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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.
Palabras clave – provistas por la editorial

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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/s41586-021-03706-w

Global upper-atmospheric heating on Jupiter by the polar aurorae

J. O’DonoghueORCID; L. MooreORCID; T. Bhakyapaibul; H. MelinORCID; T. Stallard; J. E. P. Connerney; C. TaoORCID

<jats:title>Abstract</jats:title><jats:p>Jupiter’s upper atmosphere is considerably hotter than expected from the amount of sunlight that it receives<jats:sup>1–3</jats:sup>. Processes that couple the magnetosphere to the atmosphere give rise to intense auroral emissions and enormous deposition of energy in the magnetic polar regions, so it has been presumed that redistribution of this energy could heat the rest of the planet<jats:sup>4–6</jats:sup>. Instead, most thermospheric global circulation models demonstrate that auroral energy is trapped at high latitudes by the strong winds on this rapidly rotating planet<jats:sup>3,5,7–10</jats:sup>. Consequently, other possible heat sources have continued to be studied, such as heating by gravity waves and acoustic waves emanating from the lower atmosphere<jats:sup>2,11–13</jats:sup>. Each mechanism would imprint a unique signature on the global Jovian temperature gradients, thus revealing the dominant heat source, but a lack of planet-wide, high-resolution data has meant that these gradients have not been determined. Here we report infrared spectroscopy of Jupiter with a spatial resolution of 2 degrees in longitude and latitude, extending from pole to equator. We find that temperatures decrease steadily from the auroral polar regions to the equator. Furthermore, during a period of enhanced activity possibly driven by a solar wind compression, a high-temperature planetary-scale structure was observed that may be propagating from the aurora. These observations indicate that Jupiter’s upper atmosphere is predominantly heated by the redistribution of auroral energy.</jats:p>

Palabras clave: Multidisciplinary.

Pp. 54-57

doi: 10.1038/s41586-021-03682-1

Emergent order in hydrodynamic spin lattices

Pedro J. SáenzORCID; Giuseppe PucciORCID; Sam E. Turton; Alexis GoujonORCID; Rodolfo R. Rosales; Jörn DunkelORCID; John W. M. BushORCID

Palabras clave: Multidisciplinary.

Pp. 58-62

doi: 10.1038/s41586-021-03688-9

Quantized nonlinear Thouless pumping

Marius JürgensenORCID; Sebabrata MukherjeeORCID; Mikael C. RechtsmanORCID

Palabras clave: Multidisciplinary.

Pp. 63-67

doi: 10.1038/s41586-021-03683-0

Pseudogap in a crystalline insulator doped by disordered metals

Sae Hee Ryu; Minjae HuhORCID; Do Yun Park; Chris JozwiakORCID; Eli RotenbergORCID; Aaron BostwickORCID; Keun Su KimORCID

Palabras clave: Multidisciplinary.

Pp. 68-73

doi: 10.1038/s41586-021-03717-7

Aziridine synthesis by coupling amines and alkenes via an electrogenerated dication

Dylan E. HolstORCID; Diana J. WangORCID; Min Ji KimORCID; Ilia A. Guzei; Zachary K. WickensORCID

Palabras clave: Multidisciplinary.

Pp. 74-79

doi: 10.1038/s41586-021-03695-w

Satellite imaging reveals increased proportion of population exposed to floods

B. TellmanORCID; J. A. SullivanORCID; C. KuhnORCID; A. J. Kettner; C. S. DoyleORCID; G. R. BrakenridgeORCID; T. A. EricksonORCID; D. A. SlaybackORCID

Palabras clave: Multidisciplinary.

Pp. 80-86

doi: 10.1038/s41586-021-03773-z

Possible poriferan body fossils in early Neoproterozoic microbial reefs

Elizabeth C. TurnerORCID

<jats:title>Abstract</jats:title><jats:p>Molecular phylogeny indicates that metazoans (animals) emerged early in the Neoproterozoic era<jats:sup>1</jats:sup>, but physical evidence is lacking. The search for animal fossils from the Proterozoic eon is hampered by uncertainty about what physical characteristics to expect. Sponges are the most basic known animal type<jats:sup>2,3</jats:sup>; it is possible that body fossils of hitherto-undiscovered Proterozoic metazoans might resemble aspect(s) of Phanerozoic fossil sponges. Vermiform microstructure<jats:sup>4,5</jats:sup>, a complex petrographic feature in Phanerozoic reefal and microbial carbonates, is now known to be the body fossil of nonspicular keratosan demosponges<jats:sup>6–10</jats:sup>. This Article presents petrographically identical vermiform microstructure from approximately 890-million-year-old reefs. The millimetric-to-centimetric vermiform-microstructured organism lived only on, in and immediately beside reefs built by calcifying cyanobacteria (photosynthesizers), and occupied microniches in which these calcimicrobes could not live. If vermiform microstructure is in fact the fossilized tissue of keratose sponges, the material described here would represent the oldest body-fossil evidence of animals known to date, and would provide the first physical evidence that animals emerged before the Neoproterozoic oxygenation event and survived through the glacial episodes of the Cryogenian period.</jats:p>

Palabras clave: Multidisciplinary.

Pp. 87-91

doi: 10.1038/s41586-021-03775-x

Molecular architecture of the developing mouse brain

Gioele La Manno; Kimberly Siletti; Alessandro Furlan; Daniel GyllborgORCID; Elin Vinsland; Alejandro Mossi AlbiachORCID; Christoffer Mattsson LangsethORCID; Irina Khven; Alex R. Lederer; Lisa M. DratvaORCID; Anna Johnsson; Mats NilssonORCID; Peter Lönnerberg; Sten LinnarssonORCID

Palabras clave: Multidisciplinary.

Pp. 92-96

doi: 10.1038/s41586-021-03756-0

Gut cytokines modulate olfaction through metabolic reprogramming of glia

Xiaoyu Tracy Cai; Hongjie Li; Martin Borch Jensen; Elie Maksoud; Jovencio Borneo; Yuxin Liang; Stephen R. QuakeORCID; Liqun LuoORCID; Pejmun Haghighi; Heinrich JasperORCID

Palabras clave: Multidisciplinary.

Pp. 97-102

doi: 10.1038/s41586-021-03720-y

In vivo monoclonal antibody efficacy against SARS-CoV-2 variant strains

Rita E. Chen; Emma S. Winkler; James Brett CaseORCID; Ishmael D. Aziati; Traci L. Bricker; Astha JoshiORCID; Tamarand L. Darling; Baoling Ying; John M. ErricoORCID; Swathi Shrihari; Laura A. VanBlargan; Xuping XieORCID; Pavlo Gilchuk; Seth J. ZostORCID; Lindsay Droit; Zhuoming LiuORCID; Spencer Stumpf; David Wang; Scott A. Handley; W. Blaine Stine; Pei-Yong ShiORCID; Meredith E. Davis-Gardner; Mehul S. Suthar; Miguel Garcia Knight; Raul AndinoORCID; Charles Y. ChiuORCID; Ali H. EllebedyORCID; Daved H. FremontORCID; Sean P. J. WhelanORCID; James E. CroweORCID; Lisa Purcell; Davide CortiORCID; Adrianus C. M. BoonORCID; Michael S. DiamondORCID

Palabras clave: Multidisciplinary.

Pp. 103-108