Based on our previously performed calculations of the intensity of Earth’ irradiation at the top of the atmosphere with high spatial and temporal resolution, it has been confirmed that the sea level rise over at least the last 130,000 years (during the Eemian / Mikulino interglacial and the late Pleistocene – Holocene) is associated with warm phases of climate precession. Based on our calculations of summer/winter irradiation intensity extremes during climate precession phases in the Northern Hemisphere, the formation dates of dropstones (Heinrich layers ) have been refined. These dropstones are correlated with climate precession extremes and are recorded in ocean sediments during both interglacial and glacial periods. Sea level evolution and ocean sedimentation over the past 130,000 years are primarily determined by glacioeustatic fluctuations associated with temperature changes, which are primarily controlled by variations in the intensity of Northern Hemisphere irradiation within the climatic precession cycle. At the same time, the weak presence of a precessional cycle is noted in the benthic δ18 O stack of the orbitally tuned LR04 scheme/model, which currently forms the basis of geochronology and climatostratigraphy of Late Pleistocene and Holocene. The beginning of the next warm phase of climate precession is expected around 5,500 years AD. This phase will peak around 11.5 kyr AD, when the next significant sea level rise is expected.