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Assessme
n
t a
n
d simulatio
n
of global terrestrial late
n
t heat flux by sy
n
thesis of CMIP5 climate models a
n
d surface eddy covaria
n
ce observatio
n
s
详细信息
作者:
Yun
ju
n
Yaoa
;
boy
yun
ju
n
@163.com" class="auth_mail" title="E-mail the correspo
n
di
n
g author
;
Shu
n
li
n
Lia
n
ga
;
Xia
n
gla
n
Lib
;
Shaomi
n
Liua
;
Jiqua
n
Che
n
c
;
Xiaoto
n
g Zha
n
ga
;
Ku
n
Jiaa
;
Bo Jia
n
ga
;
Xia
n
ho
n
g Xiea
;
Simo
n
Mu
n
ierd
;
Me
n
g Liua
;
Jia
n
Yu
a
;
A
n
ders Li
n
drothe
;
A
n
drej Varlagi
n
f
;
A
n
to
n
io Raschig
;
Asko
N
oormetsh
;
Casimiro Pioi
;
Georg Wohlfahrtj
;
k
;
Ge Su
n
l
;
Jea
n
-Christophe Domecm
;
n
;
Leo
n
ardo Mo
n
tag
n
a
n
io
;
p
;
Mag
n
us Lu
n
dq
;
Moors Eddyr
;
s
;
Peter D. Bla
n
ke
n
t
;
Thomas Grü
;
n
waldu
;
Sebastia
n
Wolfv
;
Vi
n
ce
n
zo Magliulow
关键词:
Global terrestrial LE
;
CMIP5
;
GCMs
;
BMA
;
Taylor skill score
刊名:Agricultural a
n
d Forest Meteorology
年:2016
期:Complete
DOI:10.1016/j.agrformet.2016.03.016
来源:Elsevier
类型:期刊
摘要
•The model CESM1-CAM5 had the best performa
n
ce with the highest predictive skill.•The BMA method has improved the accuracy of the CMIP5 GCM’s LE simulatio
n
.•A large differe
n
ce from previous studies is a
n
i
n
creasi
n
g LE tre
n
d after 1998.