Comments by "Old Scientist" (@OldScientist) on "Firstpost"
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The developed world is not exporting bad weather. Globally the ACE index (accumulated cyclone energy) 1980-2021 shows no increasing trend. Global Hurricane Landfalls 1970-2021 (updated from Weinkle et al, 2012) shows no trend. Satellite data since 1980 shows a slight downward global trend for total hurricaine numbers with 2021 being a record low year. The IPCC reports in AR6, chapter 11, "The total global frequency of TC [tropical cyclone] formation will decrease or remain unchanged with increasing global warming (medium confidence)." Not that I really care about what the IPCC says. Multidecadal variability in Atlantic hurricaines is most probably related to the AMO (Vecchi et al, 2021). NOAA data 1851-2021 shows no trend in number of hurricaine landfalls with the record high being 1886. What the data from NOAA SPC shows about tornados: EF1-EF5 (1954-2022) no trend; EF3-EF5 (most destructive) (1954-2022) 50% decline. No EF5s in US since 2013 (a record absence).
The Global Land Precipitation Anomaly from AR5 will disappoint with deviations from the average increasing by 0.2% per decade, but if you look at the actual data, it's just very variable over the decades.
Drought appears to be decreasing globally (Watts et al, 2018) measured by SPI 1901-2017.
For every million people on earth, annual deaths from climate-related causes (extreme temperature, drought, flood, storms, wildfires) declined 98%--from an average of 247 per year during the 1920s to 2.5 in per year during the 2010s.
Data on disaster deaths come from (EM-DAT, CRED / UCLouvain, Brussels,Belgium. )
Globally 2000-2019 there was a large decrease in cold-related deaths and a moderate increase in heat-related deaths (Zhao, 2021, Lancet). However, coldwaves are over 9 times more likely to kill than heatwaves, so the overall result is very beneficial.
What else? Oh, deserts like the Sahara have shrunk considerably and the Earth has greened by 15% or more in a human lifetime (NASA).
On extinction the rate is very low: 900 known lost species for 2.1 million known species in 500 years. At that frequency it will take over 930,000 years to reach 80% extinction of species experienced at the K-T boundary that saw the extinction of the dinosaurs.
There is no climate crisis.
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As regards the belief in weather event attribution the IPCC states “Scientists cannot answer directly whether a particular event was caused by climate change, as extremes do occur naturally, and any specific weather and climate event is the result of a complex mix of human and natural factors. Instead, scientists quantify the relative importance of human and natural influences on the magnitude and/or probability of specific extreme weather events.”
It is not possible to attribute whether an individual heatwave, drought or a flood, or any climate event, extreme or otherwise is due to human factors. People are fooled into believing it is, thanks to the magic of attribution science. One cannot prove that changes in the climate are man-made, but in tactical attribution science it is presented as a fact. To provide proof of this one would need to observe another Earth-like planet to which no GHGs (greenhouse gases) are added. This is obviously impossible. It is untestable. It is unverifiable. It is not a fact. It is not Science. It's wishful thinking often expounded for legal or political purposes as WWA’s (World Weather Attribution) chief scientist, Friederike Otto, freely admits, “Unlike every other branch of climate science or science in general, event attribution was actually originally suggested with the courts in mind.”
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Silly scary nonsense. There has been a 10% decline in natural disasters since 2000 (CRED). Normalised disaster losses have decreased since 1990 and human mortality due to extreme weather has decreased by more than 95% since 1920.
Climate change saved 555,103 lives in England and Wales between 2001 and 2020 (ONS, 2022).
Globally the ACE index (accumulated cyclone energy) 1980-2021 shows no increasing trend. Global Hurricane Landfalls 1970-2021 (updated from Weinkle et al, 2012) shows no trend. Satellite data since 1980 shows a slight downward global trend for total hurricaine numbers with 2021 being a record low year. From the NOAA GFDL website 'Global Warming and Hurricanes, An Overview of Current Research' (dated Feb. 9, 2023). And I quote "We conclude that the historical Atlantic hurricane data at this stage do not provide compelling evidence for a substantial greenhouse warming-induced century-scale increase in: frequency of tropical storms, hurricanes, or major hurricanes, or in the proportion of hurricanes that become major hurricanes." Multidecadal variability in Atlantic hurricaines is most probably related to the AMO (Vecchi et al, 2021). NOAA data 1851-2021 shows no trend in number of hurricaine landfalls with the record high being 1886. It makes no difference if you look at the Pacific. Using data from the JMA 1951-2022 we see typhoon activity trending downwards for over 7 decades.
There is evidence cited in AR6 (IPCC) that Australia is experiencing the lowest frequency of tropical cyclones in the last 550 to 1,500 years, and that windspeed overland throughout the Northern Hemisphere has been dropping in recent decades. Also the number of intense storms (below 960 mbars) in the Northern Atlantic has fallen sharply since 1990 (Tilinina et al, 2021).
What the data from NOAA SPC shows about tornados: EF1-EF5 (1954-2022) no trend; EF3-EF5 (most destructive) (1954-2022) 50% decline. No EF5s in US since 2013 (a record absence).
There has been no clear change in annual precipitation over the Earth's landmasses between 1850-2000 (Wijngaarden, 2015).
Drought appears to be decreasing globally (Watts et al, 2018) measured by SPI 1901-2017.
There are over 5 million excess deaths per annum globally due to abnormal temperatures from the 2000-2019 study led Prof. Guo of Monash University. It found that over 90% of excess deaths were caused by excess COLD rather than excess heat. This applied globally including in the hottest continent, Africa. So, in a world with increasingly mild temperatures, there will be less excess death. Warming is good not bad.
Deserts have shrunk considerably since the 1980's. The Sahara shrank by 12,000km² per year 1984-2015(Liu & Xue, 2020). The Earth has greened by 15% or more in a human lifetime. "The greening of the planet over the last two decades represents an increase in leaf area on plants and trees equivalent to the area covered by all the Amazon rainforests. There are now more than two million square miles of extra green leaf area per year"(NASA, 2019). Global tree canopy cover increased by 2.24 million square kilometers (865,000 square miles) between 1982 and 2016 (Nature, 2018). As well as human intervention, the reasons for this include forests expanding polewards aided by additional CO2 and a slight rise in temperature.
The Earth’s natural vegetation productivity actually increased 6% in 18 years (Nemani et al, 2003) with 42% of this increase coming from the Amazon rainforests.
Between 1961 and 2021 cereal production increased 250% and cereal yield increased over 200%. Land used for cereal hardly increased (Data from World Bank, FAO/UN). This is the only time in human history that you are more likely to be overfed rather than underfed. We should be thankful we were borne into an age of such abundance.
The Great Barrier Reef's coral cover has reached the greatest extent ever recorded (AIMS). If you look at the Global Coral Reef Monitoring Network (GCRMN) data, the WIO (West Indian Ocean) shows 26% hard coral cover in 1985 upto 30% in 2020. South Asia reefs shows a decline around 2000 to below 25% then a regrowth to around 40% (2010) and a decline to 25% (2020). The Red Sea shows no change at around 25% (1995-2020). So the pattern in these three areas show no relationship to each other or to a changing climate.
GCRMN data for the most important coral bioregion, the East Asia Seas, with 30% of the world’s coral reefs, and containing the most diverse coral of the ‘Coral Triangle’, show no statistically significant net coral loss since records began. The East Asia region has the biggest human population living in close proximity to reefs, and is located in the Indo-Pacific Warm Pool – the hottest major water mass on earth.
On extinction the rate is very low: 900 known lost species for 2.1 million known species in 500 years (IUCN), so from observations there are an average of slightly less than 2 species lost every year. Out of a known species total of over 2 million. That gives an annual percentage loss of less than 0.0001%. That's background extinction. At that frequency it will take over 930,000 years to reach 80% extinction of species experienced at the K-T boundary that saw the extinction of the dinosaurs. Of course, extinction is a natural part of the evolution of life on this planet with the average lifespan of a species thought to be about 1 million years (cf 930,000). It is estimated that 99.9% of all plant and animal species that have existed have gone extinct. It should also be noted that no families or genera have become extinct in the last 500 years. In fact marine diversity at the taxonomic level of families is the highest it has ever been in the Earth's long history (see Sepkoski Curve).
Global temperatures maxed out in 2016 and have been lower ever since (UAH v6 global satellite data). 500 billion tonnes of emissions in that time, and no warming.
There is no climate crisis.
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@astronautical1082 So there is supposed rapid warming over the last century but that's not a fair comparison with previous ages. That's instrumental - which has its own reliability issues due to it poor spatial and temporally collection (until the advent of satellites) - with annual instrumental measurements compared with proxy data with the latter's resolution intervals often at 200 years. If we smooth out the current data over the last two centuries you'd be lucky to see ½ degree per century. Your rapid warming disappears, and a very large number of bicentennial periods over the last 16,500 years warm at a faster rate (than 0.5°C/century). And let's not forget the Dansgaard–Oeschger events. The Dansgaard–Oeschger events were global (Dima et al, 2018). One about 11,500 years ago, averaged annual temperatures on the Greenland ice sheet increased by around 8°C over 40 years, in three steps of five years, but a 5 °C change over 30–40 years is more common for these events. So shall we say a rate of change about 20°C per century? If that happened now people would assume the Rapture was imminent. But life carried on.
Globally satellite data shows how variable the Earth's climate is with changes up or down of more than 1°C occurring from one year to the next. However, overall the Earth's ecosystems are resilient to these fluctuations, as most species are eurytopic enough to survive these changes.
This is a scare story about things you cannot see.
Extinction rates (1500-2009) peaked around 1900 at 50 per decade. Extinction rates have declined dramatically to around 4 to per decade in the 2000s. So the extinction rate is very low: 908 known lost species for 2.1 million known species in 500 years (IUCN Red List), so from observations there are an average of slightly less than 2 species lost every year. Out of a known species total of over 2 million. That gives an annual percentage loss of less than 0.0001%. That's background extinction. At that frequency it will take over 930,000 years to reach 80% extinction of species experienced at the K-T boundary that saw the extinction of the dinosaurs. Of course, extinction is a natural part of the evolution of life on this planet with the average lifespan of a species thought to be about 1 million years (cf 930,000). It is estimated that 99.9% of all plant and animal species that have existed have gone extinct. It should also be noted that no taxonomic families have become extinct in the last 500 years. In fact marine diversity at the taxonomic level of families is the highest it has ever been in the Earth's long history (see Sepkoski Curve). In a review of 16,009 species, most populations (85%) did not show significant trends in abundance, and those that did were balanced between winners (8%) and losers (7%) (Dornelas et al, 2019). There have been only 9 species of continental birds and mammals confirmed extinct since 1500 (Loehle, 2011). No global marine animals have become extinct in the past 50 years (McCauley et, 2015 using IUCN data).
Take bird species: 11,195 have been counted (not estimated). All of these have been assessed by the IUCN. They catalogued 4 bird species became extinct over the course of 28 years between 1988 and 2016. That's 1.4 per decade or an annual extinction rate of 0.001%.
Also the proportion of species assessed as threatened by the IUCN has declined rapidly over time, from 65% in 2000 (11,000 out of 17,000) to 28% in 2024 (46,000 out of 166,000). This increasingly positive outcome of their species assessments is only accelerating as time passes.
Using IUCN data on assessed species- Amphibian species extinct 0.009% per decade. Mammals 0.029% per decade. Reptiles 0.006% per decade. Fish 0.006% per decade. Insects 0.009% per decade.
There is no climate crisis.
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The UN's IPCC AR6 report, chapter 11 'Weather and Climate Extreme Events in a Changing Climate' summarises the fact that severe weather events cannot be detected as increasing, nor attributed to human caused climate change:
Increased Flooding: not detected, no attribution.
Increased Meteorological Drought: not detected, no attribution.
Increased Hydrological Drought: not detected, no attribution.
Increased Tropical Cyclones: not detected, no attribution.
Increased Winter Storms: not detected, no attribution.
Increased Thunderstorms: not detected, no attribution.
Increased Hail: not detected, no attribution.
increased lightning: not detected, no attribution.
Increased Extreme Winds: not detected, no attribution.
There is no climate crisis.
The UN's IPCC AR6 report, chapter 11 'Weather and Climate Extreme Events in a Changing Climate' summarises the fact that certain severe weather events cannot be detected as increasing, nor attributed to human caused climate change:
Pages 1761 - 1765, Table 11.A.2 Synthesis table summarising assessments
Heavy Precipitation: 24 out of 45 global regions low confidence in observed trend (12 medium confidence), 43 out 45 low confidence in human attribution.
Agricultural Drought: 31 out of 45 global regions low confidence in observed trend
(14 medium confidence. No high confidence assessment). 42 out 45 low confidence in human attribution (3 medium, no high confidence).
Ecological Drought as above.
Hydrological Drought: 38 out of 45 global regions low confidence in observed trend.
43 out 45 low confidence in human attribution (2 medium confidence, no high confidence).
So the IPCC are saying we didn't cause droughts and we didn't make it rain. How surprising!
There is no objective observational evidence that we are living in a global climate crisis.
The UN's IPCC AR6, chapter 12 "Climate Change Information for Regional Impact and for Risk Assessment", section 12.5.2, table 12.12 confirms there is a lack of evidence or no signal that the following have changed:
Air Pollution Weather (temperature inversions),
Aridity,
Avalanche (snow),
Average precipitation,
Average Wind Speed,
Coastal Flood,
Agricultural drought,
Hydrological drought,
Erosion of Coastlines,
Fire Weather (hot and windy),
Flooding From Heavy Rain (pluvial floods),
Frost,
Hail,
Heavy Rain,
Heavy Snowfall and Ice Storms,
Landslides,
Marine Heatwaves,
Ocean Acidity,
Radiation at the Earth’s Surface,
River/Lake Floods,
Sand and Dust Storms,
Sea Level,
Severe Wind Storms,
Snow, Glacier, and Ice Sheets,
Tropical Cyclones.
How about some quotes from the UN's IPCC AR6?
"There is low confidence in the emergence of heavy precipitation and pluvial and river flood frequency in observations, despite trends that have been found in a few regions."
"There is low confidence in the emergence of drought frequency in observations, for any type of drought, in all regions."
"Observed mean surface wind speed trends are present in many areas, but the emergence of these trends from the interannual natural variability and their attribution to human-induced climate change remains of low confidence due to various factors such as changes in the type and exposure of recording instruments, and their relation to climate change is not established. . . The same limitation also holds for wind extremes (severe storms, tropical cyclones, sand and dust storms)."
There is no objective observational evidence that we are living through a global climate crisis. None.
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There is no objective observational evidence that we are living in a global climate crisis.
The UN's IPCC AR6, chapter 12 "Climate Change Information for Regional Impact and for Risk Assessment", section 12.5.2, table 12.12 confirms there is a lack of evidence or no signal that the following have changed:
Air Pollution Weather (temperature inversions),
Aridity,
Avalanche (snow),
Average precipitation,
Average Wind Speed,
Coastal Flood,
Agricultural drought,
Hydrological drought,
Erosion of Coastlines,
Fire Weather (hot and windy),
Flooding From Heavy Rain (pluvial floods),
Frost,
Hail,
Heavy Rain,
Heavy Snowfall and Ice Storms,
Landslides,
Marine Heatwaves,
Ocean Acidity,
Radiation at the Earth’s Surface,
River/Lake Floods,
Sand and Dust Storms,
Sea Level,
Severe Wind Storms,
Snow, Glacier, and Ice Sheets,
Tropical Cyclones.
There is no objective observational evidence that we are living through a global climate crisis. None.
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@pwollerman Fair enough. The whole of East and West Antarctica is cooling, and has been for 40 years. East Antarctica has cooled by an impressive 0.7°C per decade. Resulting in an overall substantial and statistically significant decline of 2.8°C since 1980. So much for "Global" warming. I am referring to a paper by Zhu et al (2021) that looked at the reanalysed ERA5 satellite dataset. Check out table 4. Furthermore, the Antarctic Peninsula ice has since been shown to be on the increase “The eastern Antarctic Peninsula Ice Sheet has grown in area over the last 20 years, due to changing wind and sea ice patterns.” (University of Cambridge, May, 2022.)
In reality, "there have been statistically significant positive trends in total Antarctic sea ice extent since 1979." (Fogt et al, 2022. Published in Nature) "since 1979 is the only time all four seasons demonstrate significant increases in total Antarctic sea ice in the context of the twentieth century".
A study of Antarctic ice shelves from 1980 to 2021 (Banwell et al, 2023) showed meltwater volume dropped with "decreasing trend in both annual melt days and meltwater production volume over the 41 years.”
"Overall, the Antarctic ice shelf area has grown by 5305 km² since 2009, with 18 ice shelves retreating and 16 larger shelves growing in area. Our observations show that Antarctic ice shelves gained 661 Gt of ice mass over the past decade." (Andreasen et al, 2023). It is from a paper entitled "Change in Antarctic Ice Shelf Area from 2009 to 2019". They use MODIS (Moderate Resolution Imaging Spectroradiometer) satellite data to measure the change in ice shelf calving front position and area on 34 ice shelves in Antarctica from 2009 to 2019. Also, as the mass gain (661Gt) was given, you could calculate the volume of the ice gained using the formula: Volume = Mass ÷ Density (assume Density of glacier ice 0.9167 Gt/km³). This would give you (well not you obviously) an Ice Gain Volume ≈721km³. That's how much extra of the lovely white stuff there is around Antarctica. Imagine standing in the centre of this extra ice. It would stretch beyond the horizon in all directions and would be 45 storeys high.
Antarctica contributes 0.36mm to sea-level rise per year (that's essentially nothing as well). At the current rate it will take well over ¼ million years to melt, but we are due for two more glacial periods in that time. That ice is here to stay.
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@pwollerman
Fair enough.
The whole of East and West Antarctica is cooling, and has been for 40 years. East Antarctica has cooled by an impressive 0.7°C per decade. Resulting in an overall substantial and statistically significant decline of 2.8°C since 1980. So much for "Global" warming. I am referring to a paper by Zhu et al (2021) that looked at the reanalysed ERA5 satellite dataset. Check out table 4. Furthermore, the Antarctic Peninsula ice has since been shown to be on the increase “The eastern Antarctic Peninsula Ice Sheet has grown in area over the last 20 years, due to changing wind and sea ice patterns.” (University of Cambridge, May, 2022.)
In reality, "there have been statistically significant positive trends in total Antarctic sea ice extent since 1979." (Fogt et al, 2022. Published in Nature) "since 1979 is the only time all four seasons demonstrate significant increases in total Antarctic sea ice in the context of the twentieth century".
A study of Antarctic ice shelves from 1980 to 2021 (Banwell et al, 2023) showed meltwater volume dropped with "decreasing trend in both annual melt days and meltwater production volume over the 41 years.”
"Overall, the Antarctic ice shelf area has grown by 5305 km² since 2009, with 18 ice shelves retreating and 16 larger shelves growing in area. Our observations show that Antarctic ice shelves gained 661 Gt of ice mass over the past decade." (Andreasen et al, 2023). It is from a paper entitled "Change in Antarctic Ice Shelf Area from 2009 to 2019". They use MODIS (Moderate Resolution Imaging Spectroradiometer) satellite data to measure the change in ice shelf calving front position and area on 34 ice shelves in Antarctica from 2009 to 2019. Also, as the mass gain (661Gt) was given, you could calculate the volume of the ice gained using the formula: Volume = Mass ÷ Density (assume Density of glacier ice 0.9167 Gt/km³). This would give you (well not you obviously) an Ice Gain Volume ≈721km³. That's how much extra of the lovely white stuff there is around Antarctica. Imagine standing in the centre of this extra ice. It would stretch beyond the horizon in all directions and would be 45 storeys high.
Antarctica contributes 0.36mm to sea-level rise per year (that's essentially nothing as well). At the current rate it will take well over ¼ million years to melt, but we are due for two more glacial periods in that time. That ice is here to stay.
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@pwollerman
The whole of East and West Antarctica is cooling, and has been for 40 years. East Antarctica has cooled by an impressive 0.7°C per decade. Resulting in an overall substantial and statistically significant decline of 2.8°C since 1980. So much for "Global" warming. I am referring to a paper by Zhu et al (2021) that looked at the reanalysed ERA5 satellite dataset. Check out table 4. Furthermore, the Antarctic Peninsula ice has since been shown to be on the increase “The eastern Antarctic Peninsula Ice Sheet has grown in area over the last 20 years, due to changing wind and sea ice patterns.” (University of Cambridge, May, 2022.)
In reality, "there have been statistically significant positive trends in total Antarctic sea ice extent since 1979." (Fogt et al, 2022. Published in Nature) "since 1979 is the only time all four seasons demonstrate significant increases in total Antarctic sea ice in the context of the twentieth century".
A study of Antarctic ice shelves from 1980 to 2021 (Banwell et al, 2023) showed meltwater volume dropped with "decreasing trend in both annual melt days and meltwater production volume over the 41 years.”
"Overall, the Antarctic ice shelf area has grown by 5305 km² since 2009, with 18 ice shelves retreating and 16 larger shelves growing in area. Our observations show that Antarctic ice shelves gained 661 Gt of ice mass over the past decade." (Andreasen et al, 2023). It is from a paper entitled "Change in Antarctic Ice Shelf Area from 2009 to 2019". They use MODIS (Moderate Resolution Imaging Spectroradiometer) satellite data to measure the change in ice shelf calving front position and area on 34 ice shelves in Antarctica from 2009 to 2019. Also, as the mass gain (661Gt) was given, you could calculate the volume of the ice gained using the formula: Volume = Mass ÷ Density (assume Density of glacier ice 0.9167 Gt/km³). This would give you (well not you obviously) an Ice Gain Volume ≈721km³. That's how much extra of the lovely white stuff there is around Antarctica. Imagine standing in the centre of this extra ice. It would stretch beyond the horizon in all directions and would be 45 storeys high.
Antarctica contributes 0.36mm to sea-level rise per year (that's essentially nothing as well). At the current rate it will take well over ¼ million years to melt, but we are due for two more glacial periods in that time. That ice is here to stay.
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@pwollerman
Fair enough.
The whole of East and West Antarctica is cooling, and has been for 40 years. East Antarctica has cooled by an impressive 0.7°C per decade. Resulting in an overall substantial and statistically significant decline of 2.8°C since 1980. So much for "Global" warming. I am referring to a paper by Zhu et al (2021) that looked at the reanalysed ERA5 satellite dataset. Check out table 4. Furthermore, the Antarctic Peninsula ice has since been shown to be on the increase “The eastern Antarctic Peninsula Ice Sheet has grown in area over the last 20 years, due to changing wind and sea ice patterns.” (University of Cambridge, May, 2022.)
In reality, "there have been statistically significant positive trends in total Antarctic sea ice extent since 1979." (Fogt et al, 2022. Published in Nature) "since 1979 is the only time all four seasons demonstrate significant increases in total Antarctic sea ice in the context of the twentieth century".
A study of Antarctic ice shelves from 1980 to 2021 (Banwell et al, 2023) showed meltwater volume dropped with "decreasing trend in both annual melt days and meltwater production volume over the 41 years.”
"Overall, the Antarctic ice shelf area has grown by 5305 km² since 2009, with 18 ice shelves retreating and 16 larger shelves growing in area. Our observations show that Antarctic ice shelves gained 661 Gt of ice mass over the past decade." (Andreasen et al, 2023). It is from a paper entitled "Change in Antarctic Ice Shelf Area from 2009 to 2019". They use MODIS (Moderate Resolution Imaging Spectroradiometer) satellite data to measure the change in ice shelf calving front position and area on 34 ice shelves in Antarctica from 2009 to 2019. Also, as the mass gain (661Gt) was given, you could calculate the volume of the ice gained using the formula: Volume = Mass ÷ Density (assume Density of glacier ice 0.9167 Gt/km³). This would give you (well not you obviously) an Ice Gain Volume ≈721km³. That's how much extra of the lovely white stuff there is around Antarctica. Imagine standing in the centre of this extra ice. It would stretch beyond the horizon in all directions and would be 45 storeys high.
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There is no objective observational evidence that we are living in a global climate crisis.
The UN's IPCC AR6, chapter 12 "Climate Change Information for Regional Impact and for Risk Assessment", section 12.5.2, table 12.12 confirms there is a lack of evidence or no signal that the following have changed:
Air Pollution Weather (temperature inversions),
Aridity,
Avalanche (snow),
Average precipitation,
Average Wind Speed,
Coastal Flood,
Agricultural drought,
Hydrological drought,
Erosion of Coastlines,
Fire Weather (hot and windy),
Flooding From Heavy Rain (pluvial floods),
Frost,
Hail,
Heavy Rain,
Heavy Snowfall and Ice Storms,
Landslides,
Marine Heatwaves,
Ocean Acidity,
Radiation at the Earth’s Surface,
River/Lake Floods,
Sand and Dust Storms,
Sea Level,
Severe Wind Storms,
Snow, Glacier, and Ice Sheets,
Tropical Cyclones.
There is no objective observational evidence that we are living through a global climate crisis. None.
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The Arctic minimum summer sea ice trend is zero for the past 17 years. In the past few years it was almost as high as 1995. The probability that this could be due to chance has now dropped to 10% (after Swart et al calculations, 2015). If the hiatus continues until 2027, it will become statistically significant (p<0.05, or less than 5%) and no longer explainable by chance. Using National Snow and Ice Data Centre (NSIDC) information for September minima (million km²):
2007 4.16
2008 4.59
2009 5.12
2010 4.62
2011 4.34
2012 3.39
2013 5.05
2014 5.03
2015 4.43
2016 4.17
2017 4.67
2018 4.66
2019 4.19
2020 3.82
2021 4.77
2022 4.67
2023 4.23
Plot the trend line for this data and it will be flat. ZERO net change in 17 years. The linear trend since 2007 is indistinguishable from zero ( around -0.17% per year ).
In the early 1950s the sea ice concentration anomaly was lower than it is at present. The sea ice anomaly then rose during the 50s, 60s and 70s. This was followed by a decline. This is demonstrated in Arctic and Antarctic Research Institute (AARI) data, which is based on historical sea ice charts from several sources (aircraft, ship, and satellite observations).
The AARI data shows the sea ice concentration anomaly was lower in 1952 (-5%) than 2005 (-3%). The anomaly increased in the 50s, 60s and 70s. In the 80s, 90s and early 2000s it decreased. Since 2007 the trend has been flat.
JAXA (Japanese Aerospace Exploration Agency) satellite data from 2002 to 2024 Arctic Sea Ice Extent (365 day running average) shows no noticeable trend with values close to 10,000,000km² throughout. Their minimum extent for daily values was in 2012. No other year since has come close.
MASIE (Multisensor Analyzed Sea Ice Extent - Northern Hemisphere) shows something similar to JAXA. From 2005 to 2024 Arctic Sea Ice Extent (365 day running average) shows no noticeable trend with values close to 10,000,000km² throughout. Their minimum extent for daily values was in 2012. Again no other year since has come close. It also shows a marked increase in Ice in the Greenland Sea since 2018.
Polyakov et al (2003) show "ice extent (1900-2000) in the Kara, Laptev, East Siberian, and Chukchi Seas provide evidence that long-term ice thickness and extent trends are small and generally not statistically significant". Trend -0.5% per decade (±0.7%).
Vinje (2001) shows a deceleration in the rate of ice loss from 1864 to 2000.
Recent sea ice extent is very high when compared to the last 10,000 years. Also changes in sea ice extent and the speed of those changes were greater in the past (Stein et al, 2017).
HadCRUT4 Arctic (70N - 90N) monthly surface air temperature anomalies record (1920-2021) shows the greatest number and magnitude of positive temperature anomalies occurred between 1930-49. All anomalies in excess of 5°C, including +7°C (referenced to 1961-1990) are from this period. No temperature anomalies from 2000-2019 reach 5°C. It shows no decade warmed faster than the 1930s and the current 'warming' finished in 2005.
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