It was not her role, or the role of any individual presenter, to pose critical thinking questions. The critical thinking was the responsibility of the students after taking in the presentations.
You have a point there, but my point originally was more intended for this thread. There was nothing but her perspective--I'd hoped she would pose some questions. Regardless, if you want students to think critically, you really do have to at least suggest points of analysis for them to focus on. Not sure what level the students were at, hopefully Masters level, but one big problem with tossing out five different opinions/perspectives is that the audience would be more inclined to voice opinions than to analyze. The issue is quite complex and the science so far is largely theory, and at a point you have to either follow your biases or shrug your shoulders.
That's not the point AT ALL. She used this instance as an argument that those concerned about climate change are more likely to take part in that kind of poorly formed symposium. Her comments related to that were a wildly political cheap hack that suggests one should take the remainder of her comments with more than just a grain of salt.
So what, Congress and the president should do nothing? It seems to me either side could be wrong, the do something crowd, the do nothing crowd. Someone is right, but who? Okay, from a legislators POV...... What side of the argument should we err on (pro ACC, do something) (anti ACC, do nothing) , if err we must? Another question, IF we are headed for climate doom within the next 50 - 100 years, is it at all possible (even if seemingly improbable) that doing something could prevent it? See, from where I sit, as a non scientist, I don't know. So, as legislator, I have to place a bet. I approach it this way? On whose side do we place our legislative bet if we must err? The do nothing guys, or the do something guys? If we are headed for climate doom, and do nothing, doom is inevitable IF If we are headed for climate doom, and we do something, at least there is hope, even if the cost is great. If we are not headed for doom, and we do something, all we have lost is money. If we are headed for doom, and do nothing, when doing something might have given us hope, that will be a mighty bitter pill to take, when extinction is nigh. So, it seems to me, the prudent course to take is to side wtih the do something guys.
Nice, source, score one for you. How about: Physical science of climate change, effects Energetics of surface melt in West Antarctica Ghiz et al. The Cryosphere Open Access pdf 10.5194/tc Quantifying the Mechanisms of Atmospheric Circulation Response to Greenhouse Gas Increases in a Forcing–Feedback Framework Zhang et al. Journal of Climate 10.1175/jcli Observations of climate change, effects Increasing probability of record-shattering climate extremes Fischer et al. Nature Climate Change 10.1038/s41558 Decadal changes of heatwave aspects and heat index over Egypt Morsy & El Afandi Theoretical and Applied Climatology 10.1007/s00704 The role of North West Equatorial Indian Ocean in modulating the variability of southwest monsoon rainfall over Kerala in a climate change perspective Nair et al. Theoretical and Applied Climatology 10.1007/s00704 Anthropogenic forcing and response yield observed positive trend in Earth’s energy imbalance Raghuraman et al. Nature Communications Open Access pdf 10.1038/s41467 A Recent Increase in Long-Lived Heatwaves in China under the Joint Influence of South Asia and Western North Pacific Subtropical Highs LI et al. Journal of Climate 10.1175/jcli Accelerated Recent Warming and Temperature Variability over the Past Eight Centuries in the Central Asian Altai from Blue Intensity in Tree Rings Davi et al. Geophysical Research Letters Open Access pdf 10.1029/2021gl092933 Recent evidence for warmer and drier growing seasons in climate sensitive regions of Central America from multiple global data sets Stewart et al. International Journal of Climatology 10.1002/joc.7310 Rapid ecosystem-scale consequences of acute deoxygenation on a Caribbean coral reef Johnson et al. Nature Communications Open Access pdf 10.1038/s41467 Comparison of the distribution and phenology of Arctic Mountain plants between the early 20th and 21st centuries MacDougall et al. Global Change Biology 10.1111/gcb.15767 Appraising the historical and projected spatiotemporal changes in the heat index in Bangladesh Rahman et al. Theoretical and Applied Climatology Open Access 10.21203/rs.3.rs Lightning occurrences and intensity over the Indian region: long-term trends and future projections Chakraborty et al. Atmospheric Chemistry and Physics Open Access pdf 10.5194/acp Increasing annual streamflow and groundwater storage in response to climate warming in the Yangtze River source region Yi et al. Environmental Research Letters Open Access 10.1088/1748 Climate-driven phenological changes in the Russian Arctic derived from MODIS LAI time series 2000–2019 Shabanov et al. Environmental Research Letters Open Access 10.1088/1748 The recent emergence of Arctic Amplification England et al. Geophysical Research Letters Open Access 10.1002/essoar.10507036.1 Instrumentation & observational methods of climate change, effects NASA CERES Spurious Calibration Drifts Corrected by Lunar Scans to Show the Sun is not Increasing Global Warming and allow Immediate CRF detection Grant Geophysical Research Letters 10.1029/2021gl092994 The Polar Radiant Energy in the Far Infrared Experiment: A New Perspective on Polar Longwave Energy Exchanges L’Ecuyer et al. Bulletin of the American Meteorological Society Open Access pdf 10.1175/bams Anthropogenic forcing and response yield observed positive trend in Earth’s energy imbalance Raghuraman et al. Nature Communications Open Access pdf 10.1038/s41467 Advances in quantifying power plant CO2 emissions with OCO-2 Nassar et al. Remote Sensing of Environment Open Access 10.1016/j.rse.2021.112579 Modeling tree radial growth in a warming climate: where, when, and how much do potential evapotranspiration models matter? Dannenberg Environmental Research Letters Open Access 10.1088/1748 Using machine learning to analyze physical causes of climate change: A case study of U.S. Midwest extreme precipitation Davenport & Diffenbaugh Geophysical Research Letters Open Access pdf 10.1029/2021gl093787 Modeling, simulation & projection of climate change, effects Changes in precipitation variability across time scales in multiple global climate model large ensembles Wood et al. Environmental Research Letters Open Access 10.1088/1748 Hot spots of extreme precipitation change under 1.5 and 2?°C global warming scenarios Xu et al. Weather and Climate Extremes Open Access 10.1016/j.wace.2021.100357 The impact of sea-ice loss on Arctic climate feedbacks and their role for Arctic Amplification Jenkins & Dai Geophysical Research Letters 10.1029/2021gl094599 Antarctic Radiative and Temperature responses to a doubling of CO2 Freese & Cronin Geophysical Research Letters 10.1029/2021gl093676 Changes in extreme ocean wave heights under 1.5°C, 2°C, and 3°C global warming Patra et al. Weather and Climate Extremes Open Access 10.1016/j.wace.2021.100358 Circulation adjustment in the Arctic and Atlantic in response to Greenland and Antarctic mass loss Berk et al. Climate Dynamics Open Access pdf 10.1007/s00382 Coupled Climate Responses to Recent Australian Wildfire and COVID-19 Emissions Anomalies Estimated in CESM2 Fasullo et al. Geophysical Research Letters Open Access pdf 10.1029/2021gl093841 Dissecting anvil cloud response to sea surface warming Beydoun et al. Geophysical Research Letters 10.1029/2021gl094049 Appraising the historical and projected spatiotemporal changes in the heat index in Bangladesh Rahman et al. Theoretical and Applied Climatology Open Access 10.21203/rs.3.rs Lightning occurrences and intensity over the Indian region: long-term trends and future projections Chakraborty et al. Atmospheric Chemistry and Physics Open Access pdf 10.5194/acp FaIRv2.0.0: a generalized impulse response model for climate uncertainty and future scenario exploration Leach et al. Geoscientific Model Development Open Access pdf 10.5194/gmd Impact of Surface forcing on simulating Sea Surface Temperature in the Indian Ocean – A study using Regional Ocean Modeling System (ROMS) Tiwari et al. Dynamics of Atmospheres and Oceans 10.1016/j.dynatmoce.2021.101243 Advances in climate & climate effects modeling, simulation & projection Assessment of the capability of CMIP6 global climate models to simulate Arctic cyclones Song et al. Advances in Climate Change Research Open Access 10.1016/j.accre.2021.07.007 Bjerknes compensation in a coupled global box model Shi & Yang Yang Climate Dynamics Open Access pdf 10.1007/s00382 A shallow thermocline bias in the southern tropical Pacific in CMIP5/6 models linked to double-ITCZ bias Samuels et al. Geophysical Research Letters 10.1029/2021gl093818 Diverse responses of global-mean surface temperature to external forcings and internal climate variability in observations and CMIP6 models Rashid Geophysical Research Letters 10.1029/2021gl093194 Cryosphere & climate change The impact of sea-ice loss on Arctic climate feedbacks and their role for Arctic Amplification Jenkins & Dai Geophysical Research Letters 10.1029/2021gl094599 Onshore thermokarst primes subsea permafrost degradation Angelopoulos et al. Geophysical Research Letters 10.1029/2021gl093881 Warm and moist atmospheric flow caused a record minimum July sea ice extent of the Arctic in 2020 Liang et al. Open Access pdf 10.5194/tc Energetics of surface melt in West Antarctica Ghiz et al. The Cryosphere Open Access pdf 10.5194/tc Lateral thermokarst patterns in permafrost peat plateaus in northern Norway Martin et al. The Cryosphere Open Access pdf 10.5194/tc Changes in Supraglacial Lakes on George VI Ice Shelf, Antarctic Peninsula: 1973–2020 Barnes et al. Open Access pdf 10.5194/tc Sea level & climate change Quantifying climate-induced drought risk to livelihood and mitigation actions in Balochistan Ashraf et al. Natural Hazards Open Access pdf 10.1007/s11069 Paleoclimate A 350-year multiproxy record of climate-driven environmental shifts in the Amundsen Sea Polynya, Antarctica Kim et al. Global and Planetary Change 10.1016/j.gloplacha.2021.103589 The archaeology of climate change: The case for cultural diversity Burke et al. Proceedings of the National Academy of Sciences Open Access pdf 10.1073/pnas.2108537118 Reorganization of Atlantic waters at sub-polar latitudes linked to deep water overflow in both glacial and interglacial climate states Holmes et al. Open Access pdf 10.5194/cp Massive carbon storage in convergent margins initiated by subduction of limestone Chen et al. Nature Communications Open Access pdf 10.1038/s41467 Biology & climate change Comparison of the distribution and phenology of Arctic Mountain plants between the early 20th and 21st centuries MacDougall et al. Global Change Biology 10.1111/gcb.15767 Critical transitions and ecological resilience of large marine ecosystems in the Northwestern Pacific in response to global warming Ma et al. Global Change Biology 10.1111/gcb.15815 Effect of long-term intergenerational exposure to ocean acidification on ompa and ompb transcripts expression in European seabass (Dicentrarchus labrax) David et al. Marine Environmental Research 10.1016/j.marenvres.2021.105438 Projections of changes in ecosystem productivity under 1.5?°C and 2?°C global warming Tian et al. Global and Planetary Change 10.1016/j.gloplacha.2021.103588 Molecular underpinnings and biogeochemical consequences of enhanced diatom growth in a warming Southern Ocean Jabre et al. Proceedings of the National Academy of Sciences Open Access pdf 10.1073/pnas.2107238118 Elevated atmospheric CO2 adversely affects a dung beetle’s development: Another potential driver of decline in insect numbers? Tocco et al. Global Change Biology 10.1111/gcb.15804 There are many more, the above is truncated due to the 16000 character limit.
Do you personally control climate all over the world? Do you believe I myself control climate globally? What are your plans for this planet? Do something about false claims that things will end kind of soon?
Good list - research papers and unfortunately too many denialists are unable to tell the difference between a research paper and some anonymous blog post. The really hilarious thing is that it does not matter how whacky the theory or how kindergarten level the “evidence” as long as it supports their world view it is correct
Why would you ask a question you know the answer to? Ditto (above) I'm asking the question, what should be done, if anything should be done, and if it can be done? I'm not claiming any such thing, I'm asking "IF" questions, because that's all I can see is available to ask.
You have been at this climate thing now for a few years that I know of. What progress have you made? What are you doing about your problem?
Please state the specific metric you want to see. And, please show how you have fared with your posts on this site by that metric.
The root problem with climate change is it's complexity and scope and requires inquiring minds and technical study all of which average people cannot comprehend...this same root problem exists for all complex issues...IMO there is no way to alter our course...