Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela

Biometric characteristics of Orbulina universa (d'Orbigny) were used to differentiate two morphotypes present in sediment trap samples collected from the Cariaco Basin, Venezuela. Specifically, wall thickness and weight-area relationships were used to separate shells into thin (Mthin) and thick...

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Main Authors:	Marshall, BJ, Thunell, RC, Spero, HJ, Henehan, MJ, Lorenzoni, L, Astor, Y
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	eScholarship, University of California 2015
Subjects:	Planktonic foraminifera Orbulina universa Morphotypes Cryptic species Stable isotopes Geology Ecology Evolutionary Biology Paleontology
Online Access:	https://escholarship.org/uc/item/8mk730zt

id	ftcdlib:oai:escholarship.org/ark:/13030/qt8mk730zt
record_format	openpolar
spelling	ftcdlib:oai:escholarship.org/ark:/13030/qt8mk730zt 2023-05-15T18:01:05+02:00 Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela Marshall, BJ Thunell, RC Spero, HJ Henehan, MJ Lorenzoni, L Astor, Y 2015-10-01 application/pdf https://escholarship.org/uc/item/8mk730zt unknown eScholarship, University of California qt8mk730zt https://escholarship.org/uc/item/8mk730zt public Planktonic foraminifera Orbulina universa Morphotypes Cryptic species Stable isotopes Geology Ecology Evolutionary Biology Paleontology article 2015 ftcdlib 2021-06-28T17:07:28Z Biometric characteristics of Orbulina universa (d'Orbigny) were used to differentiate two morphotypes present in sediment trap samples collected from the Cariaco Basin, Venezuela. Specifically, wall thickness and weight-area relationships were used to separate shells into thin (Mthin) and thick (Mthick) morphotypes. Mthick (mean thickness=19-41μm) comprises 75% of the total O. universa in these samples and has morphometric characteristics similar to that of the previously described Type I Caribbean genotype, whereas Mthin (mean thickness=6-22μm) is comparable to the Type III Mediterranean genotype. The flux of Mthick increases during periods of upwelling, whereas Mthin flux shows no systematic relationship with changing hydrographic regimes in the basin. The δ18O and δ13C of Mthick are on average 0.34% higher and 0.38% lower, respectively, than those of Mthin, suggesting that they calcify their final spherical chamber at different depths in the water column and/or differ in their vital effects on shell geochemistry. Additionally, the absolute offset in the stable isotopic compositions of the two morphotypes varies as a function of surface ocean stratification. During periods of upwelling, the δ18O and δ13C absolute offsets between Mthin and Mthick are on average -0.15 and 0.25%, whereas average δ18O and δ13C absolute offsets between these two morphotypes increase to -0.54 and 0.41% during non-upwelling periods. We attribute the higher δ18O and δ13C offsets during non-upwelling periods to a difference in final chamber calcification depth and the combined effects of temperature (δ18O), δ13CDIC (δ13C), irradiance (δ13C) and [CO32-] (δ18O and δ13C). These data provide field evidence that thin and thick morphotypes of O. universa likely experience different environmental conditions during the formation of their final chamber and, therefore, should not be combined in geochemical analyses for reconstructing past surface ocean conditions. Finally, we introduce a new proxy for reconstructing past surface ocean stratification changes via the use of Mthin and Mthick δ18O and δ13C offsets. Article in Journal/Newspaper Planktonic foraminifera University of California: eScholarship
institution	Open Polar
collection	University of California: eScholarship
op_collection_id	ftcdlib
language	unknown
topic	Planktonic foraminifera Orbulina universa Morphotypes Cryptic species Stable isotopes Geology Ecology Evolutionary Biology Paleontology
spellingShingle	Planktonic foraminifera Orbulina universa Morphotypes Cryptic species Stable isotopes Geology Ecology Evolutionary Biology Paleontology Marshall, BJ Thunell, RC Spero, HJ Henehan, MJ Lorenzoni, L Astor, Y Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela
topic_facet	Planktonic foraminifera Orbulina universa Morphotypes Cryptic species Stable isotopes Geology Ecology Evolutionary Biology Paleontology
description	Biometric characteristics of Orbulina universa (d'Orbigny) were used to differentiate two morphotypes present in sediment trap samples collected from the Cariaco Basin, Venezuela. Specifically, wall thickness and weight-area relationships were used to separate shells into thin (Mthin) and thick (Mthick) morphotypes. Mthick (mean thickness=19-41μm) comprises 75% of the total O. universa in these samples and has morphometric characteristics similar to that of the previously described Type I Caribbean genotype, whereas Mthin (mean thickness=6-22μm) is comparable to the Type III Mediterranean genotype. The flux of Mthick increases during periods of upwelling, whereas Mthin flux shows no systematic relationship with changing hydrographic regimes in the basin. The δ18O and δ13C of Mthick are on average 0.34% higher and 0.38% lower, respectively, than those of Mthin, suggesting that they calcify their final spherical chamber at different depths in the water column and/or differ in their vital effects on shell geochemistry. Additionally, the absolute offset in the stable isotopic compositions of the two morphotypes varies as a function of surface ocean stratification. During periods of upwelling, the δ18O and δ13C absolute offsets between Mthin and Mthick are on average -0.15 and 0.25%, whereas average δ18O and δ13C absolute offsets between these two morphotypes increase to -0.54 and 0.41% during non-upwelling periods. We attribute the higher δ18O and δ13C offsets during non-upwelling periods to a difference in final chamber calcification depth and the combined effects of temperature (δ18O), δ13CDIC (δ13C), irradiance (δ13C) and [CO32-] (δ18O and δ13C). These data provide field evidence that thin and thick morphotypes of O. universa likely experience different environmental conditions during the formation of their final chamber and, therefore, should not be combined in geochemical analyses for reconstructing past surface ocean conditions. Finally, we introduce a new proxy for reconstructing past surface ocean stratification changes via the use of Mthin and Mthick δ18O and δ13C offsets.
format	Article in Journal/Newspaper
author	Marshall, BJ Thunell, RC Spero, HJ Henehan, MJ Lorenzoni, L Astor, Y
author_facet	Marshall, BJ Thunell, RC Spero, HJ Henehan, MJ Lorenzoni, L Astor, Y
author_sort	Marshall, BJ
title	Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela
title_short	Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela
title_full	Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela
title_fullStr	Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela
title_full_unstemmed	Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela
title_sort	morphometric and stable isotopic differentiation of orbulina universa morphotypes from the cariaco basin, venezuela
publisher	eScholarship, University of California
publishDate	2015
url	https://escholarship.org/uc/item/8mk730zt
genre	Planktonic foraminifera
genre_facet	Planktonic foraminifera
op_relation	qt8mk730zt https://escholarship.org/uc/item/8mk730zt
op_rights	public
_version_	1766170431449989120

Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela

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