The role of deformation on the early crystallization and rheology of basaltic liquids

Francesco Vetere; Sven Merseburger; Alessandro Pisello; Diego Perugini; Cecilia Viti; Maurizio Petrelli; Alessandro Musu; Renat Almeev; Luca Caricchi; Gianluca Iezzi; Michele Cassetta; Francois Holtz

doi:10.1016/j.epsl.2024.118934

Details

Originalsprache	Englisch
Aufsatznummer	118934
Seitenumfang	12
Fachzeitschrift	Earth and Planetary Science Letters
Jahrgang	644
Frühes Online-Datum	20 Aug. 2024
Publikationsstatus	Veröffentlicht - 15 Okt. 2024

Abstract

This study highlights the rheological variation of magmatic systems during the early crystallization stage, which undergoes very different shear stress. Etna basaltic glass, made from natural rock powder, was used as a starting material. Nine shear rate-controlled experiments were conducted at 1150 °C (below liquidus temperature and undercooling degree ΔT ∼ 40 °C) with shear rates (γ˙) of 0.1, 1 and 10 s⁻¹ using wide-gap concentric cylinder viscometry. Three additional experiments were conducted without spinning the melts (no shear, γ˙= 0 s⁻¹). Run-products were collected after 3, 6 and 9 h. The experiment with the highest shear rate (γ˙=10s⁻¹) showed a brittle failure when viscosity reached the value of 2.90 log (Pa·s) and after ca. 1150s. The measured viscosity matches the shear stress at 7244 Pa, corresponding to the brittle failure in our partly crystallised system at these conditions. After 9 h, the response of the partly crystallised Etna basalt to different deformation rates results in decreasing viscosity from 4.89 to 3.83 and 2.90 (log Pa s) as the γ˙ increases from 0.1 to 1 and 10 s⁻¹, respectively. The main outcome of this study relates to the nucleation and growth of minerals with shear deformation. The deformation-free (γ˙ = 0 s⁻¹) runs show the presence of only two phases: glass and Fe-oxides (Fe-ox) with only a few vol% (1–3) of oxides crystals after 3, 6 and 9 h. The deformation-bearing (γ˙ = 0.1, 1 and 10 s⁻¹) runs show different scenarios: after 3 h, we observed only Fe-ox for a γ˙ of 0.1 s⁻¹ (similar to deformation-free ones). As the shear rate increases to 1 s⁻¹ and 10 s⁻¹, solid phases after 3 h experiments are Fe-ox, plagioclase and clinopyroxene. Crystal growth rate depends on the applied shear rate: the highest rate is 1.1 × 10⁻⁶ cm/s and was measured for plagioclase after a 3 h experiment for γ˙ = 10 s⁻¹. At γ˙ = 0.1 s⁻¹, the plagioclase growth rate decreases to 2.70 and 1.35 × 10⁻⁶ cm/s as experimental time increases from 6 to 9 h, respectively. The vast range of shear stress and the systematic data obtained in this study are fundamental to deciphering crystallization dynamics suffered by magmas in volcanic reservoirs, dikes, conduits and lavas.

ASJC Scopus Sachgebiete

Erdkunde und Planetologie (insg.)
Geophysik
Erdkunde und Planetologie (insg.)
Geochemie und Petrologie
Erdkunde und Planetologie (insg.)
Astronomie und Planetologie
Erdkunde und Planetologie (insg.)
Erdkunde und Planetologie (sonstige)

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The role of deformation on the early crystallization and rheology of basaltic liquids. / Vetere, Francesco; Merseburger, Sven; Pisello, Alessandro et al.
in: Earth and Planetary Science Letters, Jahrgang 644, 118934, 15.10.2024.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Vetere, F, Merseburger, S, Pisello, A, Perugini, D, Viti, C, Petrelli, M, Musu, A, Almeev, R, Caricchi, L, Iezzi, G, Cassetta, M & Holtz, F 2024, 'The role of deformation on the early crystallization and rheology of basaltic liquids', Earth and Planetary Science Letters, Jg. 644, 118934. https://doi.org/10.1016/j.epsl.2024.118934

Vetere, F., Merseburger, S., Pisello, A., Perugini, D., Viti, C., Petrelli, M., Musu, A., Almeev, R., Caricchi, L., Iezzi, G., Cassetta, M., & Holtz, F. (2024). The role of deformation on the early crystallization and rheology of basaltic liquids. Earth and Planetary Science Letters, 644, Artikel 118934. https://doi.org/10.1016/j.epsl.2024.118934

Vetere F, Merseburger S, Pisello A, Perugini D, Viti C, Petrelli M et al. The role of deformation on the early crystallization and rheology of basaltic liquids. Earth and Planetary Science Letters. 2024 Okt 15;644:118934. Epub 2024 Aug 20. doi: 10.1016/j.epsl.2024.118934

Vetere, Francesco ; Merseburger, Sven ; Pisello, Alessandro et al. / The role of deformation on the early crystallization and rheology of basaltic liquids. in: Earth and Planetary Science Letters. 2024 ; Jahrgang 644.

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abstract = "This study highlights the rheological variation of magmatic systems during the early crystallization stage, which undergoes very different shear stress. Etna basaltic glass, made from natural rock powder, was used as a starting material. Nine shear rate-controlled experiments were conducted at 1150 °C (below liquidus temperature and undercooling degree ΔT ∼ 40 °C) with shear rates (γ˙) of 0.1, 1 and 10 s−1 using wide-gap concentric cylinder viscometry. Three additional experiments were conducted without spinning the melts (no shear, γ˙= 0 s−1). Run-products were collected after 3, 6 and 9 h. The experiment with the highest shear rate (γ˙=10s−1) showed a brittle failure when viscosity reached the value of 2.90 log (Pa·s) and after ca. 1150s. The measured viscosity matches the shear stress at 7244 Pa, corresponding to the brittle failure in our partly crystallised system at these conditions. After 9 h, the response of the partly crystallised Etna basalt to different deformation rates results in decreasing viscosity from 4.89 to 3.83 and 2.90 (log Pa s) as the γ˙ increases from 0.1 to 1 and 10 s−1, respectively. The main outcome of this study relates to the nucleation and growth of minerals with shear deformation. The deformation-free (γ˙ = 0 s−1) runs show the presence of only two phases: glass and Fe-oxides (Fe-ox) with only a few vol% (1–3) of oxides crystals after 3, 6 and 9 h. The deformation-bearing (γ˙ = 0.1, 1 and 10 s−1) runs show different scenarios: after 3 h, we observed only Fe-ox for a γ˙ of 0.1 s−1 (similar to deformation-free ones). As the shear rate increases to 1 s−1 and 10 s−1, solid phases after 3 h experiments are Fe-ox, plagioclase and clinopyroxene. Crystal growth rate depends on the applied shear rate: the highest rate is 1.1 × 10−6 cm/s and was measured for plagioclase after a 3 h experiment for γ˙ = 10 s−1. At γ˙ = 0.1 s−1, the plagioclase growth rate decreases to 2.70 and 1.35 × 10−6 cm/s as experimental time increases from 6 to 9 h, respectively. The vast range of shear stress and the systematic data obtained in this study are fundamental to deciphering crystallization dynamics suffered by magmas in volcanic reservoirs, dikes, conduits and lavas.",

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TY - JOUR

T1 - The role of deformation on the early crystallization and rheology of basaltic liquids

AU - Vetere, Francesco

AU - Merseburger, Sven

AU - Pisello, Alessandro

AU - Perugini, Diego

AU - Viti, Cecilia

AU - Petrelli, Maurizio

AU - Musu, Alessandro

AU - Almeev, Renat

AU - Caricchi, Luca

AU - Iezzi, Gianluca

AU - Cassetta, Michele

AU - Holtz, Francois

PY - 2024/10/15

Y1 - 2024/10/15

N2 - This study highlights the rheological variation of magmatic systems during the early crystallization stage, which undergoes very different shear stress. Etna basaltic glass, made from natural rock powder, was used as a starting material. Nine shear rate-controlled experiments were conducted at 1150 °C (below liquidus temperature and undercooling degree ΔT ∼ 40 °C) with shear rates (γ˙) of 0.1, 1 and 10 s−1 using wide-gap concentric cylinder viscometry. Three additional experiments were conducted without spinning the melts (no shear, γ˙= 0 s−1). Run-products were collected after 3, 6 and 9 h. The experiment with the highest shear rate (γ˙=10s−1) showed a brittle failure when viscosity reached the value of 2.90 log (Pa·s) and after ca. 1150s. The measured viscosity matches the shear stress at 7244 Pa, corresponding to the brittle failure in our partly crystallised system at these conditions. After 9 h, the response of the partly crystallised Etna basalt to different deformation rates results in decreasing viscosity from 4.89 to 3.83 and 2.90 (log Pa s) as the γ˙ increases from 0.1 to 1 and 10 s−1, respectively. The main outcome of this study relates to the nucleation and growth of minerals with shear deformation. The deformation-free (γ˙ = 0 s−1) runs show the presence of only two phases: glass and Fe-oxides (Fe-ox) with only a few vol% (1–3) of oxides crystals after 3, 6 and 9 h. The deformation-bearing (γ˙ = 0.1, 1 and 10 s−1) runs show different scenarios: after 3 h, we observed only Fe-ox for a γ˙ of 0.1 s−1 (similar to deformation-free ones). As the shear rate increases to 1 s−1 and 10 s−1, solid phases after 3 h experiments are Fe-ox, plagioclase and clinopyroxene. Crystal growth rate depends on the applied shear rate: the highest rate is 1.1 × 10−6 cm/s and was measured for plagioclase after a 3 h experiment for γ˙ = 10 s−1. At γ˙ = 0.1 s−1, the plagioclase growth rate decreases to 2.70 and 1.35 × 10−6 cm/s as experimental time increases from 6 to 9 h, respectively. The vast range of shear stress and the systematic data obtained in this study are fundamental to deciphering crystallization dynamics suffered by magmas in volcanic reservoirs, dikes, conduits and lavas.

AB - This study highlights the rheological variation of magmatic systems during the early crystallization stage, which undergoes very different shear stress. Etna basaltic glass, made from natural rock powder, was used as a starting material. Nine shear rate-controlled experiments were conducted at 1150 °C (below liquidus temperature and undercooling degree ΔT ∼ 40 °C) with shear rates (γ˙) of 0.1, 1 and 10 s−1 using wide-gap concentric cylinder viscometry. Three additional experiments were conducted without spinning the melts (no shear, γ˙= 0 s−1). Run-products were collected after 3, 6 and 9 h. The experiment with the highest shear rate (γ˙=10s−1) showed a brittle failure when viscosity reached the value of 2.90 log (Pa·s) and after ca. 1150s. The measured viscosity matches the shear stress at 7244 Pa, corresponding to the brittle failure in our partly crystallised system at these conditions. After 9 h, the response of the partly crystallised Etna basalt to different deformation rates results in decreasing viscosity from 4.89 to 3.83 and 2.90 (log Pa s) as the γ˙ increases from 0.1 to 1 and 10 s−1, respectively. The main outcome of this study relates to the nucleation and growth of minerals with shear deformation. The deformation-free (γ˙ = 0 s−1) runs show the presence of only two phases: glass and Fe-oxides (Fe-ox) with only a few vol% (1–3) of oxides crystals after 3, 6 and 9 h. The deformation-bearing (γ˙ = 0.1, 1 and 10 s−1) runs show different scenarios: after 3 h, we observed only Fe-ox for a γ˙ of 0.1 s−1 (similar to deformation-free ones). As the shear rate increases to 1 s−1 and 10 s−1, solid phases after 3 h experiments are Fe-ox, plagioclase and clinopyroxene. Crystal growth rate depends on the applied shear rate: the highest rate is 1.1 × 10−6 cm/s and was measured for plagioclase after a 3 h experiment for γ˙ = 10 s−1. At γ˙ = 0.1 s−1, the plagioclase growth rate decreases to 2.70 and 1.35 × 10−6 cm/s as experimental time increases from 6 to 9 h, respectively. The vast range of shear stress and the systematic data obtained in this study are fundamental to deciphering crystallization dynamics suffered by magmas in volcanic reservoirs, dikes, conduits and lavas.

KW - Basalt

KW - Crystal growth rate

KW - Etna

KW - Shear rate

KW - Viscosity

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U2 - 10.1016/j.epsl.2024.118934

DO - 10.1016/j.epsl.2024.118934

M3 - Article

AN - SCOPUS:85201468648

VL - 644

JO - Earth and Planetary Science Letters

JF - Earth and Planetary Science Letters

SN - 0012-821X

M1 - 118934

ER -

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The role of deformation on the early crystallization and rheology of basaltic liquids

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