{"id":444486,"date":"2026-05-15T12:16:39","date_gmt":"2026-05-15T19:16:39","guid":{"rendered":"https:\/\/climatescience.press\/?p=444486"},"modified":"2026-05-15T12:16:41","modified_gmt":"2026-05-15T19:16:41","slug":"cope-the-countervailing-obliquity-precession-effect","status":"publish","type":"post","link":"https:\/\/climatescience.press\/?p=444486","title":{"rendered":"COPE: The Countervailing Obliquity\u2013Precession Effect"},"content":{"rendered":"\n
\"\"<\/figure>\n\n\n\n

From Watts Up With That?<\/a><\/p>\n\n\n\n

Guest essay by Dr. John A. Parmentola<\/strong><\/p>\n\n\n\n

The standard discussion of orbital climate forcing usually focuses on small changes in globally averaged annual insolation. But this perspective may obscure an important physical effect arising from orbital geometry itself.<\/p>\n\n\n\n

The first key fact is that the Earth\u2019s globally averaged annual insolation changes very little over epochal timescales. This occurs because the semimajor axis of the Earth\u2019s orbit remains nearly constant \u2014 a conserved quantity of the two-body problem. The total annual solar energy entering the Earth system, therefore, remains approximately constant even as precession and obliquity evolve.<\/p>\n\n\n\n

The second key fact is that the Arctic zone exhibits a very strong seasonal asymmetry. When the orbital year is divided into two half-year energy channels, the Arctic-zone second-half-year insolation (roughly late summer-autumn\u2013winter) minus the first-half-year insolation (roughly late winter- spring\u2013summer) is persistently large and negative over epochal timescales.<\/p>\n\n\n\n

These two facts immediately imply an important physical consequence. If the Earth\u2019s globally averaged annual insolation remains nearly conserved while the Arctic zone develops a large negative seasonal asymmetry, then a compensating positive asymmetry must exist elsewhere in the climate system because the globally averaged annual insolation remains nearly conserved. That compensating asymmetry occurs primarily in the tropical zone \u2014 because that is where the heat is.<\/p>\n\n\n\n

This effect is what I call the Countervailing Obliquity\u2013Precession Effect (COPE). COPE describes asymmetric orbital half-year insolation and energy channels arising from the coupled effects of precession and obliquity. The tropical and Arctic zones respond very differently because they are fundamentally different material environments.<\/p>\n\n\n\n

In the Arctic zone, the climate response is dominated by melt-threshold suppression, snow accumulation, and seasonal refrigeration. In the tropical zone, the response is dominated by long-term energy accumulation over the oceans, evaporation, latent heat storage, and atmospheric moisture transport. Thus, COPE produces countervailing thermodynamic tendencies: \u2013 Arctic cooling and melt suppression, \u2013 coupled to tropical energy accumulation and latent heat production.<\/p>\n\n\n\n

The effect also appears measurable in the current climate system. Using CERES satellite observations analyzed within the same orbital half-year framework, the tropical-zone asymmetry appears measurable in the present climate system. The analysis suggests that, on average annually, approximately 1 W\/m\u00b2 of the asymmetric forcing survived reflection and outgoing longwave radiation and entered the tropical-zone climate system over roughly the past two decades. This retained energy must then be partitioned among ocean heat storage, evaporation, atmospheric transport, clouds, and high-latitude processes.<\/p>\n\n\n\n

COPE therefore potentially connects: \u2013 orbital geometry, \u2013 hydrological transport, \u2013 latent heat export, \u2013 Arctic cooling, \u2013 sea-level evolution, \u2013 and glacial\u2013interglacial climate transitions through a persistent orbital-geometric asymmetry that appears measurable today.<\/p>\n\n\n\n

The broader implication is that orbital forcing may influence climate far more through structured seasonal and latitudinal energy distribution than through comparatively small changes in globally averaged annual insolation alone.<\/p>\n\n\n\n

Two sets of figures illustrate the effect clearly:<\/p>\n\n\n

\n
\"\"<\/figure>\n<\/div>\n\n\n

The above graph shows the two asymmetrical half-year energy accumulation channels, EH1<\/sub> and EH2<\/sub>, at the top of the atmosphere (TOA) in the tropical zone (TZ), measured relative to a minimum that occurred about 4,600 years ago. Over most of the current epoch, the second-half channel, EH2<\/sub>, exceeds the first, EH1<\/sub>, producing the observed asymmetry until 1,000 years from now, when it will be zero and then shift to EH1<\/sub> dominance. The energy deposition per 100 years associated with EH1<\/sub> will linearly double at the TOA in the TZ over 3,000 years.<\/p>\n\n\n

\n
\"\"<\/figure>\n<\/div>\n\n\n

The graph above shows the two Arctic-zone (AZ) asymmetric insolation melt suppression channels, C1 and C2. The melt-suppression effect is best characterized by changes in C1 and C2 going forward, indicating a continued decline in C1 (summer-season) insolation and a slight increase in C2 (winter-season) insolation. C1 will decrease by about 5 W\/m2<\/sup> in about 4,000 years.<\/p>\n\n\n\n

Tog<\/a>ether, these graphs reveal a coupled orbital-climate structure that may represent part of the missing thermodynamic linkage between orbital forcing and glacial\u2013interglacial evolution. In this way, COPE could help link orbital geometry to hydrological transport, latent heat export, and sea-level changes while supplementing traditional Milankovitch theoretical explanations.<\/p>\n\n\n\n

One unusual aspect of COPE is that it potentially connects orbital-climate phenomena across past, present, and future climate evolution through a persistent orbital-geometric asymmetry that is currently measurable.<\/p>\n\n\n\n

Further details of this effect and its potential consequences can be found here: https:\/\/doi.org\/10.5281\/zenodo.19825774<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

Standard Milankovitch discussions often emphasize small changes in globally averaged annual insolation. However, Earth’s semi-major orbital axis is nearly constant, so total annual solar energy input changes very little despite shifts in precession (axial wobble affecting the timing of seasons relative to perihelion\/aphelion) and obliquity (axial tilt, currently ~23.4\u00b0 and slowly decreasing). 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