Ecological and conceptual consequences of Arctic pollution

Kirdyanov, Alexander V.; Krusic, Paul J.; Shishov, Vladimir V.; Vaganov, Еugene А.; Fertikov, A. I.; Myglan, Vladimir S.; Баринов, В. В.; Browse, Jo; Esper, Jan; Ilyin, Viktor A.; Knorre, Anastasia A.; Korets, Mikhail; Kukarskikh, V. V.; Машуков, Д. А.; Онучин, А. А.; Piermattei, Alma; Pimenov, А. V.; Prokushkin, Anatoly; Рыжкова, В. А.; Шишикин, А. С.; Smith, Kevin T.; Taynik, Anna V.; Wild, Martin; Zorita, Eduardo; Büntgen, Ulf

doi:10.1111/ele.13611

Cited by 35 publications

(24 citation statements)

References 79 publications

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“…Relatively warmer measured temperatures prior to circa 1850 CE are possibly biased by the low quality and quantity of early instrumental observations 19 , whereas relatively cooler reconstructed temperatures after circa 1990 CE are symptomatic for the ‘Divergence Problem’ in dendroclimatology 20 : the apparent decoupling between TRW chronologies and rising temperature measurements since around the 1970s 21 . Recent investigations suggest that methodology-induced challenges of proxy-target calibration, proxy network size, end-effects in time-series composition 22 , as well as industrial pollution 23 , or a combination thereof 20 , can explain the ‘Divergence Problem’. Three reconstructions track the measured warming after 1990 very well (R8–R10), and another three ensemble members reveal just slightly lower temperatures compared to those measured between 1990 and 2000 (R7, R11, R14).…”

Section: Resultsmentioning

confidence: 99%

The influence of decision-making in tree ring-based climate reconstructions

et al. 2021

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Tree-ring chronologies underpin the majority of annually-resolved reconstructions of Common Era climate. However, they are derived using different datasets and techniques, the ramifications of which have hitherto been little explored. Here, we report the results of a double-blind experiment that yielded 15 Northern Hemisphere summer temperature reconstructions from a common network of regional tree-ring width datasets. Taken together as an ensemble, the Common Era reconstruction mean correlates with instrumental temperatures from 1794–2016 CE at 0.79 (p < 0.001), reveals summer cooling in the years following large volcanic eruptions, and exhibits strong warming since the 1980s. Differing in their mean, variance, amplitude, sensitivity, and persistence, the ensemble members demonstrate the influence of subjectivity in the reconstruction process. We therefore recommend the routine use of ensemble reconstruction approaches to provide a more consensual picture of past climate variability.

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Section: Resultsmentioning

confidence: 99%

The influence of decision-making in tree ring-based climate reconstructions

et al. 2021

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“…In addition, there is the divergence problem which describes a loss of responsiveness of tree growth to rising growing season temperatures in subarctic regions after the 1960s (Briffa et al, 1998). The low‐frequency component of photosynthetic solar radiation has also been shown to explain part of the divergence problem in subarctic regions where tree growth is mainly driven by summer temperature (Kirdyanov et al, 2020). Such complex growth responses to temperature rise may depend on local climate conditions, treeline features (e.g., shape, size), and age structure or species‐specific traits, making some treelines less valuable monitors of climate warming than expected (Davis et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Global fading of the temperature–growth coupling at alpine and polar treelines

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Gazol

Sánchez‐Salguero

et al. 2021

Global Change Biology

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Climate warming is expected to positively alter upward and poleward treelines which are controlled by low temperature and a short growing season. Despite the importance of treelines as a bioassay of climate change, a global field assessment and posterior forecasting of tree growth at annual scales is lacking. Using annually resolved tree‐ring data located across Eurasia and the Americas, we quantified and modeled the relationship between temperature and radial growth at treeline during the 20th century. We then tested whether this temperature–growth association will remain stable during the 21st century using a forward model under two climate scenarios (RCP 4.5 and 8.5). During the 20th century, growth enhancements were common in most sites, and temperature and growth showed positive trends. Interestingly, the relationship between temperature and growth trends was contingent on tree age suggesting biogeographic patterns in treeline growth are contingent on local factors besides climate warming. Simulations forecast temperature–growth decoupling during the 21st century. The growing season at treeline is projected to lengthen and growth rates would increase and become less dependent on temperature rise. These forecasts illustrate how growth may decouple from climate warming in cold regions and near the margins of tree existence. Such projected temperature–growth decoupling could impact ecosystem processes in mountain and polar biomes, with feedbacks on climate warming.

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“…Certain anthropogenic activities, such as the metallurgy industry, are known to dramatically affect ecosystems [ 2 ]. In northern Siberia, for example, 24,000 km 2 of Taiga (roughly 1/3 of the size of Austria) represent the most polluted area in the world where there is essentially no tree growth due to the emission of 1.8 million t of pollutants (98% SO 2 as well as Cu and Ni) in 2018 [ 3 ]. Anthropogenic inorganic pollutants that are released into the global environment due to technological advances and fossil fuel consumption can also enter the biological system by different exposure routes to adversely affect human health.…”

Section: Introductionmentioning

confidence: 99%

Toxic Metal Species and ‘Endogenous’ Metalloproteins at the Blood–Organ Interface: Analytical and Bioinorganic Aspects

2021

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Globally, human exposure to environmental pollutants causes an estimated 9 million deaths per year and it could also be implicated in the etiology of diseases that do not appear to have a genetic origin. Accordingly, there is a need to gain information about the biomolecular mechanisms that causally link exposure to inorganic environmental pollutants with distinct adverse health effects. Although the analysis of blood plasma and red blood cell (RBC) cytosol can provide important biochemical information about these mechanisms, the inherent complexity of these biological matrices can make this a difficult task. In this perspective, we will examine the use of metalloentities that are present in plasma and RBC cytosol as potential exposure biomarkers to assess human exposure to inorganic pollutants. Our primary objective is to explore the principal bioinorganic processes that contribute to increased or decreased metalloprotein concentrations in plasma and/or RBC cytosol. Furthermore, we will also identify metabolites which can form in the bloodstream and contain essential as well as toxic metals for use as exposure biomarkers. While the latter metal species represent useful biomarkers for short-term exposure, endogenous plasma metalloproteins represent indicators to assess the long-term exposure of an individual to inorganic pollutants. Based on these considerations, the quantification of metalloentities in blood plasma and/or RBC cytosol is identified as a feasible research avenue to better understand the adverse health effects that are associated with chronic exposure of various human populations to inorganic pollutants. Exposure to these pollutants will likely increase as a consequence of technological advances, including the fast-growing applications of metal-based engineering nanomaterials.

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Ecological and conceptual consequences of Arctic pollution

Cited by 35 publications

References 79 publications

The influence of decision-making in tree ring-based climate reconstructions

The influence of decision-making in tree ring-based climate reconstructions

Global fading of the temperature–growth coupling at alpine and polar treelines

Toxic Metal Species and ‘Endogenous’ Metalloproteins at the Blood–Organ Interface: Analytical and Bioinorganic Aspects

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