Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites

Leucosome sizes in migmatites has been shown to follow power-law distribution, which is indicative of self-organized criticality governing accumulation and transport of partial melts in anatexis. In our measurements of leucosome widths in the Olkiluoto migmatite in western Finland, we found double p...
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Autor*in:	Anna Saukko [verfasserIn] Christian Ahläng [verfasserIn] Kaisa Nikkilä [verfasserIn] Alvar Soesoo [verfasserIn] Olav Eklund [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	migmatite double power-law partial melting melt accumulation melt transport multiple melting events

Übergeordnetes Werk:	In: Frontiers in Earth Science - Frontiers Media S.A., 2014, 8(2020)
Übergeordnetes Werk:	volume:8 ; year:2020

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3389/feart.2020.591871

Katalog-ID:	DOAJ009653880

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author	Anna Saukko
spellingShingle	Anna Saukko misc migmatite misc double power-law misc partial melting misc melt accumulation misc melt transport misc multiple melting events misc Science misc Q Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites
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topic_title	Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites migmatite double power-law partial melting melt accumulation melt transport multiple melting events
topic	misc migmatite misc double power-law misc partial melting misc melt accumulation misc melt transport misc multiple melting events misc Science misc Q
topic_unstemmed	misc migmatite misc double power-law misc partial melting misc melt accumulation misc melt transport misc multiple melting events misc Science misc Q
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title	Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites
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title_full	Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites
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title_sort	double power-law in leucosome width distribution: implications for recognizing melt movement in migmatites
title_auth	Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites
abstract	Leucosome sizes in migmatites has been shown to follow power-law distribution, which is indicative of self-organized criticality governing accumulation and transport of partial melts in anatexis. In our measurements of leucosome widths in the Olkiluoto migmatite in western Finland, we found double power-law distributions in addition to single power-law distributions. We divided the double power-law behaviors into those with positive and negative kinks separating the two power-law regimes. We propose that double power-law distributions in migmatites result from impediments on the bottom-up self-organized criticality that melt transport processes commonly display. These impediments can be caused by some leucosomes solidifying before others, in which case the leucosomes were effectively formed in two distinct events or phases. We also consider the emergence of double power-laws as a result of melt accumulation in and sudden melt removal from conduits of a specific size.
abstractGer	Leucosome sizes in migmatites has been shown to follow power-law distribution, which is indicative of self-organized criticality governing accumulation and transport of partial melts in anatexis. In our measurements of leucosome widths in the Olkiluoto migmatite in western Finland, we found double power-law distributions in addition to single power-law distributions. We divided the double power-law behaviors into those with positive and negative kinks separating the two power-law regimes. We propose that double power-law distributions in migmatites result from impediments on the bottom-up self-organized criticality that melt transport processes commonly display. These impediments can be caused by some leucosomes solidifying before others, in which case the leucosomes were effectively formed in two distinct events or phases. We also consider the emergence of double power-laws as a result of melt accumulation in and sudden melt removal from conduits of a specific size.
abstract_unstemmed	Leucosome sizes in migmatites has been shown to follow power-law distribution, which is indicative of self-organized criticality governing accumulation and transport of partial melts in anatexis. In our measurements of leucosome widths in the Olkiluoto migmatite in western Finland, we found double power-law distributions in addition to single power-law distributions. We divided the double power-law behaviors into those with positive and negative kinks separating the two power-law regimes. We propose that double power-law distributions in migmatites result from impediments on the bottom-up self-organized criticality that melt transport processes commonly display. These impediments can be caused by some leucosomes solidifying before others, in which case the leucosomes were effectively formed in two distinct events or phases. We also consider the emergence of double power-laws as a result of melt accumulation in and sudden melt removal from conduits of a specific size.
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title_short	Double Power-Law in Leucosome Width Distribution: Implications for Recognizing Melt Movement in Migmatites
url	https://doi.org/10.3389/feart.2020.591871 https://doaj.org/article/58f6ed0451f141d1b7355569dfcee153 https://www.frontiersin.org/articles/10.3389/feart.2020.591871/full https://doaj.org/toc/2296-6463
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