16 citations as recorded by crossref.

1. A new method for extracting the insoluble occluded carbon in archaeological and modern phytoliths: Detection of 14C depleted carbon fraction and implications for radiocarbon dating Y. Asscher et al.
2. Towards producing pure phytolith concentrates from plants that are suitable for carbon isotopic analysis R. Corbineau et al.
3. From radiocarbon analysis to interpretation: A comment on “Phytolith Radiocarbon Dating in Archaeological and Paleoecological Research: A Case Study of Phytoliths from Modern Neotropical Plants and a Review of the Previous Dating Evidence”, Journal of Archaeological Science (2015), doi: 10.1016/j.jas.2015.06.002.” by Dolores R. Piperno G. Santos et al.
4. Phytolith radiocarbon dating in archaeological and paleoecological research: a case study of phytoliths from modern Neotropical plants and a review of the previous dating evidence D. Piperno
5. Comparison of two methods for the isolation of phytolith occluded carbon from plant material J. Parr & L. Sullivan
6. Occurrence, turnover and carbon sequestration potential of phytoliths in terrestrial ecosystems Z. Song et al.
7. TEMPORARY REMOVAL: High potential of phytoliths in terrestrial carbon sequestration at a centennial–millennial scale: Reply to comments by Santos and Alexandre Z. Song et al.
8. Impact of climate and lithology on soil phytolith-occluded carbon accumulation in eastern China X. Zhang et al.
9. Phytolith Radiocarbon Dating: A Review of Previous Studies in China and the Current State of the Debate X. Zuo & H. Lu
10. Publisher’s Note
11. 3D shape analysis of grass silica short cell phytoliths: a new method for fossil classification and analysis of shape evolution T. Gallaher et al.
12. The phytolith carbon sequestration concept: Fact or fiction? A comment on “Occurrence, turnover and carbon sequestration potential of phytoliths in terrestrial ecosystems by Song et al. doi: 10.1016/j.earscirev.2016.04.007” G. Santos & A. Alexandre
13. When the carbon being dated is not what you think it is: Insights from phytolith carbon research G. Santos et al.
14. A review of carbon isotopes of phytoliths: implications for phytolith-occluded carbon sources S. Yang et al.
15. Determining phytolith-occluded organic carbon sequestration using an upgraded optimized extraction method: indicating for a missing carbon pool N. Han et al.
16. Unambiguous evidence of old soil carbon in grass biosilica particles P. Reyerson et al.