[1] |
PARR J F, SULLIVAN L A. Soil carbon sequestration in phytoliths[J]. Soil Biol Biochem, 2005, 37(1):117-124. |
[2] |
王永吉, 吕厚远.植物硅酸体研究及应用[M].北京:海洋出版社, 1993. |
[3] |
STRÖMBERG C A E. Using phytolith assemblages to reconstruct the origin and spread of grass-dominated habitats in the great plains of north America during the late Eocene to early Miocene[J]. Palaeogeogr Palaeocl, 2004, 207(3/4):239-275. |
[4] |
WILDING L P, BROWN R E, HOLOWAYCHUK N. Accessibility and properties of occluded carbon in biogenetic opal[J]. Soil Sci, 1967, 103(1):56-61. |
[5] |
左昕昕, 吕厚远.我国旱作农业黍、粟植硅体碳封存潜力估算[J].科学通报, 2011, 56(34):2881-2887.
ZUO Xinxin, LÜ Houyuan. Carbon sequestration within millet phytoliths from dry-farming of crops in China[J]. Chin Sci Bull, 2011, 56(34):2881-2887. |
[6] |
PARR J F, SULLIVAN L A, QUIRK R. Sugarcane phytoliths:encapsulation and sequestration of a long-lived carbon fraction[J]. Sugar Tech, 2009, 11(1):17-21. |
[7] |
PARR J F, DOLIC V, LANCASTER G, et al. A microwave digestion method for the extraction of phytoliths from herbarium specimens[J]. Rev Palaeobot Palynol, 2001, 116(3/4):203-212. |
[8] |
PARR J, SULLIVAN L, CHEN Bihua, et al. Carbon bio-sequestration within the phytoliths of economic bamboo species[J]. Global Change Biol, 2010, 16(10):2661-2667. |
[9] |
POST W M, KWON K C. Soil carbon sequestration and land-use change:processes and potential[J]. Global Change Biol, 2000, 6(3):317-328. |
[10] |
FRAYSSE F, POKROVSKY O S, SCHOTT J, et al. Surface chemistry and reactivity of plant phytoliths in aqueous solutions[J]. Chem Geol, 2009, 258(3/4):197-206. |
[11] |
BARTOLI F, WILDING L P. Dissolution of biogenic opal as a function of its physical and chemical properties[J]. Soil Sci Soc Am J, 1980, 44(4):873-878. |
[12] |
CONLEY D J, LIKENS G E, BUSO D C, et al. Deforestation causes increased dissolved silicate losses in the Hubbard Brook Experimental Forest[J]. Global Change Biol, 2008, 14(11):2548-2554. |
[13] |
应雨骐, 项婷婷, 李永夫, 等.中国亚热带重要树种植硅体碳封存潜力估测[J].自然资源学报, 2015, 30(1):133-140.
YING Yuqi, XIANG Tingting, LI Yongfu, et al. Estimation of sequestration potential via phytolith carbon by important forest species in subtropical China[J]. J Nat Resour, 2015, 30(1):133-140. |
[14] |
YANG Jie, WU Jiasen, JIANG Peikun, et al. A study of phytolith-occluded carbon stock in monopodial bamboo in China[J]. Sci Rep, 2015, 5:13292. doi:10.1038/srep13292. |
[15] |
周国模, 姜培坤, 徐秋芳.竹林生态系统中碳的固定与转化[M].北京:科学出版社, 2010. |
[16] |
郭起荣, 杨光耀, 杜天真, 等.中国竹林的碳素特征[J].世界竹藤通讯, 2005, 3(3):25-28.
GUO Qirong, YANG Guangyao, DU Tianzhen, et al. Carbon character of Chinese bamboo forest[J]. World Bamboo Rattan, 2005, 3(3):25-28. |
[17] |
曹君迈, 贝盏临, 江涌, 等.枸杞花蕾扫描电镜制样方法的探讨[J].北方园艺, 2010(3):30-32.
CAO Junmai, BEI Zhanlin, JIANG Yong, et al. Flower bud of Lycium barbarum L. scanning microscopy preparation methods discussed[J]. Northern Hortic, 2010(3):30-32. |
[18] |
肖媛, 刘伟, 汪艳, 等.生物样品的扫描电镜制样干燥方法[J].实验室研究与探索, 2013, 32(5):45-53.
XIAO Yuan, LIU Wei, WANG Yan, et al. Drying methods of biological sample preparation for scanning electron microscope[J]. Res Explor Lab, 2013, 32(5):45-53. |
[19] |
张喆, 胡晶红, 李佳, 等.扫描电镜在生药研究领域中的应用概况[J].中国医药导报, 2013, 10(30):24-27.
ZHANG Zhe, HU Jinghong, LI Jia, et al. Applications of scanning electron microscope in pharmacognosy research[J]. China Med Herald, 2013, 10(30):24-27. |
[20] |
杨杰, 李永夫, 黄张婷, 等.碱溶分光光度法测定植硅体碳含量[J].分析化学, 2014, 42(9):1389-1390.
YANG Jie, LI Yongfu, HUANG Zhangting, et al. Determination of phytolith-occluded carbon content using alkali dissolution-spectrophotometry[J]. Chin J Anal Chem, 2014, 42(9):1389-1390. |
[21] |
HUANG Zhangting, LI Yongfu, CHANG S X, et al. Phytolith-occluded organic carbon in intensively managed Lei bamboo (Phyllostachys praecox) stands and implications for carbon sequestration[J]. Can J For Res, 2015, 45(8):1019-1025. |
[22] |
WALKLEY A, BLACK I A. An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method[J]. Soil Sci, 1934, 37(1):29-38. |