Paleoproductivity and Stratification Across the Subarctic Pacific Over Glacial‐Interglacial Cycles

Costa, Kassandra M; McManus, Jerry F; Anderson, Robert F.

doi:10.1029/2018pa003363

Cited by 16 publications

(10 citation statements)

References 200 publications

(367 reference statements)

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“…However, the distinct peaks of CaCO 3 and Ba bio contents (Figures 3B,D) observed during interglacials correlated with minima in OC fluxes, indicating paleo-productivity decoupled from OC burial over the past 380 kyr. Under the impact of the formation and enhancement of NPIW in the glacial stages, whose penetration depth hindered the supply of upward macronutrients from deeper water to the euphotic zone (Kohfeld and Chase, 2011;Worne et al, 2019), the observed lower paleo-productivity was similar to other glacial-interglacial cyclic records in the North Pacific (Jaccard et al, 2005;Li et al, 2017;Costa et al, 2018a). Therefore, in the Northwest Pacific, paleo-productivity during glacial periods with the driver of less macronutrient supply from deeper waters (Li et al, 2017) was contrary to that in high nitrate and low chlorophyll (HNLC) areas such as the subantarctic zone, where Fe derived from dust input was the main driver (Martinez-Garcia et al, 2014;Thöle et al, 2019).…”

Section: Temporal Variations Of Organic Carbon Inputsupporting

confidence: 76%

Glacial-Interglacial Variations in Organic Carbon Burial in the Northwest Pacific Ocean Over the Last 380 kyr and its Environmental Implications

Zhang

et al. 2022

Front. Earth Sci.

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The carbon cycle on the Earth’s surface is linked to long-term variations in atmospheric CO2 as well as carbon sequestration in various pools. The burial of particulate organic carbon (OC) in marine sediments is also highly sensitive to the global climate over geological time scales, but with little known about OC burial and its regulations over glacial-interglacial cycles. Here, we present a long-term OC record over the past ∼380 kyr, from the Northwest Pacific Ocean, an ideal region for studying OC burial and its environmental implications on glacial-interglacial timescales. We observed a distinct cyclicity of higher OC burial in glacial periods, which was coupled with input from Asian dust and the Kuroshio Current but seemingly decoupled from biogenic element contents, implying a limited effect of marine productivity on OC burial. Moreover, the sedimentary record of OC was synchronous with oceanic redox conditions, especially the redox sensitive elements at the sediment-water interface, indicating a relatively reducing conditions that enhanced OC preservation during glacial periods. The overall glacial-interglacial OC burial regime in the Northwest Pacific Ocean was conceptually constructed. It showed a higher efficiency of OC burial during glacial periods and significant degradation during interglacial periods. The findings of this study highlighted the important contribution of environmental redox conditions on OC burial in the deep Northwest Pacific, demonstrating the sensitivity of the carbon cycle to global climate on an orbital scale.

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Section: Temporal Variations Of Organic Carbon Inputsupporting

confidence: 76%

Glacial-Interglacial Variations in Organic Carbon Burial in the Northwest Pacific Ocean Over the Last 380 kyr and its Environmental Implications

Zhang

et al. 2022

Front. Earth Sci.

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“…However, the driving mechanisms for changes in productivity over longer time scales are not yet entirely understood. For example, to what extent the productivity was influenced by the complex interplay of atmosphere and ocean and their respective circulation patterns dependent on, e.g., sea ice formation, light limitation, wind strength, nutrient supply, and stratification (Haug and Sigman, 2009;Jaccard et al, 2010;Sigman et al, 2010;Sigman et al, 2021); Kawahata et al, 2000;Matsumoto et al, 2002;Brunelle et al, 2007;Shigemitsu et al, 2007;Jaccard et al, 2010;Nishioka et al, 2011;Costa et al, 2018;Sigman et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

ENSO vs glacial-interglacial-induced changes in the Kuroshio-Oyashio transition zone during the Pleistocene

et al. 2023

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The subarctic front (SAF) in the pelagic North Pacific is the northernmost front of the Kuroshio-Oyashio transition zone separating the subpolar and subtropical gyres and is marked by a strong sea surface temperature gradient. A complex interplay of e.g. variations of currents, the wind system and other forcing mechanisms causes shifts of the SAF’s position on timescales from orbital to interannual. In this study, we present proxy data from the Emperor Seamount chain, which reveal a link between long-term ENSO (El Niño/Southern Oscillation) dynamics in the tropics and shifts of the SAF. Based on sediment core SO264-45-2 from Jimmu Seamount (46°33.792’N, 169°36.072’E) located close to the modern position of the SAF, we reconstruct changes in (sub)surface temperature ((sub)SSTMg/Ca) and δ18Osw-ivc (approximating salinities) via combined Mg/Ca and δ18O analyses of the shallow-dwelling foraminifera Globigerina bulloides and the near-thermocline-dwelling Neogloboquadrina pachyderma, biological productivity (XRF-based Ba/Ti ratios), and terrigenous input via dust (XRF-based Fe). From ~600 to ~280 ka BP we observe significantly higher SSTMg/Ca than after an abrupt change at 280 ka BP. We assume that during this time warmer water from the Kuroshio-Oyashio transition zone reached the core site, reflecting a shift of the SAF from a position at or even north of our study site prior to 280 ka BP to a position south of our study site after 280 ka BP. We propose that such a northward displacement of the SAF between 600-280 ka BP was induced by sustained La Niña-like conditions, which led to increased transport of tropical ocean heat into the Kuroshio-Oyashio transition zone via the Kuroshio Current. After ~280 ka BP, the change to more El Niño-like conditions led to less heat transfer via the Kuroshio Current with the SAF remaining south of the core location. In contrast, our productivity record shows a clear glacial-interglacial pattern that is common in the North Pacific. We assume that this pattern is connected to changes in nutrient supply or utilization, which are not primarily driven by changes of the Kuroshio and Oyashio Currents or the SAF.

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“…Proxy data suggest comparatively lower levels of primary productivity at high latitudes during glaciations. In contrast, the rates of upwelling and cooler temperatures at lower latitudes resulted in an increase in primary productivity (Costa et al, 2018;Foster & Sexton, 2014;Hernández-Almeida et al, 2019;Radi & De Vernal, 2008;E. Thomas et al, 1995).…”

Section: Introductionmentioning

confidence: 97%

“…Thomas et al, 1995). The primary productivity increased at high latitudes, and decreased at lower latitudes when global temperatures increased after the LGM (Costa et al, 2018).…”

Section: Introductionmentioning

confidence: 98%

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Population Biology of Fin Whales: Applying Demographic and Evolutionary Approaches to Studying Populations

Schleimer¹

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Acknowledgements 6'population' is used for all these concepts, so it is not amazing that confusion has arisen. This confusion is the more dangerous, since 'population' (in the meaning of local breeding population) plays an important part in the theory of (micro-) evolution.Jonckers (1973) 2005). Tulloch et al. (2019) aimed to quantify the effect of climate change on the recovery of baleen whale populations. Their ecosystem-modelling approach accounted for predatorprey interactions, projected changed in sea surface temperature, changing prey availability, changing distribution of whales, shifts in migration patterns, and inter-specific competition. Baleen whale populations in the Southern Hemisphere were predicted to decline in response to reduced prey availability from increased sea surface temperature and increasing interspecific competition (Tulloch et al., 2019). The study serves as an example of the complex dynamics between predator and prey populations and their physical environment. Statistical models may not succeed in the exact representation of natural systems, but they can offer useful approximations of the real world or in the words of George Box ( 1979) "all models are wrong but some are useful". Conservation biologyConservation biology integrates conservation policy with theories developed in population ecology and evolutionary biology to mitigate anthropogenic impacts on biological diversity and to prevent the extinction of species (Soulé, 1985). Populations are the primary target of management and policy directives that aim to provide effective protection to small or declining populations (Shaffer, 1981). In this context, the terms 'management unit' or 'stock' are frequently used to refer to "geographical areas with restricted interchange of the individuals of interest with adjacent areas" (Taylor & Dizon, 1999). How this definition translates to delineating management units in natural populations is a matter of debate (Palsbøll et al., 2007;Taylor & Dizon, 1999). While population genetics provide a means of quantifying population differentiation, the decision on the threshold level of interchange, in this case gene flow, mainly depends on the demographic context and management objectives (Palsbøll et al., 2007;Taylor & Dizon, 1999). A statistical test on whether the null hypothesis of panmixia can be rejected at an arbitrary level is rarely sufficient to delineate meaningful management units (Palsbøll et al., 2007;Taylor & Dizon, 1999). Weakly structured populations or those following a stepping-stone model pose a particular challenge as to where to draw the line (Spies et al., 2015).Once a management unit has been defined, population viability analysis (PVA) can be employed to estimate the likelihood of reaching a threshold level, e.g. extinction, under current or managed conditions (Boyce, 1992). PVAs are generally quantitative model-based assessments of extinction/persistence that can incorporate elements of spatially-explicit and/or individual-based models, sensitivity analysis, or genetic ef...

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Paleoproductivity and Stratification Across the Subarctic Pacific Over Glacial‐Interglacial Cycles

Cited by 16 publications

References 200 publications

Glacial-Interglacial Variations in Organic Carbon Burial in the Northwest Pacific Ocean Over the Last 380 kyr and its Environmental Implications

Glacial-Interglacial Variations in Organic Carbon Burial in the Northwest Pacific Ocean Over the Last 380 kyr and its Environmental Implications

ENSO vs glacial-interglacial-induced changes in the Kuroshio-Oyashio transition zone during the Pleistocene

Population Biology of Fin Whales: Applying Demographic and Evolutionary Approaches to Studying Populations

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