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Description: In the region around the Dumont d'Urville research station in Antarcica, when sea ice covers approximately 20% of the Adélie penguins’ foraging area, we found that breeding success reaches a peak, and that most diving parameters reach an optimum for similar sea‐ice conditions, suggesting that sea ice affects the reproductive performance of Adélie penguins through its effects on diving activity. Abstract The Southern Ocean is currently experiencing major environmental changes, including in sea‐ice cover. Such changes strongly influence ecosystem structure and functioning and affect the survival and reproduction of predators such as seabirds. These effects are likely mediated by reduced availability of food resources. As such, seabirds are reliable eco‐indicators of environmental conditions in the Antarctic region. Here, based on 9 years of sea‐ice data, we found that the breeding success of Adélie penguins (Pygoscelis adeliae) reaches a peak at intermediate sea‐ice cover (ca. 20%). We further examined the effects of sea‐ice conditions on the foraging activity of penguins, measured at multiple scales from individual dives to foraging trips. Analysis of temporal organisation of dives, including fractal and bout analyses, revealed an increasingly consistent behaviour during years with extensive sea‐ice cover. The relationship between several dive parameters and sea‐ice cover in the foraging area appears to be quadratic. In years of low and high sea‐ice cover, individuals adjusted their diving effort by generally diving deeper, more frequently and by resting at the surface between dives for shorter periods of time than in years with intermediate sea‐ice cover. Our study therefore suggests that sea‐ice cover is likely to affect the reproductive performance of Adélie penguins through its effects on foraging behaviour, as breeding success and most diving parameters share a common optimum. Some years, however, deviated from this general trend, suggesting that other factors (e.g. precipitation during the breeding season) might sometimes become preponderant over the sea‐ice effects on breeding and foraging performance. Our study highlights the value of monitoring fitness parameters and individual behaviour concomitantly over the long‐term to better characterize optimal environmental conditions and potential resilience of wildlife. Such an approach is crucial if we want to anticipate the effects of environmental change on Antarctic penguin populations.

Print ISSN: 1354-1013

Electronic ISSN: 1365-2486

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography

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Tailoring particle alignment and grain orientation during tape casting and templated grain growth (2018)

Rebecca L. Walton, Mark D. Vaudin, Anna‐Katharina Hofer, Elizabeth R. Kupp, Richard J. Meyer, Gary L. Messing

Wiley

In: Journal of the American Ceramic Society

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Publication Date: 2018

Description: Abstract The quality of crystallographic alignment in textured ceramics produced by tape casting and templated grain growth (TGG) has been little studied despite its demonstrated impact on magnetic, piezoelectric, and optical properties. Physical and crystallographic alignment of anisotropic template particles is shown to be directly linked to the casting rate, gap height, and casting viscosity during tape casting. These parameters are shown to affect the shape and magnitude of the shear rate profile under the doctor blade during casting which in turn causes a gradient in the torque acting on anisotropic particles. The magnitude of the torque, the time the slurry is exposed to torque during casting, and the ratio of casting height to template diameter are demonstrated to enable the particle alignment process to be tailored to produce well‐aligned template particles. Crystallographic alignment of the textured ceramic was quantified by grain misalignment angle (full width at half maximum, FWHM) and degree of orientation (r) and is directly correlated with the degree of torque during casting. High‐quality alignment (FWHM = 4.5°; r = 0.13) was demonstrated in the model TGG system consisting of submicrometer alumina and 5 vol% 11 μm diameter template platelet particles.

Print ISSN: 0002-7820

Electronic ISSN: 1551-2916

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

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Insight into the Last Glacial Maximum climate and environments of the Baikal region (2018)

Pavel E. Tarasov, Boris P. Ilyashuk, Christian Leipe, Stefanie Müller, Birgit Plessen, Philipp Hoelzmann, Svetlana S. Kostrova, Elena V. Bezrukova, Hanno Meyer

Wiley

In: Boreas

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Publication Date: 2018

Description: This study presents a multi‐proxy record from Lake Kotokel in the Baikal region at decadal‐to‐multidecadal resolution and provides a reconstruction of terrestrial and aquatic environments in the area during a 2000‐year interval of globally harsh climate often referred to as the Last Glacial Maximum (LGM). The studied lake is situated near the eastern shoreline of Lake Baikal, in a climatically sensitive zone that hosts boreal taiga and cold deciduous forests, cold steppe associations typical for northern Mongolia, and mountain tundra vegetation. The results provide a detailed picture of the period in focus, indicating (i) a driest phase (c. 24.0–23.4 cal. ka BP) with low precipitation, high summer evaporation, and low lake levels, (ii) a transitional interval of unstable conditions (c. 23.4–22.6 cal. ka BP), and (iii) a phase (c. 22.6–22.0 cal. ka BP) of relatively high precipitation (and moisture availability) and relatively high lake levels. One hotly debated issue in late Quaternary research is regional summer thermal conditions during the LGM. Our chironomid‐based reconstruction suggests at least 3.5 °C higher than present summer temperatures between c. 22.6 and 22.0 cal. ka BP, which are well in line with warmer and wetter conditions in the North Atlantic region inferred from Greenland ice‐cores. Overall, it appears that environments in central Eurasia during the LGM were affected by much colder than present winter temperatures and higher than present summer temperatures, although the effects of temperature oscillations were strongly influenced by changes in humidity.

Print ISSN: 0300-9483

Electronic ISSN: 1502-3885

Topics: Geography , Geosciences

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Secondary Ion Mass Spectrometry Methodology for Isotopic Ratio Measurement of Micro‐Grains in Thin Sections: True Grain Size Estimation and Deconvolution of Inter‐Grain Size Gradients and Intra‐Grain Radial Gradients (2018)

Clive Jones, David A. Fike, Katja M. Meyer

Wiley

In: Geostandards and Geoanalytical Research

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Publication Date: 2018

Description: Key Points True grain radius cannot be determined from thin section. Apparent radius changes with time as the grain is sputtered. True radius can be estimated via the rate of change of apparent radius during the SIMS measurement. In a thin section, grains that were approximately spherical in situ appear circular in cross section, and the distribution of apparent diameters frequently assumed to be their size distribution. Scanning ion imaging by secondary ion mass spectrometry (SIMS) is capable of providing precise (〈 1‰) stable isotope ratio measurements of such grains, but, importantly, also registers their rate of evolution in apparent size as they are ablated by the primary beam. By assessing rates of radius change with depth, the described methodology enables the ‘true’ size of grains to be estimated, as well as the distance of the sectioned surface from the original grain centre. Transects in three dimensions are made possible, and this capability enables better identification (and thus separation) of both inter‐grain chemical signatures as a function of grain size, and intra‐grain radial trends. In this example, we highlight the specific application to pyrite (FeS2) minerals, which are frequently analysed by SIMS to determine their inter‐grain and intra‐grain geochemical variations, particularly in their sulfur stable isotopic ratios (δ34S). Benefits of the new methodology over the Faraday cup ‘spot mode’ are described. Data correction algorithms and precision considerations are discussed.

Print ISSN: 1639-4488

Electronic ISSN: 1751-908X

Topics: Geosciences

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Combining abundance and performance data reveals how temperature regulates coastal occurrences and activity of a roaming apex predator (2018)

Nicholas L. Payne, Carl G. Meyer, James A. Smith, Jonathan D. R. Houghton, Adam Barnett, Bonnie J. Holmes, Itsumi Nakamura, Yannis P. Papastamatiou, Mark A. Royer, Daniel M. Coffey, James M. Anderson, Melanie R. Hutchinson, Katsufumi Sato, Lewis G. Halsey

Wiley

In: Global Change Biology

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Publication Date: 2018-03-14

Description: The redistribution of species has emerged as one of the most pervasive impacts of anthropogenic climate warming, and presents many societal challenges. Understanding how temperature regulates species distributions is particularly important for mobile marine fauna such as sharks given their seemingly rapid responses to warming, and the socio-political implications of human encounters with some dangerous species. The predictability of species distributions can potentially be improved by accounting for temperature's influence on performance, an elusive relationship for most large animals. We combined multi-decadal catch data and bio-logging to show that coastal abundance and swimming performance of tiger sharks Galeocerdo cuvier are both highest at ~22°C, suggesting thermal constraints on performance may regulate this species' distribution. Tiger sharks are responsible for a large proportion of shark bites on humans, and a focus of controversial control measures in several countries. The combination of distribution and performance data moves towards a mechanistic understanding of tiger shark's thermal niche, and delivers a simple yet powerful indicator for predicting the location and timing of their occurrences throughout coastlines. For example, tiger sharks are mostly caught at Australia's popular New South Wales beaches (i.e. near Sydney) in the warmest months, but our data suggest similar abundances will occur in winter and summer if annual sea surface temperatures increase by a further 1–2°C. Being able to predict how temperature regulates species distributions is particularly important for mobile marine animals such as sharks given their seemingly rapid responses to warming, and implications of human encounters with some dangerous species. We combined catch data and accelerometry tagging to show that coastal abundance and swimming activity of tiger sharks Galeocerdo cuvier are both highest at ~22°C. Our combination of distribution and performance data takes a step towards a mechanistic understanding of tiger shark's thermal niche, and delivers a simple indicator that may be useful for predicting coastal occurrences of this potentially dangerous species.

Print ISSN: 1354-1013

Electronic ISSN: 1365-2486

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography

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Do the two transcription factors form a positive feedback amplifier circuit in their common fight against pathogens? (2018)

Staab, Julia ; Nast, Roswitha ; Meyer, Thomas

Wiley

In: Immunology and Cell Biology. 2018; 96(10): 1023-1025. Published 2018 Sep 24. doi: 10.1111/imcb.12198.

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Publication Date: 2018-09-24

Print ISSN: 0818-9641

Electronic ISSN: 1440-1711

Topics: Biology , Medicine

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The temperature sensitivity (Q10) of soil respiration: controlling factors and spatial prediction at regional scale based on environmental soil classes (2018)

N. Meyer, G. Welp, W. Amelung

Wiley

In: Global Biogeochemical Cycles

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Publication Date: 2018-02-10

Description: The temperature sensitivity of heterotrophic soil respiration is crucial for modeling carbon dynamics but it is variable. Presently, however, most models employ a fixed value of 1.5 or 2.0 for the increase of soil respiration per 10°C increase in temperature (Q10). Here, we identified the variability of Q10 at a regional scale (Rur catchment, Germany/Belgium/Netherlands). We divided the study catchment into environmental soil classes (ESC), which we define as unique combinations of land use, aggregated soil groups, and texture. We took nine soil samples from each ESC (108 samples) and incubated them at four soil moisture levels and five temperatures (5–25°C). We hypothesized that Q10 variability is controlled by soil organic carbon (SOC) degradability and soil moisture and that ESC can be used as a widely available proxy for Q10, owing to differences in SOC degradability. Measured Q10 values ranged from 1.2 to 2.8 and were correlated with indicators of SOC degradability (e.g., pH, r=-0.52). The effect of soil moisture on Q10 was variable: Q10 increased with moisture in croplands, but decreased in forests. The ESC captured significant parts of Q10 variability under dry (R 2 =0.44) and intermediate (R 2 =0.36) moisture conditions, where Q10 increased in the order cropland〈grassland〈forest. Overall, the estimated heterotrophic CO 2 release from the catchment was up to 45% lower when ESC- and moisture-specific Q10 values were used instead of 1.5, suggesting that scaling Q10 on the basis of both ESC and moisture might be a promising concept for spatially continuous assessments of carbon turnover at regional scales.

Print ISSN: 0886-6236

Electronic ISSN: 1944-9224

Topics: Biology , Chemistry and Pharmacology , Geography , Geosciences , Physics

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Geological and Chemical Factors that Impacted the Biological Utilization of Cobalt in the Archean Eon (2018)

Eli K. Moore, Jihua Hao, Anirudh Prabhu, Hao Zhong, Ben I. Jelen, Mike Meyer, Robert M. Hazen, Paul G. Falkowski

Wiley

In: Journal of Geophysical Research JGR - Biogeosciences

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Publication Date: 2018-01-09

Description: The geosphere and biosphere coevolved and influenced Earth's biological and mineralogical diversity. Changing redox conditions influenced the availability of different transition metals, which are essential components in the active sites of oxidoreductases, proteins that catalyze electron transfer reactions across the tree of life. Despite its relatively low abundance in the environment, cobalt (Co) is a unique metal in biology due to its importance to a wide range of organisms as the metal center of vitamin B 12 (a.k.a. cobalamin, Cbl). Cbl is vital to multiple methyltransferase enzymes involved in energetically favorable metabolic pathways. It is unclear how Co availability is linked to mineral evolution and weathering processes. Here we examine important biological functions of Co, as well as chemical and geological factors that may have influenced the utilization of Co early in the evolution of life. Only 66 natural minerals are known to contain Co as an essential element. However, Co is incorporated as a minor element in abundant rock-forming minerals, potentially representing a reliable source of Co as a trace element in marine systems due to weathering processes. We developed a mineral weathering model that indicates dissolved Co was potentially more bioavailable in the Archean ocean under low S conditions than it is today. Mineral weathering, redox chemistry, Co complexation with nitrogen-containing organics, and hydrothermal environments were crucial in the incorporation of Co in primitive metabolic pathways. These chemical and geological characteristics of Co can inform the biological utilization of other trace metals in early forms of life.

Print ISSN: 0148-0227

Topics: Biology , Geosciences

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Winners and losers of national and global efforts to reconcile agricultural intensification and biodiversity conservation (2018)

Lukas Egli, Carsten Meyer, Christoph Scherber, Holger Kreft, Teja Tscharntke

Wiley

In: Global Change Biology

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Publication Date: 2018-02-02

Description: Closing yield gaps within existing croplands, and thereby avoiding further habitat conversions, is a prominently and controversially discussed strategy to meet the rising demand for agricultural products, while minimizing biodiversity impacts. The agricultural intensification associated with such a strategy poses additional threats to biodiversity within agricultural landscapes. The uneven spatial distribution of both yield gaps and biodiversity provides opportunities for reconciling agricultural intensification and biodiversity conservation through spatially optimized intensification. Here, we integrate distribution and habitat information for almost 20,000 vertebrate species with land-cover and land-use datasets. We estimate that projected agricultural intensification between 2000 and 2040 would reduce the global biodiversity value of agricultural lands by 11%, relative to 2000. Contrasting these projections with spatial land-use optimization scenarios reveals that 88% of projected biodiversity loss could be avoided through globally coordinated land-use planning, implying huge efficiency gains through international cooperation. However, global-scale optimization also implies a highly uneven distribution of costs and benefits, resulting in distinct ‘winners and losers’ in terms of national economic development, food-security, food-sovereignty or conservation. Given conflicting national interests and lacking effective governance mechanisms to guarantee equitable compensation of losers, multi-national land-use optimization seems politically unlikely. In turn, 61% of projected biodiversity loss could be avoided through nationally-focused optimization, and 33% through optimization within just 10 countries. Targeted efforts to improve the capacity for integrated land-use planning for sustainable intensification especially in these countries, including the strengthening of institutions that can arbitrate sub-national land-use conflicts, may offer an effective, yet politically feasible, avenue to better reconcile future trade-offs between agriculture and conservation. The efficiency gains of optimization remained robust when assuming that yields could only be increased to 80% of their potential. Our results highlight the need to better integrate real-world governance, political and economic challenges into sustainable development and global change mitigation research. This article is protected by copyright. All rights reserved.

Print ISSN: 1354-1013

Electronic ISSN: 1365-2486

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography

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