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Putting the Pacific marine heatwave into perspective: The response of larval fish off southern California to unprecedented warming in 2014–2016 relative to the previous 65 years 期刊论文
Global Change Biology, 2021
作者:  Andrew R. Thompson;  Noah J. Ben-Aderet;  Noelle M. Bowlin;  Dovi Kacev;  Rasmus Swalethorp;  William Watson
收藏  |  浏览/下载:29/0  |  提交时间:2022/01/14
Multinational coordination required for conservation of over 90% of marine species 期刊论文
Global Change Biology, 2021
作者:  Leslie A. Roberson;  Hawthorne L. Beyer;  Casey O’;  Hara;  James E. M. Watson;  Daniel C. Dunn;  Benjamin S. Halpern;  Carissa J. Klein;  Melanie R. Frazier;  Caitlin D. Kuempel;  Brooke Williams;  Hedley S. Grantham;  Jamie C. Montgomery;  Salit Kark;  Rebecca K. Runting
收藏  |  浏览/下载:50/0  |  提交时间:2021/09/14
A massive rock and ice avalanche caused the 2021 disaster at Chamoli, Indian Himalaya 期刊论文
Science, 2021
作者:  D. H. Shugar;  M. Jacquemart;  D. Shean;  S. Bhushan;  K. Upadhyay;  A. Sattar;  W. Schwanghart;  S. McBride;  M. Van Wyk de Vries;  M. Mergili;  A. Emmer;  C. Deschamps-Berger;  M. McDonnell;  R. Bhambri;  S. Allen;  E. Berthier;  J. L. Carrivick;  J. J. Clague;  M. Dokukin;  S. A. Dunning;  H. Frey;  S. Gascoin;  U. K. Haritashya;  C. Huggel;  A. Kääb;  J. S. Kargel;  J. L. Kavanaugh;  P. Lacroix;  D. Petley;  S. Rupper;  M. F. Azam;  S. J. Cook;  A. P. Dimri;  M. Eriksson;  D. Farinotti;  J. Fiddes;  K. R. Gnyawali;  S. Harrison;  M. Jha;  M. Koppes;  A. Kumar;  S. Leinss;  U. Majeed;  S. Mal;  A. Muhuri;  J. Noetzli;  F. Paul;  I. Rashid;  K. Sain;  J. Steiner;  F. Ugalde;  C. S. Watson;  M. J. Westoby
收藏  |  浏览/下载:35/0  |  提交时间:2021/07/27
Revealing x-ray and gamma ray temporal and spectral similarities in the GRB 190829A afterglow 期刊论文
Science, 2021
作者:  H.E.S.S. Collaboration;  H. Abdalla;  F. Aharonian;  F. Ait Benkhali;  E. O. Angüner;  C. Arcaro;  C. Armand;  T. Armstrong;  H. Ashkar;  M. Backes;  V. Baghmanyan;  V. Barbosa Martins;  A. Barnacka;  M. Barnard;  Y. Becherini;  D. Berge;  K. Bernlöhr;  B. Bi;  E. Bissaldi;  M. Böttcher;  C. Boisson;  J. Bolmont;  M. de Bony de Lavergne;  M. Breuhaus;  F. Brun;  P. Brun;  M. Bryan;  M. Büchele;  T. Bulik;  T. Bylund;  S. Caroff;  A. Carosi;  S. Casanova;  T. Chand;  S. Chandra;  A. Chen;  G. Cotter;  M. Curyło;  J. Damascene Mbarubucyeye;  I. D. Davids;  J. Davies;  C. Deil;  J. Devin;  L. Dirson;  A. Djannati-Ataï;  A. Dmytriiev;  A. Donath;  V. Doroshenko;  L. Dreyer;  C. Duffy;  J. Dyks;  K. Egberts;  F. Eichhorn;  S. Einecke;  G. Emery;  J.-P. Ernenwein;  K. Feijen;  S. Fegan;  A. Fiasson;  G. Fichet de Clairfontaine;  G. Fontaine;  S. Funk;  M. Füßling;  S. Gabici;  Y. A. Gallant;  G. Giavitto;  L. Giunti;  D. Glawion;  J. F. Glicenstein;  M.-H. Grondin;  J. Hahn;  M. Haupt;  G. Hermann;  J. A. Hinton;  W. Hofmann;  C. Hoischen;  T. L. Holch;  M. Holler;  M. Hörbe;  D. Horns;  D. Huber;  M. Jamrozy;  D. Jankowsky;  F. Jankowsky;  A. Jardin-Blicq;  V. Joshi;  I. Jung-Richardt;  E. Kasai;  M. A. Kastendieck;  K. Katarzyński;  U. Katz;  D. Khangulyan;  B. Khélifi;  S. Klepser;  W. Kluźniak;  Nu. Komin;  R. Konno;  K. Kosack;  D. Kostunin;  M. Kreter;  G. Lamanna;  A. Lemière;  M. Lemoine-Goumard;  J.-P. Lenain;  F. Leuschner;  C. Levy;  T. Lohse;  I. Lypova;  J. Mackey;  J. Majumdar;  D. Malyshev;  D. Malyshev;  V. Marandon;  P. Marchegiani;  A. Marcowith;  A. Mares;  G. Martí-Devesa;  R. Marx;  G. Maurin;  P. J. Meintjes;  M. Meyer;  A. Mitchell;  R. Moderski;  L. Mohrmann;  A. Montanari;  C. Moore;  P. Morris;  E. Moulin;  J. Muller;  T. Murach;  K. Nakashima;  A. Nayerhoda;  M. de Naurois;  H. Ndiyavala;  J. Niemiec;  L. Oakes;  P. O’Brien;  H. Odaka;  S. Ohm;  L. Olivera-Nieto;  E. de Ona Wilhelmi;  M. Ostrowski;  S. Panny;  M. Panter;  R. D. Parsons;  G. Peron;  B. Peyaud;  Q. Piel;  S. Pita;  V. Poireau;  A. Priyana Noel;  D. A. Prokhorov;  H. Prokoph;  G. Pühlhofer;  M. Punch;  A. Quirrenbach;  S. Raab;  R. Rauth;  P. Reichherzer;  A. Reimer;  O. Reimer;  Q. Remy;  M. Renaud;  F. Rieger;  L. Rinchiuso;  C. Romoli;  G. Rowell;  B. Rudak;  E. Ruiz-Velasco;  V. Sahakian;  S. Sailer;  H. Salzmann;  D. A. Sanchez;  A. Santangelo;  M. Sasaki;  M. Scalici;  J. Schäfer;  F. Schüssler;  H. M. Schutte;  U. Schwanke;  M. Seglar-Arroyo;  M. Senniappan;  A. S. Seyffert;  N. Shafi;  J. N. S. Shapopi;  K. Shiningayamwe;  R. Simoni;  A. Sinha;  H. Sol;  A. Specovius;  S. Spencer;  M. Spir-Jacob;  Ł. Stawarz;  L. Sun;  R. Steenkamp;  C. Stegmann;  S. Steinmassl;  C. Steppa;  T. Takahashi;  T. Tam;  T. Tavernier;  A. M. Taylor;  R. Terrier;  J. H. E. Thiersen;  D. Tiziani;  M. Tluczykont;  L. Tomankova;  M. Tsirou;  R. Tuffs;  Y. Uchiyama;  D. J. van der Walt;  C. van Eldik;  C. van Rensburg;  B. van Soelen;  G. Vasileiadis;  J. Veh;  C. Venter;  P. Vincent;  J. Vink;  H. J. Völk;  Z. Wadiasingh;  S. J. Wagner;  J. Watson;  F. Werner;  R. White;  A. Wierzcholska;  Yu Wun Wong;  A. Yusafzai;  M. Zacharias;  R. Zanin;  D. Zargaryan;  A. A. Zdziarski;  A. Zech;  S. J. Zhu;  J. Zorn;  S. Zouari;  N. Żywucka;  P. Evans;  K. Page
收藏  |  浏览/下载:143/0  |  提交时间:2021/06/15
Targeting a neoantigen derived from a common TP53 mutation 期刊论文
Science, 2021
作者:  Emily Han-Chung Hsiue;  Katharine M. Wright;  Jacqueline Douglass;  Michael S. Hwang;  Brian J. Mog;  Alexander H. Pearlman;  Suman Paul;  Sarah R. DiNapoli;  Maximilian F. Konig;  Qing Wang;  Annika Schaefer;  Michelle S. Miller;  Andrew D. Skora;  P. Aitana Azurmendi;  Michael B. Murphy;  Qiang Liu;  Evangeline Watson;  Yana Li;  Drew M. Pardoll;  Chetan Bettegowda;  Nickolas Papadopoulos;  Kenneth W. Kinzler;  Bert Vogelstein;  Sandra B. Gabelli;  Shibin Zhou
收藏  |  浏览/下载:39/0  |  提交时间:2021/03/12
Ecological insights from three decades of animal movement tracking across a changing Arctic 期刊论文
Science, 2020
作者:  Sarah C. Davidson;  Gil Bohrer;  Eliezer Gurarie;  Scott LaPoint;  Peter J. Mahoney;  Natalie T. Boelman;  Jan U. H. Eitel;  Laura R. Prugh;  Lee A. Vierling;  Jyoti Jennewein;  Emma Grier;  Ophélie Couriot;  Allicia P. Kelly;  Arjan J. H. Meddens;  Ruth Y. Oliver;  Roland Kays;  Martin Wikelski;  Tomas Aarvak;  Joshua T. Ackerman;  José A. Alves;  Erin Bayne;  Bryan Bedrosian;  Jerrold L. Belant;  Andrew M. Berdahl;  Alicia M. Berlin;  Dominique Berteaux;  Joël Bêty;  Dmitrijs Boiko;  Travis L. Booms;  Bridget L. Borg;  Stan Boutin;  W. Sean Boyd;  Kane Brides;  Stephen Brown;  Victor N. Bulyuk;  Kurt K. Burnham;  David Cabot;  Michael Casazza;  Katherine Christie;  Erica H. Craig;  Shanti E. Davis;  Tracy Davison;  Dominic Demma;  Christopher R. DeSorbo;  Andrew Dixon;  Robert Domenech;  Götz Eichhorn;  Kyle Elliott;  Joseph R. Evenson;  Klaus-Michael Exo;  Steven H. Ferguson;  Wolfgang Fiedler;  Aaron Fisk;  Jérôme Fort;  Alastair Franke;  Mark R. Fuller;  Stefan Garthe;  Gilles Gauthier;  Grant Gilchrist;  Petr Glazov;  Carrie E. Gray;  David Grémillet;  Larry Griffin;  Michael T. Hallworth;  Autumn-Lynn Harrison;  Holly L. Hennin;  J. Mark Hipfner;  James Hodson;  James A. Johnson;  Kyle Joly;  Kimberly Jones;  Todd E. Katzner;  Jeff W. Kidd;  Elly C. Knight;  Michael N. Kochert;  Andrea Kölzsch;  Helmut Kruckenberg;  Benjamin J. Lagassé;  Sandra Lai;  Jean-François Lamarre;  Richard B. Lanctot;  Nicholas C. Larter;  A. David M. Latham;  Christopher J. Latty;  James P. Lawler;  Don-Jean Léandri-Breton;  Hansoo Lee;  Stephen B. Lewis;  Oliver P. Love;  Jesper Madsen;  Mark Maftei;  Mark L. Mallory;  Buck Mangipane;  Mikhail Y. Markovets;  Peter P. Marra;  Rebecca McGuire;  Carol L. McIntyre;  Emily A. McKinnon;  Tricia A. Miller;  Sander Moonen;  Tong Mu;  Gerhard J. D. M. Müskens;  Janet Ng;  Kerry L. Nicholson;  Ingar Jostein Øien;  Cory Overton;  Patricia A. Owen;  Allison Patterson;  Aevar Petersen;  Ivan Pokrovsky;  Luke L. Powell;  Rui Prieto;  Petra Quillfeldt;  Jennie Rausch;  Kelsey Russell;  Sarah T. Saalfeld;  Hans Schekkerman;  Joel A. Schmutz;  Philipp Schwemmer;  Dale R. Seip;  Adam Shreading;  Mónica A. Silva;  Brian W. Smith;  Fletcher Smith;  Jeff P. Smith;  Katherine R. S. Snell;  Aleksandr Sokolov;  Vasiliy Sokolov;  Diana V Solovyeva;  Mathew S. Sorum;  Grigori Tertitski;  J. F. Therrien;  Kasper Thorup;  T. Lee Tibbitts;  Ingrid Tulp;  Brian D. Uher-Koch;  Rob S. A. van Bemmelen;  Steven Van Wilgenburg;  Andrew L. Von Duyke;  Jesse L. Watson;  Bryan D. Watts;  Judy A. Williams;  Matthew T. Wilson;  James R. Wright;  Michael A. Yates;  David J. Yurkowski;  Ramūnas Žydelis;  Mark Hebblewhite
收藏  |  浏览/下载:62/0  |  提交时间:2020/11/09
Set ambitious goals for biodiversity and sustainability 期刊论文
Science, 2020
作者:  Sandra Díaz;  Noelia Zafra-Calvo;  Andy Purvis;  Peter H. Verburg;  David Obura;  Paul Leadley;  Rebecca Chaplin-Kramer;  Luc De Meester;  Ehsan Dulloo;  Berta Martín-López;  M. Rebecca Shaw;  Piero Visconti;  Wendy Broadgate;  Michael W. Bruford;  Neil D. Burgess;  Jeannine Cavender-Bares;  Fabrice DeClerck;  José María Fernández-Palacios;  Lucas A. Garibaldi;  Samantha L. L. Hill;  Forest Isbell;  Colin K. Khoury;  Cornelia B. Krug;  Jianguo Liu;  Martine Maron;  Philip J. K. McGowan;  Henrique M. Pereira;  Victoria Reyes-García;  Juan Rocha;  Carlo Rondinini;  Lynne Shannon;  Yunne-Jai Shin;  Paul V. R. Snelgrove;  Eva M. Spehn;  Bernardo Strassburg;  Suneetha M. Subramanian;  Joshua J. Tewksbury;  James E. M. Watson;  Amy E. Zanne
收藏  |  浏览/下载:50/0  |  提交时间:2020/10/26
A remnant planetary core in the hot-Neptune desert 期刊论文
NATURE, 2020, 583 (7814) : 39-+
作者:  David J. Armstrong;  Thé;  o A. Lopez;  Vardan Adibekyan;  Richard A. Booth;  Edward M. Bryant;  Karen A. Collins;  Magali Deleuil;  Alexandre Emsenhuber;  Chelsea X. Huang;  George W. King;  Jorge Lillo-Box;  Jack J. Lissauer;  Elisabeth Matthews;  Olivier Mousis;  Louise D. Nielsen;  Hugh Osborn;  Jon Otegi;  Nuno C. Santos;  ;  rgio G. Sousa;  Keivan G. Stassun;  Dimitri Veras;  Carl Ziegler;  Jack S. Acton;  Jose M. Almenara;  David R. Anderson;  David Barrado;  Susana C. C. Barros;  Daniel Bayliss;  Claudia Belardi;  Francois Bouchy;  ;  sar Briceñ;  o;  Matteo Brogi;  David J. A. Brown;  Matthew R. Burleigh;  Sarah L. Casewell;  Alexander Chaushev;  David R. Ciardi;  Kevin I. Collins;  Knicole D. Coló;  n;  Benjamin F. Cooke;  Ian J. M. Crossfield;  Rodrigo F. Dí;  az;  Elisa Delgado Mena;  Olivier D. S. Demangeon;  Caroline Dorn;  Xavier Dumusque;  Philipp Eigmü;  ller;  Michael Fausnaugh;  Pedro Figueira;  Tianjun Gan;  Siddharth Gandhi;  Samuel Gill;  Erica J. Gonzales;  Michael R. Goad;  Maximilian N. Gü;  nther;  Ravit Helled;  Saeed Hojjatpanah;  Steve B. Howell;  James Jackman;  James S. Jenkins;  Jon M. Jenkins;  Eric L. N. Jensen;  Grant M. Kennedy;  David W. Latham;  Nicholas Law;  Monika Lendl;  Michael Lozovsky;  Andrew W. Mann;  Maximiliano Moyano;  James McCormac;  Farzana Meru;  Christoph Mordasini;  Ares Osborn;  Don Pollacco;  Didier Queloz;  Liam Raynard;  George R. Ricker;  Pamela Rowden;  Alexandre Santerne;  Joshua E. Schlieder;  Sara Seager;  Lizhou Sha;  Thiam-Guan Tan;  Rosanna H. Tilbrook;  Eric Ting;  Sté;  phane Udry;  Roland Vanderspek;  Christopher A. Watson;  Richard G. West;  Paul A. Wilson;  Joshua N. Winn;  Peter Wheatley;  Jesus Noel Villasenor;  Jose I. Vines;  Zhuchang Zhan
收藏  |  浏览/下载:92/0  |  提交时间:2020/07/06

The interiors of giant planets remain poorly understood. Even for the planets in the Solar System, difficulties in observation lead to large uncertainties in the properties of planetary cores. Exoplanets that have undergone rare evolutionary processes provide a route to understanding planetary interiors. Planets found in and near the typically barren hot-Neptune '  desert'  (1,2)(a region in mass-radius space that contains few planets) have proved to be particularly valuable in this regard. These planets include HD149026b(3), which is thought to have an unusually massive core, and recent discoveries such as LTT9779b(4)and NGTS-4b(5), on which photoevaporation has removed a substantial part of their outer atmospheres. Here we report observations of the planet TOI-849b, which has a radius smaller than Neptune'  s but an anomalously large mass of39.1-2.6+2.7Earth masses and a density of5.2-0.8+0.7grams per cubic centimetre, similar to Earth'  s. Interior-structure models suggest that any gaseous envelope of pure hydrogen and helium consists of no more than3.9-0.9+0.8 per cent of the total planetary mass. The planet could have been a gas giant before undergoing extreme mass loss via thermal self-disruption or giant planet collisions, or it could have avoided substantial gas accretion, perhaps through gap opening or late formation(6). Although photoevaporation rates cannot account for the mass loss required to reduce a Jupiter-like gas giant, they can remove a small (a few Earth masses) hydrogen and helium envelope on timescales of several billion years, implying that any remaining atmosphere on TOI-849b is likely to be enriched by water or other volatiles from the planetary interior. We conclude that TOI-849b is the remnant core of a giant planet.


Observations of TOI-849b reveal a radius smaller than Neptune'  s but a large mass of about 40 Earth masses, indicating that the planet is the remnant core of a gas giant.


  
Intensive farming drives long-term shifts in avian community composition 期刊论文
NATURE, 2020, 579 (7799) : 393-+
作者:  Oh, Eugene;  Mark, Kevin G.;  Mocciaro, Annamaria;  Watson, Edmond R.;  Prabu, J. Rajan;  Cha, Denny D.;  Kampmann, Martin;  Gamarra, Nathan;  Zhou, Coral Y.;  Rape, Michael
收藏  |  浏览/下载:28/0  |  提交时间:2020/05/13

Variation in vegetation and climate affects the long-term changes in bird communities in intensive-agriculture habitats, but not in diversified-agriculture or natural-forest habitats, by changing the local colonization and extinction rates.


Agricultural practices constitute both the greatest cause of biodiversity loss and the greatest opportunity for conservation(1,2), given the shrinking scope of protected areas in many regions. Recent studies have documented the high levels of biodiversity-across many taxa and biomes-that agricultural landscapes can support over the short term(1,3,4). However, little is known about the long-term effects of alternative agricultural practices on ecological communities(4,5) Here we document changes in bird communities in intensive-agriculture, diversified-agriculture and natural-forest habitats in 4 regions of Costa Rica over a period of 18 years. Long-term directional shifts in bird communities were evident in intensive- and diversified-agricultural habitats, but were strongest in intensive-agricultural habitats, where the number of endemic and International Union for Conservation of Nature (IUCN) Red List species fell over time. All major guilds, including those involved in pest control, pollination and seed dispersal, were affected. Bird communities in intensive-agricultural habitats proved more susceptible to changes in climate, with hotter and drier periods associated with greater changes in community composition in these settings. These findings demonstrate that diversified agriculture can help to alleviate the long-term loss of biodiversity outside natural protected areas(1).


  
Layered nanocomposites by shear-flow-induced alignment of nanosheets 期刊论文
NATURE, 2020, 580 (7802) : 210-+
作者:  Rollie, Clare;  Chevallereau, Anne;  Watson, Bridget N. J.;  Chyou, Te-yuan;  Fradet, Olivier;  McLeod, Isobel;  Fineran, Peter C.;  Brown, Chris M.;  Gandon, Sylvain;  Westra, Edze R.
收藏  |  浏览/下载:64/0  |  提交时间:2020/07/03

Layered nanocomposites fabricated using a continuous and scalable process achieve properties exceeding those of natural nacre, the result of stiffened matrix polymer chains confined between highly aligned nanosheets.


Biological materials, such as bones, teeth and mollusc shells, are well known for their excellent strength, modulus and toughness(1-3). Such properties are attributed to the elaborate layered microstructure of inorganic reinforcing nanofillers, especially two-dimensional nanosheets or nanoplatelets, within a ductile organic matrix(4-6). Inspired by these biological structures, several assembly strategies-including layer-by-layer(4,7,8), casting(9,10), vacuum filtration(11-13) and use of magnetic fields(14,15)-have been used to develop layered nanocomposites. However, how to produce ultrastrong layered nanocomposites in a universal, viable and scalable manner remains an open issue. Here we present a strategy to produce nanocomposites with highly ordered layered structures using shear-flow-induced alignment of two-dimensional nanosheets at an immiscible hydrogel/oil interface. For example, nanocomposites based on nanosheets of graphene oxide and clay exhibit a tensile strength of up to 1,215 +/- 80 megapascals and a Young'  s modulus of 198.8 +/- 6.5 gigapascals, which are 9.0 and 2.8 times higher, respectively, than those of natural nacre (mother of pearl). When nanosheets of clay are used, the toughness of the resulting nanocomposite can reach 36.7 +/- 3.0 megajoules per cubic metre, which is 20.4 times higher than that of natural nacre  meanwhile, the tensile strength is 1,195 +/- 60 megapascals. Quantitative analysis indicates that the well aligned nanosheets form a critical interphase, and this results in the observed mechanical properties. We consider that our strategy, which could be readily extended to align a variety of two-dimensional nanofillers, could be applied to a wide range of structural composites and lead to the development of high-performance composites.