Your search keyword '"Colinet P"' showing total 626 results

1. Memory and Friction: From the Nanoscale to the Macroscale

Author

Dalton, Benjamin A., Klimek, Anton, Kiefer, Henrik, Brünig, Florian N., Colinet, Hélène, Tepper, Lucas, Abbasi, Amir, and Netz, Roland R.

Subjects

Physics - Chemical Physics

Abstract

Friction is a phenomenon that manifests across all spatial and temporal scales, from the molecular to the macroscopic scale. It describes the dissipation of energy from the motion of particles or abstract reaction coordinates and arises in the transition from a detailed molecular-level description to a simplified, coarse-grained model. It has long been understood that time-dependent (non-Markovian) friction effects are critical for describing the dynamics of many systems, but that they are notoriously difficult to evaluate for complex physical, chemical, and biological systems. In recent years, the development of advanced numerical friction extraction techniques and methods to simulate the generalized Langevin equation have enabled exploration of the role of time-dependent friction across all scales. We discuss recent applications of these friction extraction techniques and the growing understanding of the role of friction in complex equilibrium and non-equilibrium dynamic many-body systems., Comment: 26 pages, 6 figures

Published

2024

2. Small Leidenfrost droplet dynamics

Author

Sobac, Benjamin, Rednikov, Alexey, and Colinet, Pierre

Subjects

Physics - Fluid Dynamics, Condensed Matter - Soft Condensed Matter

Abstract

An isolated Leidenfrost droplet levitating over its own vapor above a superheated flat substrate is considered theoretically, the superheating for water being up to several hundred degrees above the boiling temperature. The focus is on the limit of small, practically spherical droplets of several tens of micrometers or less. This may occur when the liquid is sprayed over a hot substrate, or just be a late life stage of an initially large Leidenfrost droplet. A rigorous numerically-assisted analysis is carried out within verifiable assumptions such as quasi-stationarities and small Reynolds/P\'{e}clet numbers. It is considered that the droplet is surrounded by its pure vapor. Simple fitting formulas of our numerical data for the forces and evaporation rates are preliminarily obtained, all respecting the asymptotic behaviors (also investigated) in the limits of small and large levitation heights. They are subsequently used within a system of ODEs to study the droplet dynamics and take-off (drastic height increase as the droplet vaporizes). A previously known quasi-stationary inverse-square root law for the droplet height as a function of its radius (at the root of the take-off) is recovered, although we point out different prefactors in the two limits. Deviations of a dynamic nature therefrom are uncovered as the droplet radius further decreases due to evaporation, improving the agreement with experiment. Furthermore, we reveal that, if initially large enough, the droplets vanish at a universal finite height (just dependent on the superheat and fluid properties). Scalings in various distinguished cases are obtained in the way.

Published

2024

3. Environmental factors driving infestations of a keystone winter fruit by an invasive and a native fruit fly

Author

Deconninck, Gwenaëlle, Boulembert, Méghan, Eslin, Patrice, Couty, Aude, Bonis, Anne, Borowiec, Nicolas, Buch, Inessa, Colinet, Hervé, Delbac, Lionel, Dubois, Françoise, Foray, Vincent, Gallet-Moron, Emilie, Lemauviel-Lavenant, Servane, Llopis, Stéphanie, Odoux, Jean-Francois, Pincebourde, Sylvain, Thaon, Marcel, Till-Bottraud, Irène, and Chabrerie, Olivier

Published

2024

4. A priori $L^\infty-$bound for Ginzburg-Landau energy minimizers with divergence penalization

Author

Bronsard, Lia, Colinet, Andrew, and Stantejsky, Dominik

Subjects

Mathematics - Analysis of PDEs

Abstract

We consider minimizers $u_\varepsilon$ of the Ginzburg-Landau energy with quadratic divergence penalization on a simply-connected two-dimensional domain $\Omega$. On the boundary, strong tangential anchoring is imposed. We prove that minimizers satisfy a $L^\infty$-bound uniform in $\varepsilon$ when $\Omega$ has $C^{2,1}-$boundary and that the Lipschitz constant blows up like $\varepsilon^{-1}$ when $\Omega$ has $C^{3,1}-$boundary. Our theorem extends to $W^{2,p}-$regularity result for our elliptic system with mixed Dirichlet-Neumann boundary condition., Comment: 32 pages, 3 figures

Published

2024

5. Application of soil amendments to reduce the transfer of trace metal elements from contaminated soils of Lubumbashi (Democratic Republic of the Congo) to vegetables

Author

Katebe, Félicien Mununga, Colinet, Gilles, Kyalamakasa, Jean-Marc Kaumbu, Mubemba, Michel Mpundu, and Jijakli, M. Haïssam

Published

2024

6. Equivalency of PDM3700 and PDM3600 Dust Monitors

Author

Tuchman, Donald P., Mischler, Steven E., Cauda, Emanuele G., Colinet, Jay F., and Rubinstein, Elaine N.

Published

2024

7. $\Gamma$-Convergence of the Ginzburg-Landau Functional with tangential boundary conditions

Author

Alama, Stan, Bronsard, Lia, and Colinet, Andrew

Subjects

Mathematics - Analysis of PDEs

Abstract

A classical result in the study of Ginzburg-Landau equations is that, for Dirichlet or Neumann boundary conditions, if a sequence of functions has energy uniformly bounded on a logarithmic scale then we can find a subsequence whose Jacobians are convergent in suitable dual spaces and whose renormalized energy is at least the sum of absolute degrees of vortices. However, the corresponding question for the case of tangential or normal boundary conditions has not been considered. In addition, the question of convergence of up to the boundary is not very well understood. Here, we consider these questions for a bounded, connected, open set of $\mathbb{R}^{2}$ with $C^{2,1}$ boundary., Comment: 48 pages, 3 figures

Published

2023

8. Short-Term Effects of Incorporation Depth of Straw Combined with Manure During the Fallow Season on Maize Production, Water Efficiency, and Nutrient Utilization in Rainfed Regions

Author

Shengchang Huai, Shichao Wang, Weijia Yu, Qingyue Zhang, Hongliang Wu, Tingting Xing, Yuwen Jin, Gilles Colinet, and Changai Lu

Subjects

organic waste, soil fertility, root morphology, yield, rainfed agricultural areas, Agriculture

Abstract

Diminishing soil fertility and crop productivity due to traditional intensive cultivation has prompted the use of straw and manure to improve soil health in Northeast China. However, few comparative studies have explored the influence of varying straw and manure incorporation depths on crop growth. A field experiment in the rainfed black soil regions of Gongzhuling and Keshan assessed the effects of deep (30 cm) and shallow (15 cm) incorporations of straw and manure on soil fertility, maize root growth, and maize productivity. Deep incorporations, via subsoiling tillage (DST) and deep-plow (DDT) tillage, enhanced soil water storage of 30–100 cm soil layer during periods of low rainfall, improved the availability of nutrients (nitrogen, phosphorus, and potassium) and soil organic matter content, especially in deeper soil, compared to shallow incorporation using rotary tillage (SRT). Both DST and DDT induced a larger rooting depth and a higher fine root (diameter class 0–0.5 mm) length density by 31.0% and 28.9%, respectively, accompanied by reduced root turnover. Furthermore, the sub-surface foraging strategies of roots under the DST and DDT treatments boosted the total nitrogen, phosphorus, and potassium uptake (6.5–17.9%) and achieved a higher dry mass accumulation during the later growth period, thus leading to notable improvements in the 100-kernel weight and yield (16.1–19.7%) and enhancing water- and nutrient-use efficiencies by 2.5–20.5%. Overall, compared to shallow incorporation, deep incorporation of straw and manure significantly enhances root growth and spatial distribution of soil water and nutrients, which has great potential for increasing maize yield in rainfed agricultural areas.

Published

2024

9. Both yields of maize and soybean and soil carbon sequestration in typical Mollisols cropland decrease under future climate change: SPACSYS simulation

Author

Shuo Liang, Nan Sun, Bernard Longdoz, Jeroen Meersmans, Xingzhu Ma, Hongjun Gao, Xubo Zhang, Lei Qiao, Gilles Colinet, Minggang Xu, and Lianhai Wu

Subjects

yield, SOC stock, carbon sequestration efficiency, Mollisols, SPACSYS model, long-term fertilization, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Although Mollisols are renowned for their fertility and high-productivity, high carbon (C) losses pose a substantial challenge to the sustainable provision of ecosystem services, including food security and climate regulation. Protecting these soils with a specific focus on revitalizing their C sequestration potential emerges as a crucial measure to address various threats associated with climate change. In this study, we employed a modeling approach to assess the impact of different fertilization strategies on crop yield, soil organic carbon (SOC) stock, and C sequestration efficiency (CSE) under various climate change scenarios (baseline, RCP 2.6, RCP 4.5, and RCP 8.5). The process-based SPACSYS model was calibrated and validated using data from two representative Mollisol long-term experiments in Northeast China, including three crops (wheat, maize and soyabean) and four fertilizations (no-fertilizer (CK), mineral nitrogen, phosphorus and potassium (NPK), manure only (M), and chemical fertilizers plus M (NPKM or NM)). SPACSYS effectively simulated crop yields and the dynamics of SOC stock. According to SPACSYS projections, climate change, especially the increased temperature, is anticipated to reduce maize yield by an average of 14.5% in Harbin and 13.3% in Gongzhuling, and soybean yield by an average of 10.6%, across all the treatments and climatic scenarios. Conversely, a slight but not statistically significant average yield increase of 2.5% was predicted for spring wheat. SOC stock showed a decrease of 8.2% for Harbin and 7.6% for Gonghzuling by 2,100 under the RCP scenarios. Future climates also led to a reduction in CSE by an average of 6.0% in Harbin (except NPK) and 13.4% in Gongzhuling. In addition, the higher average crop yields, annual SOC stocks, and annual CSE (10.15–15.16%) were found when manure amendments were performed under all climate scenarios compared with the chemical fertilization. Soil CSE displayed an exponential decrease with the C accumulated input, asymptotically approaching a constant. Importantly, the CSE asymptote associated with manure application was higher than that of other treatments. Our findings emphasize the consequences of climate change on crop yields, SOC stock, and CSE in the Mollisol regions, identifying manure application as a targeted fertilizer practice for effective climate change mitigation.

Published

2024

10. Structural descriptions of limits of the parabolic Ginzburg-Landau equation on closed manifolds

Author

Colinet, Andrew

Subjects

Mathematics - Analysis of PDEs, 35B40 (Primary) 35Q56 (Secondary)

Abstract

In the setting of a compact Riemannian manifold of dimension $N\ge3$ we provide a structural description of the limiting behaviour of the energy measures of solutions to the parabolic Ginzburg-Landau equation. In particular, we provide a decomposition of the limiting energy measure into a diffuse part, which is absolutely continuous with respect to the volume measure, and a concentrated part supported on a codimension $2$ rectifiable subset. We also demonstrate that the time evolution of the diffuse part is determined by the heat equation while the concentrated part evolves according to a Brakke flow. This paper extends the work of Bethuel, Orlandi, and Smets., Comment: 63 pages

Published

2021

11. Horizontal acquisition of a DNA ligase improves DNA damage tolerance in eukaryotes

Author

Emilien Nicolas, Paul Simion, Marc Guérineau, Matthieu Terwagne, Mathilde Colinet, Julie Virgo, Maxime Lingurski, Anaïs Boutsen, Marc Dieu, Bernard Hallet, and Karine Van Doninck

Subjects

Science

Abstract

Abstract Bdelloid rotifers are part of the restricted circle of multicellular animals that can withstand a wide range of genotoxic stresses at any stage of their life cycle. In this study, bdelloid rotifer Adineta vaga is used as a model to decipher the molecular basis of their extreme tolerance. Proteomic analysis shows that a specific DNA ligase, different from those usually involved in DNA repair in eukaryotes, is strongly over-represented upon ionizing radiation. A phylogenetic analysis reveals its orthology to prokaryotic DNA ligase E, and its horizontal acquisition by bdelloid rotifers and plausibly other eukaryotes. The fungus Mortierella verticillata, having a single copy of this DNA Ligase E homolog, also exhibits an increased radiation tolerance with an over-expression of this DNA ligase E following X-ray exposure. We also provide evidence that A. vaga ligase E is a major contributor of DNA breaks ligation activity, which is a common step of all important DNA repair pathways. Consistently, its heterologous expression in human cell lines significantly improves their radio-tolerance. Overall, this study highlights the potential of horizontal gene transfers in eukaryotes, and their contribution to the adaptation to extreme conditions.

Published

2023

12. Is temperature change a key driver of the regional differences in electricity consumption of the economic sectors in Spain (2000–2016)?

Author

Román-Collado, Rocío, Colinet-Carmona, María J., and Fárez-Plasencia, María I.

Published

2023

13. OPTIMADE, an API for exchanging materials data

Author

Andersen, Casper W., Armiento, Rickard, Blokhin, Evgeny, Conduit, Gareth J., Dwaraknath, Shyam, Evans, Matthew L., Fekete, Ádám, Gopakumar, Abhijith, Gražulis, Saulius, Merkys, Andrius, Mohamed, Fawzi, Oses, Corey, Pizzi, Giovanni, Rignanese, Gian-Marco, Scheidgen, Markus, Talirz, Leopold, Toher, Cormac, Winston, Donald, Aversa, Rossella, Choudhary, Kamal, Colinet, Pauline, Curtarolo, Stefano, Di Stefano, Davide, Draxl, Claudia, Er, Suleyman, Esters, Marco, Fornari, Marco, Giantomassi, Matteo, Govoni, Marco, Hautier, Geoffroy, Hegde, Vinay, Horton, Matthew K., Huck, Patrick, Huhs, Georg, Hummelshøj, Jens, Kariryaa, Ankit, Kozinsky, Boris, Kumbhar, Snehal, Liu, Mohan, Marzari, Nicola, Morris, Andrew J., Mostofi, Arash, Persson, Kristin A., Petretto, Guido, Purcell, Thomas, Ricci, Francesco, Rose, Frisco, Scheffler, Matthias, Speckhard, Daniel, Uhrin, Martin, Vaitkus, Antanas, Villars, Pierre, Waroquiers, David, Wolverton, Chris, Wu, Michael, and Yang, Xiaoyu

Subjects

Condensed Matter - Materials Science

Abstract

The Open Databases Integration for Materials Design (OPTIMADE) consortium has designed a universal application programming interface (API) to make materials databases accessible and interoperable. We outline the first stable release of the specification, v1.0, which is already supported by many leading databases and several software packages. We illustrate the advantages of the OPTIMADE API through worked examples on each of the public materials databases that support the full API specification., Comment: 11 pages, 1 table

Published

2021

14. Solutions of the Ginzburg-Landau equations with vorticity concentrating near a nondegenerate geodesic

Author

Colinet, Andrew, Jerrard, Robert, and Sternberg, Peter

Subjects

Mathematics - Analysis of PDEs

Abstract

It is well-known that under suitable hypotheses, for a sequence of solutions of the (simplified) Ginzburg-Landau equations $-\Delta u_\varepsilon +\varepsilon^{-2}(|u_\varepsilon|^2-1)u_\varepsilon = 0$, the energy and vorticity concentrate as $\varepsilon\to 0$ around a codimension $2$ stationary varifold -- a (measure theoretic) minimal surface. Much less is known about the question of whether, given a codimension $2$ minimal surface, there exists a sequence of solutions for which the given minimal surface is the limiting concentration set. The corresponding question is very well-understood for minimal hypersurfaces and the scalar Allen-Cahn equation, and for the Ginzburg-Landau equations when the minimal surface is locally area-minimizing, but otherwise quite open. We consider this question on a $3$-dimensional closed Riemannian manifold $(M,g)$, and we prove that any embedded nondegenerate closed geodesic can be realized as the asymptotic energy/vorticity concentration set of a sequence of solutions of the Ginzburg-Landau equations., Comment: 35 pages

Published

2021

15. Long-Term Manuring Enhanced Compositional Stability of Glomalin-Related Soil Proteins through Arbuscular Mycorrhizal Fungi Regulation

Author

Hongbo Yang, Zejiang Cai, Caroline De Clerck, Jeroen Meersmans, Gilles Colinet, and Wenju Zhang

Subjects

long-term fertilization, soil physicochemical properties, glomalin-related soil proteins, arbuscular mycorrhizal fungi, three-dimensional fluorescence, Agriculture (General), S1-972

Abstract

Glomalin-related soil proteins (GRSP) play a crucial role in strengthening soil structure and increasing carbon (C) storage. However, the chemical stability of GRSP and related arbuscular mycorrhizal fungi (AMF) community response to fertilization remains unclear. This study investigated C and nitrogen (N) contents, three-dimensional fluorescence characteristics in GRSP, and AMF properties based on a field experiment that was subjected to 29 years of various fertilizations. The experiment included treatments with no fertilizer (CK), chemical fertilizer (NPK), manure (M), and manure combined with NPK (NPKM) treatments. Results showed that GRSP contained 37–49% C and 6–9% N, respectively. Compared with CK and NPK, the C and N proportions in GRSP significantly increased under M and NPKM. Using the parallel factor model, four fluorescent components of GRSP were identified: one fulvic acid-like component (C2), one tyrosine-like component (C4), and two humic acid-like components (C1, C3). Under M and NPKM, the fluorescent intensity of C2 and C4 decreased, while the humification index (HIX) increased relative to CK and NPK, indicating that organic fertilization could enhance the stability of GRSP. The C and N proportion in GRSP positively associated with soil organic C (SOC), total N (TN), available phosphorus (AP), AMF biomass, and diversity, while C2 and C4 showed negative associations. Structural equation modeling further revealed that manure-induced changes in pH, SOC, TN, and AP increased AMF biomass and diversity, thereby altering GRSP composition and stability. This study provides valuable insights into the compositional traits of GRSP, contributing to sustainable soil management and C sequestration in agroecosystems.

Published

2024

16. Polyphosphate fertilizer impacts the enzymatic and non-enzymatic antioxidant capacity of wheat plants grown under salinity

Author

Aicha Loudari, Salma Latique, Asmae Mayane, Gilles Colinet, and Abdallah Oukarroum

Subjects

Medicine, Science

Abstract

Abstract By 2050, the predicted global population is set to reach 9.6 billion highlighting the urgent need to increase crop productivity to meet the growing demand for food. This is becoming increasingly challenging when soils are saline and/or deficient in phosphorus (P). The synergic effect of P deficiency and salinity causes a series of secondary stresses including oxidative stress. Reactive Oxygen Species (ROS) production and oxidative damage in plants caused either by P limitation or by salt stress may restrict the overall plant performances leading to a decline in crop yield. However, the P application in adequate forms and doses could positively impact the growth of plants and enhances their tolerance to salinity. In our investigation, we evaluated the effect of different P fertilizers forms (Ortho-A, Ortho-B and Poly-B) and increasing P rates (0, 30 and 45 ppm) on the plant's antioxidant system and P uptake of durum wheat (Karim cultivar) grown under salinity (EC = 3.003 dS/m). Our results demonstrated that salinity caused a series of variations in the antioxidant capacity of wheat plants, at both, enzymatic and non-enzymatic levels. Remarkably, a strong correlation was observed between P uptake, biomass, various antioxidant system parameters and P rates and sources. Soluble P fertilizers considerably enhanced the total plant performances under salt stress compared with control plants grown under salinity and P deficiency (C+). Indeed, salt-stressed and fertilized plants exhibited a robust antioxidant system revealed by the increase in enzymatic activities of Catalase (CAT) and Ascorbate peroxidase (APX) and a significant accumulation of Proline, total polyphenols content (TPC) and soluble sugars (SS) as well as increased biomass, Chlorophyll content (CCI), leaf protein content and P uptake compared to unfertilized plants. Compared to OrthoP fertilizers at 45 ppm P, Poly-B fertilizer showed significant positive responses at 30 ppm P where the increase reached + 18.2% in protein content, + 156.8% in shoot biomass, + 93% in CCI, + 84% in shoot P content, + 51% in CAT activity, + 79% in APX activity, + 93% in TPC and + 40% in SS compared to C+. This implies that PolyP fertilizers might be an alternative for the suitable management of phosphorus fertilization under salinity.

Published

2023

17. Editorial: Soil health, functions, and ecosystem services: insights into soil parameters and methods of integration

Author

Jeroen Meersmans, Gilles Colinet, and Wakene Negassa

Subjects

soil health, soil quality, soil functions, ecosystem services, climate regulation, food security, Environmental sciences, GE1-350

Published

2024

18. Independence of synthetic Curvature Dimension conditions on transport distance exponent

Author

Akdemir, Afiny, Cavalletti, Fabio, Colinet, Andrew, McCann, Robert, and Santarcangelo, Flavia

Subjects

Mathematics - Differential Geometry, Mathematics - Metric Geometry

Abstract

The celebrated Lott-Sturm-Villani theory of metric measure spaces furnishes synthetic notions of a Ricci curvature lower bound $K$ joint with an upper bound $N$ on the dimension. Their condition, called the Curvature-Dimension condition and denoted by $\mathrm{CD}(K,N)$, is formulated in terms of a modified displacement convexity of an entropy functional along $W_{2}$-Wasserstein geodesics. We show that the choice of the squared-distance function as transport cost does not influence the theory. By denoting with $\mathrm{CD}_{p}(K,N)$ the analogous condition but with the cost as the $p^{th}$ power of the distance, we show that $\mathrm{CD}_{p}(K,N)$ are all equivalent conditions for any $p>1$ -- at least in spaces whose geodesics do not branch. We show that the trait d'union between all the seemingly unrelated $\mathrm{CD}_{p}(K,N)$ conditions is the needle decomposition or localization technique associated to the $L^{1}$-optimal transport problem. We also establish the local-to-global property of $\mathrm{CD}_{p}(K,N)$ spaces.

Published

2020

19. Topological defects and SUSY RG flow

Author

Brunner, Ilka, Mayer, Ingrid, and Schmidt-Colinet, Cornelius

Subjects

High Energy Physics - Theory

Abstract

We study the effect of bulk perturbations of N=(2,2) superconformal minimal models on topological defects. In particular, symmetries and more general topological defects which survive the flow to the IR are identified. Our method is to consider the topological subsector and make use of the Landau-Ginzburg formulation to describe RG flows and topological defects in terms of matrix factorizations., Comment: 39 pages, 6 figures

Published

2020

20. Horizontal acquisition of a DNA ligase improves DNA damage tolerance in eukaryotes

Author

Nicolas, Emilien, Simion, Paul, Guérineau, Marc, Terwagne, Matthieu, Colinet, Mathilde, Virgo, Julie, Lingurski, Maxime, Boutsen, Anaïs, Dieu, Marc, Hallet, Bernard, and Van Doninck, Karine

Published

2023

21. Polyphosphate fertilizer impacts the enzymatic and non-enzymatic antioxidant capacity of wheat plants grown under salinity

Author

Loudari, Aicha, Latique, Salma, Mayane, Asmae, Colinet, Gilles, and Oukarroum, Abdallah

Published

2023

22. OPTIMADE, an API for exchanging materials data.

Author

Andersen, Casper W, Armiento, Rickard, Blokhin, Evgeny, Conduit, Gareth J, Dwaraknath, Shyam, Evans, Matthew L, Fekete, Ádám, Gopakumar, Abhijith, Gražulis, Saulius, Merkys, Andrius, Mohamed, Fawzi, Oses, Corey, Pizzi, Giovanni, Rignanese, Gian-Marco, Scheidgen, Markus, Talirz, Leopold, Toher, Cormac, Winston, Donald, Aversa, Rossella, Choudhary, Kamal, Colinet, Pauline, Curtarolo, Stefano, Di Stefano, Davide, Draxl, Claudia, Er, Suleyman, Esters, Marco, Fornari, Marco, Giantomassi, Matteo, Govoni, Marco, Hautier, Geoffroy, Hegde, Vinay, Horton, Matthew K, Huck, Patrick, Huhs, Georg, Hummelshøj, Jens, Kariryaa, Ankit, Kozinsky, Boris, Kumbhar, Snehal, Liu, Mohan, Marzari, Nicola, Morris, Andrew J, Mostofi, Arash A, Persson, Kristin A, Petretto, Guido, Purcell, Thomas, Ricci, Francesco, Rose, Frisco, Scheffler, Matthias, Speckhard, Daniel, Uhrin, Martin, Vaitkus, Antanas, Villars, Pierre, Waroquiers, David, Wolverton, Chris, Wu, Michael, and Yang, Xiaoyu

Abstract

The Open Databases Integration for Materials Design (OPTIMADE) consortium has designed a universal application programming interface (API) to make materials databases accessible and interoperable. We outline the first stable release of the specification, v1.0, which is already supported by many leading databases and several software packages. We illustrate the advantages of the OPTIMADE API through worked examples on each of the public materials databases that support the full API specification.

Published

2021

23. They live under our streets: ant nests (Hymenoptera, Formicidae) in urban pavements

Author

Louise Dijon, Wouter Dekoninck, Gilles Colinet, Frédéric Francis, and Grégoire Noel

Subjects

urban ecology, urban conservation, ground-dwelling, Biology (General), QH301-705.5

Abstract

In the context of global insect decline, the urbanisation process plays a key role. However, urban pavements, which are considered to be impervious to biodiversity, can harbour ground-nesting insects under certain conditions. Recent observations have revealed the presence of Formicidae nests under urban pavements. The aim of this work is to determine the species richness of Formicidae nesting under urban pavements in the Brussels-Capital Region (Belgium) and to characterise their nest environment and soil texture. Seven ant species were identified in 120 nesting sites: Lasius niger, Lasius brunneus, Lasius flavus, Lasius fuliginosus, Tetramorium caespitum, Tetramorium impurum and Myrmica rugulosa. Concrete slabs or natural stones with a sandy sub-layer are the main structures in which ants nest. In addition, nests were mainly found under modular pavements with degraded rigid joints. The results of this work highlight the capacity of urban structures to host part of ant biodiversity in cities.

Published

2023

24. Length of the Remnant Cystic Duct and Bile Duct Stone Recurrence: a Case‒Control Study

Author

Burckhardt, Oliver, Peisl, Sarah, Rouiller, Benoit, Colinet, Emilie, and Egger, Bernhard

Published

2023

25. Functional insights from the GC-poor genomes of two aphid parasitoids, Aphidius ervi and Lysiphlebus fabarum

Author

Dennis, Alice B, Ballesteros, Gabriel I, Robin, Stéphanie, Schrader, Lukas, Bast, Jens, Berghöfer, Jan, Beukeboom, Leo W, Belghazi, Maya, Bretaudeau, Anthony, Buellesbach, Jan, Cash, Elizabeth, Colinet, Dominique, Dumas, Zoé, Errbii, Mohammed, Falabella, Patrizia, Gatti, Jean-Luc, Geuverink, Elzemiek, Gibson, Joshua D, Hertaeg, Corinne, Hartmann, Stefanie, Jacquin-Joly, Emmanuelle, Lammers, Mark, Lavandero, Blas I, Lindenbaum, Ina, Massardier-Galata, Lauriane, Meslin, Camille, Montagné, Nicolas, Pak, Nina, Poirié, Marylène, Salvia, Rosanna, Smith, Chris R, Tagu, Denis, Tares, Sophie, Vogel, Heiko, Schwander, Tanja, Simon, Jean-Christophe, Figueroa, Christian C, Vorburger, Christoph, Legeai, Fabrice, and Gadau, Jürgen

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Animals, Aphids, DNA Methylation, GC Rich Sequence, Genomics, Insect Proteins, Sex Determination Processes, Venoms, Wasps, Parasitoid wasp, Aphid host, Aphidius ervi, Lysiphlebus fabarum, GC content, de novo genome assembly, DNA methylation loss, Chemosensory genes, Venom proteins, Toll and Imd pathways, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences

Abstract

BackgroundParasitoid wasps have fascinating life cycles and play an important role in trophic networks, yet little is known about their genome content and function. Parasitoids that infect aphids are an important group with the potential for biological control. Their success depends on adapting to develop inside aphids and overcoming both host aphid defenses and their protective endosymbionts.ResultsWe present the de novo genome assemblies, detailed annotation, and comparative analysis of two closely related parasitoid wasps that target pest aphids: Aphidius ervi and Lysiphlebus fabarum (Hymenoptera: Braconidae: Aphidiinae). The genomes are small (139 and 141 Mbp) and the most AT-rich reported thus far for any arthropod (GC content: 25.8 and 23.8%). This nucleotide bias is accompanied by skewed codon usage and is stronger in genes with adult-biased expression. AT-richness may be the consequence of reduced genome size, a near absence of DNA methylation, and energy efficiency. We identify missing desaturase genes, whose absence may underlie mimicry in the cuticular hydrocarbon profile of L. fabarum. We highlight key gene groups including those underlying venom composition, chemosensory perception, and sex determination, as well as potential losses in immune pathway genes.ConclusionsThese findings are of fundamental interest for insect evolution and biological control applications. They provide a strong foundation for further functional studies into coevolution between parasitoids and their hosts. Both genomes are available at https://bipaa.genouest.org.

Published

2020

26. Ambient background and quality reference values for trace metals in soils from Algeria

Author

Abdelkader Laribi, Charles Shand, Renate Wendler, Brahim Mouhouche, Stephen Hillier, and Gilles Colinet

Subjects

environmental assessment, mitidja plain, potentially toxic elements, soil contamination, threshold value, Agriculture

Abstract

The establishment of the reference ambient background concentrations (ABCs) and quality reference values (QRVs) for trace metal (TM) concentrations in soils are required for the environmental assessment and any implementation of a protective action. This information is lacking for soils of the eastern Mitidja plain, which is an important agricultural production area in Algeria. Data for the aqua regia extractable Cd, Cr, Cu, Fe, Ni, Pb and Zn concentrations from 180 composite topsoil samples taken across the Mitidja plain in a stratified random pattern were statistically analysed. Descriptive statistical methods and linear regression equations were applied to determine the upper limit of the ABCs for the TMs. After removal of outliers, the derived QRVs were: Cd 0.24, Cr 62.1, Cu 99.3, Fe 45 590, Ni 47.7, Pb 33 and Zn 115 mg/kg. Iron is a macro element in the soils, but is included as its concentration can be used to normalise the concentrations of the other elements. The derived QRVs are similar or less than those reported for other regions of the world, apart from Cu, where a wide range (36 to 206 mg/kg) is reported. These reference values can be used to identify areas that may require follow-up surveys or to identify priority sites for decision making.

Published

2023

27. Development, multi-institutional external validation, and algorithmic audit of an artificial intelligence-based Side-specific Extra-Prostatic Extension Risk Assessment tool (SEPERA) for patients undergoing radical prostatectomy: a retrospective cohort study

Author

Jethro C C Kwong, MD, Adree Khondker, BHSc, Eric Meng, BSc, Nicholas Taylor, BSc, Cynthia Kuk, MSc, Nathan Perlis, MD, Girish S Kulkarni, ProfMD, Robert J Hamilton, MD, Neil E Fleshner, ProfMD, Antonio Finelli, ProfMD, Theodorus H van der Kwast, ProfMD, Amna Ali, BSc, Munir Jamal, MD, Frank Papanikolaou, MD, Thomas Short, MD, John R Srigley, ProfMD, Valentin Colinet, MD, Alexandre Peltier, ProfMD, Romain Diamand, MD, Yolene Lefebvre, MD, Qusay Mandoorah, MD, Rafael Sanchez-Salas, MD, Petr Macek, MD, Xavier Cathelineau, ProfMD, Martin Eklund, ProfPhD, Alistair E W Johnson, DPhil, Andrew Feifer, MD, and Alexandre R Zlotta, ProfMD

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Summary: Background: Accurate prediction of side-specific extraprostatic extension (ssEPE) is essential for performing nerve-sparing surgery to mitigate treatment-related side-effects such as impotence and incontinence in patients with localised prostate cancer. Artificial intelligence (AI) might provide robust and personalised ssEPE predictions to better inform nerve-sparing strategy during radical prostatectomy. We aimed to develop, externally validate, and perform an algorithmic audit of an AI-based Side-specific Extra-Prostatic Extension Risk Assessment tool (SEPERA). Methods: Each prostatic lobe was treated as an individual case such that each patient contributed two cases to the overall cohort. SEPERA was trained on 1022 cases from a community hospital network (Trillium Health Partners; Mississauga, ON, Canada) between 2010 and 2020. Subsequently, SEPERA was externally validated on 3914 cases across three academic centres: Princess Margaret Cancer Centre (Toronto, ON, Canada) from 2008 to 2020; L'Institut Mutualiste Montsouris (Paris, France) from 2010 to 2020; and Jules Bordet Institute (Brussels, Belgium) from 2015 to 2020. Model performance was characterised by area under the receiver operating characteristic curve (AUROC), area under the precision recall curve (AUPRC), calibration, and net benefit. SEPERA was compared against contemporary nomograms (ie, Sayyid nomogram, Soeterik nomogram [non-MRI and MRI]), as well as a separate logistic regression model using the same variables included in SEPERA. An algorithmic audit was performed to assess model bias and identify common patient characteristics among predictive errors. Findings: Overall, 2468 patients comprising 4936 cases (ie, prostatic lobes) were included in this study. SEPERA was well calibrated and had the best performance across all validation cohorts (pooled AUROC of 0·77 [95% CI 0·75–0·78] and pooled AUPRC of 0·61 [0·58–0·63]). In patients with pathological ssEPE despite benign ipsilateral biopsies, SEPERA correctly predicted ssEPE in 72 (68%) of 106 cases compared with the other models (47 [44%] in the logistic regression model, none in the Sayyid model, 13 [12%] in the Soeterik non-MRI model, and five [5%] in the Soeterik MRI model). SEPERA had higher net benefit than the other models to predict ssEPE, enabling more patients to safely undergo nerve-sparing. In the algorithmic audit, no evidence of model bias was observed, with no significant difference in AUROC when stratified by race, biopsy year, age, biopsy type (systematic only vs systematic and MRI-targeted biopsy), biopsy location (academic vs community), and D'Amico risk group. According to the audit, the most common errors were false positives, particularly for older patients with high-risk disease. No aggressive tumours (ie, grade >2 or high-risk disease) were found among false negatives. Interpretation: We demonstrated the accuracy, safety, and generalisability of using SEPERA to personalise nerve-sparing approaches during radical prostatectomy. Funding: None.

Published

2023

28. Mapping the Spatiotemporal Dynamics of Cropland Abandonment and Recultivation across the Yangtze River Basin

Author

Yuqiao Long, Jing Sun, Joost Wellens, Gilles Colinet, Wenbin Wu, and Jeroen Meersmans

Subjects

land use change, cropland abandonment, recultivation, Yangtze River basin, remote sensing, Science

Abstract

Whether China can achieve the United Nations’ Sustainable Development Goals (SDGs) largely depends on the ability of main food-producing areas to cope with multiple land use change challenges. Despite the fact that the Yangtze River basin is one of the key regions for China’s food security, the spatiotemporal dynamics of cropland abandonment and recultivation remain largely unexplored in this region. The present study assesses the evolution of the agricultural system within the Yangtze River basin between 2000 and 2020 by mapping cropland abandonment and recultivation using MODIS time series and multiple land cover products. The results highlight a widespread cropland abandonment process (i.e., 10.5% of the total study area between 2000 and 2020), predominantly in Western Sichuan, Eastern Yunnan, and Central Jiangxi. Although 70% of abandoned cropland is situated in areas with slopes less than 5°, the highest rates of abandonment are in mountainous regions. However, by 2020, 74% of this abandoned cropland had been recultivated at least once, whereas half of the abandoned croplands got recultivated within three years of their initial abandonment. Hence, as this is one of the first studies that unravels the complex interaction between cropland abandonment and recultivation in a spatiotemporal explicit context, it offers (i) scientists a novel methodological framework to assess agricultural land use issues across large geographical entities, and (ii) policy-makers new insights to support the sustainable transition of the agricultural sector.

Published

2024

29. Boundary and Defect CFT: Open Problems and Applications

Author

Andrei, Natan, Bissi, Agnese, Buican, Matthew, Cardy, John, Dorey, Patrick, Drukker, Nadav, Erdmenger, Johanna, Friedan, Daniel, Fursaev, Dmitri, Konechny, Anatoly, Kristjansen, Charlotte, Makabe, Isao, Nakayama, Yu, O'Bannon, Andy, Parini, Robert, Robinson, Brandon, Ryu, Shinsei, Schmidt-Colinet, Cornelius, Schomerus, Volker, Schweigert, Christoph, and Watts, Gerard

Subjects

High Energy Physics - Theory, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Proceedings of the workshop "Boundary and Defect Conformal Field Theory: Open Problems and Applications," Chicheley Hall, Buckinghamshire, UK, 7-8 Sept. 2017., Comment: Conference proceedings of "Boundary and Defect Conformal Field Theory: Open Problems and Applications." Invited submission to Proceedings of the Royal Society A. Section 17 is a more condensed version of arXiv:1711.05049

Published

2018

30. Asymptotic theory for a Leidenfrost drop on a liquid pool

Author

van Limbeek, Michiel A. J., Sobac, Benjamin, Rednikov, Alexey, Colinet, Pierre, and Snoeijer, Jacco H.

Subjects

Physics - Fluid Dynamics

Abstract

Droplets can be levitated by their own vapour when placed onto a superheated plate (the Leidenfrost effect). It is less known that the Leidenfrost effect can likewise be observed over a liquid pool (superheated with respect to the drop), which is the study case here. Emphasis is placed on an asymptotic analysis in the limit of small evaporation numbers, which proves to be a realistic one indeed for not so small drops. The global shapes are found to resemble "superhydrophobic drops" that follow from the equilibrium between capillarity and gravity. However, the morphology of the thin vapour layer between the drop and the pool is very different from that of classical Leidenfrost drops over a flat rigid substrate, and exhibits different scaling laws. We determine analytical expressions for the vapour thickness as a function of temperature and material properties, which are confirmed by numerical solutions. Surprisingly, we show that deformability of the pool suppresses the chimney instability of Leidenfrost drops.

Published

2018

31. Manure amendment acts as a recommended fertilization for improving carbon sequestration efficiency in soils of typical drylands of China

Author

Shuo Liang, Nan Sun, Shuhui Wang, Gilles Colinet, Bernard Longdoz, Jeroen Meersmans, Lianhai Wu, and Minggang Xu

Subjects

soil carbon sequestration efficiency, dryland, long-term fertilization, influence factor, organic amendments, Environmental sciences, GE1-350

Abstract

It is generally known that soil organic carbon (SOC) stocks tend to increase with an increase in C input, whereas the C sequestration efficiency (CSE), i.e., the conversion ratio of C input to SOC, differs depending on the amount and type of C input. However, there is still a need to better understand the impact of various fertilization practices on CSE. We studied the data from eight long-term experiments located in the main dryland region of China in order to comprehensively assess the key drivers of CSE in the plow layer considering nearly four decades of various fertilizer treatments, i.e., no fertilizer (CK); chemical nitrogen, phosphorus, and potassium (NPK/NP); chemical fertilizers plus manure (NPKM/NPM/NM); and straw (NPKS/NPS/NS). Our results showed that manure amendment had the most significant fertilization effect on SOC sequestration with an average CSE of 14.9%, which was significantly higher than that of chemical fertilization (9.0%) and straw return treatments (7.9%). In addition, manure amendment also had the highest average SOC increase rate of 684 kg C ha-1 yr-1. Variance partitioning analysis (VPA) illustrated that the CSE of the main dryland region of China was mostly controlled by edaphic characteristics (32.2%), especially the soil C/N ratio and clay content. VPA and structural equation modeling revealed that the magnitude and influencing factors driving CSE varied among different fertilizer treatments. Soil total N was the limiting factor for CSE in the CK treatment, whereas the soil C/N ratio and pH were the main explanatory factors for CSE in the long-term chemical NPK fertilizer treatment. The negative impact of C input from straw was the main driver of CSE under straw return treatments, though C input had a positive effect on the improvement of soil physical properties. However, when considering manure amendments, the improvement of soil nutrients and clay content controlled CSE, underlining the main positive direct effect of soil chemical properties. In a nutshell, our results recommend manure plus chemical fertilizers as a sustainable practice for improving the C sequestration rate and efficiency in dryland cropping systems.

Published

2023

32. SOC sequestration affected by fertilization in rice-based cropping systems over the last four decades

Author

Shuhui Wang, Nan Sun, Shuo Liang, Shuxiang Zhang, Jeroen Meersmans, Gilles Colinet, Minggang Xu, and Lianhai Wu

Subjects

crop rotation, fertilization, soil organic carbon, paddy soils, the Yangtze River catchment, Environmental sciences, GE1-350

Abstract

Enhancing soil organic carbon (SOC) stocks through fertilization and crop rotation will contribute to sustaining crop productivity and mitigating global warming. In this study, we analyzed the differences in total SOC stocks and their driving factors in the topsoil (0–20 cm) with various fertilization measures in two puddled lowland rice-based cropping systems (i.e., rice-wheat rotation and double rice rotation systems) over the last four decades from seven long-term experiments in the Yangtze River catchment. The soil types include Cambisol, Luvisol, and Anthrosol. The treatments include no fertilizer application (CK), application of chemical nitrogen, phosphorus and potassium fertilizers (NPK) and a combination of NPK and manure applications (NPKM). Every year, field was ploughed to a depth of 15–20 cm before wheat sowing and rice transplanting. Residue was removed after plant harvesting. Results showed that during the last four decades, the average crop grain yield ranged from 1,151 ± 504 kg ha−1 yr−1 under CK treatment to 7,553 ± 1,373 kg ha−1 yr−1 under NPKM treatment. The topsoil SOC stock significantly increased by 8.6 t ha−1 on average under NPKM treatment in rice-wheat system and by 2.5–6.4 t ha−1 on average under NPK and NPKM treatments in double rice system as compared with CK. A higher SOC sequestration rate and a longer SOC sequestration duration were found in NPKM treatment than that in NPK treatment in both cropping systems. The highest SOC stock ratio (SOC stock in fertilizer treatments to CK) was observed under the NPKM treatment in both cropping systems, though no significant difference was found between these two cropping systems. However, the fertilization-induced relative increase of the SOC stock was 109.5% and 45.8% under the NPK and NPKM treatments, respectively in the rice-wheat system than that in the double rice system. This indicates that the rice-wheat system is more conducive for SOC sequestration. RF and SEM analyses revealed that the magnitude and influencing factors driving SOC sequestration varied between two systems. In the double rice system, continuous flooding weakens the influence of precipitation on SOC sequestration and highlights the importance of soil properties and C input. In contrast, soil properties, C input and climate factors all have important impacts on SOC sequestration in rice-wheat system. This study reveals that the rice-wheat system is more favorable for SOC sequestration despite its lower C input compared to the double rice system in China’s paddies.

Published

2023

33. Counting what really counts? Assessing the political impact of science

Author

Gaunand, A., Colinet, L., Joly, P.-B., and Matt, M.

Published

2022

34. Effectiveness of the CPDM in Reducing Overexposures to Coal Mine Dust

Author

Colinet, Jay F. and Mischler, Steven E.

Published

2022

35. Field Test of a Canopy Air Curtain on a Ramcar for Dust Control in an Underground Coal Mine

Author

Reed, W. Randolph, Colinet, J. F., Klima, S. S., Mazzella, A., Ross, G., Workman, M., Morson, T., and Driscoll, J.

Published

2022

36. Single-particle Mass Spectrometry with arrays of frequency-addressed nanomechanical resonators

Author

Sage, Eric, Sansa, Marc, Fostner, Shawn, Defoort, Martial, Gély, Marc, Naik, Akshay K., Morel, Robert, Duraffourg, Laurent, Roukes, Michael L., Alava, Thomas, Jourdan, Guillaume, Colinet, Eric, Masselon, Christophe, Brenac, Ariel, and Hentz, Sébastien

Subjects

Physics - Instrumentation and Detectors

Abstract

One of the main challenges to overcome to perform nanomechanical Mass Spectrometry (NEMS-MS) analysis in a practical time frame stems from the size mismatch between the analyte beam and the extremely small nanomechanical detector area. We report here the demonstration of NEMS-MS with arrays of 20 individually addressed nanomechanical resonators where the number of inputs-outputs for the whole array is the same as that of a single resonator. While all resonators within an array are interconnected via two metal levels, each resonator is designed with a distinct resonance frequency which becomes its individual address. In order to perform single-particle Mass Spectrometry, the resonance frequencies of the two first modes of each NEMS within an array are monitored simultaneously. Using such an array, mass spectra of metallic aggregates in the MDa range are acquired with more than one order of magnitude improvement in analysis time due to the increase in capture cross section compared to individual resonators. A 20 NEMS array is probed in 150ms with the same mass limit of detection as a single resonator. Spectra acquired with a conventional Time- of-Flight (TOF) mass spectrometer in the same system show excellent agreement. As individual information for each resonator within the array is retained, the array becomes a particle imager, each resonator acting as a pixel. With this technique, we demonstrate how Mass Spectrometry Imaging (MSI) at the single particle level becomes possible by mapping a 4cm-particle beam in the MDa range and above.

Published

2017

37. Double Trace Interfaces

Author

Melby-Thompson, Charles and Schmidt-Colinet, Cornelius

Subjects

High Energy Physics - Theory

Abstract

We introduce and study renormalization group interfaces between two holographic conformal theories which are related by deformation by a scalar double trace operator. At leading order in the 1/N expansion, we derive expressions for the two point correlation functions of the scalar, as well as the spectrum of operators living on the interface. We also compute the interface contribution to the sphere partition function, which in two dimensions gives the boundary g factor. Checks of our proposal include reproducing the g factor and some defect overlap coefficients of Gaiotto's RG interfaces at large N, and the two-point correlation function whenever conformal perturbation theory is valid., Comment: 59 pages, 2 figures

Published

2017

38. The multiscale boiling investigation on-board the International Space Station: An overview

Author

Sielaff, A., Mangini, D., Kabov, O., Raza, M.Q., Garivalis, A.I., Zupančič, M., Dehaeck, S., Evgenidis, S., Jacobs, C., Van Hoof, D., Oikonomidou, O., Zabulis, X., Karamaounas, P., Bender, A., Ronshin, F., Schinnerl, M., Sebilleau, J., Colin, C., Di Marco, P., Karapantsios, T., Golobič, I., Rednikov, A., Colinet, P., Stephan, P., and Tadrist, L.

Published

2022

39. Effect of long-term fertilization on phosphorus fractions in different soil layers and their quantitative relationships with soil properties

Author

Qiong WANG, Zhen-han QIN, Wei-wei ZHANG, Yan-hua CHEN, Ping ZHU, Chang PENG, Le WANG, Shu-xiang ZHANG, and Gilles COLINET

Subjects

long-term experiment, phosphorus fractions, soil profile, phosphorus availability, black soil, Agriculture (General), S1-972

Abstract

Investigating the dynamics and distribution of soil phosphorus (P) fractions can provide a basis for enhancing P utilization by crops. Four treatments from a 29-year long-term experiment in black soil with maize cropping were involved in this study: no fertilizer (CK), inorganic nitrogen and potassium (NK), inorganic nitrogen, phosphorus, and potassium (NPK), and NPK plus manure (NPKM). We analyzed soil P fractions in different soil layers using a modified Hedley sequential method. The long-term NPKM treatment significantly increased total P by 0.6–1.6 times in the different soil layers. The Olsen-P concentration far exceeded the environmental threshold for soil Olsen-P (50.6 mg kg−1) in the NPKM treatment in the 0–60 cm soil profile. Moreover, the concentrations and proportion of labile and partially labile inorganic P (Pi) fractions (i.e., NaHCO3-extracted Pi, NaOH-extracted Pi, and dilute HCl-extracted Pi) to the sum of all P fractions (Pt) in the 0–60 cm soil profile were higher in the NPKM treatment than in the NPK treatment, indicating that manure could promote the transformation of non-labile into more labile forms of P in soil, possibly by manure reducing P fixation by soil particles. Soil organic matter, Mehlich-3 extractable iron (Fe), and organic-bound aluminum were increased by fertilization, and were the main factors influencing the differences in the P fractions in the 0–20 cm soil layer. Soil mineral components, i.e., free Fe oxide and CaCO3, were the main factors influencing the P fractions in the subsoil. The soil P transformation process varied with soil layer and fertilization. Application of manure fertilizer can increase the labile (Olsen) P concentrations of the various soil layers, and thus should reduce the mineral P fertilizer requirement for crop growth and reduce potential environmental damage.

Published

2022

40. Development, multi-institutional external validation, and algorithmic audit of SEPERA – An artificial intelligence-based side-specific extra-prostatic extension risk assessment tool for patients undergoing radical prostatectomy

Author

J.C.C. Kwong, K. Adree, E. Meng, N. Taylor, C. Kuk, N. Perlis, G.S. Kulkarni, R.J. Hamilton, N.E. Fleshner, A. Finelli, T.H. Van Der Kwast, A. Ali, M. Jamal, F. Papanikolaou, T. Short, J. Srigley, V. Colinet, A. Peltier, R. Diamand, Y. Lefebvre, Q. Mandoorah, R. Sanchez-Salas, P. Macek, X. Cathelineau, M. Eklund, A.E.W. Johnson, A. Feifer, and A.R. Zlotta

Subjects

Diseases of the genitourinary system. Urology, RC870-923, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

41. Leidenfrost drops on a heated liquid pool

Author

Maquet, Laurent, Sobac, Benjamin, Darbois-Texier, Baptiste, Duchesne, Alexis, Brandenbourger, Martin, Rednikov, Alexey, Colinet, Pierre, and Dorbolo, Stéphane

Subjects

Physics - Fluid Dynamics, Condensed Matter - Soft Condensed Matter

Abstract

We show that a volatile liquid drop placed at the surface of a non-volatile liquid pool warmer than the boiling point of the drop can experience a Leidenfrost effect even for vanishingly small superheats. Such an observation points to the importance of the substrate roughness, negligible in the case considered here, in determining the threshold Leidenfrost temperature. A theoretical model based on the one proposed by Sobac et al. [Phys. Rev. E 90, 053011 (2014)] is developed in order to rationalize the experimental data. The shapes of the drop and of the substrate are analyzed. The model notably provides scalings for the vapor film thickness. For small drops, these scalings appear to be identical to the case of a Leidenfrost drop on a solid substrate. For large drops, in contrast, they are different and no evidence of chimney formation has been observed either experimentally or theoretically in the range of drop sizes considered in this study. Concerning the evaporation dynamics, the radius is shown to decrease linearly with time whatever the drop size, which differs from the case of a Leidenfrost drop on a solid substrate. For high superheats, the characteristic lifetime of the drops versus the superheat follows a scaling law that is derived from the model but, at low superheats, it deviates from this scaling by rather saturating.

Published

2016

42. Root morphological and anatomical responses to increasing phosphorus concentration of wheat plants grown under salinity

Author

Aicha Loudari, Asmae Mayane, Rachida Naciri, Youssef Zeroual, Gilles Colinet, and Abdallah Oukarroum

Subjects

Durum wheat, Phosphorus uptake, Polyphosphates, Root anatomy, Root morphology, Salinity, Plant ecology, QK900-989

Abstract

Understanding the role of nutrients in the alleviation of salt stress effects and the unrevealed significance of root system architecture for plant adaptation is one of the major research areas in the current context of agriculture. Root anatomy is also a valuable parameter to be considered in understanding how the root system counters soil salinity's effect on plant growth. Although Root Phosphorus Acquisition Efficiency (RPAE) under salt stress differs depending on plant species and the severity of salinity in the rhizosphere, optimising phosphorus (P) nutrition seems to bring positive results. This study was planned to investigate the combined effect of salinity and P-availability on root morphology and anatomy as well as nutrient uptake of wheat plants. A pot experiment was performed in open-field conditions using a Moroccan variety of durum wheat. Special emphasis was placed on how orthophosphate and polyphosphate fertilizer forms and phosphorus doses alter the morphology and anatomy of the roots under salt stress. Two soluble fertilizers were used: an orthophosphate (Ortho-A) and a polyphosphate (Poly-B) were applied at four P levels (0, 30, 45 and 60 ppm of P). Our findings showed that salt stress induced, at both anatomical and morphological levels, a series of modifications in the roots of wheat plants. Compared to salt-stressed and unfertilized plants, soluble P-fertilizers significantly increased soil available P, root P- content, RPAE, root length (RL), root surface area (RSA), root volume (RV), root mass density (RMD), root tissue water content (TWC), number of root tips, vascular cylinder diameter and SD/CT ratio. Furthermore, Poly-B showed a positive response in both morphological and anatomical parameters at lower doses while Ortho-A revealed significant results within the increase in P-concentration. The increased root parameters observed under P-treatments could determine the root performance and efficiency to acquire water and P and their transport to the aboveground organs of wheat plants under salinity.

Published

2022

43. Substantial genetic mixing among sexual and androgenetic lineages within the clam genus Corbicula

Author

Vastrade, Martin, Etoundi, Emilie, Bournonville, Thibaut, Colinet, Mathilde, Debortoli, Nicolas, Hedtke, Shannon M., Nicolas, Emilien, Pigneur, Lise-Marie, Virgo, Julie, Flot, Jean-François, Marescaux, Jonathan, and Van Doninck, Karine

Subjects

Archaeology, CC1-960, Science

Abstract

“Occasional” sexuality occurs when a species combines clonal reproduction and genetic mixing. This strategy is predicted to combine the advantages of both asexuality and sexuality, but its actual consequences on the genetic diversity and species longevity are poorly understood. Androgenesis, a reproductive mode in which the offspring inherits its entire nuclear genome from the father, is often reported as a strictly clonal reproductive mode. Androgenesis is the predominant reproductive mode within the hermaphroditic, invasive lineages of the mollusk genus Corbicula. Their ability to reproduce clonally through androgenesis has been determinant in their invasive success, having colonized during the 20th century American and European freshwater systems, where they became notorious invaders with a widespread, global distribution. However, in androgenetic Corbicula clams, occasional genetic mixing between distinct lineages has also been observed when the sperm of one lineage fertilizes the oocyte of another one. Because of these occasional introgressions, the genetic relationships between Corbicula species remained unclear, and the biogeographic origins of the invasive androgenetic lineages have been challenging to identify. To address these issues, we analyzed the patterns of allele sharing for several nuclear and mitochondrial molecular markers among Corbicula individuals collected across both the native and invasive range. Our results show the occurrence of an allelic pool encompassing all Corbicula freshwater species worldwide, including sexual and androgenetic ones, which highlights the substantial genetic mixing within this genus. However, the differences in allele sharing patterns between invasive lineages, and the low diversity within each lineage, suggest recent, distinct biogeographic origins of invasive Corbicula androgenetic lineages. Finally, the polyploidy, high heterozygosity, and hybrid phenotypes and genotypes found in our study probably originated from hybridization events following egg parasitism between distinct Corbicula lineages. This extensive cross-lineage mixing found in Corbicula may generate nuclear diversity in an otherwise asexually reproducing species.

Published

2022

44. Photosynthetic performance and nutrient uptake under salt stress: Differential responses of wheat plants to contrasting phosphorus forms and rates

Author

Aicha Loudari, Asmae Mayane, Youssef Zeroual, Gilles Colinet, and Abdallah Oukarroum

Subjects

durum wheat, polyphosphate, phosphorus, photosynthetic performance, salinity, nutrient uptake, Plant culture, SB1-1110

Abstract

Salt stress impacts phosphorus (P) bioavailability, mobility, and its uptake by plants. Since P is involved in many key processes in plants, salinity and P deficiency could significantly cause serious damage to photosynthesis, the most essential physiological process for the growth and development of all green plants. Different approaches have been proposed and adopted to minimize the harmful effects of their combined effect. Optimising phosphorus nutrition seems to bring positive results to improve photosynthetic efficiency and nutrient uptake. The present work posed the question if soluble fertilizers allow wheat plants to counter the adverse effect of salt stress. A pot experiment was performed using a Moroccan cultivar of durum wheat: Karim. This study focused on different growth and physiological responses of wheat plants grown under the combined effect of salinity and P-availability. Two Orthophosphates (Ortho-A & Ortho-B) and one polyphosphate (Poly-B) were applied at different P levels (0, 30 and 45 ppm). Plant growth was analysed on some physiological parameters (stomatal conductance (SC), chlorophyll content index (CCI), chlorophyll a fluorescence, shoot and root biomass, and mineral uptake). Fertilized wheat plants showed a significant increase in photosynthetic performance and nutrient uptake. Compared to salt-stressed and unfertilized plants (C+), CCI increased by 93%, 81% and 71% at 30 ppm of P in plants fertilized by Poly-B, Ortho-B and Ortho-A, respectively. The highest significant SC was obtained at 45 ppm using Ortho-B fertilizer with an increase of 232% followed by 217% and 157% for both Poly-B and Ortho-A, respectively. The Photosynthetic performance index (PItot) was also increased by 128.5%, 90.2% and 38.8% for Ortho-B, Ortho-A and Poly B, respectively. In addition, Poly-B showed a significant enhancement in roots and shoots biomass (49.4% and 156.8%, respectively) compared to C+. Fertilized and salt-stressed plants absorbed more phosphorus. The P content significantly increased mainly at 45 ppm of P. Positive correlations were found between phosphorus uptake, biomass, and photosynthetic yield. The increased photochemical activity could be due to a significant enhancement in light energy absorbed by the enhanced Chl antenna. The positive effect of adequate P fertilization under salt stress was therefore evident in durum wheat plants.

Published

2022

45. Long-Term Organic Substitution Promotes Carbon and Nitrogen Sequestration and Benefit Crop Production in Upland Field

Author

Hu Xu, Andong Cai, Xueyun Yang, Shulan Zhang, Shaomin Huang, Boren Wang, Ping Zhu, Gilles Colinet, Nan Sun, Minggang Xu, and Wenju Zhang

Subjects

long-term experiment, soil profile, carbon sequestration, crop productivity, sustainable yield index, Agriculture

Abstract

Partial substitution of synthetic nitrogen fertilizer with manure (organic substitution) is highly recommended to minimize environmental risks without compromising crop productivity in intensive agricultural systems. However, our understanding of the effect of organic substitution on soil organic carbon (OC) and total nitrogen (TN) in deep soil and its impact on crop productivity remains limited. Here we investigated OC and TN changes in soil profile down to 100 cm, crop yield, and sustainable yield index under synthetic nitrogen, phosphate, and potassium fertilizers (NPK), NPK plus straw (NPKS), and organic substitution (NPKM) treatments over two decades in four upland fields across different climate zones. Compared with the initial values, two decades of NPKM treatment significantly (p < 0.05) increased OC and TN stocks in either topsoil (by 25.6–103.8 and 15.8–89.8%) or deep soil (by 2.9–71.3 and 5.7–36.9%), respectively, across all sites. The increases in OC and TN stocks in 0–100 cm soil receiving NPKM were significantly higher than those receiving NPK at all sites and NPKS at three high-evaporation sites. Compared with NPKS and NPK treatments, crop yield and N uptake were significantly increased under NPKM treatment only at the Qiyang site. Furthermore, OC sequestration in the entire soil profile down to 100 cm and TN accumulation in topsoil exhibited significant positive correlations with crop N uptake, relative crop yield, and sustainable yield index. In conclusion, long-term partial substitution of synthetic N fertilizer with manure facilitates soil OC and TN sequestration in the entire 100 cm profile and thus maintains high crop productivity in upland areas.

Published

2023

46. Accumulation of Trace Metals in Fruits from Mango and Syzygium guineense Growing in Residential Households from a Contaminated District of Lubumbashi (DR Congo): Is Fruit Consumption at Risk?

Author

Serge Langunu, Precis Mpia Imanda Imabo, Benie Bibi Fwanda, Jacques Kilela Mwanasomwe, Gilles Colinet, and Mylor Ngoy Shutcha

Subjects

Lubumbashi, trace metal, pollution, accumulation, safe weekly consumption, Chemical technology, TP1-1185

Abstract

Copper smelting has been a source of soil contamination with trace metals in Penga Penga (Lubumbashi). The residents are exposed to trace metal ingestion, and planting trees is challenging in such soil conditions. Nevertheless, planting trees in former household dumps or using various types of amendments has allowed the provisioning of fruits in a few residences. From the perspective of scaling up the process, a survey has been conducted with the aim of assessing the effectiveness of the planting processes on the trace metal content in fruits and leaves of Mangifera indica L. and Syzygium guineense (Willd) DC. Samples were collected from residential households in Penga Penga and Kalebuka (a non-polluted suburb). The bioconcentration factor (BCF) and the safe weekly consumption (SWC) were calculated for each species. The results showed higher values of total and soluble concentrations of Cu, Pb, and Zn in the rhizosphere of the two species in Penga Penga. Metal concentrations were higher in the fruits and leaves from Penga Penga, with 47% of samples above the FAO and WHO thresholds (vs. 18.5% in Kalebuka). The BCF values were below 1, demonstrating the effectiveness of the process in reducing the translocation of metals to leaves and fruits. Recommendations from the SWC limit Pb consumption to 9 kg for mango flesh and Cd consumption to 6.6 kg for S. guineense fruits in Penga Penga (vs. 78 kg and 68 kg in Kalebuka). Finally, the results of this study provide interesting lessons for the scaling up and technical itinerary of planting trees in Penga Penga.

Published

2023

47. OPTIMADE, an API for exchanging materials data

Author

Casper W. Andersen, Rickard Armiento, Evgeny Blokhin, Gareth J. Conduit, Shyam Dwaraknath, Matthew L. Evans, Ádám Fekete, Abhijith Gopakumar, Saulius Gražulis, Andrius Merkys, Fawzi Mohamed, Corey Oses, Giovanni Pizzi, Gian-Marco Rignanese, Markus Scheidgen, Leopold Talirz, Cormac Toher, Donald Winston, Rossella Aversa, Kamal Choudhary, Pauline Colinet, Stefano Curtarolo, Davide Di Stefano, Claudia Draxl, Suleyman Er, Marco Esters, Marco Fornari, Matteo Giantomassi, Marco Govoni, Geoffroy Hautier, Vinay Hegde, Matthew K. Horton, Patrick Huck, Georg Huhs, Jens Hummelshøj, Ankit Kariryaa, Boris Kozinsky, Snehal Kumbhar, Mohan Liu, Nicola Marzari, Andrew J. Morris, Arash A. Mostofi, Kristin A. Persson, Guido Petretto, Thomas Purcell, Francesco Ricci, Frisco Rose, Matthias Scheffler, Daniel Speckhard, Martin Uhrin, Antanas Vaitkus, Pierre Villars, David Waroquiers, Chris Wolverton, Michael Wu, and Xiaoyu Yang

Subjects

Science

Abstract

Abstract The Open Databases Integration for Materials Design (OPTIMADE) consortium has designed a universal application programming interface (API) to make materials databases accessible and interoperable. We outline the first stable release of the specification, v1.0, which is already supported by many leading databases and several software packages. We illustrate the advantages of the OPTIMADE API through worked examples on each of the public materials databases that support the full API specification.

Published

2021

48. Effects of 15-Year-Old Plantation on Soil Conditions, Spontaneous Vegetation, and the Trace Metal Content in Wood Products at Kipushi Tailings Dam

Author

Jacques Kilela Mwanasomwe, Serge Langunu, Mylor Ngoy Shutcha, and Gilles Colinet

Subjects

tree species, trace metals, reclaimed area, spontaneous vegetation, charcoal, Chemistry, QD1-999, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Phytostabilization is a more appropriate way for rehabilitation of metal-polluted environments in the Copperbelt region. A 1.5-hectare tree planting trial had been installed on the tailings dam (TD) with the help of organic matter (OM) mixed to topsoil. Then, 15 years later, this study aimed to evaluate the performance of the tree plantation, in regard to soils and spontaneous vegetation. The Cu and Co concentration was higher in the reclaimed soil compared with the unreclaimed. Acacia auriculiformis, Acacia polyacantha, Albizia lebbeck, Pinus sylvestris, Psidium guajava, Senna siamea, Senna spectabilis, and Syzygium guineense responded well to the criteria of phytostabilization, whereas Leucaena leucocephala was very invasive. Metal concentration was manifold higher in charcoals than in woods (Zn: 3.8–39.8 mg kg−1 in wood versus 272–523 mg kg−1 in charcoal) with no differences between charcoals regardless of the origin. The tree implantation aided with amendments can meet the criteria of phytostabilization through good survival and regeneration in the heavily contaminated TD.

Published

2022

49. Effect of Organic Amendment on the Physicochemical Characteristics of Tailings Dam Soil and Root Development of Tree Species, Fifteen Years After Planting

Author

Jacques Kilela Mwanasomwe, Serge Langunu, Salvatora Nsenga Nkulu, Mylor Ngoy Shutcha, and Gilles Colinet

Subjects

trace metal, tailings, amendment, tree species, reclamation, Chemistry, QD1-999, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Among mine wastes, tailings are known to have the largest environmental impact, as they have high concentrations of trace elements and are susceptible to wind dispersal and water erosion. A tree plantation trial was installed at Kipushi tailing (DR Congo) in order to mitigate the contaminant dispersal in the surrounding areas. Fifteen years later, the present study was conducted for the purpose of investigating the macronutrient and metal content in amended holes and assessing the performance of tree species through root behavior in the tailings dams. Results show elevated available P, K, Ca, and Mg concentration in the surface and amended layers, which is higher than the unpolluted soil of the miombo woodland. Trace metals were manifold higher compared to the pedo-geochemical background of the region, with Cu and Co concentration tending to increase in the organic matter-rich layers, while Zn, Cd, Pb, and As remained higher in tailings. Compared to the tailing layer, roots grew well in the amended layers, but few roots ranging from very fine to big from all the surviving species were able to grow beyond the amended layers, indicating the possibility of tree survival on the tailings dams over many years. Acacia polyacantha and Psidium guajava are species that showed a higher quantity of roots in the unamended tailing layers. Leaves should be avoided for human or animal consumption, but as the concentration of Cu, Zn, and Co in guava was lower, there is no indication of hazards in case of their consumption. Therefore, the use of well-adapted tree species on the mix-up of the organic amendments with the uncontaminated topsoil seemed to be a good technique for the reclamation of larger polluted areas.

Published

2022

50. Entanglement and topological interfaces

Author

Brehm, Enrico M., Brunner, Ilka, Jaud, Daniel, and Schmidt-Colinet, Cornelius

Subjects

High Energy Physics - Theory, Condensed Matter - Statistical Mechanics

Abstract

In this paper we consider entanglement entropies in two-dimensional conformal field theories in the presence of topological interfaces. Tracing over one side of the interface, the leading term of the entropy remains unchanged. The interface however adds a subleading contribution, which can be interpreted as a relative (Kullback-Leibler) entropy with respect to the situation with no defect inserted. Reinterpreting boundaries as topological interfaces of a chiral half of the full theory, we rederive the left/right entanglement entropy in analogy with the interface case. We discuss WZW models and toroidal bosonic theories as examples., Comment: 30 pages, 2 figures. References added, typos corrected

Published

2015