A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data

Hanna Silvennoinen; Elena Kozlovskaya; Eduard Kissling; Grigoriy Kosarev; Helle Pedersen; Jaroslava Plomerova; Ulrich Achauer; Irina Sanina; Jämsén Teppo; Catherine Pequegnat; Riitta Hurskainen; Robert Guiguet; Helmut Hausmann; Petr Jedlicka; Igor Aleshin; Ekaterina Bourova; Reynir Bodvarsson; Brückl Evald; Tuna Eken; Pekka Heikkinen; Gregory Houseman; Helge Johnsen; Elena Kremenetskaya; Kari Komminaho; Helena Munzarova; Roland Roberts; Bohuslav Ruzek; Hossein Shomali; Johannes Schweitzer; Artem Shaumyan; Ludek Vecsey; Sergei Volosov

doi:10.1016/j.grj.2014.03.001

A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data

Hanna Silvennoinen^*
, Elena Kozlovskaya
, Eduard Kissling
, Grigoriy Kosarev
, Helle Pedersen
, Jaroslava Plomerova
, Ulrich Achauer
, Irina Sanina
, Jämsén Teppo
, Catherine Pequegnat
, Riitta Hurskainen
, Robert Guiguet
, Helmut Hausmann
, Petr Jedlicka
, Igor Aleshin
, Ekaterina Bourova
, Reynir Bodvarsson
, Brückl Evald
, Tuna Eken
, Pekka Heikkinen

Gregory Houseman, Helge Johnsen, Elena Kremenetskaya, Kari Komminaho, Helena Munzarova, Roland Roberts, Bohuslav Ruzek, Hossein Shomali, Johannes Schweitzer, Artem Shaumyan, Ludek Vecsey, Sergei Volosov

^*Bu çalışma için yazışmadan sorumlu yazar

Jeofizik Mühendisliği Bölümü

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

25 Atıf (Scopus)

Özet

We present a new Moho map for the Early-Proterozoic northwestern part of the Fennoscandian Shield, where the POLENET/LAPNET passive seismic array was located. The map is based on previously published and re-evaluated controlled source seismic data and P-wave receiver functions as well as new estimates of the Moho depth obtained by our analysis of P-wave receiver functions at broadband stations of the POLENET/LAPNET array. We estimated individual data quality for all input data and combined them into a new Moho map using CRUST3D software. The software seeks the simplest (smoothest) Moho surface that is consistent with all seismic data within their individual uncertainty limits. The new Moho map indicates that the crustal thickness in the study region varies between 42. km and 58. km, with the greatest thickness being reached in two separate areas in the northeast and the southeast. Two areas with relatively flat and shallow Moho, with an average Moho depth of c. 44. km, are located in the eastern and south-western parts of the study area. These two areas are separated by the Moho depression, with a maximum depth of 58. km. They can be associated with the Archean core of the Karelian craton and with the part of it that was reworked during the Early Proterozoic, respectively. A region with an average Moho depth of c. 47. km can be seen in the northern part of our study area, deepening to c. 55. km in the northeastern corner.

Orijinal dil	İngilizce
Sayfa (başlangıç-bitiş)	19-32
Sayfa sayısı	14
Dergi	GeoResJ
Hacim	1-2
DOI'lar	https://doi.org/10.1016/j.grj.2014.03.001
Yayın durumu	Yayınlandı - Mar 2014

Belgeye Erişim

10.1016/j.grj.2014.03.001

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

Silvennoinen, H., Kozlovskaya, E., Kissling, E., Kosarev, G., Pedersen, H., Plomerova, J., Achauer, U., Sanina, I., Teppo, J., Pequegnat, C., Hurskainen, R., Guiguet, R., Hausmann, H., Jedlicka, P., Aleshin, I., Bourova, E., Bodvarsson, R., Evald, B., Eken, T., ... Volosov, S. (2014). A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data. GeoResJ, 1-2, 19-32. https://doi.org/10.1016/j.grj.2014.03.001

@article{1ec3ca0b0266494c896b9276241c49f5,

title = "A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data",

abstract = "We present a new Moho map for the Early-Proterozoic northwestern part of the Fennoscandian Shield, where the POLENET/LAPNET passive seismic array was located. The map is based on previously published and re-evaluated controlled source seismic data and P-wave receiver functions as well as new estimates of the Moho depth obtained by our analysis of P-wave receiver functions at broadband stations of the POLENET/LAPNET array. We estimated individual data quality for all input data and combined them into a new Moho map using CRUST3D software. The software seeks the simplest (smoothest) Moho surface that is consistent with all seismic data within their individual uncertainty limits. The new Moho map indicates that the crustal thickness in the study region varies between 42. km and 58. km, with the greatest thickness being reached in two separate areas in the northeast and the southeast. Two areas with relatively flat and shallow Moho, with an average Moho depth of c. 44. km, are located in the eastern and south-western parts of the study area. These two areas are separated by the Moho depression, with a maximum depth of 58. km. They can be associated with the Archean core of the Karelian craton and with the part of it that was reworked during the Early Proterozoic, respectively. A region with an average Moho depth of c. 47. km can be seen in the northern part of our study area, deepening to c. 55. km in the northeastern corner.",

keywords = "Controlled source seismic methods, Europe, Fennoscandian shield, Moho depth, Receiver functions",

author = "Hanna Silvennoinen and Elena Kozlovskaya and Eduard Kissling and Grigoriy Kosarev and Helle Pedersen and Jaroslava Plomerova and Ulrich Achauer and Irina Sanina and J{\"a}ms{\'e}n Teppo and Catherine Pequegnat and Riitta Hurskainen and Robert Guiguet and Helmut Hausmann and Petr Jedlicka and Igor Aleshin and Ekaterina Bourova and Reynir Bodvarsson and Br{\"u}ckl Evald and Tuna Eken and Pekka Heikkinen and Gregory Houseman and Helge Johnsen and Elena Kremenetskaya and Kari Komminaho and Helena Munzarova and Roland Roberts and Bohuslav Ruzek and Hossein Shomali and Johannes Schweitzer and Artem Shaumyan and Ludek Vecsey and Sergei Volosov",

year = "2014",

month = mar,

doi = "10.1016/j.grj.2014.03.001",

language = "English",

volume = "1-2",

pages = "19--32",

journal = "GeoResJ",

issn = "2214-2428",

publisher = "Elsevier Ltd",

}

Silvennoinen, H, Kozlovskaya, E, Kissling, E, Kosarev, G, Pedersen, H, Plomerova, J, Achauer, U, Sanina, I, Teppo, J, Pequegnat, C, Hurskainen, R, Guiguet, R, Hausmann, H, Jedlicka, P, Aleshin, I, Bourova, E, Bodvarsson, R, Evald, B, Eken, T, Heikkinen, P, Houseman, G, Johnsen, H, Kremenetskaya, E, Komminaho, K, Munzarova, H, Roberts, R, Ruzek, B, Shomali, H, Schweitzer, J, Shaumyan, A, Vecsey, L & Volosov, S 2014, 'A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data', GeoResJ, hac. 1-2, pp. 19-32. https://doi.org/10.1016/j.grj.2014.03.001

TY - JOUR

T1 - A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data

AU - Silvennoinen, Hanna

AU - Kozlovskaya, Elena

AU - Kissling, Eduard

AU - Kosarev, Grigoriy

AU - Pedersen, Helle

AU - Plomerova, Jaroslava

AU - Achauer, Ulrich

AU - Sanina, Irina

AU - Teppo, Jämsén

AU - Pequegnat, Catherine

AU - Hurskainen, Riitta

AU - Guiguet, Robert

AU - Hausmann, Helmut

AU - Jedlicka, Petr

AU - Aleshin, Igor

AU - Bourova, Ekaterina

AU - Bodvarsson, Reynir

AU - Evald, Brückl

AU - Eken, Tuna

AU - Heikkinen, Pekka

AU - Houseman, Gregory

AU - Johnsen, Helge

AU - Kremenetskaya, Elena

AU - Komminaho, Kari

AU - Munzarova, Helena

AU - Roberts, Roland

AU - Ruzek, Bohuslav

AU - Shomali, Hossein

AU - Schweitzer, Johannes

AU - Shaumyan, Artem

AU - Vecsey, Ludek

AU - Volosov, Sergei

PY - 2014/3

Y1 - 2014/3

N2 - We present a new Moho map for the Early-Proterozoic northwestern part of the Fennoscandian Shield, where the POLENET/LAPNET passive seismic array was located. The map is based on previously published and re-evaluated controlled source seismic data and P-wave receiver functions as well as new estimates of the Moho depth obtained by our analysis of P-wave receiver functions at broadband stations of the POLENET/LAPNET array. We estimated individual data quality for all input data and combined them into a new Moho map using CRUST3D software. The software seeks the simplest (smoothest) Moho surface that is consistent with all seismic data within their individual uncertainty limits. The new Moho map indicates that the crustal thickness in the study region varies between 42. km and 58. km, with the greatest thickness being reached in two separate areas in the northeast and the southeast. Two areas with relatively flat and shallow Moho, with an average Moho depth of c. 44. km, are located in the eastern and south-western parts of the study area. These two areas are separated by the Moho depression, with a maximum depth of 58. km. They can be associated with the Archean core of the Karelian craton and with the part of it that was reworked during the Early Proterozoic, respectively. A region with an average Moho depth of c. 47. km can be seen in the northern part of our study area, deepening to c. 55. km in the northeastern corner.

AB - We present a new Moho map for the Early-Proterozoic northwestern part of the Fennoscandian Shield, where the POLENET/LAPNET passive seismic array was located. The map is based on previously published and re-evaluated controlled source seismic data and P-wave receiver functions as well as new estimates of the Moho depth obtained by our analysis of P-wave receiver functions at broadband stations of the POLENET/LAPNET array. We estimated individual data quality for all input data and combined them into a new Moho map using CRUST3D software. The software seeks the simplest (smoothest) Moho surface that is consistent with all seismic data within their individual uncertainty limits. The new Moho map indicates that the crustal thickness in the study region varies between 42. km and 58. km, with the greatest thickness being reached in two separate areas in the northeast and the southeast. Two areas with relatively flat and shallow Moho, with an average Moho depth of c. 44. km, are located in the eastern and south-western parts of the study area. These two areas are separated by the Moho depression, with a maximum depth of 58. km. They can be associated with the Archean core of the Karelian craton and with the part of it that was reworked during the Early Proterozoic, respectively. A region with an average Moho depth of c. 47. km can be seen in the northern part of our study area, deepening to c. 55. km in the northeastern corner.

KW - Controlled source seismic methods

KW - Europe

KW - Fennoscandian shield

KW - Moho depth

KW - Receiver functions

UR - https://www.scopus.com/pages/publications/84904267512

U2 - 10.1016/j.grj.2014.03.001

DO - 10.1016/j.grj.2014.03.001

M3 - Article

AN - SCOPUS:84904267512

SN - 2214-2428

VL - 1-2

SP - 19

EP - 32

JO - GeoResJ

JF - GeoResJ

ER -

A new Moho boundary map for the northern Fennoscandian Shield based on combined controlled-source seismic and receiver function data

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