Effects of organic removal techniques prior to carbonate stable isotope analysis of lacustrine marls: A case study from palaeo‐lake Fucino (central Italy)

Mannella, Giorgio; Zanchetta, Giovanni; Regattieri, Eleonora; Perchiazzi, Natale; Drysdale, Russell N.; Giaccio, Biagio; Leng, Melanie J.; Wagner, Bernd

doi:10.1002/rcm.8623

Cited by 3 publications

(5 citation statements)

References 17 publications

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“…(2013) and Mannella et al . (2020). The isotopic ratios are reported in the well‐known δ‐notation ‰ (per mill).…”

Section: Methodsmentioning

confidence: 99%

“…Due to the high ratio between carbonate content and organic matter (total inorganic carbon/total organic carbon, i.e. TIC/TOC: 0.96 ± 0.61), no pretreatment was performed to remove sedimentary organic matter, following the general results of Wierzbowski (2007), Oehlerich et al (2013) and Mannella et al (2020). The isotopic ratios are reported in the well-known δ-notation ‰ (per mill).…”

Section: Methodsmentioning

confidence: 99%

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Insight into summer drought in southern Italy: palaeohydrological evolution of Lake Pergusa (Sicily) in the last 6700 years

Zanchetta

Baneschi

Magny

et al. 2022

J Quaternary Science

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The Sicily region (central Mediterranean) is at high risk of drying and desertification caused by current warming and land management. The aim of this study is to place current climatic changes within the past trajectories and natural climatic variability of the Holocene. For this we re‐examine a sediment core retrieved at Lake Pergusa covering the last ca. 6700 years. A multiproxy investigation, and in particular the oxygen isotope composition of lacustrine carbonate (δ18Oc), allowed us to reconstruct decadal‐ to centennial‐scale hydrological changes. The wettest period occurred between ca. 6700 and 6000 cal a bp. The δ18Oc record indicates a new period of wetter conditions between ca. 3700 and 2400 cal a bp. In particular, a δ18Oc minimum between 2850 and 2450 cal a bp overlaps with the period of the ‘Great Solar Minimum’ and corresponds to a dramatic reduction of arboreal pollen (AP%) and to an increase in synanthropic pollen, marking the onset of Greek colonization in the region. The longest driest interval corresponds to the Medieval Climate Anomaly, whereas the highest δ18Oc values are recorded in the last 150 years. The trend of the last 3000 years suggests that, considering future climate projections, the area will experience unprecedented drying exacerbated by human impact.

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“…(2013) and Mannella et al . (2020). The isotopic ratios are reported in the well‐known δ‐notation ‰ (per mill).…”

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Insight into summer drought in southern Italy: palaeohydrological evolution of Lake Pergusa (Sicily) in the last 6700 years

Zanchetta

Baneschi

Magny

et al. 2022

J Quaternary Science

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“…Bulk sediment samples were treated with Clorox to remove organic material (Mannella et al, 2020), and then sieved through a 125-µm mesh to remove shell material and isolate the fine endogenic fraction, which was then analysed using a ThermoFinnegan Delta Plus XP mass spectrometer connected to a GasBench. Results are reported in standard delta notation relative to VPDB with analytical precision of ±0.08‰ (1σ).…”

Section: Lake Sedimentsmentioning

confidence: 99%

Climate and atmospheric circulation during the Early and Mid‐Holocene inferred from lake‐carbonate oxygen‐isotope records from western Ireland

Holmes,

Tindall,

Jones

et al. 2023

J Quaternary Science

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The Early to Mid‐Holocene experienced marked climate change over the northern hemisphere mid‐latitudes in response to changing insolation and declining ice volume. Oxygen isotopes from lake sediments provide a valuable climate proxy, encoding information regarding temperature, hydroclimate and moisture source. We present oxygen‐isotope records from two lakes in western Ireland that are strongly influenced by the North Atlantic. Excellent replication between the records suggests they reflect regional, not local, influences. Carbonate oxygen‐isotope values peaked at the start of the Holocene, between 11.2 and 11.1 cal ka bp, and then decreased markedly until 6 cal ka bp at both sites. Palaeoecological evidence supports only modest change in temperature or hydroclimate during this interval and we therefore explain the decrease primarily by a reduction in the oxygen‐isotope composition of precipitation (δ18Oppt). We show a similar decrease in δ18O values in a forward model of carbonate isotopes between 12–11 and 6–5 cal ka bp. However, the inferred reduction in δ18Oppt between the Early and Mid‐Holocene in the model is mainly linked to a decrease in the δ18O of the ocean source water from ice sheet melting whereas the lake carbonate isotope records are more consistent with changes in the transport pathway of moisture associated with atmospheric circulation change as the dominant cause.

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“…Chemical cleaning of carbonate skeletons prior to chemical analysis and both improvement of the data quality and potential artefacts associated with this are widely discussed in the literature (Barker et al, 2003;Holcomb et al, 2015;Loxton et al, 2017), but a plausible pre-treatment method for the removal of organics still needs to be found (Inoue et al, 2004). Mannella et al (2020) showed that the suitability of chemical pre-treatments for organic matter removal from carbonate matrices should be evaluated on a case-by-case basis and, in case of relatively low organic content, should be avoided. In addition to CaCO 3 crystal lattice, shells of barnacles and bivalves usually contain up to 5 % of organic matter (Bourget, 1987;Wolowicz and Goulletquer, 1999;Marin and Luquet, 2004;Rueda and Smaal, 2004).…”

Section: Caco 3 Polymorph Type and Elemental Concentrationsmentioning

confidence: 99%

“…In the last few decades, increasing attention has been paid to the relationship between the composition of shells and external environmental factors. It has been repeatedly observed that the mineral type and accumulated trace element concentrations in CaCO 3 shells of marine invertebrates are integrated records of environmental conditions (Marchitto et al, 2000;Rodland et al, 2006). The elemental composition of the carbonate skeleton can provide records of seawater chemistry and has a significant potential for the fields of palaeoceanography and palaeoclimatology (Freitas et al, 2006;Gillikin et al, 2006;Khim et al, 2003;Ponnurangam et al, 2016;Vander Putten et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

The patterns of elemental concentration (Ca, Na, Sr, Mg, Mn, Ba, Cu, Pb, V, Y, U and Cd) in shells of invertebrates representing different CaCO<sub>3</sub> polymorphs: a case study from the brackish Gulf of Gdańsk (the Baltic Sea)

et al. 2021

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Abstract. The shells of calcitic arthropod Amphibalanus improvisus; aragonitic bivalves Cerastoderma glaucum, Limecola balthica, and Mya arenaria; and bimineralic bivalve Mytilus trossulus were collected in the brackish waters of the southern Baltic Sea in order to study patterns of bulk elemental concentration (Ca, Na, Sr, Mg, Ba, Mn, Cu, Pb, V, Y, U and Cd) in shells composed of different crystal lattices (calcite and aragonite). The factors controlling the elemental composition of shells are discussed in the context of crystal lattice properties, size classes of organisms and potential environmental differences between locations. Clams that precipitate fully aragonitic shells have a clear predominance of Sr over Mg in shells, contrary to predominant accumulation of Mg over Sr in calcitic shells of barnacles. However, the barnacle calcite shell contains higher Sr concentration than bivalve aragonite. The elemental variability between size-grouped shells is different for each studied species, and the elemental concentrations tend to be lower in the large size classes compared to the smaller size classes. Biological differences between and within species, such as growth rate, feeding strategy (including feeding rate and assimilation efficiency or composition) and contribution of organic material, seem to be important factors determining the elemental accumulation in shells. Because specimens used in this study were obtained from different sampling sites within the gulf, the impact of location-specific environmental factors, such as sediment type, cannot be excluded.

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Effects of organic removal techniques prior to carbonate stable isotope analysis of lacustrine marls: A case study from palaeo‐lake Fucino (central Italy)

Cited by 3 publications

References 17 publications

Insight into summer drought in southern Italy: palaeohydrological evolution of Lake Pergusa (Sicily) in the last 6700 years

Insight into summer drought in southern Italy: palaeohydrological evolution of Lake Pergusa (Sicily) in the last 6700 years

Climate and atmospheric circulation during the Early and Mid‐Holocene inferred from lake‐carbonate oxygen‐isotope records from western Ireland

The patterns of elemental concentration (Ca, Na, Sr, Mg, Mn, Ba, Cu, Pb, V, Y, U and Cd) in shells of invertebrates representing different CaCO<sub>3</sub> polymorphs: a case study from the brackish Gulf of Gdańsk (the Baltic Sea)

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Effects of organic removal techniques prior to carbonate stable isotope analysis of lacustrine marls: A case study from palaeo‐lake Fucino (central Italy)

Cited by 3 publications

References 17 publications

Insight into summer drought in southern Italy: palaeohydrological evolution of Lake Pergusa (Sicily) in the last 6700 years

Insight into summer drought in southern Italy: palaeohydrological evolution of Lake Pergusa (Sicily) in the last 6700 years

Climate and atmospheric circulation during the Early and Mid‐Holocene inferred from lake‐carbonate oxygen‐isotope records from western Ireland

The patterns of elemental concentration (Ca, Na, Sr, Mg, Mn, Ba, Cu, Pb, V, Y, U and Cd) in shells of invertebrates representing different CaCO&lt;sub&gt;3&lt;/sub&gt; polymorphs: a case study from the brackish Gulf of Gdańsk (the Baltic Sea)

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The patterns of elemental concentration (Ca, Na, Sr, Mg, Mn, Ba, Cu, Pb, V, Y, U and Cd) in shells of invertebrates representing different CaCO<sub>3</sub> polymorphs: a case study from the brackish Gulf of Gdańsk (the Baltic Sea)