TY - SER ID - numberger2009apai T1 - Abundance patterns and isotopic signals of morphotypes of Globigerinoides ruber AU - Numberger, Lea AU - Hemleben, Christoph AU - Hoffmann, Ramona AU - Mackensen, Andreas AU - Schulz, Hartmut AU - Wunderlich, Joern-Michael AU - Kucera, Michal PY - 2009/11/13/ T2 - Supplement to: Numberger, L et al. (2009): Habitats, abundance patterns and isotopic signals of morphotypes of the planktonic foraminifer Globigerinoides ruber (d'Orbigny) in the eastern Mediterranean Sea since the Marine Isotopic Stage 12. Marine Micropaleontology, 73(1-2), 90-104, https://doi.org/10.1016/j.marmicro.2009.07.004 PB - PANGAEA DO - 10.1594/PANGAEA.729188 UR - https://doi.org/10.1594/PANGAEA.729188 N2 - The chemical composition of shells of the planktonic foraminifer Globigerinoides ruber (white) is frequently used to determine past sea surface conditions. Recently, it has been shown that arbitrarily defined morphotypes within this species exhibit different chemical and isotopic signatures. Here, we investigate the occurrence through time and in space of morphological types of G. ruber (white) in late Quaternary and Holocene sediments of the central and the eastern Mediterranean Sea. In 115 samples representing two distinct time intervals (MIS 1-2 and MIS 9-12) at ODP Site 964 and the piston core GeoTü-SL96, we have defined three morphological types within this species and determined their relative abundances and stable isotopic composition. A quantitative analysis of morphological variation within G. ruber (white) in four samples revealed that the subjectively defined morphotypes occupy separate segments of a continuous and homogenous morphospace. We further show that the abundance of the morphotypes changes significantly between glacials and interglacials and that the three morphotypes of G. ruber show significant offsets in their stable isotopic composition. These offsets are consistent within glacial and interglacial stages but their sign is systematically reversed between the two Sites. Since the isotopic shifts among the three G. ruber morphotypes are systematic and often exceed 1per mil, their understanding is essential for the interpretation of all G. ruber-based proxy records for the paleoceanographic development of the Mediterranean during the late Quaternary. ER -