1. Zhou
Y., Retallack G.J., Huang C.M.* Early Eocene paleosol developed from basalt
in southeastern Australia: implications for paleoclimate. Arab. J. Geosci.,
2015, DOI: 10.1007/s13146-013-0184-z.
2. Li
S.G., Hu X.X., Tang Y., Huang C.M.*, Xiao W.Y. Response of lacustrine
sediment to anthropogenic activities over 240 years in Jiuzhaigou National
Nature Reserve, Southwest China. Quat. Int., 2014, 349: 367-375.
3. Wen
X.Y., Tang Y., Huang C.M.*, Gongbo S.L., Wang Z.W. Rare earth elements: A
potential proxy for identifying the lacustrine sediment source and soil
erosion intensity in karst areas. J. Soil. Sediment., 2014, 14:1693-1702.
4. Wang
Y.D., Huang C.M., Sun B.N., Quan C.*, Wu J.Y., Lin Z.C. Palaeo-CO2 variation
trends and the Cretaceous greenhouse climate. Earth-Sci Rev., 2014, 129:
136-147.
5. Liang
K.K., Hu X.X., Li S.G., Huang C.M.*, Tang Y.* Anthropogenic effect on deposition
dynamics of lake sediments based on 137Cs and 210Pbex Techniques in
Jiuzhaigou National Nature Reserve, China. Chin. Geogra. Sci., 2014, 24:
180-190.
6. Zhao
Y., Huang C.M.*, Zhang H.J. Ecological risk assessment on provincial land-use
overall planning in China. Hum. Ecol. Risk. Assess., 2014, 20: 1491-1506.
7. Pan
Y.Y., Huang C.M.* Quantitative reconstruction of early cretaceous
paleoclimate using paleosol carbonates in China. Carbonate. Evaporite., 2014,
29: 327-335.
8. Huang
C.M., Retallack G.J., Wang C.S., Huang Q.H. Paleoatmospheric pCO2
fluctuations across the Cretaceous-Tertiary boundary recorded from paleosol
carbonates in NE China. Palaeogeogr. Palaeoclimatol. Palaeoecol., 2013, 385:
95-105.
9. Wen
X.Y., Bai S., Zeng N., Wang C.S., Huang C.M.*, Zhang Q. Interruptions of the
ancient Shu Civilization: triggered by climate change or natural disaster?
Int. J. Earth Sci., 2013, 102: 933-947.
10. Huang
C.M., Retallack G.J., Wang C.S. Early Cretaceous atmospheric pCO2 levels
recorded from pedogenic carbonates in China. Cretaceous Res., 2012, 33:
42-49.
11. Yu
B., Huang C.M.*, Liu Z.H., Wang H.P., Wang L.L. A chaotic analysis on air
pollution index change over past 10 Years in Lanzhou, northwest China. Stoch.
Env. Res. Risk. A., 2011, 25: 643-653.
12. Retallack
G.J., Huang C.M. Ecology and evolution of Devonian trees in New York, USA.
Palaeogeogr. Palaeoclimatol. Palaeoecol., 2011, 299: 110-128.
13. Wen
X.Y., Wang C.S., Huang C.M.*, Bai S., Zhang Q. A novel method to assess the
effect of diagenesis on fossil teeth: Rare earth element signatures. J. Rare
Earth., 2011, 29: 710-715.
14. Retallack
G.J., Huang C.M. Depth to gypsic horizon as a proxy for paleoprecipitation in
paleosols of sedimentary environments. Geology, 2010, 38: 403-406.
15. Bai
S., Tang Y., Wang C.S., Huang C.M.* A late Quaternary climate record based on
multi-proxies analysis from the Jiaochang Loess Section in the Eastern
Tibetan Plateau, China. Acta Geol. Sin., 2007, 81: 1087-1096.
16. Zhang
G.L., Pan J.H., Huang C.M., Gong Z.T. Geochemical features of a soil
chronosequence developed on basalt in Hainan Island, China. Rev. Mex. Cienc.
Geol., 2007, 24: 261-269.
17. Wu
J.L., Huang C.M., Zeng H.A., Schleser G.H., Battarbee R. Sedimentary evidence
for recent eutrophication in the Northern Basin of Lake Taihu, China: Human
impacts on a large shallow lake. J. Paleolimn., 2007, 38: 13-23.
18. Huang
C.M., Wang C.S., Tang Y. Stable carbon and oxygen isotopes of pedogenic
carbonates in Ustic Vertosols: Implication for paleoenvironmental change.
Pedosphere, 2005, 15: 539-544.
19. Huang
C.M., Wang C.S. Geochemical characteristics and behaviors of rare earth
elements in process of vertisol development. J. Rare Earth., 2004, 22: 552-557.
20. Huang
C.M., Gong Z.T. Geochemical implication of rare earth elements in process of
soil development. J. Rare Earth., 2001, 19: 57-62.
【巴黎人娱乐城】
|
中国土壤学会 土壤发生、分类与土壤地理专业委员会委员;
Geology, Palaeogeogr. Palaeoclimatol.
Palaeoecol., Environ. Sci. Pollut. Res., Quat. Int., Acta Geol. Sin., J.
Mountain Sci., 土壤学报,地理科学,山地学报等20余种期刊审稿人。
【获奖】
|
1、1994年度四川省科技进步二等奖;
2、2013年度教育部技术发明二等奖;
3、2014年度四川省科技进步一等奖。
【专利】
已获发明专利5项
|
|