Your search keyword '"Merchant, C. A."' showing total 39 results

1. Slow response of surface water temperature to fast atmospheric variability reveals mixing heterogeneity in a deep lake.

Author

Amadori, Marina, Bresciani, Mariano, Giardino, Claudia, and Dijkstra, Henk A.

Subjects

OCEAN temperature, WATER temperature, ATMOSPHERIC temperature, CHLOROPHYLL in water, ATMOSPHERICS, MIXING height (Atmospheric chemistry), LAKES, ORTHOGONAL functions

Abstract

Slow and long-term variations of sea surface temperature anomalies have been interpreted as a red-noise response of the ocean surface mixed layer to fast and random atmospheric perturbations. How fast the atmospheric noise is damped depends on the mixed layer depth. In this work we apply this theory to determine the relevant spatial and temporal scales of surface layer thermal inertia in lakes. We fit a first order auto-regressive model to the satellite-derived Lake Surface Water Temperature (LSWT) anomalies in Lake Garda, Italy. The fit provides a time scale, from which we determine the mixed layer depth. The obtained result shows a clear spatial pattern resembling the morphological features of the lake, with larger values (7.18± 0.3 m) in the deeper northwestern basin, and smaller values (3.18 ± 0.24 m) in the southern shallower basin. Such variations are confirmed by in-situ measurements in three monitoring points in the lake and connect to the first Empirical Orthogonal Function of satellite-derived LSWT and chlorophyll-a concentration. Evidence from our case study open a new perspective for interpreting lake-atmosphere interactions and confirm that remotely sensed variables, typically associated with properties of the surface layers, also carry information on the relevant spatial and temporal scales of mixed-layer processes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Morphologically-Directed Raman Spectroscopy as an Analytical Method for Subvisible Particle Characterization in Therapeutic Protein Product Quality.

Author

Kim, Minkyung, Ma, Youlong, Srinivasan, Charudharshini, O'Connor, Thomas, Telikepalli, Srivalli N., Ripple, Dean C., Lute, Scott, and Bhirde, Ashwinkumar

Subjects

RAMAN spectroscopy, PRODUCT quality, REFERENCE sources, PROTEINS, TETRAFLUOROETHYLENE

Abstract

Subvisible particles (SVPs) are a critical quality attribute of injectable therapeutic proteins (TPs) that needs to be controlled due to potential risks associated with drug product quality. The current compendial methods routinely used to analyze SVPs for lot release provide information on particle size and count. However, chemical identification of individual particles is also important to address root-cause analysis. Herein, we introduce Morphologically-Directed Raman Spectroscopy (MDRS) for SVP characterization of TPs. The following particles were used for method development: (1) polystyrene microspheres, a traditional standard used in industry; (2) photolithographic (SU-8); and (3) ethylene tetrafluoroethylene (ETFE) particles, candidate reference materials developed by NIST. In our study, MDRS rendered high-resolution images for the ETFE particles (> 90%) ranging from 19 to 100 μm in size, covering most of SVP range, and generated comparable morphology data to flow imaging microscopy. Our method was applied to characterize particles formed in stressed TPs and was able to chemically identify individual particles using Raman spectroscopy. MDRS was able to compare morphology and transparency properties of proteinaceous particles with reference materials. The data suggests MDRS may complement the current TPs SVP analysis system and product quality characterization workflow throughout development and commercial lifecycle. [ABSTRACT FROM AUTHOR]

Published

2023

3. Differences in effectiveness and use of laparoscopic surgery in locally advanced colon cancer patients.

Author

Schootman, M., Mutch, Matthew, Loux, T., Eberth, J. M., and Davidson, N. O.

Subjects

COLON cancer, LAPAROSCOPIC surgery, COLECTOMY, TUMORS, HEALTH outcome assessment

Abstract

Patients with locally advanced colon cancer have worse outcomes. Guidelines of various organizations are conflicting about the use of laparoscopic colectomy (LC) in locally advanced colon cancer. We determined whether patient outcomes of LC and open colectomy (OC) for locally advanced (T4) colon cancer are comparable in all colon cancer patients, T4a versus T4b patients, obese versus non-obese patients, and tumors located in the ascending, descending, and transverse colon. We used data from the 2013–2015 American College of Surgeons' National Surgical Quality Improvement Program. Patients were diagnosed with nonmetastatic pT4 colon cancer, with or without obstruction, and underwent LC (n = 563) or OC (n = 807). We used a composite outcome score (mortality, readmission, re-operation, wound infection, bleeding transfusion, and prolonged postoperative ileus); length of stay; and length of operation. Patients undergoing LC exhibited a composite outcome score that was 9.5% lower (95% CI − 15.4; − 3.5) versus those undergoing OC. LC patients experienced a 11.3% reduction in postoperative ileus (95% CI − 16.0; − 6.5) and an average of 2 days shorter length of stay (95% CI − 2.9; − 1.0). Patients undergoing LC were in the operating room an average of 13.5 min longer (95% CI 1.5; 25.6). We found no evidence for treatment heterogeneity across subgroups (p > 0.05). Patients with locally advanced colon cancer who receive LC had better overall outcomes and shorter lengths of stay compared with OC patients. LC was equally effective in obese/nonobese patients, in T4a/T4b patients, and regardless of the location of the tumor. [ABSTRACT FROM AUTHOR]

Published

2021

4. Spin Seebeck effect of correlated magnetic molecules.

Author

Manaparambil, Anand and Weymann, Ireneusz

Subjects

SINGLE molecule magnets, THERMOELECTRIC power, HEAT conduction, FERROMAGNETISM, SEEBECK effect

Abstract

In this paper we investigate the spin-resolved thermoelectric properties of strongly correlated molecular junctions in the linear response regime. The magnetic molecule is modeled by a single orbital level to which the molecular core spin is attached by an exchange interaction. Using the numerical renormalization group method we analyze the behavior of the (spin) Seebeck effect, heat conductance and figure of merit for different model parameters of the molecule. We show that the thermopower strongly depends on the strength and type of the exchange interaction as well as the molecule's magnetic anisotropy. When the molecule is coupled to ferromagnetic leads, the thermoelectric properties reveal an interplay between the spin-resolved tunneling processes and intrinsic magnetic properties of the molecule. Moreover, in the case of finite spin accumulation in the leads, the system exhibits the spin Seebeck effect. We demonstrate that a considerable spin Seebeck effect can develop when the molecule exhibits an easy-plane magnetic anisotropy, while the sign of the spin thermopower depends on the type and magnitude of the molecule's exchange interaction. [ABSTRACT FROM AUTHOR]

Published

2021

5. Multi-frequency impedance sensing for detection and sizing of DNA fragments.

Author

Sui, Jianye, Gandotra, Neeru, Xie, Pengfei, Lin, Zhongtian, Scharfe, Curt, and Javanmard, Mehdi

Subjects

BIOSENSORS, OLIGONUCLEOTIDES, MICROFLUIDICS, POLYMERASE chain reaction, PARAMAGNETIC materials

Abstract

Electronic biosensors for DNA detection typically utilize immobilized oligonucleotide probes on a signal transducer, which outputs an electronic signal when target molecules bind to probes. However, limitation in probe selectivity and variable levels of non-target material in complex biological samples can lead to nonspecific binding and reduced sensitivity. Here we introduce the integration of 2.8 μm paramagnetic beads with DNA fragments. We apply a custom-made microfluidic chip to detect DNA molecules bound to beads by measuring Impedance Peak Response (IPR) at multiple frequencies. Technical and analytical performance was evaluated using beads containing purified Polymerase Chain Reaction (PCR) products of different lengths (157, 300, 613 bp) with DNA concentration ranging from 0.039 amol to 7.8 fmol. Multi-frequency IPR correlated positively with DNA amounts and was used to calculate a DNA quantification score. The minimum DNA amount of a 300 bp fragment coupled on beads that could be robustly detected was 0.0039 fmol (1.54 fg or 4750 copies/bead). Additionally, our approach allowed distinguishing beads with similar molar concentration DNA fragments of different lengths. Using this impedance sensor, purified PCR products could be analyzed within ten minutes to determine DNA fragment length and quantity based on comparison to a known DNA standard. [ABSTRACT FROM AUTHOR]

Published

2021

6. Tendencies, variability and persistence of sea surface temperature anomalies.

Author

Bulgin, Claire E., Merchant, Christopher J., and Ferreira, David

Subjects

DIFFERENCES, OCEAN temperature, MAGNETIC anomalies, ECONOMIC seasonal variations

Abstract

Quantifying global trends and variability in sea surface temperature (SST) is of fundamental importance to understanding changes in the Earth's climate. One approach to observing SST is via remote sensing. Here we use a 37-year gap-filled, daily-mean analysis of satellite SSTs to quantify SST trends, variability and persistence between 1981–2018. The global mean warming trend is 0.09 K per decade globally, with 95% of local trends being between −0.1 K and + 0.35 K. Excluding perennial sea-ice regions, the mean warming trend is 0.11 K per decade. After removing the long-term trend we calculate the SST power spectra over different time periods. The maximum variance in the SST power spectra in the equatorial Pacific is 1.9 K2 on 1–5 year timescales, dominated by ENSO processes. In western boundary currents characterised by an intense mesoscale activity, SST power on sub-annual timescales dominates, with a maximum variance of 4.9 K2. Persistence timescales tend to be shorter in the summer hemisphere due to the shallower mixed layer. The median short-term persistence length is 11–14 days, found over 71–79% of the global ocean area, with seasonal variations. The mean global correlation between monthly SST anomalies with a three-month time-lag is 0.35, with statistically significant correlations over 54.0% of the global oceans, and notably in the northern and equatorial Pacific, and the sub-polar gyre south of Greenland. At six months, the mean global SST anomaly correlation falls to 0.18. The satellite data record enables the detailed characterisation of temporal changes in SST over almost four decades. [ABSTRACT FROM AUTHOR]

Published

2020

7. Machine learning-driven electronic identifications of single pathogenic bacteria.

Author

Hattori S, Sekido R, Leong IW, Tsutsui M, Arima A, Tanaka M, Yokota K, Washio T, Kawai T, and Okochi M

Subjects

Bacillus cereus ultrastructure, Bacterial Infections microbiology, Electronics, Escherichia coli ultrastructure, Micropore Filters, Microscopy, Electron, Scanning, Pseudomonas fluorescens ultrastructure, Salmonella enterica ultrastructure, Staphylococcus aureus ultrastructure, Bacterial Infections diagnosis, Biosensing Techniques methods, Machine Learning

Abstract

A rapid method for screening pathogens can revolutionize health care by enabling infection control through medication before symptom. Here we report on label-free single-cell identifications of clinically-important pathogenic bacteria by using a polymer-integrated low thickness-to-diameter aspect ratio pore and machine learning-driven resistive pulse analyses. A high-spatiotemporal resolution of this electrical sensor enabled to observe galvanotactic response intrinsic to the microbes during their translocation. We demonstrated discrimination of the cellular motility via signal pattern classifications in a high-dimensional feature space. As the detection-to-decision can be completed within milliseconds, the present technique may be used for real-time screening of pathogenic bacteria for environmental and medical applications.

Published

2020

8. A Low-Noise Solid-State Nanopore Platform Based on a Highly Insulating Substrate.

Author

Min-Hyun Lee, Kumar, Ashvani, Kyeong-Beom Park, Seong-Yong Cho, Hyun-Mi Kim, Min-Cheol Lim, Young-Rok Kim, and Ki-Bum Kim

Subjects

NANOPORES, NOISE, DNA metabolism, HOMOPOLYMERIZATIONS, SUBSTRATE noise, ELECTRIC capacity, SIGNAL-to-noise ratio, INSULATING materials

Abstract

A solid-state nanopore platform with a low noise level and sufficient sensitivity to discriminate single-strand DNA (ssDNA) homopolymers of poly-A40 and poly-T40 using ionic current blockade sensing is proposed and demonstrated. The key features of this platform are (a) highly insulating dielectric substrates that are used to mitigate the effect of parasitic capacitance elements, which decrease the ionic current RMS noise level to sub-10 pA and (b) ultra-thin silicon nitride membranes with a physical thickness of 5 nm (an effective thickness of 2.4 nm estimated from the ionic current) are used to maximize the signal-to-noise ratio and the spatial depth resolution. The utilization of an ultra-thin membrane and a nanopore diameter as small as 1.5 nm allow the successful discrimination of 40 nucleotide ssDNA poly-A40 and poly-T40. Overall, we demonstrate that this platform overcomes several critical limitations of solid-state nanopores and opens the door to a wide range of applications in single-molecule-based detection and analysis. [ABSTRACT FROM AUTHOR]

Published

2014

9. DNA Translocation through Hydrophilic Nanopore in Hexagonal Boron Nitride.

Author

Zhi Zhou, Ying Hu, Hao Wang, Zhi Xu, Wenlong Wang, Xuedong Bai, Xinyan Shan, and Xinghua Lu

Subjects

NANOPORES, BORON nitride, OXIDATION, HYDROPHILIC interactions, HYDROPHILIC compounds

Abstract

Ultra-thin solid-state nanopore with good wetting property is strongly desired to achieve high spatial resolution for DNA sequencing applications. Atomic thick hexagonal boron nitride (h-BN) layer provides a promising two-dimensional material for fabricating solid-state nanopores. Due to its good oxidation resistance, the hydrophilicity of h-BN nanopore device can be significantly improved by UV-Ozone treatment. The contact angle of a KCl-TE droplet on h-BN layer can be reduced from 57° to 26° after the treatment. Abundant DNA translocation events have been observed in such devices, and strong DNA-nanopore interaction has been revealed in pores smaller than 10 nmin diameter. The1/f noise level is closely related to the area of suspended h-BN layer, and it is significantly reduced in smaller supporting window. The demonstrated performance in h-BN nanopore paves the way towards base discrimination in a single DNA molecule. [ABSTRACT FROM AUTHOR]

Published

2013

10. Polymer translocation through nano-pores in vibrating thin membranes.

Author

Menais, Timothée, Mossa, Stefano, and Buhot, Arnaud

Abstract

Polymer translocation is a promising strategy for the next-generation DNA sequencing technologies. The use of biological and synthetic nano-pores, however, still suffers from serious drawbacks. In particular, the width of the membrane layer can accommodate several bases at the same time, making difficult accurate sequencing applications. More recently, the use of graphene membranes has paved the way to new sequencing capabilities, with the possibility to measure transverse currents, among other advances. The reduced thickness of these new membranes poses new questions on the effect of deformability and vibrations of the membrane on the translocation process, two features which are not taken into account in the well established theoretical frameworks. Here, we make a first step forward in this direction. We report numerical simulation work on a model system simple enough to allow gathering significant insight on the effect of these features on the average translocation time, with appropriate statistical significance. We have found that the interplay between thermal fluctuations and the deformability properties of the nano-pore play a crucial role in determining the process. We conclude by discussing new directions for further work. [ABSTRACT FROM AUTHOR]

Published

2016

11. Integrated solid-state nanopore platform for nanopore fabrication via dielectric breakdown, DNA-speed deceleration and noise reduction.

Author

Goto, Yusuke, Yanagi, Itaru, Matsui, Kazuma, Yokoi, Takahide, and Takeda, Ken-ichi

Published

2016

12. Homogenised daily lake surface water temperature data generated from multiple satellite sensors: A long-term case study of a large sub-Alpine lake.

Author

Pareeth, Sajid, Salmaso, Nico, Adrian, Rita, and Neteler, Markus

Published

2016

13. SCUBA divers as oceanographic samplers: The potential of dive computers to augment aquatic temperature monitoring.

Author

Wright, Serena, Hull, Tom, Sivyer, David B., Pearce, David, Pinnegar, John K., Sayer, Martin D. J., Mogg, Andrew O. M., Azzopardi, Elaine, Gontarek, Steve, and Hyder, Kieran

Published

2016

14. Quantifying mammalian genomic DNA hydroxymethylcytosine content using solid-state nanopores.

Author

Zahid, Osama K., Zhao, Boxuan Simen, He, Chuan, and Hall, Adam R.

Published

2016

15. Intrinsic and membrane-facilitated α-synuclein oligomerization revealed by label-free detection through solid-state nanopores.

Author

Hu, Rui, Diao, Jiajie, Li, Ji, Tang, Zhipeng, Li, Xiaoqing, Leitz, Jeremy, Long, Jiangang, Liu, Jiankang, Yu, Dapeng, and Zhao, Qing

Published

2016

16. Suspended Solid-state Membranes on Glass Chips with Sub 1-pF Capacitance for Biomolecule Sensing Applications.

Author

Balan, Adrian, Chien, Chen-Chi, Engelke, Rebecca, and Drndić, Marija

Published

2015

17. Theoretical assessment of feasibility to sequence DNA through interlayer electronic tunneling transport at aligned nanopores in bilayer graphene.

Author

Prasongkit, Jariyanee, Feliciano, Gustavo T., Rocha, Alexandre R., He, Yuhui, Osotchan, Tanakorn, Ahuja, Rajeev, and Scheicher, Ralph H.

Published

2015

18. Prevention of Dielectric Breakdown of Nanopore Membranes by Charge Neutralization.

Author

Matsui, Kazuma, Yanagi, Itaru, Goto, Yusuke, and Takeda, Ken-ichi

Published

2015

19. Deceleration of single-stranded DNA passing through a nanopore using a nanometre-sized bead structure.

Author

Goto, Yusuke, Haga, Takanobu, Yanagi, Itaru, Yokoi, Takahide, and Takeda, Ken-ichi

Subjects

NUCLEOTIDE sequencing, SINGLE-stranded DNA, NANOPORES, NANOSTRUCTURED materials, SILICA

Abstract

DNA sequencing with a solid-state nanopore requires a reduction of the translocation speeds of single-stranded DNA (ssDNA) over 10 μs/base. In this study, we report that a nanometre-sized bead structure constructed around a nanopore can reduce the moving speed of ssDNA to 270 μs/base by adjusting the diameter of the bead and its surface chemical group. This decelerating effect originates from the strong interaction between ssDNA and the chemical group on the surface of the bead. This nanostructure was simply prepared by dip coating in which a substrate with a nanopore was immersed in a silica bead solution and then dried in an oven. As compared with conventional approaches, our novel method is less laborious, simpler to perform and more effective in reducing ssDNA translocation speed. [ABSTRACT FROM AUTHOR]

Published

2015

20. Fabrication of 3-nm-thick Si3N4 membranes for solid-state nanopores using the poly-Si sacrificial layer process.

Author

Yanagi, Itaru, Ishida, Takeshi, Fujisaki, Koji, and Takeda, Ken-ichi

Subjects

NANOPORES, THINNING algorithms, POLYCRYSTALS, SILICON nitride

Abstract

To improve the spatial resolution of solid-state nanopores, thinning the membrane is a very important issue. The most commonly used membrane material for solid-state nanopores is silicon nitride (Si3N4). However, until now, stable wafer-scale fabrication of Si3N4 membranes with a thickness of less than 5 nm has not been reported, although a further reduction in thickness is desired to improve spatial resolution. In the present study, to fabricate thinner Si3N4 membranes with a thickness of less than 5 nm in a wafer, a new fabrication process that employs a polycrystalline-Si (poly-Si) sacrificial layer was developed. This process enables the stable fabrication of Si3N4 membranes with thicknesses of 3 nm. Nanopores were fabricated in the membrane using a transmission electron microscope (TEM) beam. Based on the relationship between the ionic current through the nanopores and their diameter, the effective thickness of the nanopores was estimated to range from 0.6 to 2.2 nm. Moreover, DNA translocation through the nanopores was observed. [ABSTRACT FROM AUTHOR]

Published

2015

21. Ionic transport through sub-10 nm diameter hydrophobic high-aspect ratio nanopores: experiment, theory and simulation.

Author

Balme, Sébastien, Picaud, Fabien, Manghi, Manoel, Palmeri, John, Bechelany, Mikhael, Cabello-Aguilar, Simon, Abou-Chaaya, Adib, Miele, Philippe, Balanzat, Emmanuel, and Janot, Jean Marc

Subjects

ION transport (Biology), HYDROPHOBIC surfaces, NANOPORES, BIOSENSORS, MACHINE design, NANOFILTRATION, ELECTRIC admittance, EXPERIMENTS, SIMULATION methods & models

Abstract

Fundamental understanding of ionic transport at the nanoscale is essential for developing biosensors based on nanopore technology and new generation high-performance nanofiltration membranes for separation and purification applications. We study here ionic transport through single putatively neutral hydrophobic nanopores with high aspect ratio (of length L = 6 μm with diameters ranging from 1 to 10 nm) and with a well controlled cylindrical geometry. We develop a detailed hybrid mesoscopic theoretical approach for the electrolyte conductivity inside nanopores, which considers explicitly ion advection by electro-osmotic flow and possible flow slip at the pore surface. By fitting the experimental conductance data we show that for nanopore diameters greater than 4 nm a constant weak surface charge density of about 10−2 C m−2 needs to be incorporated in the model to account for conductance plateaus of a few pico-siemens at low salt concentrations. For tighter nanopores, our analysis leads to a higher surface charge density, which can be attributed to a modification of ion solvation structure close to the pore surface, as observed in the molecular dynamics simulations we performed. [ABSTRACT FROM AUTHOR]

Published

2015

22. Sediment load assessments under climate change scenarios and a lack of integration between climatologists and environmental modelers

Author

Szalińska, Ewa, Orlińska-Woźniak, Paulina, Wilk, Paweł, Jakusik, Ewa, Skalák, Petr, Wypych, Agnieszka, and Arnold, Jeff

Published

2024

23. Satellite data is revealing long time changes in the world largest lakes

Author

Kutser, Tiit and Soomets, Tuuli

Published

2024

24. Reduced precipitation can induce ecosystem regime shifts in lakes by increasing internal nutrient recycling

Author

Catalan, Jordi, Monteoliva, Agustín P., Vega, José Carlos, Domínguez, Almudena, Negro, Ana I., Alonso, Rocío, Garcés, Blas Valero, Batalla, Meritxell, García-Gómez, Héctor, Leira, Manel, Nuño, Carlos, Pahissa, José, Peg, María, Pla-Rabés, Sergi, Roblas, Neftalí, Vargas, José Luis, and Toro, Manuel

Published

2024

25. Determining sea-level rise in the Caribbean: A shift from temperature to mass control

Author

Maitland, Deron O., Richter, Kristin, Raj, Roshin P., Bonaduce, Antonio, Nisancioglu, Kerim H., Taylor, Michael A., and Stephenson, Tannecia S.

Published

2024

26. Fingerprinting Mediterranean hurricanes using pre-event thermal drops in seawater temperature

Author

Scardino, Giovanni, Miglietta, Mario Marcello, Kushabaha, Alok, Casella, Elisa, Rovere, Alessio, Besio, Giovanni, Borzì, Alfio Marco, Cannata, Andrea, Mazza, Gianfranco, Sabato, Gaetano, and Scicchitano, Giovanni

Published

2024

27. Robust acceleration of Earth system heating observed over the past six decades

Author

Minière, Audrey, von Schuckmann, Karina, Sallée, Jean-Baptiste, and Vogt, Linus

Published

2023

28. Sea level variability and modeling in the Gulf of Guinea using supervised machine learning

Author

Ayinde, Akeem Shola, Yu, Huaming, and Wu, Kejian

Published

2023

29. Central Mongolian lake sediments reveal new insights on climate change and equestrian empires in the Eastern Steppes

Author

Struck, Julian, Bliedtner, Marcel, Strobel, Paul, Taylor, William, Biskop, Sophie, Plessen, Birgit, Klaes, Björn, Bittner, Lucas, Jamsranjav, Bayarsaikhan, Salazar, Gary, Szidat, Sönke, Brenning, Alexander, Bazarradnaa, Enkhtuya, Glaser, Bruno, Zech, Michael, and Zech, Roland

Published

2022

30. Numerical analysis of the relationship between mixing regime, nutrient status, and climatic variables in Lake Biwa

Author

Zhou, Jinxin, Yoshida, Takero, and Kitazawa, Daisuke

Published

2022

31. Exceptional warming over the Barents area

Author

Isaksen, Ketil, Nordli, Øyvind, Ivanov, Boris, Køltzow, Morten A. Ø., Aaboe, Signe, Gjelten, Herdis M., Mezghani, Abdelkader, Eastwood, Steinar, Førland, Eirik, Benestad, Rasmus E., Hanssen-Bauer, Inger, Brækkan, Ragnar, Sviashchennikov, Pavel, Demin, Valery, Revina, Anastasiia, and Karandasheva, Tatiana

Published

2022

32. Multi-column modelling of lake Geneva for climate applications

Author

Gaillard, Romain, Perroud, Marjorie, Goyette, Stéphane, and Kasparian, Jérôme

Published

2022

33. Analysis of atmospheric temperature data by 4D spatial–temporal statistical model

Author

Xu, Ke and Wang, Yaqiong

Published

2021

34. Shifting seasonality of cyclones and western boundary current interactions in Bay of Bengal as observed during Amphan and Fani

Author

Sil, Sourav, Gangopadhyay, Avijit, Gawarkiewicz, Glen, and Pramanik, Saikat

Published

2021

35. Global wave number-4 pattern in the southern subtropical sea surface temperature

Author

Senapati, Balaji, Dash, Mihir K., and Behera, Swadhin K.

Published

2021

36. Deeper waters are changing less consistently than surface waters in a global analysis of 102 lakes

Author

Pilla, Rachel M., Williamson, Craig E., Adamovich, Boris V., Adrian, Rita, Anneville, Orlane, Chandra, Sudeep, Colom-Montero, William, Devlin, Shawn P., Dix, Margaret A., Dokulil, Martin T., Gaiser, Evelyn E., Girdner, Scott F., Hambright, K. David, Hamilton, David P., Havens, Karl, Hessen, Dag O., Higgins, Scott N., Huttula, Timo H., Huuskonen, Hannu, Isles, Peter D. F., Joehnk, Klaus D., Jones, Ian D., Keller, Wendel Bill, Knoll, Lesley B., Korhonen, Johanna, Kraemer, Benjamin M., Leavitt, Peter R., Lepori, Fabio, Luger, Martin S., Maberly, Stephen C., Melack, John M., Melles, Stephanie J., Müller-Navarra, Dörthe C., Pierson, Don C., Pislegina, Helen V., Plisnier, Pierre-Denis, Richardson, David C., Rimmer, Alon, Rogora, Michela, Rusak, James A., Sadro, Steven, Salmaso, Nico, Saros, Jasmine E., Saulnier-Talbot, Émilie, Schindler, Daniel E., Schmid, Martin, Shimaraeva, Svetlana V., Silow, Eugene A., Sitoki, Lewis M., Sommaruga, Ruben, Straile, Dietmar, Strock, Kristin E., Thiery, Wim, Timofeyev, Maxim A., Verburg, Piet, Vinebrooke, Rolf D., Weyhenmeyer, Gesa A., and Zadereev, Egor

Published

2020

37. Coral cover surveys corroborate predictions on reef adaptive potential to thermal stress

Author

Selmoni, Oliver, Lecellier, Gaël, Vigliola, Laurent, Berteaux-Lecellier, Véronique, and Joost, Stéphane

Published

2020

38. Intermittent meromixis controls the trophic state of warming deep lakes

Author

Lau, Maximilian P., Valerio, Giulia, Pilotti, Marco, and Hupfer, Michael

Published

2020

39. Elevated primary productivity triggered by mixing in the quasi-cul-de-sac Taiwan Strait during the NE monsoon

Author

Huang, Ting-Hsuan, Chen, Chen-Tung Arthur, Bai, Yan, and He, Xianqiang

Published

2020