B
Baatarbileg Nachin
Researcher at National University of Mongolia
Publications - 28
Citations - 995
Baatarbileg Nachin is an academic researcher from National University of Mongolia. The author has contributed to research in topics: Global warming & Climate change. The author has an hindex of 13, co-authored 24 publications receiving 757 citations. Previous affiliations of Baatarbileg Nachin include National Academy of Sciences & Lamont–Doherty Earth Observatory.
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Journal ArticleDOI
1738 years of Mongolian temperature variability inferred from a tree-ring width chronology of Siberian pine
Rosanne D'Arrigo,Gordon C. Jacoby,David Frank,Neil Pederson,Edward R. Cook,Brendan M. Buckley,Baatarbileg Nachin,R. Mijiddorj,Chultamiin Dugarjav +8 more
TL;DR: In this article, tree-ring widths of Siberian pine at Solongotyn Davaa (Sol Dav), a timberline (2420 m) site in Mongolia, were used to estimate the temperature variability from 1882 to 1993.
Journal ArticleDOI
Dzuds, droughts, and livestock mortality in Mongolia
Mukund Palat Rao,Mukund Palat Rao,Nicole Davi,Nicole Davi,Rosanne D'Arrigo,Jerry R. Skees,Baatarbileg Nachin,Caroline Leland,Caroline Leland,Bradfield Lyon,Shih-Yu Wang,Oyunsanaa Byambasuren +11 more
TL;DR: In this paper, the authors examined mortality in 21 Mongolian aimags (provinces) between 1955 and 2013 in order to explain its density independent cause(s) related to climate variability, and found that livestock mortality is most strongly linked to winter (November-February) temperatures, with incidences of mass mortality being most likely to occur because of an anomalously cold winter.
Journal ArticleDOI
Mongolian tree-rings, temperature sensitivity and reconstructions of northern hemisphere temperature.
Rosanne D'Arrigo,Gordon C. Jacoby,Neil Pederson,David Frank,Brendan M. Buckley,Baatarbileg Nachin,R. Mijiddorj,Chultamiin Dugarjav +7 more
TL;DR: In this paper, a regional-scale composite of four tree-ring width records of Siberian pine and Siberian larch from temperature-sensitive alpine timber-line sites in Mongolia is presented.
Journal ArticleDOI
Past and future drought in Mongolia
Amy E. Hessl,Kevin J. Anchukaitis,Casey M. Jelsema,Benjamin I. Cook,Benjamin I. Cook,Oyunsanaa Byambasuren,Caroline Leland,Baatarbileg Nachin,Neil Pederson,Hanqin Tian,Laia Andreu Hayles +10 more
TL;DR: Future drought projections for Mongolia are unlikely to exceed those of the last two millennia, despite projected warming, according to paleoclimate, historical, and future climate simulations.
Journal ArticleDOI
The contribution of insects to global forest deadwood decomposition
Sebastian Seibold,Werner Rammer,Torsten Hothorn,Rupert Seidl,Michael D. Ulyshen,Janina Lorz,Marc W. Cadotte,David B. Lindenmayer,Yagya Prasad Adhikari,Roxana Aragón,Soyeon Bae,Petr Baldrian,Hassan Barimani Varandi,Jos Barlow,Jos Barlow,Claus Bässler,Claus Bässler,Jacques Beauchêne,Erika Berenguer,Erika Berenguer,Rodrigo Scarton Bergamin,Tone Birkemoe,Gergely Boros,Roland Brandl,Hervé Brustel,Philip J. Burton,Yvonne Tété Cakpo-Tossou,Jorge Castro,Eugénie Cateau,Tyler P. Cobb,Nina Farwig,Romina Daiana Fernandez,Jennifer Firn,Kee Seng Gan,Grizelle González,Martin M. Gossner,Jan Christian Habel,Christian Hébert,Christoph Heibl,Osmo Heikkala,Andreas Hemp,Claudia Hemp,Joakim Hjältén,Stefan Hotes,Jari Kouki,Thibault Lachat,Jie Liu,Yu Liu,Ya-Huang Luo,Damasa M. Macandog,Pablo E. Martina,Sharif A. Mukul,Baatarbileg Nachin,Kurtis Nisbet,John O'Halloran,Anne Oxbrough,Jeev Nath Pandey,Tomáš Pavlíček,Stephen M. Pawson,Stephen M. Pawson,Jacques S. Rakotondranary,Jacques S. Rakotondranary,Jean-Baptiste Ramanamanjato,Liana Chesini Rossi,Jürgen Schmidl,Mark Schulze,Stephen Seaton,Marisa J. Stone,Nigel E. Stork,Byambagerel Suran,Anne Sverdrup-Thygeson,Simon Thorn,Ganesh Thyagarajan,Tim Wardlaw,Wolfgang W. Weisser,Sung-Soo Yoon,Naili Zhang,Jörg Müller,Jörg Müller +78 more
TL;DR: In this paper, the authors present a field experiment of wood decomposition across 55 forest sites and 6 continents and find that the deadwood decomposition rates increase with temperature, and the strongest temperature effect is found at high precipitation levels.