光谱学与光谱分析 |
|
|
|
|
|
Study of Allocations of 12 Essential Elements under Simulated Warming and Nitrogen Deposition in a Mongolian Traditional Drug, Agi, Artemisia Frigida Willd |
BORJIGIDAI Almaz1, 2, ZHUANG Li1, 2, XI Yi1, 2, LI Ya-wei1, 2, GAO Qing-zhu3, 4, HUANG Yong-mei5, PANG Zong-ran1, 2, CUI Jian1, 2* |
1. Key Lab of Minority Traditional Medicine, State Nationalities Affairs Commission and Ministry of Education, Minzu University of China, Beijing 100081, China 2. Institute of Chinese Minority Traditional Medicine, Minzu University of China, Beijing 100081, China 3. Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Beijing 100081, China 4. Key Laboratory for Agro-Environment & Climate Change of Ministry of Agriculture, Beijing 100081, China 5. College of Resources Science and Technology, Beijing Normal University, Beijing 100875, China |
|
|
Abstract The UN Intergovernmental Panel on Climate Change (IPCC) pointed out that nitrogen deposition was being increasingly intensified along with climate warming. In this paper, we conducted a multi-factor experiment from 2005 using Artemisia frigida, a Mongolian traditional medicinal plant in Inner Mongolia steppe, to study the effect of simulated warming and nitrogen addition on 12 essential element contents and their allocation in reproductive branches (vegetative branches) by ICP-AES. The four treatments were: CK (ambient), IR (warming), N (nitrogen addition) and IRN (warming plus nitrogen addition). The simulated warming was 2 ℃, and the total amount of added NH4NO3 was 10 g N·m-2·a-1. In this study, our result showed that warming and nitrogen addition influenced the essential element absorption and distribution. Compared to ambient, there were different variations in 12 essential element contents at warming condition, but the negative effects were more than the positive effects. Nitrogen deposition significantly increased absorption of P and Mn, but no interactive effect of warming, Nitrogen deposition, and different part on all of 12 element contents. In addition, absorption and allocation of N, K, Ca and Mg were significantly different between reproductive branches and vegetative branches (P<0.05).
|
Received: 2012-10-17
Accepted: 2013-03-16
|
|
Corresponding Authors:
CUI Jian
E-mail: cuijian9393@yahoo.com.cn
|
|
[1] JIANG Gao-ming(蒋高明). Plant Ecophsiology(植物生理生态学). Beijing: Higher Education Press(北京:高等教育出版社), 2005. [2] Borjigidai A, Hikosaka K, Hirose T. Plant Ecology, 2009, 203: 33. [3] Vitousek P M, Aber J D, Howarth R W, et al. Ecological Applications, 1997, 7: 737. [4] IPCC. Climate Change 2007: IPCC Fourth Assessment Report. Cambridge University Press, Cambridge, 2007. [5] Gruber N, Galloway J N. Nature, 2008, 451: 293. [6] Bethers S, Day M E, Wiersmaa G B, et al. Forest Ecology and Management, 2009, 258: 895. [7] Zhanbula DEJ(占布拉·道尔吉). Mirror of Correct Mongolian Materia Medica(无误蒙药鉴). Huhhot: Inner Mongolia People’s Publishing House(呼和浩特:内蒙古人民出版社), 1988. [8] MA Yu-quan(马毓泉). Flora Inner Mongolia-Volume six(内蒙古植物志·第6卷). Huhhot: Inner Mongolia People’s Publishing House(呼和浩特:内蒙古人民出版社),1982. [9] ZHANG Wan, XIE Kun, LOU Cai-xia, et al(张 婉, 谢 坤,楼彩霞, 等). Chinese Remedies & Clinics(中国药物与临床), 2008, 8: 852. [10] Luomala E M, Laitinen K, Kellomki S, et al. Plant, Cell and Environment, 2003, 26: 645. [11] Tingey D T, Mckane R B, Olszyk D M, et al. Global Change Biology, 2003, 9: 1038. [12] LIU Da-hui, GUO Lan-ping, HUANG Lu-qi, et al(刘大会, 郭兰萍, 黄璐琦, 等). China Journal of Chinese Material Medica(中国中药杂志), 2011, 36: 321. [13] LI Yi-yong, HUANG Wen-juan, ZHAO Liang, et al(李义勇,黄文娟,赵 亮, 等). Chinese Journal of Plant Ecology(植物生态学报), 2012, 36: 447. [14] DU Zhan-chi, ZHONG Hua-ping(杜占池, 钟华平). Journal of Sichuan Grassland(四川草原), 2001, 4: 14. [15] Matson P, Lohse K A, Hall S J. AMBIO-A Journal of the Human Environment, 2002, 31: 113. [16] Likens G E, Driscoll C T, Buso D C. Science, 1996, 272: 244. [17] LI De-jun, MO Jiang-ming, PENG Shao-lin, et al(李德军, 莫江明, 彭少麟, 等). Acta Ecologica Sinica(生态学报), 2005, 25: 2165. [18] SUN Qun, LIANG Zong-suo, WANG Wei-ling, et al(孙 群, 梁宗锁, 王渭玲, 等). Acta Agriculturae Boreali-Occidentalis Sinica(西北农业学报), 2001, 10: 7. [19] Liu J X, Zhang D Q, Zhou G Y, et al. Bio-Geosciences, 2008, 5: 1783. |
[1] |
CHEN Li-dan . Application of ICP-AES in Automotive Hydraulic Power Steering System Fault Diagnosis[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2013, 33(01): 210-214. |
[2] |
NIU Shu-fang, SHI Song-li*, WANG Deng-kui, CHENG Xiang-hui, LIU Zong-qiang . Determination of Elements in the Leaves of Prunus Mongolica by ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2013, 33(01): 220-223. |
[3] |
LIU Xian-miao1,JIANG Ze-hui2*,FEI Ben-hua1,REN Hai-qing3,FU Feng3 . Determination of Metal Elements in Paper Sludges by ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(01): 255-258. |
[4] |
HAN Wen-xuan, HUANG Ming-li, TANG Ao-han, SHEN Jian-lin, WANG Si-miao, LIU Xue-jun, ZHANG Fu-suo* . Study on the Response of Middle and Trace Elements in Humulus Scandens Leaves to Atmospheric Reactive Nitrogen with ICP-AES [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(12): 3399-3401. |
[5] |
BAI Suo-zhu1, ZHOU Xiu-qing2, JIN Hai-yan3 . Determination of Five Kinds of Trace Elements in Mongolian Medicines by Microwave Digestion-ICP-AES [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(12): 3402-3404. |
[6] |
DAI Qi,ZHU Xiao-yu,CHEN Xiao-mei. Evaluation of the Uncertainty in the Determination of Arsenic in Cosmetics by ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2008, 28(02): 441-443. |
[7] |
LIU Ying1,2, LI Jing-feng2, FENG Jin-zhao1. Determination of Metal Elements in Whole Tetraena Mongolia Maxim from West Erdos Region of Inner Mongolia by ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2007, 27(10): 2114-2117. |
[8] |
HE Jin-zhe1,LIU Wen-han2,YANG Kai1,WU Hao1 . Determination of Harmful Elements in Various Fish Tissues by ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2007, 27(06): 1214-1217. |
[9] |
HU Hao-bin1*, CAO Hong2, LIU Jian-xin3, ZHENG Xu-dong1. Determination of Inorganic Elements in Elsholtzia bodinieri Vaniot from Gansu by Microwave Digestion ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(11): 2130-2133. |
[10] |
HE Jin-zhe, ZHAO Pei-cheng, YANG Kai, ZHANG Jian-you, SUN Pei-long . Determination of 27 Microelements in 11 Shellfishes[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(09): 1720-1723. |
[11] |
TANG Rui, HOU Xiang-yan, SUN Chen, YANG Yi*. Determination of Elements in Euonymus Alatus by Microwave Digestion-ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(08): 1543-1546. |
[12] |
ZHANG Yi-min,JIANG Hui,Lü Xue-bin,WANG Hong. Determination of Lead and Arsenic Contents in Amylum by ICP-AES Methodology[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(03): 554-556. |
[13] |
LIU Ying, LI Jing-feng, GA Ri-di, MA Ning. Determination of Metal Elements in Six Kinds of Desert Plants in Inner Mongolia by ICP-AES[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(02): 344-347. |
[14] |
YI Xin-ping1,LIU Jian-ping1,LI Ge2 . Determination of Elements of Hypericum Perforatum L. in Xinjiang by Microwave Digestion-ICP-AES [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2004, 24(07): 890-892. |
[15] |
FU Zhi-hong,XIE Ming-yong*,ZHANG Zhi-ming,GUO Lan . Determination of Inorganic Elements in Plantago by ICP-AES [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2004, 24(06): 737-740. |
|
|
|
|