Abstract. Gerard C. Bond established a Holocene series of North Atlantic ice-rafted
debris events based on quartz and haematite-stained grains recovered from
subpolar North Atlantic marine cores. These so-called “Bond events”
document nine large-scale and multi-centennial North Atlantic cooling phases
that might be linked to a reduced thermohaline circulation. Regardless of the
high prominence of the Holocene North Atlantic ice-rafted debris record,
there are critical scientific comments on the study: the Holocene Bond curve
has not yet been replicated in other marine archives of the North Atlantic
and there exist only very few palaeoclimatic studies that indicate all
individual Bond events in their own record. Therefore, evidence of consistent
hydro-climatic teleconnections between the subpolar North Atlantic and
distant regions is not clear. In this context, the Western Mediterranean
region presents key hydro-climatic sites for the reconstruction of a
teleconnection with the subpolar North Atlantic. In particular, variability
in Western Mediterranean winter precipitation might be the result of
atmosphere–ocean coupled processes in the outer-tropical North Atlantic
realm. Based on an improved Holocene δ18O record from Lake Sidi Ali
(Middle Atlas, Morocco), we correlate Western Mediterranean precipitation
anomalies with North Atlantic Bond events to identify a probable
teleconnection between Western Mediterranean winter rains and subpolar North
Atlantic cooling phases. Our data show a noticeable similarity between
Western Mediterranean winter rain minima and Bond events during the Early
Holocene and an opposite pattern during the Late Holocene. There is evidence of an enduring hydro-climatic change in the overall Atlantic
atmosphere–ocean system and the response to external forcing during the
Middle Holocene. Regarding a potential climatic anomaly around 4.2 ka (Bond
event 3) in the Western Mediterranean, a centennial-scale winter rain
maximum is generally in-phase with the overall pattern of alternating “wet
and cool” and “dry and warm” intervals during the last 5000 years.