Comments by "Old Scientist" (@OldScientist) on "Ny-Ålesund: The scientists on the front line of global warming in the Arctic Circle | ITV News" video.

  1. How about the truth? 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%). Zhang (2021) shows there is no trend for Arctic sea ice volume since at least 2010, and observes that ice draft increased from 1995 onwards. 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). NOAA's Global Time Series Average Temperature Anomaly monthly data (1995-2004) for the Arctic region shows the peak anomaly occurred in January 2016 (+4.99°C), another El Niño year, and the trend is now downwards (-0.42°C per decade) as of June 2024. 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 that period. No temperature anomalies from 2000-2019 exceeded 5°C. It shows no decade warmed faster than the 1930s and the current 'warming' finished in 2005. JRA55 SAT (2010-2020) shows most of the Canadian Arctic and Greenland cooling with parts of Canada cooling by 3°C and western Greenland cooling by 2.5°C in a decade. KNMI data (Twentieth Century Reanalysis V2c, 1851-2011, 68°N-80°N, 25°W-60°W, so Greenland) shows the most pronounced warming took place in the 1870s, and when comparing temperature anomalies, highest are in the 1930s and comparison of that period with recent temperature anomalies shows no net warming.
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  2.  @DT__1  Lived experience and anecdote are no substitute for scientific data. A process of improvement in any situation has a better chance of success when it is based on objectively collected information rather than how an individual feels.
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  3.  @Mike-zx1kx  No, I am a retired scientist and educator.
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  4. @Mike-zx1kx  Which section or sections of my comment is nonsense? It is unscientific to make an assertion and then not back it up with evidence. Oh and your text should read "oldscientist's nonsense" rather than "oldscientists nonsense".
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  5. @yeahshell5166  The data is as I have described, but I suggest you research it for yourself. There is no evidence of cataclysmic warming in the Arctic. The sea ice extent around Svalbard is similar to the eighteenth century. It increased in the nineteenth and declined intermittently in the twentieth. This is a small part of the Arctic and a tiny part of the globe. It is focused on because it fits the simple story of dangerous warming. If one were to look at another part of the globe, say the southeastern United States, you would find that it had cooled since the start of the twentieth century, and that is based on far more reliable and extensive data. But you won't hear that on the news. Notice, in the video, for example, the temperature rise given of "nearly 8 degrees ", that was in winter and will have no effect on ice extent as it remains well below freezing even if it has "warmed".
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  6. This video obscures the truth. Go back to the source, the Norwegian Meteorological Office (Seklima), to try to get to the bottom of this. I suggest everyone check out their data. Ny-ålesund data for maximum annual temperatures shows no trend since records began in 1969. It has not got hotter. However, the minimum annual temperatures has increased, so the winters have become milder (but still extremely cold). The increase in the annual minimum temperature occurred over 20 years, but this trend stopped around 2006. To find a longer term view on Svalbard you need to look up other weather stations, for example Longyearbyen + Svalbard Lufthavn. Looking at say 1950 to the present shows no trend in the maximum temperatures. The minima dropped quite considerably from the later 50s. The 60s and 70s had an intensely cold trend of minima. It then warmed in the 80s/90s and from 2005 levelled off. So overall the swings in temperature on Svalbard during the year have become less extreme. Very roughly, it hasn't got hotter, but the winters, which got very much colder, became less cold, now they have stopped getting less cold since about 2005. Svalbard's climate became milder, less extreme than compared to the 60s and 70s, but not hotter. That process of amelioration has stopped. These changes are uncorrelated to the level of CO2 in the atmosphere.
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  7. @Mike-zx1kx  "The great thing about scientific knowledge are [you mean 'is'] that you do not have to guess but can refer to accumulated knowledge obtained." This is exactly what I have done in some detail, with numerous references (something you have not done). My data shows there is no calamitous warming taking place in the Arctic at present, and there was nothing in your written meanderings that disproved that. On another point, it may be that your first language is not English, but can you please learn to decline the auxiliary verbs 'to have', 'to be', and 'to do' correctly? For example, it should be "it has" not "it have". Many thanks.
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  8. 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%). Zhang (2021) shows there is no trend for Arctic sea ice volume since at least 2010, and observes that ice draft increased from 1995 onwards. 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). NOAA's Global Time Series Average Temperature Anomaly monthly data (1995-2004) for the Arctic region shows the peak anomaly occurred in January 2016 (+4.99°C), another El Niño year, and the trend is now downwards (-0.42°C per decade) as of June 2024. 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 that period. No temperature anomalies from 2000-2019 exceeded 5°C. It shows no decade warmed faster than the 1930s and the current 'warming' finished in 2005. JRA55 SAT (2010-2020) shows most of the Canadian Arctic and Greenland cooling with parts of Canada cooling by 3°C and western Greenland cooling by 2.5°C in a decade. KNMI data (Twentieth Century Reanalysis V2c, 1851-2011, 68°N-80°N, 25°W-60°W, so Greenland) shows the most pronounced warming took place in the 1870s, and when comparing temperature anomalies, highest are in the 1930s and comparison of that period with recent temperature anomalies shows no net warming.
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  9. 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%). Zhang (2021) shows there is no trend for Arctic sea ice volume since at least 2010, and observes that ice draft increased from 1995 onwards. 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). NOAA's Global Time Series Average Temperature Anomaly monthly data (1995-2004) for the Arctic region shows the peak anomaly occurred in January 2016 (+4.99°C), another El Niño year, and the trend is now downwards (-0.42°C per decade) as of June 2024. 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 that period. No temperature anomalies from 2000-2019 exceeded 5°C. It shows no decade warmed faster than the 1930s and the current 'warming' finished in 2005. JRA55 SAT (2010-2020) shows most of the Canadian Arctic and Greenland cooling with parts of Canada cooling by 3°C and western Greenland cooling by 2.5°C in a decade. KNMI data (Twentieth Century Reanalysis V2c, 1851-2011, 68°N-80°N, 25°W-60°W, so Greenland) shows the most pronounced warming took place in the 1870s, and when comparing temperature anomalies, highest are in the 1930s and comparison of that period with recent temperature anomalies shows no net warming.
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  10. ​@Mike-zx1kx I found it and read it. I don't mean to seem rude but it's a rambling series of unreferenced assertions that in no way counters the data driven comment that I made. There is no evidence of cataclysmic warming in the Arctic.
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  11.  @chesterfinecat7588  of?
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  12.  @jeromejerome2492  They are not my measurements, they are "the work of numerous specialists" the data is from NSIDC, AARI, JAXA, MASIE, NOAA, HadCRUT4, JRA55, KNMI, plus Polyarkov, Vinje, Zhang and all their associated researchers. The data is as I described. It does not show cataclysmic warming of the Arctic, and your assertion to the contrary is worthless.
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  13. @anabolicamaranth7140  Have you read what I've written? There are numerous starting points: 2010, 2007, 2005, 2002, 1995, 1950, 1920, 1900, 1864, 1851 and 8,000BC. That's the point. It doesn't matter when you start there is no cataclysmic warming taking place in the Arctic.
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  14.  @jeromejerome2492  They are not my measurements, they are "the work of numerous specialists" the data is from NSIDC, AARI, JAXA, MASIE, NOAA, HadCRUT4, JRA55, KNMI, plus Polyarkov, Vinje, Zhang and all their associated researchers. The data is as I described. It does not show cataclysmic warming of the Arctic, and your assertion to the contrary is without evidence.
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  15. @anabolicamaranth7140  I'm not sure you're understanding the data I have provided. It is from multiple reputable sources. There is a large amount of data. It spans significant periods of time. None of it shows cataclysmic warming of the Arctic.
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  16.  @jeromejerome2492  They are not my measurements, they are "the work of numerous specialists" the data is from NSIDC, AARI, JAXA, MASIE, NOAA, HadCRUT4, JRA55, KNMI, plus Polyarkov, Vinje, Zhang and all their associated researchers. The data is as I described. It does not show cataclysmic warming of the Arctic.
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  17.  @jeromejerome2492  They are not my measurements, they are "the work of numerous specialists" the data is from NSIDC, AARI, JAXA, MASIE, NOAA, HadCRUT4, JRA55, KNMI, plus Polyarkov, Vinje, Zhang and all their associated researchers.
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  18. @anabolicamaranth7140  The video itself is cherry picking as I have demonstrated with my more expansive data. This video obscures the truth. Go back to the source, the Norwegian Meteorological Office (Selima), to try to get to the bottom of this. I suggest everyone check out their data. Ny-ålesund data for maximum annual temperatures shows no trend since records began in 1969. It has not got hotter. However, the minimum annual temperatures has increased, so the winters have become milder (but still extremely cold). The increase in the annual minimum temperature occurred over 20 years, but this trend stopped around 2006. To find a longer term view on Svalbard you need to look up other weather stations, for example Longyearbyen + Svalbard Lufthavn. Looking at say 1950 to the present shows no trend in the maximum temperatures. The minima dropped quite considerably from the later 50s. The 60s and 70s had an intensely cold trend of minima. It then warmed in the 80s/90s and from 2005 levelled off. So overall the swings in temperature on Svalbard during the year have become less extreme. Very roughly, it hasn't got hotter, but the winters, which got very much colder, became less cold, now they have stopped getting less cold since about 2005. Svalbard's climate became milder, less extreme than compared to the 60s and 70s, but not hotter. That process of amelioration has stopped. These changes are uncorrelated to the level of CO2 in the atmosphere.
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  19. @Mike-zx1kx  This video obscures the truth. Go back to the source, the Norwegian Meteorological Office (Selima), to try to get to the bottom of this. I suggest everyone check out their data. Ny-ålesund data for maximum annual temperatures shows no trend since records began in 1969. It has not got hotter. However, the minimum annual temperatures has increased, so the winters have become milder (but still extremely cold). The increase in the annual minimum temperature occurred over 20 years, but this trend stopped around 2006. To find a longer term view on Svalbard you need to look up other weather stations, for example Longyearbyen + Svalbard Lufthavn. Looking at say 1950 to the present shows no trend in the maximum temperatures. The minima dropped quite considerably from the later 50s. The 60s and 70s had an intensely cold trend of minima. It then warmed in the 80s/90s and from 2005 levelled off. So overall the swings in temperature on Svalbard during the year have become less extreme. Very roughly, it hasn't got hotter, but the winters, which got very much colder, became less cold, now they have stopped getting less cold since about 2005. Svalbard's climate became milder, less extreme than compared to the 60s and 70s, but not hotter. That process of amelioration has stopped. These changes are uncorrelated to the level of CO2 in the atmosphere.
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  20.  @Mike-zx1kx  So it was warmer 77 years ago on this date in Denmark. So it was warmer 49 years ago in Sweden. So it was warmer in the past. Is that weather or climate?
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  21. @Mike-zx1kx  The Great Barrier Reef's coral cover reached the greatest extent ever recorded in 2022, 2023 and 2024 (AIMS), and that is despite reports of supposed repeated bleaching, despite starfish predation and despite any bad weather. It should be renamed the Greatest Barrier Reef! 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. The Caribbean region reefs have a cover of around 0.15 ± 0.02. There is no evidence of a major reduction in coral cover in the Caribbean over the last two decades. 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. Life is most diverse in the warmest parts of the world’s oceans. This has been shown across 13 major taxonomic groups from zooplankton to marine mammals. Warmer water = more biodiversity. This is a scare story about things you cannot see.
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  22. @Mike-zx1kx  A more balanced review of the data cannot support the assertion that there has been a major global loss of coral in the recent past, and nor can this loss be projected into the future. Any claims made prior to 2000 need to be treated with caution due to the huge margins of uncertainty in the data. There is also a refusal to focus on any positive points to maintain a sense of balance. For example, although GCRMN claimed a 14% coral loss between 2008 and 2019, it failed to mention that there was an apparent increase of a similar amount between 2000 and 2008. This seems disingenuous. Taking a look at regional data, the different areas show no relationship to each other or to a changing climate, or to the the concentration of CO2 in the atmosphere. Returning to whole world data still does not validate the idea that there has been a major drop in coral cover. There may have been a diminution of 7% from 2000–19, but this must be treated with some caution because the stated error margin is of similar size to the difference. Also one should consider natural variability at around 10% – higher than the difference between 2000 and 2019. I just went back and had a look at some GCRMN data by region, looking for a signal for bleaching. I noticed East Asia (the most important region for coral at 30.1% of global coral) was unaffected. In fact, coverage increased. So not global bleaching. Then I looked at AIMS' GBR LTMP data, which is more valuable than GCRMN, because of its longer time frame and more consistent methodology. Normalised coral cover for the Great Barrier Reef remained little changed around 1998, staying near 0.20 for a few years either side. AIMS stated in reference to the 1998 bleaching ‘most reefs recovered fully'. So not a global bleaching. For reference the 2022 figure for coverage on GBR is 0.34. That's quite a rise. Looking at their graph it's shot up since 2011 (despite four 'bleaching' events). In fact the last 3 years are record cover.
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  23. @Mike-zx1kx  A more balanced review of the data cannot support the assertion that there has been a major global loss of coral in the recent past, and nor can this loss be projected into the future. Any claims made prior to 2000 need to be treated with caution due to the huge margins of uncertainty in the data. There is also a refusal to focus on any positive points to maintain a sense of balance. For example, although GCRMN claimed a 14% coral loss between 2008 and 2019, it failed to mention that there was an apparent increase of a similar amount between 2000 and 2008. This seems disingenuous. Taking a look at regional data, the different areas show no relationship to each other or to a changing climate, or to the the concentration of CO2 in the atmosphere. Returning to whole world data still does not validate the idea that there has been a major drop in coral cover. There may have been a diminution of 7% from 2000–19, but this must be treated with some caution because the stated error margin is of similar size to the difference. Also one should consider natural variability at around 10% – higher than the difference between 2000 and 2019. I just went back and had a look at some GCRMN data by region, looking for a signal for bleaching. I noticed East Asia (the most important region for coral at 30.1% of global coral) was unaffected. In fact, coverage increased. So not global bleaching. Then I looked at AIMS' GBR LTMP data, which is more valuable than GCRMN, because of its longer time frame and more consistent methodology. Normalised coral cover for the Great Barrier Reef remained little changed around 1998, staying near 0.20 for a few years either side. AIMS stated in reference to the 1998 bleaching ‘most reefs recovered fully'. So not a global bleaching. For reference the 2022 figure for coverage on GBR is 0.34. That's quite a rise. Looking at their graph it's shot up since 2011 (despite four 'bleaching' events). In fact the last 3 years are record cover.
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  24. @Mike-zx1kx  Does "a few" mean less than 40 to you? The AIMS Long-term Monitoring Programme (LTMP) data for the GBR (Great Barrier Reef) started in 1985. At the start of the data sequence for the whole GBR cover was 25% in 1986. It reached a low point in 2011 of 12%. In 2022, the LTMP found record high coral cover on the GBR of 34% coral cover on the seabed of the coral reefs monitored. Northern region reached a low point in 2016. However, it has since completely recovered, with coral cover now at double the 2016 level, and recording record cover. The Central region has experienced a greater degree of fluctuation, but is also now at record high coral cover. The Southern region is now at record equalling coral cover, three times higher than at its low point in 2011. Every region is at record-equalling high coral cover, once uncertainty estimates are taken into account. The reef always recovers strongly. And it's got nothing to do with CO2. Increases in bleaching events has not prevented rapid and record increases in coral cover. AIMS states "Percent hard coral cover is one standard measure of reef condition recorded by scientists worldwide, it provides a simple and robust measure of reef health" with that in mind, and it being such a robust measure, let's just say it loud and clear: hard coral cover is at record-equalling levels in all three sectors of the GBR. Crown of Thorns Starfish are also a non-problem. Northern: no starfish or no outbreak on all reefs. Central: no starfish or no outbreaks. Southern: out of 30 reefs, 27 had no starfish or no outbreaks. And once more, oh yes, there is record hard coral cover on the Great Barrier Reef. And that is a robust measure of reef health. What a robust reef!
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  25. @Mike-zx1kx  Who do you think you are? Vishnu? I'm not deflecting from the core issue. The core issue is that there is no objective data that we are in a global climate crisis. The video was about the Arctic, so I present data that shows summer ice extent has stopped decreasing and maximum temperatures have stopped increasing, and they are unrelated to CO2, so you deflect and start wittering on about coral reefs so i quote data that shows when it comes to coral, again its variation is unrelated to CO2. Like I say, there is no objective observational evidence that we are living in a global climate crisis. The UN's IPCC AR6 WG1, chapter 12 "Climate Change Information for Regional Impact and for Risk Assessment", page 1856, 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, Antarctic Sea Ice, Tropical Cyclones. The reality is of course people are living longer healthier wealthier lives, food production is at record levels, and the Earth is greening. This is the best time to be alive in human history.
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