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Nature

Resumen/Descripción – provisto por la editorial en inglés
Nature is a weekly international journal publishing the finest peer-reviewed research in all fields of science and technology on the basis of its originality, importance, interdisciplinary interest, timeliness, accessibility, elegance and surprising conclusions. Nature also provides rapid, authoritative, insightful and arresting news and interpretation of topical and coming trends affecting science, scientists and the wider public.
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No detectada desde jul. 2012 / hasta dic. 2023 Nature.com
No detectada desde jul. 2006 / hasta ago. 2012 Ovid

Información

Tipo de recurso:

revistas

ISSN impreso

0028-0836

ISSN electrónico

1476-4687

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Cobertura temática

naturales

Ciencias naturales

ingenieria

Ingeniería y tecnología

medicina

Ciencias médicas y de la salud

agrarias

Ciencias agrícolas y veterinarias

Tabla de contenidos

doi: 10.1038/s41586-021-03498-z

Ultrahigh-energy photons up to 1.4 petaelectronvolts from 12 γ-ray Galactic sources

Zhen CaoORCID; F. A. AharonianORCID; Q. An; Axikegu; L. X. Bai; Y. X. Bai; Y. W. BaoORCID; D. BastieriORCID; X. J. Bi; Y. J. Bi; H. Cai; J. T. Cai; Zhe Cao; J. Chang; J. F. Chang; X. C. Chang; B. M. Chen; J. Chen; L. Chen; Liang Chen; Long Chen; M. J. Chen; M. L. Chen; Q. H. Chen; S. H. Chen; S. Z. ChenORCID; T. L. Chen; X. L. Chen; Y. ChenORCID; N. Cheng; Y. D. ChengORCID; S. W. Cui; X. H. CuiORCID; Y. D. Cui; B. Z. Dai; H. L. Dai; Z. G. Dai; Danzengluobu; D. della Volpe; B. D′Ettorre Piazzoli; X. J. Dong; J. H. Fan; Y. Z. FanORCID; Z. X. Fan; J. Fang; K. Fang; C. F. Feng; L. Feng; S. H. Feng; Y. L. Feng; B. Gao; C. D. Gao; Q. Gao; W. GaoORCID; M. M. GeORCID; L. S. Geng; G. H. Gong; Q. B. Gou; M. H. Gu; J. G. GuoORCID; X. L. Guo; Y. Q. Guo; Y. Y. GuoORCID; Y. A. Han; H. H. HeORCID; H. N. He; J. C. He; S. L. He; X. B. He; Y. He; M. Heller; Y. K. Hor; C. Hou; X. Hou; H. B. Hu; S. Hu; S. C. Hu; X. J. Hu; D. H. Huang; Q. L. Huang; W. H. Huang; X. T. Huang; Z. C. Huang; F. Ji; X. L. Ji; H. Y. Jia; K. Jiang; Z. J. Jiang; C. Jin; D. Kuleshov; K. Levochkin; B. B. Li; Cong Li; Cheng Li; F. LiORCID; H. B. Li; H. C. Li; H. Y. Li; J. Li; K. Li; W. L. Li; X. Li; Xin Li; X. R. Li; Y. Li; Y. Z. Li; Zhe Li; Zhuo Li; E. W. Liang; Y. F. Liang; S. J. Lin; B. LiuORCID; C. Liu; D. Liu; H. Liu; H. D. Liu; J. Liu; J. L. Liu; J. S. Liu; J. Y. Liu; M. Y. Liu; R. Y. LiuORCID; S. M. LiuORCID; W. Liu; Y. N. Liu; Z. X. Liu; W. J. Long; R. Lu; H. K. Lv; B. Q. MaORCID; L. L. Ma; X. H. Ma; J. R. Mao; A. Masood; W. Mitthumsiri; T. Montaruli; Y. C. Nan; B. Y. Pang; P. Pattarakijwanich; Z. Y. Pei; M. Y. Qi; D. RuffoloORCID; V. Rulev; A. SáizORCID; L. ShaoORCID; O. Shchegolev; X. D. Sheng; J. R. Shi; H. C. Song; Yu. V. Stenkin; V. Stepanov; Q. N. Sun; X. N. Sun; Z. B. Sun; P. H. T. TamORCID; Z. B. TangORCID; W. W. Tian; B. D. Wang; C. Wang; H. Wang; H. G. Wang; J. C. Wang; J. S. WangORCID; L. P. Wang; L. Y. Wang; R. N. Wang; W. WangORCID; W. Wang; X. G. Wang; X. J. Wang; X. Y. Wang; Y. D. Wang; Y. J. Wang; Y. P. Wang; Zheng Wang; Zhen Wang; Z. H. Wang; Z. X. Wang; D. M. WeiORCID; J. J. Wei; Y. J. Wei; T. Wen; C. Y. Wu; H. R. Wu; S. Wu; W. X. Wu; X. F. Wu; S. Q. Xi; J. Xia; J. J. Xia; G. M. Xiang; G. Xiao; H. B. XiaoORCID; G. G. Xin; Y. L. Xin; Y. Xing; D. L. Xu; R. X. Xu; L. Xue; D. H. Yan; C. W. Yang; F. F. Yang; J. Y. Yang; L. L. Yang; M. J. Yang; R. Z. Yang; S. B. Yang; Y. H. Yao; Z. G. Yao; Y. M. Ye; L. Q. Yin; N. Yin; X. H. You; Z. Y. You; Y. H. Yu; Q. Yuan; H. D. Zeng; T. X. Zeng; W. Zeng; Z. K. Zeng; M. Zha; X. X. Zhai; B. B. ZhangORCID; H. M. ZhangORCID; H. Y. ZhangORCID; J. L. Zhang; J. W. Zhang; L. Zhang; Li Zhang; L. X. Zhang; P. F. Zhang; P. P. Zhang; R. Zhang; S. R. Zhang; S. S. Zhang; X. ZhangORCID; X. P. Zhang; Yong ZhangORCID; Yi Zhang; Y. F. Zhang; Y. L. Zhang; B. Zhao; J. Zhao; L. Zhao; L. Z. Zhao; S. P. Zhao; F. Zheng; Y. Zheng; B. Zhou; H. Zhou; J. N. Zhou; P. Zhou; R. Zhou; X. X. Zhou; C. G. Zhu; F. R. Zhu; H. Zhu; K. J. ZhuORCID; X. Zuo

Palabras clave: Multidisciplinary.

Pp. 33-36

doi: 10.1038/s41586-021-03481-8

Telecom-heralded entanglement between multimode solid-state quantum memories

Dario Lago-RiveraORCID; Samuele GrandiORCID; Jelena V. RakonjacORCID; Alessandro SeriORCID; Hugues de RiedmattenORCID

Palabras clave: Multidisciplinary.

Pp. 37-40

doi: 10.1038/s41586-021-03505-3

Heralded entanglement distribution between two absorptive quantum memories

Xiao Liu; Jun Hu; Zong-Feng Li; Xue Li; Pei-Yun Li; Peng-Jun Liang; Zong-Quan ZhouORCID; Chuan-Feng LiORCID; Guang-Can Guo

Palabras clave: Multidisciplinary.

Pp. 41-45

doi: 10.1038/s41586-021-03541-z

Signatures of moiré trions in WSe2/MoSe2 heterobilayers

Erfu LiuORCID; Elyse Barré; Jeremiah van Baren; Matthew Wilson; Takashi TaniguchiORCID; Kenji WatanabeORCID; Yong-Tao CuiORCID; Nathaniel M. GaborORCID; Tony F. Heinz; Yia-Chung ChangORCID; Chun Hung LuiORCID

Palabras clave: Multidisciplinary.

Pp. 46-50

doi: 10.1038/s41586-021-03518-y

CO2 doping of organic interlayers for perovskite solar cells

Jaemin KongORCID; Yongwoo ShinORCID; Jason A. RöhrORCID; Hang Wang; Juan Meng; Yueshen Wu; Adlai KatzenbergORCID; Geunjin Kim; Dong Young Kim; Tai-De Li; Edward ChauORCID; Francisco Antonio; Tana Siboonruang; Sooncheol Kwon; Kwanghee Lee; Jin Ryoun KimORCID; Miguel A. ModestinoORCID; Hailiang WangORCID; André D. TaylorORCID

Palabras clave: Multidisciplinary.

Pp. 51-56

doi: 10.1038/s41586-021-03488-1

Intrinsic toughening and stable crack propagation in hexagonal boron nitride

Yingchao Yang; Zhigong Song; Guangyuan Lu; Qinghua Zhang; Boyu Zhang; Bo Ni; Chao Wang; Xiaoyan LiORCID; Lin GuORCID; Xiaoming Xie; Huajian GaoORCID; Jun LouORCID

Palabras clave: Multidisciplinary.

Pp. 57-61

doi: 10.1038/s41586-021-03504-4

Asymmetric response of interfacial water to applied electric fields

Angelo MontenegroORCID; Chayan DuttaORCID; Muhammet Mammetkuliev; Haotian Shi; Bingya Hou; Dhritiman BhattacharyyaORCID; Bofan Zhao; Stephen B. Cronin; Alexander V. BenderskiiORCID

Palabras clave: Multidisciplinary.

Pp. 62-65

doi: 10.1038/s41586-021-03550-y

Widespread deoxygenation of temperate lakes

Stephen F. JaneORCID; Gretchen J. A. HansenORCID; Benjamin M. KraemerORCID; Peter R. LeavittORCID; Joshua L. Mincer; Rebecca L. North; Rachel M. PillaORCID; Jonathan T. StetlerORCID; Craig E. WilliamsonORCID; R. Iestyn WoolwayORCID; Lauri Arvola; Sudeep ChandraORCID; Curtis L. DeGasperiORCID; Laura Diemer; Julita Dunalska; Oxana ErinaORCID; Giovanna FlaimORCID; Hans-Peter GrossartORCID; K. David HambrightORCID; Catherine Hein; Josef HejzlarORCID; Lorraine L. Janus; Jean-Philippe JennyORCID; John R. JonesORCID; Lesley B. KnollORCID; Barbara LeoniORCID; Eleanor Mackay; Shin-Ichiro S. Matsuzaki; Chris McBride; Dörthe C. Müller-Navarra; Andrew M. Paterson; Don PiersonORCID; Michela RogoraORCID; James A. RusakORCID; Steven SadroORCID; Emilie Saulnier-Talbot; Martin SchmidORCID; Ruben SommarugaORCID; Wim ThieryORCID; Piet VerburgORCID; Kathleen C. Weathers; Gesa A. WeyhenmeyerORCID; Kiyoko YokotaORCID; Kevin C. RoseORCID

Palabras clave: Multidisciplinary.

Pp. 66-70

doi: 10.1038/s41586-021-03559-3

The nutritional quality of cereals varies geospatially in Ethiopia and Malawi

D. GashuORCID; P. C. Nalivata; T. Amede; E. L. AnderORCID; E. H. BaileyORCID; L. BotomanORCID; C. ChagumairaORCID; S. GamedaORCID; S. M. HaefeleORCID; K. Hailu; E. J. M. Joy; A. A. Kalimbira; D. B. Kumssa; R. M. LarkORCID; I. S. Ligowe; S. P. McGrathORCID; A. E. MilneORCID; A. W. Mossa; M. Munthali; E. K. Towett; M. G. Walsh; L. Wilson; S. D. Young; M. R. BroadleyORCID

<jats:title>Abstract</jats:title><jats:p>Micronutrient deficiencies (MNDs) remain widespread among people in sub-Saharan Africa<jats:sup>1–5</jats:sup>, where access to sufficient food from plant and animal sources that is rich in micronutrients (vitamins and minerals) is limited due to socioeconomic and geographical reasons<jats:sup>4–6</jats:sup>. Here we report the micronutrient composition (calcium, iron, selenium and zinc) of staple cereal grains for most of the cereal production areas in Ethiopia and Malawi. We show that there is geospatial variation in the composition of micronutrients that is nutritionally important at subnational scales. Soil and environmental covariates of grain micronutrient concentrations included soil pH, soil organic matter, temperature, rainfall and topography, which were specific to micronutrient and crop type. For rural households consuming locally sourced food—including many smallholder farming communities—the location of residence can be the largest influencing factor in determining the dietary intake of micronutrients from cereals. Positive relationships between the concentration of selenium in grain and biomarkers of selenium dietary status occur in both countries. Surveillance of MNDs on the basis of biomarkers of status and dietary intakes from national- and regional-scale food-composition data<jats:sup>1–7</jats:sup> could be improved using subnational data on the composition of grain micronutrients. Beyond dietary diversification, interventions to alleviate MNDs, such as food fortification<jats:sup>8,9</jats:sup> and biofortification to increase the micronutrient concentrations in crops<jats:sup>10,11</jats:sup>, should account for geographical effects that can be larger in magnitude than intervention outcomes.</jats:p>

Palabras clave: Multidisciplinary.

Pp. 71-76

doi: 10.1038/s41586-021-03519-x

A high-quality bonobo genome refines the analysis of hominid evolution

Yafei MaoORCID; Claudia R. CatacchioORCID; LaDeana W. Hillier; David PorubskyORCID; Ruiyang Li; Arvis SulovariORCID; Jason D. Fernandes; Francesco Montinaro; David S. Gordon; Jessica M. Storer; Marina HauknessORCID; Ian T. Fiddes; Shwetha Canchi Murali; Philip C. Dishuck; PingHsun Hsieh; William T. Harvey; Peter A. Audano; Ludovica Mercuri; Ilaria Piccolo; Francesca AntonacciORCID; Katherine M. MunsonORCID; Alexandra P. Lewis; Carl Baker; Jason G. Underwood; Kendra Hoekzema; Tzu-Hsueh Huang; Melanie Sorensen; Jerilyn A. Walker; Jinna Hoffman; Françoise Thibaud-NissenORCID; Sofie R. SalamaORCID; Andy W. C. PangORCID; Joyce LeeORCID; Alex R. Hastie; Benedict PatenORCID; Mark A. Batzer; Mark DiekhansORCID; Mario VenturaORCID; Evan E. EichlerORCID

<jats:title>Abstract</jats:title><jats:p>The divergence of chimpanzee and bonobo provides one of the few examples of recent hominid speciation<jats:sup>1,2</jats:sup>. Here we describe a fully annotated, high-quality bonobo genome assembly, which was constructed without guidance from reference genomes by applying a multiplatform genomics approach. We generate a bonobo genome assembly in which more than 98% of genes are completely annotated and 99% of the gaps are closed, including the resolution of about half of the segmental duplications and almost all of the full-length mobile elements. We compare the bonobo genome to those of other great apes<jats:sup>1,3–5</jats:sup> and identify more than 5,569 fixed structural variants that specifically distinguish the bonobo and chimpanzee lineages. We focus on genes that have been lost, changed in structure or expanded in the last few million years of bonobo evolution. We produce a high-resolution map of incomplete lineage sorting and estimate that around 5.1% of the human genome is genetically closer to chimpanzee or bonobo and that more than 36.5% of the genome shows incomplete lineage sorting if we consider a deeper phylogeny including gorilla and orangutan. We also show that 26% of the segments of incomplete lineage sorting between human and chimpanzee or human and bonobo are non-randomly distributed and that genes within these clustered segments show significant excess of amino acid replacement compared to the rest of the genome.</jats:p>

Palabras clave: Multidisciplinary.

Pp. 77-81