Validation of carbon isotope fractionation in algal lipids as a &amp;lt;i&amp;gt;p&amp;lt;/i&amp;gt;CO&amp;lt;sub&amp;gt;2&amp;lt;/sub&amp;gt; proxy using a natural CO&amp;lt;sub&amp;gt;2&amp;lt;/sub&amp;gt; seep (Shikine Island, Japan)

Witkowski, Caitlyn; Agostini, Sylvain; Harvey, Ben P.; Meer, Marcel T. J. van der; Damsté, Jaap S. Sinninghe; Schouten, Stefan

doi:10.5194/bg-16-4451-2019

Cited by 14 publications

(10 citation statements)

References 56 publications

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“…2). Consistently, the most abundant among these compounds were loliolide, cholesterol, and phytol, as were also observed at the CO 2 seep site in Japan 50 .…”

Section: Resultssupporting

confidence: 72%

“…Several possibilities may explain why the full expression of Ɛ f has not been reached. For one, given the relatively small area of the bay, it is possible that surface sediment has moved around the bay over time due to tidal actions and bottom water currents, which dampens the overall signal by allochthonous organic matter transported from area's outside of the bay, as also inferred for Shikine Island 50 . Furthermore, algae are unlikely to grow and deposit in precisely same location and given that the impact of the CO 2 seep noticeably changes over tens of meters 43 , this likely leads to some mixed signal among sites, resulting in a suppressed signal.…”

mentioning

confidence: 99%

“…Studies have suggested an empirical average 170‰ kg µM −1 ± 43 kg µM −1 s.d. for b based on a compilation of δ 13 C values of bulk organic matter in marine surface sediments, as well as some limited phytol studies 39,50 . Furthermore, we use an average Ɛ f for phytoplankton species of 26.5‰ ± 1.5‰ uniform distribution 39 based on the 25 to 28‰ range observed in laboratory cultures 69 .…”

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confidence: 99%

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Testing algal-based pCO2 proxies at a modern CO2 seep (Vulcano, Italy)

Witkowski

Meer

Smit

et al. 2020

Sci Rep

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Understanding long-term trends in atmospheric concentrations of carbon dioxide (pco 2) has become increasingly relevant as modern concentrations surpass recent historic trends. one method for estimating past pco 2 , the stable carbon isotopic fractionation associated with photosynthesis (Ɛ p) has shown promise over the past several decades, in particular using species-specific biomarker lipids such as alkenones. Recently, the Ɛ p of more general biomarker lipids, organic compounds derived from a multitude of species, have been applied to generate longer-spanning, more ubiquitous records than those of alkenones but the sensitivity of this proxy to changes in pco 2 has not been constrained in modern settings. Here, we test Ɛ p using a variety of general biomarkers along a transect taken from a naturally occurring marine co 2 seep in Levante Bay of the Aeolian island of Vulcano in italy. the studied general biomarkers, loliolide, cholesterol, and phytol, all show increasing depletion in 13 c over the transect from the control site towards the seep, suggesting that co 2 exerts a strong control on isotopic fractionation in natural phytoplankton communities. the strongest shift in fractionation was seen in phytol, and pco 2 estimates derived from phytol confirm the utility of this biomarker as a proxy for pco 2 reconstruction. The concentration of atmospheric carbon dioxide (pCO 2 , expressed in partial pressure µatm), as directly measured from air trapped in ice cores, has had a major influence on climate over the past 800 thousand years (ka) 1. During this period, pCO 2 and temperature oscillated together between stable bounds every 100 ka 2. In the past two centuries, the rise of pCO 2 has broken those bounds from the pre-industrial values, previously only ranging between ca. 180 to 280 µatm, to the 410 µatm of today 3. This rapid rise in pCO 2 causes concern that climate, particularly temperature, will accordingly change. In order to better understand how changes may occur, reconstructing longer trends in pCO 2 over the geologic record could offer context for evaluating the direction and magnitude of climate change. Many proxies have been developed for reconstructing past pCO 2 and applied with mixed success over the past several decades 4. One method for studying past pCO 2 makes use of the stable carbon isotopic fractionation due to CO 2-fixation (Ɛ p), where biomass of photoautotrophs becomes increasingly depleted in 13 C as pCO 2 increases due to kinetic discrimination by the CO 2-fixing enzyme Rubisco 5-7. Ɛ p can be derived from the δ 13 C of photoautotrophic biomass, recorded in sedimentary organic matter, and the δ 13 C of inorganic CO 2 derived from the carbonate in the shells of planktonic foraminifera 8. Although pCO 2 has been shown to be one of the dominant physiological control on the δ 13 C of photoautotrophic biomass 9 , studies on Ɛ p in algae have shown that other factors may influence this value, primarily growth rate 10 and cell size and shape 11 , as well as minor influences such as light, and ...

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“…2). Consistently, the most abundant among these compounds were loliolide, cholesterol, and phytol, as were also observed at the CO 2 seep site in Japan 50 .…”

Section: Resultssupporting

confidence: 72%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Testing algal-based pCO2 proxies at a modern CO2 seep (Vulcano, Italy)

Witkowski

Meer

Smit

et al. 2020

Sci Rep

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“…5c). Early Miocene tropical trees appear to have a slightly higher total annual carbon flux (A tot Q 1 -Q 3 = 596-1220 g C m −2 yr −1 ) than today (A tot Q 1 -Q 3 = 329-721 g C m −2 yr −1 ), which, with a yearround growing season in the early Miocene (like today), is likely attributable to a leaf-level fertilization effect, similar to what is observed in modern carbon fertilization experiments (Norby et al, 2003;Bader et al, 2013;Yang et al, 2016). Although this estimate cannot take the number of leaves per unit area into account, these results suggest enhanced leaf-level productivity during higher than modern C a in the early Miocene.…”

Section: Elevated Co 2 and The Early Miocene Biospheresupporting

confidence: 56%

“…5b), a somewhat surprising result because G w is expected to be reduced in high C a climates (Franks and Beerling, 2009). Studies on modern forests also suggest the absence of a reduction of G w to enhanced C a (Yang et al, 2016;Gimeno et al, 2018) or even an increase in the G w (Frank et al, 2015). A longer growing season together with increasing VPD was proposed to explain increasing G w in modern European forests (Frank et al, 2015).…”

Section: Elevated Co 2 and The Early Miocene Biospherementioning

confidence: 99%

Elevated CO<sub>2</sub>, increased leaf-level productivity, and water-use efficiency during the early Miocene

et al. 2020

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Abstract. Rising atmospheric CO2 is expected to increase global temperatures, plant water-use efficiency, and carbon storage in the terrestrial biosphere. A CO2 fertilization effect on terrestrial vegetation is predicted to cause global greening as the potential ecospace for forests expands. However, leaf-level fertilization effects, such as increased productivity and water-use efficiency, have not been documented from fossil leaves in periods of heightened atmospheric CO2. Here, we use leaf gas-exchange modeling on a well-preserved fossil flora from early Miocene New Zealand, as well as two previously published tropical floras from the same time period, to reconstruct atmospheric CO2, leaf-level productivity, and intrinsic water-use efficiency. Leaf gas-exchange rates reconstructed from early Miocene fossils, which grew at southern temperate and tropical latitudes when global average temperatures were 5–6 ∘C higher than today, reveal that atmospheric CO2 was ∼450–550 ppm. Early Miocene CO2 was similar to projected values for 2040 CE and is consistent with an Earth system sensitivity of 3–7 ∘C to a doubling of CO2. The Southern Hemisphere temperate leaves had higher reconstructed productivity than modern analogs, likely due to a longer growing season. This higher productivity was presumably mirrored at northern temperate latitudes as well, where a greater availability of landmass would have led to increased carbon storage in forest biomass relative to today. Intrinsic water-use efficiency of both temperate and tropical forest trees was high, toward the upper limit of the range for modern trees, which likely expanded the habitable range in regions that could not support forests with high moisture demands under lower atmospheric CO2. Overall, early Miocene elevated atmospheric CO2 sustained globally higher temperatures, and our results provide the first empirical evidence of concomitant enhanced intrinsic water-use efficiency, indicating a forest fertilization effect.

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Stable carbon isotope ratios of pristine carbohydrates preserved within nannofossil calcite

McClelland,

Lee,

Pearson

et al. 2025

Geochimica et Cosmochimica Acta

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Validation of carbon isotope fractionation in algal lipids as a <i>p</i>CO<sub>2</sub> proxy using a natural CO<sub>2</sub> seep (Shikine Island, Japan)

Cited by 14 publications

References 56 publications

Testing algal-based pCO2 proxies at a modern CO2 seep (Vulcano, Italy)

Testing algal-based pCO2 proxies at a modern CO2 seep (Vulcano, Italy)

Elevated CO<sub>2</sub>, increased leaf-level productivity, and water-use efficiency during the early Miocene

Stable carbon isotope ratios of pristine carbohydrates preserved within nannofossil calcite

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Validation of carbon isotope fractionation in algal lipids as a &lt;i&gt;p&lt;/i&gt;CO&lt;sub&gt;2&lt;/sub&gt; proxy using a natural CO&lt;sub&gt;2&lt;/sub&gt; seep (Shikine Island, Japan)

Cited by 14 publications

References 56 publications

Testing algal-based pCO2 proxies at a modern CO2 seep (Vulcano, Italy)

Testing algal-based pCO2 proxies at a modern CO2 seep (Vulcano, Italy)

Elevated CO&lt;sub&gt;2&lt;/sub&gt;, increased leaf-level productivity, and water-use efficiency during the early Miocene

Stable carbon isotope ratios of pristine carbohydrates preserved within nannofossil calcite

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Validation of carbon isotope fractionation in algal lipids as a <i>p</i>CO<sub>2</sub> proxy using a natural CO<sub>2</sub> seep (Shikine Island, Japan)

Elevated CO<sub>2</sub>, increased leaf-level productivity, and water-use efficiency during the early Miocene