bluewave

Even 50-year-old climate models correctly predicted global warming https://www.sciencemag.org/news/2019/12/even-50-year-old-climate-models-correctly-predicted-global-warming By Warren CornwallDec. 4, 2019 , 12:00 PM Climate change doubters have a favorite target: climate models. They claim that computer simulations conducted decades ago didn’t accurately predict current warming, so the public should be wary of the predictive power of newer models. Now, the most sweeping evaluation of these older models—some half a century old—shows most of them were indeed accurate. “How much warming we are having today is pretty much right on where models have predicted,” says the study’s lead author, Zeke Hausfather, a graduate student at the University of California, Berkeley. Climate scientists first began to use computers to predict future global temperatures in the early 1970s. That’s when newfound computing power coincided with a growing realization that rising carbon dioxide levels could boost global temperatures. As the issue gained public attention, critics questioned the reliability of rudimentary model predictions. Even a 1989 news article in Science radiated skepticism, stating that “climatologists may have a gut feeling that the greenhouse effect is heating up Today, the models are much more sophisticated. Mainframe computers driven by paper punch cards have given way to supercomputers running trillions of calculations in 1 second. Modern models account for myriad interactions, including ice and snow, changes in forest coverage, and cloud formation—things that early modelers could only dream of doing. But Hausfather and his colleagues still wanted to see how accurate those bygone models really were. The researchers compared annual average surface temperatures across the globe to the surface temperatures predicted in 17 forecasts. Those predictions were drawn from 14 separate computer models released between 1970 and 2001. In some cases, the studies and their computer codes were so old that the team had to extract data published in papers, using special software to gauge the exact numbers represented by points on a printed graph. Most of the models accurately predicted recent global surface temperatures, which have risen approximately 0.9°C since 1970. For 10 forecasts, there was no statistically significant difference between their output and historic observations, the team reports today in Geophysical Research Letters. Global temperatures have risen approximately 0.9°C since 1970, though some areas have warmed much more than others. BERKELEY EARTH Seven older models missed the mark by as much as 0.1°C per decade. But the accuracy of five of those forecasts improved enough to match observations when the scientists adjusted a key input to the models: how much climate-changing pollution humans have emitted over the years. That includes greenhouse gases and aerosols, tiny particles that reflect sunlight. Pollution levels hinge on a host of unpredictable factors. Emissions might rise or fall because of regulations, technological advances, or economic booms and busts. To take one example, Hausfather points to a famous 1988 model overseen by then–NASA scientist James Hansen. The model predicted that if climate pollution kept rising at an even pace, average global temperatures today would be approximately 0.3°C warmer than they actually are. That has helped make Hansen’s work a popular target for critics of climate science. Hausfather found that most of this overshoot was caused not by a flaw in the model’s basic physics, however. Instead, it arose because pollution levels changed in ways Hansen didn’t predict. For example, the model overestimated the amount of methane—a potent greenhouse gas—that would go into the atmosphere in future years. It also didn’t foresee a precipitous drop in planet-warming refrigerants like some Freon compounds after international regulations from the Montreal Protocol became effective in 1989. When Hausfather’s team set pollution inputs in Hansen’s model to correspond to actual historical levels, its projected temperature increases lined up with observed temperatures. The new findings echo what many in the climate science world already know, says Piers Forster, an expert in climate modeling at the United Kingdom’s University of Leeds. Still, he says, “It’s nice to see it confirmed.” Forster notes that even today’s computer programs have some uncertainties. But, “We know enough to trust our climate models” and their message that urgent action is needed, he says. The new research is a useful exercise that “should provide some confidence that models can be used to help provide guidance regarding energy policies,” adds Hansen, now director of the Climate Science, Awareness and Solutions Program at Columbia University. He communicated with Science from Madrid, where world leaders are gathering this week for the 25th annual United Nations climate conference. Delegates from around the world are negotiating how to implement emissions cuts agreed to at the 2016 meeting in Paris. Meanwhile, a U.N. report issued last month showed greenhouse gas emissions have continued to climb since then, and that many of the biggest polluting countries aren’t on track to meet their promises.

This was the 6th earliest 46° on record at JFK. We haven’t seen a 46° this early since the 1970s. First/Last Summary for JFK INTERNATIONAL AIRPORT, NY Each section contains date and year of occurrence, value on that date. Click column heading to sort ascending, click again to sort descending. Year Last Value First Value Difference 1965 05-08 (1965) 45 08-31 (1965) 46 114 1967 06-01 (1967) 45 09-12 (1967) 46 102 1975 05-03 (1975) 46 09-15 (1975) 45 134 1961 05-28 (1961) 44 09-18 (1961) 46 112 1979 04-22 (1979) 45 09-20 (1979) 41 150 1962 05-13 (1962) 42 09-21 (1962) 42 130 1973 05-19 (1973) 44 09-21 (1973) 46 124

These days we need some type of record 500 MB blocking ridge to get cold. Looks like the ridge will build again to close out the month. Probably our best chance for rain in a while as the trough really digs into the GL.

Unusually cold readings for September which has seen the greatest monthly warming here in 30 years.

First 47° low in September at JFK since 1997. This is also the first September freeze at Sussex, NJ since the records began in 2001 on xmacis2. Kennedy Intl PTCLDY 47 39 74 NE6 Sussex CLEAR 31 29 92 CALM 30.58R Time Series Summary for JFK INTERNATIONAL AIRPORT, NY - Month of Sep Click column heading to sort ascending, click again to sort descending. Year Lowest Min Temperature Missing Count 2020 47 10 2019 49 0 2018 54 0 2017 54 0 2016 51 0 2015 56 0 2014 51 0 2013 48 0 2012 52 0 2011 50 0 2010 53 0 2009 50 0 2008 52 0 2007 50 0 2006 49 0 2005 50 0 2004 51 0 2003 52 0 2002 54 0 2001 50 0 2000 44 0 1999 51 0 1998 46 0 1997 47 0 Time Series Summary for SUSSEX AIRPORT, NJ - Month of Sep Click column heading to sort ascending, click again to sort descending. Year Lowest Min Temperature Missing Count 2020 31 10 2019 36 0 2018 44 0 2017 38 0 2016 36 8 2015 42 0 2014 39 0 2013 33 0 2012 37 1 2011 39 0 2010 38 0 2009 37 0 2008 37 0 2007 36 0 2006 34 0 2005 36 0 2004 40 0 2003 39 0 2002 38 0 2001 37 0

It will be fun to see what the convergence of the rapid software improvements and miniaturization look like. Smartphones have taken the lead on computational photography. While DSLR and mirrorless still appeal to many who like the larger sensor size and lens selections. Maybe the smartphone and mirrorless tech will merge in the coming decade or two. The gap is already narrowing.

Excellent points from Rclab and Liberty Bell. I remember the old days of photography when I would do all my own black and white darkroom printing after taking the photos. Switching over to digital allowed me to do more extensive color post processing. Smartphones really opened up the world of photography to many more people. There are some great photographers now who do much of their work on a iPhone or Android. But a dedicated bunch are still working on DSLR and mirrorless cameras. The old saying is the best camera is the one that you have with you.

The relationship that I have been looking at is the October MJO before a La Niña or Niña-like winter. October forcing over the Indian Ocean like last year was followed by less snowfall in NYC. The La Niña winters since 2000 with forcing near the Maritime Continent had better snowfall outcomes for NYC. October composite for a NYC 27.6”to 61.9”seasonal snowfall October composite before a NYC 4.8”to 20.5”snowfall season

We would need to see all that IO forcing shift east toward the Maritime Continent in October. The big amped up MJO 5 in October 2017 came before the snowy La Niña 17-18 winter. The strong IO MJO 1 in October 2011 preceded the 11-12 La Niña winter. There is some research that early IO forcing can excite the PV like we saw last winter.

We’ll see if we can get some early hints from the MJO in October. The 18-19 and 19-20 below normal snowfall La Niña background state winters featured the October MJO convection focused in the Indian Ocean. Our snowier 16-17 and 17-18 La Niña winters had the October MJO in the Maritime Continent phases.

Yeah, it does look like that big Western Ridge builds again to close out the month. So a deep trough in the Great Lakes would probably mean a wetter pattern for us. Any remnant tropical moisture from BETA would enhance our rainfall prospects.

The Euro and GFS have us getting back to the 80s by later in the week. But it looks like we will come up short on reaching 90°. So this could be the first fall since 2011 without any 90° degree days at Newark. The last fall at LGA without any 90s was 2012. Time Series Summary for NEWARK LIBERTY INTL AP, NJ - Sep through Nov Click column heading to sort ascending, click again to sort descending. Year Number of Days Max Temperature >= 90 Missing Count 2020 0 72 2019 4 0 2018 4 0 2017 3 0 2016 5 0 2015 5 0 2014 3 0 2013 1 0 2012 2 0 2011 0 0 2010 6 0 Time Series Summary for LAGUARDIA AIRPORT, NY - Sep through Nov Click column heading to sort ascending, click again to sort descending. Year Number of Days Max Temperature >= 90 Missing Count 2020 0 72 2019 3 0 2018 4 0 2017 1 0 2016 3 0 2015 3 0 2014 2 0 2013 1 0 2012 0 0 2011 0 0 2010 4 0

Looks like the first 26° September dew point at Newark since the late 90s. Newark/Liberty MOSUNNY 64 26 23 N12 https://mesonet.agron.iastate.edu/plotting/auto/?_wait=no&q=159&network=NJ_ASOS&zstation=EWR&var=dwpf&dir=below&thres=27&month=sep&year=2020&dpi=100&_fmt=png

The low of 50° in NYC was the coldest September temperature since 2013. Early Sunday could be a degree or two cooler. Time Series Summary for NY CITY CENTRAL PARK, NY - Month of Sep Click column heading to sort ascending, click again to sort descending. Year Lowest Min Temperature Missing Count 2020 50 11 2019 52 0 2018 54 0 2017 54 0 2016 54 0 2015 56 0 2014 52 0 2013 47 0

That was the great episode that the starfish clip posted above was from. https://www.pbs.org/wnet/nature/the-serengeti-rules-41dfru/20105/

Yeah, they believe that it’s related to the record marine heatwave. https://advances.sciencemag.org/content/5/1/

It would be great if they could find a way to install one of these near an open section of Central Park. https://www.newswise.com/articles/nys-mesonet-con-edison-partner-to-launch-nyc-micronet-weather-observation-network Newswise — ALBANY, N.Y. (Sept. 9, 2020) – A new cluster of weather-monitoring stations will offer New York City’s energy provider real-time data to keep service reliable and resilient for its customers. Con Edison, the energy company that serves New York City and Westchester County, is working with the University at Albany’s New York State Mesonet on the “New York City Micronet,” a new network of 17 weather-monitoring stations that will be located at company properties in the City’s five boroughs. The NYC Micronet, also supported by UAlbany’s Center of Excellence in Weather and Climate Analytics, will help Con Edison monitor high-impact weather events and track long-term climatic changes. Con Edison is investing $3 million in the network. That includes a $1.6 million contract with the University. Installation started this month. The network is expected to be completed by the end of October. “This partnership with Con Edison is the latest example of NYS Mesonet providing a service to make our state more resilient to increases in weather extremes and to better inform weather risk-management decisions,” said Chris Thorncroft, director of UAlbany’s Atmospheric Sciences Research Center, the NYS Mesonet and Center of Excellence. “UAlbany has direct access to the largest concentration of atmospheric, climate and environmental researchers in New York. We are continuing to create smart business solutions to empower industry partners statewide.” “Climate change makes smart infrastructure planning and design essential,” said Charles Viemeister, Con Edison’s project manager. “We’ll use data from the Micronet to gain additional insight into the local short-term and longer-term impacts of climate change. We are always looking for technologies that can help us maintain the resilient, reliable service our customers need.” The NYS Mesonet is the most advanced and largest early warning weather detection network in the nation. Its standard 126 weather stations, located across the state and in every county, offer real-time data on a number of weather variables including temperature, humidity, wind speed and direction, pressure, precipitation, snow depth and soil moisture. Each station is also equipped with a camera for real-time photos. UAlbany’s Center of Excellence in Weather & Climate Analytics is New York’s entrepreneurial hub for a network of more than 120 weather and climate faculty, researchers and research staff. Together, these experts are deeply engaged in advancing innovative weather and climate research applications for a variety of industries including utilities, agriculture, renewable energy, emergency management, transportation and Unmanned Aerial Systems. During the COVID-19 crisis, they have supported all New York utilities by providing a sophisticated weather dashboard to enhance situational awareness. The NYC Micronet is a customized version of NYS Mesonet’s standard network and will undergo the same regular maintenance, data quality control, sensor calibrations, and visualization, performed daily at UAlbany’s Mesonet Operations Center and by technicians in the field. This project adds to an already established relationship between UAlbany and Con Edison. In 2019, the two partners, along with MESO, Inc. created the Wind Extremes Forecast System (WEFS). It uses a combination of regional NYS Mesonet data and machine learning techniques to produce forecasts of threshold wind speeds and gusts that could lead to power outages at county and sub-county levels in New York State. “The goal, with both the Micronet and WEFS, is to provide NYC’s primary utility provider with valuable environmental data that can help improve resiliency for its services and mobilize resources more efficiently when severe weather strikes,” said Jerry Brotzge, NYS Mesonet program manager. “Our weather stations are quietly driving decision-making in a variety of sectors.” NYS Mesonet data and visualizations are available for viewing at www.nysmesonet.org https://qns.com/2020/09/con-edison-to-install-eight-weather-stations-in-queens-to-better-track-climate-trends/ In order to better understand climate trends and protect its power systems, Con Edison has partnered with the State University of New York at Albany and invested $3 million to install eight weather stations across Queens and nine more across New York, the power company announced this week. The New York City Micronet project will see weather stations installed in Flushing, Long Island City, Astoria, Howard Beach, South Ozone Park and Maspeth. The data from the stations will help Con Edison guide its investments towards protecting its energy-delivery systems from severe weather events, according to the company. A record number of Con Edison customers in the New York City area lost power during Tropical Storm Isaias in early August, including 73,000 customers in Queens. However, the installation of the weather stations is unrelated to the damage caused by Isaias, according Con Edison. The power stations were in progress prior to Isaias and are instead a response to all of the severe weather New York City has experienced in the past decade, a representative for the company said. “Climate change makes smart infrastructure planning and design essential,” said Charles Viemeister, Con Edison’s project manager. “We’ll use data from the Micronet to gain additional insight into the local short-term and longer-term impacts of climate change. We are always looking for technologies that can help us maintain the resilient, reliable service our customers need.” The weather stations will monitor temperature, air pressure, wind speeds and direction, precipitation and other weather variables. Six of the stations will be installed on the roofs of Con Edison buildings and the other 11 will be installed at ground level on Con Edison property. The data collected by the weather stations will be sent to the university, which will in turn give the data to Con Edison and be made available to the public, the company said. Con Edison expects the weather stations to be installed and fully operational by the end of 2020. In addition to the weather stations, Con Edison has begun to make upgrades to its energy delivering system in Westchester County, which was heavily affected by Tropical Storm Isaias. The power company also recently commissioned a weather study, which suggested the company make an investment between $1.8 billion and $5.2 billion by 2050 on targeted programs to protect its systems against severe weather events.

Saturday could be the earliest 50° of the season in NYC since 2013. New York City... Central Park, NY Mocldy Mocldy Sunny Sunny Sunny Sunny Sunny /78 61/67 50/66 50/66 51/67 52/70 54/76 /10 30/30 10/00 00/00 00/00 00/10 10/10 First/Last Summary for NY CITY CENTRAL PARK, NY Each section contains date and year of occurrence, value on that date. Click column heading to sort ascending, click again to sort descending. Year Last Value First Value Difference Minimum 05-14 (2017) 09-17 (2013) 113 Mean 05-20 10-03 135 Maximum 06-02 (2015) 10-13 (2018) 146 2019 05-15 (2019) 44 10-04 (2019) 50 141 2018 05-19 (2018) 49 10-13 (2018) 46 146 2017 05-14 (2017) 46 10-01 (2017) 50 139 2016 05-16 (2016) 43 10-10 (2016) 47 146 2015 06-02 (2015) 50 10-02 (2015) 48 121 2014 05-19 (2014) 49 10-05 (2014) 46 138 2013 05-26 (2013) 48 09-17 (2013) 50 113

Changes to nature that seem small can have very big consequences.

https://wcd.copernicus.org/preprints/wcd-2020-40/ https://wcd.copernicus.org/preprints/wcd-2020-40/wcd-2020-40.pdf Global warming makes weather in boreal summer more persistent Dim Coumou1,2† and Paolo De Luca1† 1Department of Water and Climate Risk, Institute for Environmental Studies (IVM), Vrije Universiteit Amsterdam, Amsterdam, 1081 HV, the Netherlands 5 2Royal Netherlands Meteorological Institute (KNMI), De Bilt, 3730 AE, the Netherlands †These authors contributed equally to the work Correspondence to: Dim Coumou ([email protected]) Abstract. Extreme summer weather often has devastating impacts on society when it lasts for many days. Stalling cyclones can lead to flooding and persistent hot-dry conditions can lead to health impacts and harvest losses. Global warming weakens the hemispheric-wide circulation in boreal summer, which has been shown in both observations and models using multiple circulation metrics. Until now, it is still largely unclear what this weakening implies for regional weather conditions, including their persistence. Using an advanced persistence metric, we show that summer weather has become more-persistent over 1979-2019. State-of-the-art climate models reproduce this upward trend in persistence indicating that it can be attributed to greenhouse gas forcing. Our persistence metric accounts for the full state of the atmosphere at any given moment and is strongly rooted in dynamical systems theory. Thereby it is able to detect dynamical changes previously unseen in more widely used clustering analyses that sharply reduce the amount of information used. We show that under future high-emission scenarios, summer weather will become increasingly more-persistent due to a weakening of the circulation. Most of this increase in persistence, and the associated societal risks, is avoided under an emission scenario compatible with the Paris agreement.

Looks like ISP made it down to 50°. Getting closer to the average first 40s date of the season since 2010. First/Last Summary for ISLIP-LI MACARTHUR AP, NY Each section contains date and year of occurrence, value on that date. Click column heading to sort ascending, click again to sort descending. Year Last Value First Value Difference Minimum 05-13 (2011) 09-02 (2017) 85 Mean 05-29 09-20 113 Maximum 06-12 (2018) 10-12 (2018) 131 2019 06-04 (2019) 46 09-19 (2019) 46 106 2018 06-12 (2018) 48 10-12 (2018) 49 121 2017 06-08 (2017) 47 09-02 (2017) 49 85 2016 05-23 (2016) 49 09-25 (2016) 48 124 2015 05-23 (2015) 48 10-02 (2015) 49 131 2014 06-01 (2014) 49 09-23 (2014) 45 113 2013 05-28 (2013) 48 09-09 (2013) 49 103 2012 06-06 (2012) 49 09-17 (2012) 49 102 2011 05-13 (2011) 47 09-19 (2011) 49 128 2010 05-20 (2010) 49 09-16 (2010) 47 118

The NYC 4th longest 70° degree streak finallly ended. Number of Consecutive Days Max Temperature >= 70 for NY CITY CENTRAL PARK, NY Click column heading to sort ascending, click again to sort descending. Rank Run Length Ending Date 1 118 2015-09-30 2 117 1995-09-22 - 117 1994-09-21 3 115 1925-09-21 4 113 2020-09-14 - 113 2008-09-18 5 111 2016-09-27 - 111 1966-09-19

New lowest extent record for the Central Arctic.

Earliest first 40s of the season at HPN since 2014. First/Last Summary for WESTCHESTER CO AP, NY Each section contains date and year of occurrence, value on that date. Click column heading to sort ascending, click again to sort descending. Year Last Value First Value Difference Minimum 05-13 (2011) 09-09 (2013) 97 Mean 05-30 09-20 113 Maximum 06-12 (2018) 10-12 (2018) 126 2019 06-04 (2019) 47 09-19 (2019) 43 106 2018 06-12 (2018) 49 10-12 (2018) 47 121 2017 06-09 (2017) 47 09-29 (2017) 47 111 2016 05-21 (2016) 48 09-25 (2016) 44 126 2015 06-02 (2015) 48 09-27 (2015) 47 116 2014 06-01 (2014) 48 09-14 (2014) 48 104 2013 05-28 (2013) 49 09-09 (2013) 49 103 2012 06-05 (2012) 49 09-11 (2012) 46 97 2011 05-13 (2011) 48 09-16 (2011) 48 125 2010 05-20 (2010) 49 09-16 (2010) 47 118

Could be the first September under 70° in NYC since 2014. A +2 in September for NYC is 70°. So anything below that will do it. Time Series Summary for NY CITY CENTRAL PARK, NY - Month of Sep Click column heading to sort ascending, click again to sort descending. Year Mean Avg Temperature Missing Count 2020 72.8 16 2019 70.4 0 2018 70.7 0 2017 70.5 0 2016 71.8 0 2015 74.5 0 2014 69.7 0 2013 67.9 0 2012 68.8 0