advanceofresearchonmodernsoilphytolith

IVPP-IR

	advanceofresearchonmodernsoilphytolith
	Wen Changhui 1; Lu Houyuan 1; Zuo Xinxin 1; Ge Yong 2
	2018
发表期刊	sciencechinaearthsciences
ISSN	1674-7313
卷号	61 期号:9 页码:1169
摘要	Phytolith study is a new branch of micropaleontology with an increasingly important role in geology, archaeology, and plant taxonomy. Phytoliths have several advantages considering their characteristics of small particle size, high production, wide distribution, anti-decomposition, in situ deposition, distinctive morphologies, and element sequestrating capacity. Phytolith assemblages in modern soil have been found to be closely related to modern vegetation types and climate conditions, which forms the basis for the quantitative study of paleoecology, paleoclimate, and bio-geochemical cycles. At present, phytolith studies generally focus on the following four aspects: (1) Morphology: about 260 unduplicated types of phytoliths have been identified in modern soil, of which 110 types are from grasses, 50 types from ferns, woody plants and other angiosperms, whereas the origin plants of the remaining 100 types are still under investigation. (2) Soil phytolith assemblages and vegetation: phytolith assemblages from the topsoil have been used to distinguish surface vegetation types including different forests and grasslands over a typical region. This model has been applied to restore past vegetation conditions and monitor the dynamic evolution of specific vegetation types at different temporal and spatial scales. (3) Soil phytolith assemblages and climate: quantitative and semi-quantitative relationships between phytolith assemblages and a series of climate parameters, such as annual mean temperature, annual mean precipitation and altitude, have been established through mathematical analysis. In this manner, quantitative reconstruction of paleoclimatic parameters has been achieved through the phytolith-climate transfer function model. (4) Soil phytolith and its sequestered elements: in this topic, the content of soil PhytOC (Phytolith-occluded Organic Carbon) and the importance of PhytOC in the bio-geochemical cycle have been the focus. The study of modern soil phytoliths has provided new approaches and many successful cases for solving specific problems in various fields, such as Earth science and archaeology. This study analyzed existing issues in addition to the abovementioned significant progresses, and provides directions for future research on modern soil phytoliths.
语种	英语
资助项目	["Macroevolutionary Processes and Paleoenvironments of Major Historical Biota" of the Chinese Academy of Sciences] ; [National Natural Science Foundation of China] ; [National Basic Research Program of China]
文献类型	期刊论文
条目标识符	http://119.78.100.205/handle/311034/14191
专题	中国科学院古脊椎动物与古人类研究所
作者单位	1.中国科学院地质与地球物理研究所 2.中国科学院古脊椎动物与古人类研究所
推荐引用方式 GB/T 7714	Wen Changhui,Lu Houyuan,Zuo Xinxin,et al. advanceofresearchonmodernsoilphytolith[J]. sciencechinaearthsciences,2018,61(9):1169.
APA	Wen Changhui,Lu Houyuan,Zuo Xinxin,&Ge Yong.(2018).advanceofresearchonmodernsoilphytolith.sciencechinaearthsciences,61(9),1169.
MLA	Wen Changhui,et al."advanceofresearchonmodernsoilphytolith".sciencechinaearthsciences 61.9(2018):1169.