More Like this

1. Wintertime extreme warming events in the high Arctic: characteristics, drivers, trends, and the role of atmospheric rivers

   https://doi.org/10.5194/acp-24-4451-2024  

   Ma, Weiming; Wang, Hailong; Chen, Gang; Qian, Yun; Baxter, Ian; Huo, Yiling; Seefeldt, Mark W (January 2024, Atmospheric Chemistry and Physics)

   Abstract. An extreme warming event near the North Pole, with 2 m temperature rising above 0 °C, was observed in late December 2015. This specific event has been attributed to cyclones and their associated moisture intrusions. However, little is known about the characteristics and drivers of similar events in the historical record. Here, using data from European Centre for Medium-Range Weather Forecasts Reanalysis, version 5 (ERA5), we study these winter extreme warming events with 2 m temperature over a grid point above 0 °C over the high Arctic (poleward of 80° N) that occurred during 1980–2021. In ERA5, such wintertime extreme warming events can only be found over the Atlantic sector. They occur rarely over many grid points, with a total absence during some winters. Furthermore, even when occurring, they tend to be short-lived, with the majority of the events lasting for less than a day. By examining their surface energy budget, we found that these events transition with increasing latitude from a regime dominated by turbulent heat flux into the one dominated by downward longwave radiation. Positive sea level pressure anomalies which resemble blocking over northern Eurasia are identified as a key ingredient in driving these events, as they can effectively deflect the eastward propagating cyclones poleward, leading to intense moisture and heat intrusions into the high Arctic. Using an atmospheric river (AR) detection algorithm, the roles of ARs in contributing to the occurrence of these extreme warming events defined at the grid-point scale are explicitly quantified. The importance of ARs in inducing these events increases with latitude. Poleward of about 83° N, 100 % of these events occurred under AR conditions, corroborating that ARs were essential in contributing to the occurrence of these events. Over the past 4 decades, both the frequency, duration, and magnitude of these events have been increasing significantly. As the Arctic continues to warm, these events are likely to increase in both frequency, duration, and magnitude, with great implications for the local sea ice, hydrological cycle, and ecosystem. 

   more » « less
2. Rainfall Characteristics and Trends—and the Role of Congo Westerlies—in the Western Uganda Transition Zone of Equatorial Africa From 1983 to 2017

   https://doi.org/10.1029/2019JD031243  

   Diem, Jeremy E.; Sung, Hae Seung; Konecky, Bronwen L.; Palace, Michael W.; Salerno, Jonathan; Hartter, Joel (October 2019, Journal of Geophysical Research: Atmospheres)
3. COMPARATIVE EVOLUTIONARY TRENDS IN XIPHOSURA

   https://doi.org/10.1130/abs/2023AM-389733  

   Ocon, Samantha B.; Lamsdell, James C. (October 2023, Geological Society of America Abstracts with Programs)

   Horseshoe crabs (class Xiphosura) are a long-lived clade of aquatic chelicerate arthropods with a fossil record spanning approximately 480 million years. Though Xiphosura are often noted for their morphological stability, further investigation of evolutionary rate and paleoecological trends have revealed a remarkably dynamic clade, with both temporal and phylogenetic variability in evolutionary trends. Additionally, heterochrony has been revealed to be a strong driver behind xiphosuran evolution and the exploration of non-marine niches. Using combined geometric morphometric and evolutionary rate techniques, we further highlight the incongruency of the fossil record of xiphosurans with their designation as a “living fossil” or stabilomorph clade. Here, we compare the results of a geometric morphometric analysis with a discrete character evolutionary rate calculation performed using the R package Claddis. Both analyses incorporated 55 xiphosuran species, ranging temporally from the Ordovician Lunataspis aurora to all four modern species. Morphometric data was collected as 2Dlandmarks and semi-landmarks, with variable numbers of points due to varying levels of preservation amongst fossil specimens. These data were then used to produce a PCA for the visualization of morphospace. Both studies support a dynamic evolutionary history for Xiphosura. The discrete character analysis revealed peaks in discrete character evolution in the heterochronic non-marine clades, as well as an overall declining trend in evolutionary rate. Similarly, the clades with higher evolutionary rates occupy a wider portion of morphospace compared with the more morphologically stable clades. 

   more » « less
4. Recent Trends in Catalytic Polymerizations

   https://doi.org/10.1021/acscatal.9b03226  

   Walsh, Dylan J.; Hyatt, Michael G.; Miller, Susannah A.; Guironnet, Damien (October 2019, ACS Catalysis)
5. Trends in polymer physics and theory

   https://doi.org/10.1016/j.progpolymsci.2019.101184  

   Muthukumar, Murugappan (January 2020, Progress in Polymer Science)

   We present our personal appraisal of a few recent trends in polymer physics and theory. The four main themes discussed are crystallization and melting of polymers, memory in polymer systems, topologically frustrated polymer dynamics, and phase behavior of polyelectrolyte solutions. 

   more » « less