’s axis (obliquity), and the wobble of Earth’s axis (precession)1.
2. Rock Cycle: This describes how rocks transform from one type to another over geological time. For example, igneous rocks can break down into sediments, which then form sedimentary rocks. These can be buried and transformed into metamorphic rocks, which might melt and become magma, starting the cycle again2.
3. Carbon Cycle: This involves the movement of carbon through the atmosphere, oceans, soil, and living organisms. It includes processes like photosynthesis, respiration, decomposition, and the burning of fossil fuels3.
4. Climate Cycles: Earth’s climate has gone through various cycles, including ice ages and warmer interglacial periods. These changes are influenced by factors like volcanic activity, solar radiation, and greenhouse gas concentrations4.

These cycles are crucial for understanding Earth’s past and predicting future changes.

Is there a specific cycle you’re interested in learning more about?

Learn more 1uhlibraries.pressbooks.pub 2khanacademy.org 3ugc.berkeley.edu

4earthobservatory.nasa.gov 5opengeology.org

Milankovitch Cycles are fascinating and play a significant role in Earth’s long-term climate patterns. Named after Serbian scientist Milutin Milankovitch, these cycles describe how variations in Earth’s orbit and axial tilt influence climate over thousands of years.

Here are the three main components:

1. Eccentricity: This refers to the shape of Earth’s orbit around the Sun, which changes from more circular to more elliptical over a cycle of about 100,000 years. When the orbit is more elliptical, there is a greater difference in solar radiation received by Earth at different points in the orbit.
2. Obliquity: This is the angle of Earth’s axial tilt relative to its orbital plane, which varies between about 22.1° and 24.5° over a cycle of approximately 41,000 years. Changes in obliquity affect the severity of seasons; a greater tilt means more extreme seasons, while a smaller tilt results in milder seasons.
3. Precession: This is the wobble in Earth’s rotation axis, which completes a cycle roughly every 26,000 years. Precession affects the timing of the seasons relative to Earth’s position in its orbit, influencing the distribution of solar radiation across the planet.

These cycles interact in complex ways to influence Earth’s climate, contributing to the timing of ice ages and interglacial periods. Understanding Milankovitch Cycles helps scientists predict long-term climate trends and study past climate changes.

Is there a particular aspect of these cycles you’d like to delve deeper into?  Milankovitch Cycles have a profound impact on the timing and intensity of ice ages.

Here’s how each component contributes:
Eccentricity: When Earth’s orbit is more elliptical, the difference in solar radiation between the closest and farthest points in the orbit is greater. This can lead to more pronounced seasonal changes, which can influence the growth and melting of ice sheets. During periods of high eccentricity, the variations in solar energy can trigger the onset or end of ice ages.
Obliquity: Changes in the tilt of Earth’s axis affect the distribution of solar radiation between the poles and the equator. When the tilt is greater, the poles receive more solar energy during their respective summers, which can lead to the melting of ice sheets. Conversely, a smaller tilt means less solar energy at the poles, promoting ice sheet growth and potentially leading to ice ages.

Precession: This wobble in Earth’s rotation axis changes the timing of the seasons relative to Earth’s position in its orbit. When precession aligns with periods of high eccentricity, it can amplify the seasonal differences in solar radiation. This can either enhance or mitigate the effects of obliquity, influencing the advance or retreat of ice sheets.

The interplay of these cycles creates periods of glaciation (ice ages) and interglacial periods (warmer times between ice ages). For example, the last glacial maximum, when ice sheets were at their greatest extent, occurred about 20,000 years ago and was influenced by these cycles.
Understanding Milankovitch Cycles helps scientists reconstruct past climate changes and predict future climate trends. If you have more questions or need further details, feel free to ask!

Heinrich events are significant climatic phenomena that occurred during the last glacial periods.

Here’s a detailed look at what they involve:

1. Definition: Heinrich events are episodes where large numbers of icebergs break off from ice sheets, particularly the Laurentide Ice Sheet in North America, and drift into the North Atlantic Ocean1. These events are named after marine geologist Hartmut Heinrich, who first described them.
2. Characteristics: As these icebergs melt, they release vast amounts of freshwater and debris into the ocean. This debris, known as ice-rafted debris (IRD), settles on the seafloor, forming distinct layers called Heinrich layers1.
3. Frequency: Heinrich events occurred roughly every 7,000 to 10,000 years during the last glacial period2. They are less frequent than other climatic events like Dansgaard-Oeschger events, which happen more regularly.
4. Impact on Climate: The influx of freshwater from melting icebergs can disrupt ocean circulation patterns, particularly the thermohaline circulation, which is responsible for distributing heat around the planet. This disruption can lead to significant climate changes, including cooling in the North Atlantic region2.
5. Evidence: These events are well-documented in marine sediment cores from the North Atlantic, where layers of IRD provide a clear record of past Heinrich events1.

Understanding Heinrich events helps scientists gain insights into the complex interactions between ice sheets, ocean circulation, and climate during glacial periods. If you have more questions or need further details, feel free to ask!

Learn more 1en.wikipedia.org 2bing.com 3cp.copernicus.org

4wikimili.com 5cp.copernicus.org 6en.wikipedia.org

 Scientists use several methods to date Heinrich layers in sediment cores, ensuring accurate timelines for these events. Here are the primary techniques:

1. Radiocarbon Dating: This method is commonly used to date organic materials found within the sediment layers, such as foraminifera (tiny marine organisms). Radiocarbon dating measures the decay of carbon-14 isotopes to determine the age of these materials1.
2. Oxygen Isotope Analysis: By examining the ratios of oxygen isotopes (O-16 and O-18) in the foraminifera shells, scientists can infer past temperatures and ice volumes. These isotopic ratios can be correlated with known climatic events, helping to date the layers1.
3. Magnetostratigraphy: This technique involves studying the magnetic properties of the sediment layers. Earth’s magnetic field has reversed many times throughout history, and these reversals are recorded in the sediments. By matching these magnetic signatures with a known geomagnetic polarity timescale, scientists can date the layers2.
4. Tephrochronology: This method uses volcanic ash layers (tephra) found within the sediment cores. Each volcanic eruption has a unique chemical signature, allowing scientists to match the ash layers to specific eruptions and date the sediments accordingly1.

These methods, often used in combination, provide a robust framework for dating Heinrich layers and understanding the timing and impact of these significant climatic events.

If you have more questions or need further details, feel free to ask!

Learn more 1sokocalo.engr.ucdavis.edu 2geo.libretexts.org

3nature.com 4en.wikipedia.org

Scientists use a variety of methods to reconstruct past ocean circulation patterns. Here are some of the key techniques:

1. Sediment Cores: By extracting cores from the ocean floor, scientists can analyze the layers of sediment that have accumulated over time. These layers contain microfossils, such as foraminifera, whose chemical composition can reveal information about past ocean temperatures and salinity1.
2. Isotope Analysis: The ratios of different isotopes, such as oxygen isotopes in foraminifera shells, can indicate past water temperatures and ice volumes. Carbon isotopes can also provide insights into the age and movement of water masses1.
3. Paleomagnetic Data: Sediments can record changes in Earth’s magnetic field. By studying these magnetic signatures, scientists can correlate sediment layers with known geomagnetic reversals, helping to date the sediments and understand past ocean circulation2.
4. Biological Proxies: The presence and abundance of certain microorganisms, like diatoms and ostracodes, can indicate past ocean conditions. These organisms have specific environmental preferences, so their fossils can provide clues about past ocean temperatures, salinity, and nutrient levels3.
5. Chemical Tracers: Elements like neodymium and lead, found in ocean sediments, can trace the sources and movements of water masses. These tracers help scientists understand how different parts of the ocean have mixed over time4.

By combining these methods, scientists can create detailed reconstructions of past ocean circulation patterns, which are crucial for understanding how the ocean has influenced climate in the past and how it might change in the future.

Is there a specific aspect of ocean circulation or a particular time period you’re curious about?

Learn more 1phys.org 2nap.nationalacademies.org 3usgs.gov 4universityofcalifornia.edu

The climate hoaxers can’t even tell you how much CO2 is in our atmosphere.

They don’t even have a clue. So, their baseless scare warnings are based on zero evidence and a lot of studies funded by them. A while back there was a climatological study in Phoenix Arizona. 

They found temperatures rising 5-10 degrees from the past. Real scientists found the answer, and no it wasn’t global warming. (they changed it to climate change, it was easier to market).I digress. They found a direct historical link between the rise in temperatures and progress in population. The more buildings built and the land they cover in cement the more the climate rose. 

Oh, but there’s more, as more and more air conditioning was installed the hot air they expelled heated the ambient air. Sorry for the rant, but I’m 76 and stupid just pisses me off. Living things may influence it a bit. Mother Earth will do as she sees fit over time regardless of humans. All they did is change the color palette on maps…. it’s meant to keep you fearful. I only fear God.

The Atlantic Meridional Overturning Circulation (AMOC) is a crucial component of Earth’s climate system. Here’s an overview of its key aspects:

1. Definition: The AMOC is a large system of ocean currents in the Atlantic Ocean that transports warm, salty water from the tropics to the North Atlantic and returns cold, dense water southwards12.
2. Mechanism: The process begins with warm surface water moving northward, where it cools and increases in salinity due to evaporation. As this water cools, it becomes denser and sinks, forming deep currents that flow back south. This sinking process primarily occurs in the Nordic Seas and the Labrador Sea12.
3. Climate Impact: The AMOC plays a vital role in regulating climate by redistributing heat. It helps keep Europe relatively warm compared to other regions at similar latitudes. Changes in the AMOC can significantly impact weather patterns, sea levels, and marine ecosystems23.
4. Current State: Recent studies suggest that the AMOC has weakened over the past century, potentially due to climate change and increased freshwater input from melting ice sheets. This weakening could lead to more extreme weather events, sea level rise along the U.S. East Coast, and changes in marine biodiversity14.

Understanding the AMOC is essential for predicting future climate changes and mitigating their impacts. If you have more questions or need further details, feel free to ask!

Learn more; 1en.wikipedia.org 2oceanservice.noaa.gov

3metoffice.gov.uk 4sciencealert.com 5greenly.earth