TY - JOUR
T1 - Alkenone-based reconstruction of late-Holocene surface temperature and salinity changes in Lake Qinghai, China
AU - Liu, Zhonghui H.
AU - Huang, Yongsong S.
AU - Henderson, Andrew C. G.
N1 - Liu, Z.H., Henderson, A.C.G., Huang, Y.S. (2006). Alkenone-based reconstruction of late-Holocene surface temperature and salinity changes in Lake Qinghai, China (vol 33, art no L09707, 2006). Geophysical Research Letters, 33
Sponsorship: NSF grants to Y.H.
(ESH-0318050 and OPP-0520718).
PY - 2006/5/10
Y1 - 2006/5/10
N2 - Few proxies can provide quantitative reconstructions
of past continental climatic and hydrological changes. Here,
we report the first alkenone-based reconstruction of late
Holocene temperature and salinity changes in Lake Qinghai,
China. The alkenone-temperature proxy (Uk0
37) indicates up
to a 1 C change in mean annual air temperature or a 2 C
change in summer lake water temperature during the late
Holocene. Oscillating warm and cold periods could be
related to the 20th century warm period, the Little Ice Age,
the Medieval Warm Period, the Dark Ages Cold Period, and
the Roman Warm Period. The relative importance of C37:4
alkenone to total C37 alkenone production (%C37:4)
fluctuated between 15–45%, with higher values during
warm periods, suggesting that lake water was also fresher
during these periods. The coupled late Holocene surface
temperature and salinity changes suggest that Asian
monsoons strongly influenced the climate of the Lake
Qinghai region.
AB - Few proxies can provide quantitative reconstructions
of past continental climatic and hydrological changes. Here,
we report the first alkenone-based reconstruction of late
Holocene temperature and salinity changes in Lake Qinghai,
China. The alkenone-temperature proxy (Uk0
37) indicates up
to a 1 C change in mean annual air temperature or a 2 C
change in summer lake water temperature during the late
Holocene. Oscillating warm and cold periods could be
related to the 20th century warm period, the Little Ice Age,
the Medieval Warm Period, the Dark Ages Cold Period, and
the Roman Warm Period. The relative importance of C37:4
alkenone to total C37 alkenone production (%C37:4)
fluctuated between 15–45%, with higher values during
warm periods, suggesting that lake water was also fresher
during these periods. The coupled late Holocene surface
temperature and salinity changes suggest that Asian
monsoons strongly influenced the climate of the Lake
Qinghai region.
U2 - 10.1029/2006GL026151
DO - 10.1029/2006GL026151
M3 - Article
SN - 1944-8007
VL - 33
JO - Geophysical Research Letters
JF - Geophysical Research Letters
IS - 9
ER -