The controversy between the CO2 driving or lagging models is elucidated in a new climate model.
This model advocates that for the natural system orbitally induced insolation maxima (eccentricity in particular) momentarily drive climate that is otherwise driven by carbon drawdown through photosynthesis.
High concentrations of particulate organic carbon (fungal spore, pollen, vegetation debris, soot and charcoal) trigger a greenhouse effect in the cirrus that otherwise have an albedo effect at the onset of orbital insolation peaks.
This greenhouse effect gets mitigated due to its own warming that expands de LowerMost Stratosphere (LMS), thus resulting in lower concentrations of (organic) dust and thus representing a natural response system leading to the albedo effect when photosynthesis CO2 drawdown exceeds degasing of the oceans
Inversely photosynthesis during the albedo phase, results in the cooling of the earth and the shrinking of the LMS. This shrinking necessarily induces its interference with zones of high (organic) aerosols concentrations (induced by lower order glacials) and temporarily sets the system back to the greenhouse phase when degasing of the oceans exceeds CO2 drawdown by photosynthesis.
A side effect from this model explains the aberrant CO2 and temperature rise in the Anthropocene through increasing concentrations of anthropogenic (organic) dust (and the effect of contrails) that temper with this response system.
Time: 16:00 | Place: De Tribune | Drinks afterwards!