Fern, Dicranopteris linearis, derived phytoliths in soil: Morphotypes, 
solubility and content in relation to soil properties

Nguyen, Minh N.; Meharg, Andy A.; Carey, Manus; Dultz, Stefan; Marone, Federica; Cichy, Sarah Bettina; Tran, Chinh T.; Le, Giang H.; Mai, Nga T.; Nguyen, Thinh T.H.

doi:10.1111/ejss.12754

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Fern, Dicranopteris linearis, derived phytoliths in soil: Morphotypes, solubility and content in relation to soil properties

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Nguyen, Minh N.
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Meharg, Andy A.
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Carey, Manus
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Dultz, Stefan
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Marone, Federica
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Cichy, Sarah Bettina
3.6 Chemistry and Physics of Earth Materials, 3.0 Geochemistry, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Tran, Chinh T.
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Le, Giang H.
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Mai, Nga T.
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Nguyen, Thinh T.H.
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Nguyen, M. N., Meharg, A. A., Carey, M., Dultz, S., Marone, F., Cichy, S. B., Tran, C. T., Le, G. H., Mai, N. T., Nguyen, T. T. (2019): Fern, Dicranopteris linearis, derived phytoliths in soil: Morphotypes, solubility and content in relation to soil properties. - European Journal of Soil Science, 70, 3, 507-517.
https://doi.org/10.1111/ejss.12754

Cite as: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5000513

Abstract

Ferns are among the most popular groups of plants in the tropics and subtropics, and their role as carbon sequestrators has been widely recognized. However, there is little understanding of the silicaceous structures (phytoliths) of ferns, rate of phytolith turnover, the consequences for organic matter sequestered in phytoliths and consequences for other soil properties. In the study reported here, high‐resolution X‐ray tomographic microscopy and chemical characterization were applied to examine the traits of phytoliths of the fern Dicranopteris linearis (Burm.f.) Underw. (D. linearis), with a focus on their dissolution properties and accumulation in northern Vietnamese soils in relation to soil properties. Tomographic images revealed an inter‐embedding structure of silica and organic matter, especially in leaf‐derived material. We propose that organic matter and silica can preserve each other against decomposition. In batch experiments, there was a relatively small rate of dissolution of phytoliths with dry ashing and subsequent H2O2 treatment. Silicon (Si) dissolution for D. linearis phytolith samples was much less than that for rice phytoliths. Despite the fact that the aluminum (Al) content was large in D. linearis leaves, batch dissolution data did not confirm a relation between Al and the slow rate of phytolith dissolution. The soil phytolith content varied from 0.9 to 7.5 g kg−1 in the topsoil across the mountainous areas in northern Vietnam, whereas it tended to be smaller in the subsoil. The data indicate a relation between phytolith and soil organic matter, clay content, oxalate‐soluble Al and electrical conductivity, suggesting that these soil properties are among the important factors affecting the size of the soil phytolith Si pool.