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Evaluation of land-atmosphere processes of the Polar WRF in the summertime Arctic tundra 期刊论文
ATMOSPHERIC RESEARCH, 2020, 240
作者:  Kim, Jeongwon;  Lee, Junhong;  Hong, Je-Woo;  Hong, Jinkyu;  Koo, Ja-Ho;  Kim, Joo-Hong;  Yun, Juyeol;  Nam, Sungjin;  Jung, Ji Young;  Choi, Taejin;  Lee, Bang Yong
收藏  |  浏览/下载:14/0  |  提交时间:2020/08/18
Polar WRF  Arctic tundra  Land-atmosphere interaction  Surface energy balance  Soil moisture  Planetary boundary layer  
Combining atmospheric and snow radiative transfer models to assess the solar radiative effects of black carbon in the Arctic 期刊论文
ATMOSPHERIC CHEMISTRY AND PHYSICS, 2020, 20 (13) : 8139-8156
作者:  Donth, Tobias;  Jaekel, Evelyn;  Ehrlich, Andre;  Heinold, Bernd;  Schacht, Jacob;  Herber, Andreas;  Zanatta, Marco;  Wendisch, Manfred
收藏  |  浏览/下载:10/0  |  提交时间:2020/07/21
Water rights shape crop yield and revenue volatility tradeoffs for adaptation in snow dependent systems 期刊论文
NATURE COMMUNICATIONS, 2020, 11 (1)
作者:  Malek, Keyvan;  Reed, Patrick;  Adam, Jennifer;  Karimi, Tina;  Brady, Michael
收藏  |  浏览/下载:15/0  |  提交时间:2020/07/14
Impact of land surface physics on the simulation of boundary layer characteristics at a tropical coastal station 期刊论文
ATMOSPHERIC RESEARCH, 2020, 238
作者:  Rajeswari, J. R.;  Srinivas, C., V;  Rao, T. Narayana;  Venkatraman, B.
收藏  |  浏览/下载:9/0  |  提交时间:2020/08/18
Land surface model  WRF-ARW  Fluxes  PBL height  
Nonstationarity impacts on frequency analysis of yearly and seasonal extreme temperature in Turkey 期刊论文
ATMOSPHERIC RESEARCH, 2020, 238
作者:  Aziz, Rizwan;  Yucel, Ismail;  Yozgatligil, Ceylan
收藏  |  浏览/下载:9/0  |  提交时间:2020/08/18
Nonstationarity  Ensemble  Climate change  CORDEX  RCM  
Evaluating the impact of blowing-snow sea salt aerosol on springtime BrO and O-3 in the Arctic 期刊论文
ATMOSPHERIC CHEMISTRY AND PHYSICS, 2020, 20 (12) : 7335-7358
作者:  Huang, Jiayue;  Jaegle, Lyatt;  Chen, Qianjie;  Alexander, Becky;  Sherwen, Tomas;  Evans, Mat J.;  Theys, Nicolas;  Choi, Sungyeon
收藏  |  浏览/下载:9/0  |  提交时间:2020/06/29
Characterizing atmospheric controls on winter urban pollution in a topographic basin setting using Radon-222 期刊论文
ATMOSPHERIC RESEARCH, 2020, 237
作者:  Kikaj, Dafina;  Chambers, Scott D.;  Kobal, Matjaz;  Crawford, Jagoda;  Vaupotic, Janja
收藏  |  浏览/下载:8/0  |  提交时间:2020/07/02
Radon  Stability  Persistent temperature inversion  Complex topography  Urban pollution  
Deposition of brown carbon onto snow: changes in snow optical and radiative properties 期刊论文
ATMOSPHERIC CHEMISTRY AND PHYSICS, 2020, 20 (10) : 6095-6114
作者:  Beres, Nicholas D.;  Sengupta, Deep;  Samburova, Vera;  Khlystov, Andrey Y.;  Moosmueller, Hans
收藏  |  浏览/下载:6/0  |  提交时间:2020/06/01
Patterns and trends of Northern Hemisphere snow mass from 1980 to 2018 期刊论文
NATURE, 2020, 581 (7808) : 294-+
作者:  Ibrahim, Nizar;  Maganuco, Simone;  Dal Sasso, Cristiano;  Fabbri, Matteo;  Auditore, Marco;  Bindellini, Gabriele;  Martill, David M.;  Zouhri, Samir;  Mattarelli, Diego A.;  Unwin, David M.;  Wiemann, Jasmina;  Bonadonna, Davide;  Amane, Ayoub;  Jakubczak, Juliana;  Joger, Ulrich;  Lauder, George V.;  Pierce, Stephanie E.
收藏  |  浏览/下载:18/0  |  提交时间:2020/05/25

Warming surface temperatures have driven a substantial reduction in the extent and duration of Northern Hemisphere snow cover(1-3). These changes in snow cover affect Earth'  s climate system via the surface energy budget, and influence freshwater resources across a large proportion of the Northern Hemisphere(4-6). In contrast to snow extent, reliable quantitative knowledge on seasonal snow mass and its trend is lacking(7-9). Here we use the new GlobSnow 3.0 dataset to show that the 1980-2018 annual maximum snow mass in the Northern Hemisphere was, on average, 3,062 +/- 35 billion tonnes (gigatonnes). Our quantification is for March (the month that most closely corresponds to peak snow mass), covers non-alpine regions above 40 degrees N and, crucially, includes a bias correction based on in-field snow observations. We compare our GlobSnow 3.0 estimates with three independent estimates of snow mass, each with and without the bias correction. Across the four datasets, the bias correction decreased the range from 2,433-3,380 gigatonnes (mean 2,867) to 2,846-3,062 gigatonnes (mean 2,938)-a reduction in uncertainty from 33% to 7.4%. On the basis of our bias-corrected GlobSnow 3.0 estimates, we find different continental trends over the 39-year satellite record. For example, snow mass decreased by 46 gigatonnes per decade across North America but had a negligible trend across Eurasia  both continents exhibit high regional variability. Our results enable a better estimation of the role of seasonal snow mass in Earth'  s energy, water and carbon budgets.


Applying a bias correction to a state-of-the-art dataset covering non-alpine regions of the Northern Hemisphere and to three other datasets yields a more constrained quantification of snow mass in March from 1980 to 2018.


  
Remote sensing reveals Antarctic green snow algae as important terrestrial carbon sink 期刊论文
NATURE COMMUNICATIONS, 2020, 11 (1)
作者:  Gray, Andrew;  Krolikowski, Monika;  Fretwell, Peter;  Convey, Peter;  Peck, Lloyd S.;  Mendelova, Monika;  Smith, Alison G.;  Davey, Matthew P.
收藏  |  浏览/下载:13/0  |  提交时间:2020/05/25