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Pye, K.

Study of the effects of freeze-thaw cycles on minerals’ fragmentation of the mineral particles and their aggregation with different types of soil. The repeated freezing and thawing process can cause not just fragmentation edges of particles as well as increased roundness, but can also lead to the fragmentation of large-sized particles as well as a reduction in roundness of the particles.1 Minerals 11 (9), 913 (2021). Comparing the roundness before freeze-thaw, the roundness after 100 freeze-thaw cycles, rough sand’s roundness increased 0.1715. Zhang, Z., Ma, W., Feng, W. It was the case that coarse sand’s roundness was increased most, which means how round the particles that have big particle size was the highest.1 J., Xiao, D. Data availability.

H. & Hou, X. All or some of the data generated or utilized in the course of the study are available to the author upon request. Reconstruction of the soil particle composition in freeze-thaw cycles: A review. References.

Pedosphere 26, (2) (pp. 167-173) (2016).1 Wang, E. Zhang, Z., Pendin, V. H., Cruse, R. V., Feng, W. M., Chen, X. J. & Zhang, Z. W. & Daigh, A. Q. Effects of moisture conditions and freeze/thaw cycles, on the surface scale and size, as well as stability.

The effect of freeze-thaw cycles on composition of the granulometrics of Moscow morainic clay.1 Can. Sci. J. Cold Arid Reg.

7 , 199-205 (2015). Soil Sci. 92 , 529-536 (2012). Pettijohn, F. Wang, J. J. B. et al. Sedimentary Rocks 718 (Harper and Brothers, 1957). A study of the effect of freeze-thaw cycles upon aggregate and fragmentation of mineral minerals with different types of soil.1 Blott, S. Minerals 11 (9), 913 (2021).

J. Zhang, Z., Ma, W., Feng, W. Blottt, S. J., Xiao, D. J. H. & Hou, X. Pye, K. Reconstruction of soil particle structure during freeze-thaw cycles: a review. Particle shape Review and the development of new methods for characterization and classification.1 Pedosphere 26, (2) 267-179 (2016). Sedimentology 55, 31-63 (2008). Zhang, Z., Pendin, V. Li, K. V., Feng, W. M., Zuo, L., Nardelli, V., Alves, T. J. & Zhang, Z. M. & Lourenco, S. Q. D. The impact of freeze-thaw cycles upon the composition of granulometrics in Moscow morainic clay.

N.1 Sci. The morphometric characteristics of sediment particles reveal the underlying mechanisms and sources of landslides in the subsea. Cold Arid Reg.

7 , 199-205 (2015). Landslides 16, (4), 829-837 (2019). Pettijohn, F. Vos, K., Vandenberghe, N. & Elsen, J. J. Analysis of the surface texture of quartz grains using scanning electron microscope (SEM) from the preparation of the sample to the interpretation of environmental data.1 Sedimentary Rocks 718 (Harper and Brothers, 1957).

Earth-Sci. Blott, S. Rev. 128 , 93-104 (2014).

J. Costa, P. Blottt, S. J. et al. J. The microtextural properties of quartz grains that are transported and deposited by storms and tsunamis. Pye, K. Sediment. Particle shape: A review and novel methods for characterizing and classifying.1

Geol. 275-276 , 55-69 (2012). Sedimentology 55, 31-63 (2008). Costa, P. Li, K. J. et al.

M., Zuo, L., Nardelli, V., Alves, T. Aeolian microstextures of silica spheres that are induced by wind tunnel experiments Comparative study against aeolian quartz. M. & Lourenco, S. Geomorphology 180 , 120-129 (2013).1 D. Costa, P. N. J. Morphometric analysis of sediment particles provides insight into the origin and the mechanisms for emplacement of submerged landslides. M. et al. Landslides 16, (4), 829-837 (2019). Imprints on silica grains that are induced by a wave flume Methodology to identify microtextural characteristics during aqueous transport.1 Vos, K., Vandenberghe, N. & Elsen, J. J. The analysis of surface textural characteristics of quartz grains with scanning electron microscope (SEM) Starting from sampling preparation to interpretation of environmental conditions.

Sediment. Earth-Sci. Res. 87 (7), 677-687 (2017). Rev.

128 , 93-104 (2014).1 Plumley, W. Costa, P. J. J. et al. Brack hills terrace gravels Study of sediment transport. Microtextural characteristics of quartz particles being transported and laid down by storms and tsunamis. J. Sediment. Geol.

56 (6), 526-577 (1948). Geol. 275-276 , 55-69 (2012). Kleesment, A. Costa, P.1 Roundness and surface characteristics of quartz grains from Middle Devonian deposits of the East Baltic and their palaeogeographical implications. J. et al. Est.

Aeolian microstextures within silica spheres caused by the wind tunnel A comparison to aeolian quartz. J. Geomorphology 180 , 120-129 (2013).1 Earth Sci.

58 (1), 71 (2009). Costa, P. Mejia-Ledezma, R. J. O. et al. M. et al. Surface textures of ilmenite and quartz grains from beach and dune sandy areas from the Gulf of Mexico Coast, Mexico and its implications for the fluvial, aeolian, and marine transport. Imprints in silica grains created in a wave flume study A method to detect microtextural signatures in aqueous transportation.1 Aeolian Res.

45 , 100611 (2020). J. Bagnold, R. Sediment. The Physics of Blown Sand and Desert Dunes (Methuen, 1941). Res. 87 (7), 677-687 (2017). Kuenen, P. Plumley, W. H. J. Experimental Abrasion 4: Eolian Action.

Brack hills terrace gravels A study of sediment transport. J. J. Geol. 68 (4), 427-449 (1960).1 Geol. 56 (6), 526-577 (1948).

Goudie, A. Kleesment, A. S. & Watson, A. Roundness and surface characteristics of quartz grains within Middle Devonian deposits of the East Baltic and their palaeogeographical implications. The form of desert sand dunes. Est. J. J. Arid Environ. 4 (3), 185-190 (1981).1 Earth Sci. 58 (1), 71 (2009).

Mazzullo, J. Mejia-Ledezma, R. I. O. et al. Mazzullo, J. Surface textures of ilmenite and quartz grains derived from beach and dune Sands in the Gulf of Mexico Coast, Mexico Impacts on fluvial, marine, and aeolian transport. I., Sims, D. and Cunningham, D. Aeolian Res. 45 , 100611 (2020).1 The effects of eolian sorting as well as abrasion on the shape of quartz fine sand particles.

Bagnold, R. J. The Physics of Blown Sand and Desert Dunes (Methuen, 1941).

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