Another approach to explain "climate change" is to quite literaly look to the stars..
How much has the Sun influenced Northern Hemisphere temperature trends? An ongoing debateUpdated: Mar 13, 2022
Most of the energy in the Earth’s atmosphere comes from the Sun. It has long been recognized that changes in the so-called “total solar irradiance” (TSI), i.e., the amount of energy emitted by the Sun, over the last few centuries, could have contributed substantially to recent climate change. However, this new study found that the UN’s Intergovernmental Panel on Climate Change (IPCC) only considered a small subset of the published TSI datasets when they were assessing the role of the Sun in climate change and that this subset only included “low solar variability” datasets. As a result, the IPCC was premature in ruling out a substantial role for the Sun in recent climate change.
A new scientific review article has just been published on the role of the Sun in climate change over the last 150 years. It finds that the United Nations’ Intergovernmental Panel on Climate Change (IPCC) may have been premature in their conclusion that recent climate change is mostly caused by human greenhouse gas emissions.
The paper by 23 experts in the fields of solar physics and of climate science from 14 different countries is published in the peer-reviewed journal, Research in Astronomy and Astrophysics (RAA). The paper, which is the most comprehensive to date, carries out an analysis of the 16 most prominent published solar output datasets, including those used by the IPCC. The researchers compared them to 26 different estimates of Northern Hemisphere temperature trends since the 19th century (sorted into five categories), including the datasets used by the IPCC. They focused on the Northern Hemisphere since the available data for the early 20th century and earlier is much more limited for the Southern Hemisphere, but their results can be generalized for global temperatures.
Illustration of how simply by using different datasets, scientists can come to completely different conclusions on the so-called “climate change attribution problem”, i.e., what we should attribute the causes of recent climate change to.
The study found that scientists come to opposite conclusions about the causes of recent climate change depending on which datasets they consider. For instance, in the graphs above, the panels on the left lead to the conclusion that global temperature changes since the mid-19th century have been mostly due to human-caused emissions, especially carbon dioxide (CO2), i.e., the conclusion reached by the UN IPCC reports.
In contrast, the panels on the right lead to the exact opposite conclusion, i.e., that the global temperature changes since the mid-19th century have been mostly due to natural cycles, chiefly long-term changes in the energy emitted by the Sun.
Both sets of panels are based on published scientific data, but each uses different datasets and assumptions. On the left, it is assumed that the available temperature records are unaffected by the urban heat island problem, and so all stations are used, whether urban or rural. On the right, only rural stations are used. Meanwhile, on the left, solar output is modelled using the low variability dataset that has been chosen for the IPCC’s upcoming (in 2021/2022) 6th Assessment Reports. This implies zero contribution from natural factors to the long-term warming. On the right, solar output is modelled using a high variability dataset used by the team in charge of NASA’s ACRIM sun-monitoring satellites. This implies that most, if not all, of the long-term temperature changes are due to natural factors.
Dr. Ronan Connolly, lead author of the study, at the Center for Environmental Research and Earth Sciences (CERES):
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The IPCC is mandated to find a consensus on the causes of climate change. I understand the political usefulness of having a consensus view in that it makes things easier for politicians. However, science doesn’t work by consensus. In fact, science thrives best when scientists are allowed to disagree with each other and to investigate the various reasons for disagreement. I fear that by effectively only considering the datasets and studies that support their chosen narrative, the IPCC have seriously hampered scientific progress into genuinely understanding the causes of recent and future climate change. I am particularly disturbed by their inability to satisfactorily explain the rural temperature trends.”
The 68 page review (18 figures, 2 tables and 544 references) explicitly avoided the IPCC’s consensus-driven approach in that the authors agreed to emphasize where dissenting scientific opinions exist as well as where there is scientific agreement. Indeed, each of the co-authors has different scientific opinions on many of the issues discussed, but they agreed for this paper to fairly present the competing arguments among the scientific community for each of these issues, and let the reader make up their own mind. Several co-authors spoke of how this process of objectively reviewing the pros and cons of competing scientific arguments for the paper has given them fresh ideas for their own future research. The authors also spoke of how the IPCC reports would have more scientific validity if the IPCC started to adopt this non-consensus driven approach.https://www.ceres-science.com/post/how-much-has-the-sun-influenced-northern-hemisphere-temperature-trends-an-ongoing-debatehttps://iopscience.iop.org/article/10.1088/1674-4527/21/6/131