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Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile i
Regional Level Types
Pabellón de Pica Headland
Chanabaya Village
Iquique Province Province
Tarapacá Region
Chile Country

Regional Level Types
Pabellón de Pica	Headland
Chanabaya	Village
Iquique Province	Province
Tarapacá	Region
Chile	Country

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Pabellón de Pica promontory

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

acces

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

first quarry

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Pabellón de Pica promontory

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

acces

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

first quarry

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Pabellón de Pica promontory

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

acces

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Latitude & Longitude (WGS84):

20° 54' 32'' South , 70° 8' 17'' West

Latitude & Longitude (decimal):

G#: 6kq15cxhb

Type:

Köppen climate type:

BWk : Cold desert climate

Mindat Locality ID:

192704

Long-form identifier:

mindat:1:2:192704:0

GUID (UUID V4):

2f02f699-acb4-4676-ba5e-c9a25e612be2

Located 2 km south of Caleta Chanabaya.

Guano was extensively mined on the promontory until the mid-19th century.

Additional information at http://www.mindat.org/mesg-105-280722.html

Gunnar Färber comment at http://www.mindat.org/mesg-14-333383.html

"I have visited Pabellón de Pica several times and found and discovered the unique copper mineralization up there. Younger Guano deposits like Pabellón de Pica are a very strange environmental zone with a highly unique microbiology. This microbiological life produces a lot of unique Nitrogen components. It is a normal process when such components later go into a part of the mineralization. The Pabellón de Pica is, for now, the only known contact zone of a copper deposit and a young sub-maritime Guano deposit. There is no anthropogenic influence to form the rare copper minerals. Chanabayaite is a good example because the best specimen we collected was on rock samples we took out of a 1-meter deep zone in the steep wall. Minerals like Shilovite and Ammineite form in a massive Halite vein. During the mining process of guano, the local miners never used any explosive, because the base rock is already cracked by the powdery Guano itself."

More investigations have led to the following results:

— Anorthite: Conf. meth.: EDX (by Joy Desor and Gerhard Möhn) (Anorthite here means the Ca-dominant member in the Albite-Anorthite series)
— Clinochlore: Ref.: Bojar et al. (2010)
— Dittmarite: Conf. meth.: PXRD (by Joachim Lorenz)
— Epidote: Conf. meth.: visually
— Magnetite: Conf. meth.: visually, strongly ferromagnetic
— Natrolite: Conf. meth.: PXRD (by Joachim Lorenz)
— Natroxalate: Conf. meth.: IR (by Nikita V. Chukanov)
— Newberyite: Conf. meth.: PXRD (by Joachim Lorenz)
— Prehnite: Conf. meth.: visually and PXRD (the latter by Joachim Lorenz)
— Thénardite: Conf. meth.: chemical tests (by Gerhard Möhn; these tests show pure Na2SO4, no H2O)

Note: Epidote, clinochlore, and ammineite have also been confirmed by A. Kampf (XRD and EDS).

Select Mineral List Type

Standard Detailed Gallery Strunz Chemical Elements

Commodity List

This is a list of exploitable or exploited mineral commodities recorded at this locality.

ⓘ Nitrates

ⓘ Phosphorous/Phosphate

ⓘ Potash (Potassium)

Mineral List

50 valid minerals. 10 (TL) - type locality of valid minerals.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Select Rock List Type

Alphabetical List Tree Diagram

ⓘ Guano

Detailed Mineral List:

ⓘ Albite

Formula: Na(AlSi₃O₈)

Description: Grains in guano.

References:

SEM-EDS by Joy Desor

ⓘ Ammineite (TL)

Formula: [CuCl₂(NH₃)₂]

Type Locality:

References:

Walter, F., Bojar, H.-P., Baumgartner, J. (2010): Ammineite, CuCl2(NH3)2 - the first mineral with an ammine complex. 20th General Meeting of the International Mineralogical Association - Budapest 21-27.08.2010 (in press)

Bojar, H.-P., Walter, F., Baumgartner, J., Farber, G. (2010) Ammineite, CuCl₂(NH₃)₂, a new species containing an ammine complex: mineral data and crystal structure. The Canadian Mineralogist, 48 (6) 1359-1371 doi:10.3749/canmin.48.5.1359

ⓘ Ammoniotinsleyite (TL)

Formula: (NH₄)Al₂(PO₄)₂(OH) · 2H₂O

Type Locality:

References:

Chukanov, Nikita V., Möhn, Gerhard, Pekov, Igor V., Zubkova, Natalia V., Ksenofontov, Dmitry A., Belakovskiy, Dmitry I., Vozchikova, Svetlana A., Britvin, Sergey N., Desor, Joy (2020) Ammoniotinsleyite, (NH₄)Al₂(PO₄)₂(OH)⋅2H₂O, a new mineral species from the guano deposit at Pabellón de Pica, Iquique Province, Chile. Mineralogical Magazine, 84 (5) 705-711 doi:10.1180/mgm.2020.45

ⓘ Anorthite

Formula: Ca(Al₂Si₂O₈)

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Antipinite (TL)

Formula: KNa₃Cu₂(C₂O₄)₄

Type Locality:

References:

Mineralogical Magazine, 78, 797-804.

Williams, P. A., Hatert, F., Pasero, M., Mills, S. J. (2014) New minerals and nomenclature modifications approved in 2014, CNMNC Newsletter No 21. Mineralogical Magazine, 78 (4) 797-804 doi:10.1180/minmag.2014.078.4.03

Chukanov, Nikita V., Aksenov, Sergey M., Rastsvetaeva, Ramiza K., Lyssenko, Konstantin A., Belakovskiy, Dmitriy I., Färber, Gunnar, Möhn, Gerhard, Van, Konstantin V. (2015) Antipinite, KNa₃Cu₂(C₂O₄)₄, a new mineral species from a guano deposit at Pabellón de Pica, Chile. Mineralogical Magazine, 79 (5) 1111-1121 doi:10.1180/minmag.2015.079.5.07

ⓘ Aphthitalite

Formula: (K,Na)₃Na(SO₄)₂

References:

SEM-EDS, Raman Spectroscopy, Wet Chemical by Joy Desor and Gerhard Möhn

ⓘ Atacamite

Formula: Cu₂(OH)₃Cl

References:

collected by Reynaldo Contreira

ⓘ Augite

Formula: (Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆

Description: SEM-EDS by Joy Desor

References:

Gerhard Möhn collectionIdentification: SEM-EDS

ⓘ Bojarite (TL)

Formula: Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O

Type Locality:

References:

Chukanov, Nikita V., Möhn, Gerhard, Zubkova, Natalia V., Ksenofontov, Dmitry A., Pekov, Igor V., Agakhanov, Atali A., Britvin, Sergey N., Desor, Joy (2020) Bojarite, Cu₃(N₃C₂H₂)₃(OH)Cl₂⋅6H₂O, a new mineral species with a microporous metal–organic framework from the guano deposit at Pabellón de Pica, Iquique Province, Chile. Mineralogical Magazine, 84 (6) 921-927 doi:10.1180/mgm.2020.85

ⓘ Calcite

Formula: CaCO₃

Description: Found on the south side of Pabellón de Pica in a cleft of Gabbro.

References:

identified by Gerhard Möhn

ⓘ Chalcoalumite

Formula: CuAl₄(SO₄)(OH)₁₂ · 3H₂O

References:

Luigi Mattei specimen

ⓘ Chalcopyrite

Formula: CuFeS₂

References:

Chukanov, N.V., Zubkova, N.V., Mohn, G., Pekov, I.V., Pushcharovsky, D.Yu., Zadov, A.E. (2015): Chanabayaite, Cu2(N3C2H2)2Cl(NH3Cl,H2О,□)4 a new mineral containing triazolate anion. Zapiski RMO, 144(2), 36-47.

ⓘ Chanabayaite (TL)

Formula: CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O

Type Locality:

References:

Williams, P. A., Hatert, F., Pasero, M., Mills, S. J. (2013) New minerals and nomenclature modifications approved in 2013. CNMNC Newsletter No.17. Mineralogical Magazine, 77 (7) 2997-3005 doi:10.1180/minmag.2013.077.7.09

Chukanov, Nikita V., Zubkova, Natalia V., Möhn, Gerhard, Pekov, Igor V., Belakovskiy, Dmitriy I., Van, Konstantin V., Britvin, Sergey N., Pushcharovsky, Dmitry Y. (2018) Triazolite, NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃·4H₂O, a new mineral species containing 1,2,4-triazolate anion, from a guano deposit at Pabellón de Pica, Iquique Province, Chile. Mineralogical Magazine, 82 (4) 1007-1014 doi:10.1180/minmag.2017.081.088

ⓘ Clinochlore

Formula: Mg₅Al(AlSi₃O₁₀)(OH)₈

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Connellite

Formula: Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O

Description: Found on the south side of Pabellón de Pica.

References:

SEM-EDS and Raman Spectroscopy by Joy Desor

ⓘ Darapskite

Formula: Na₃(SO₄)(NO₃) · H₂O

References:

Färber, Gunnar (n.d.) Personal Communication, Gunnar Färber Mineralien.

ⓘ Dittmarite

Formula: (NH₄)Mg(PO₄) · H₂O

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Epidote

Formula: (CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Eugsterite

Formula: Na₄Ca(SO₄)₃ · 2H₂O

References:

SEM/EDAX analyzed - Hans Peter Bojar (main author of Ammineite)

ⓘ Gypsum

Formula: CaSO₄ · 2H₂O

References:

Luigi Mattei and Rolf Luetcke specimens

ⓘ Halite

Formula: NaCl

References:

collected by Reynaldo Contreira

ⓘ Huntite

Formula: CaMg₃(CO₃)₄

References:

collected by Reynaldo Contreira

ⓘ Hydroxylapatite

Formula: Ca₅(PO₄)₃(OH)

Description: Found on the south side of Pabellón de Pica in a cleft of Gabbro.

References:

SEM-EDS by Joy Desor

ⓘ Ilmenite

Formula: Fe²⁺TiO₃

References:

SEM-EDS by Stefan Diller

ⓘ Joanneumite (TL)

Formula: Cu(C₃N₃O₃H₂)₂(NH₃)₂

Type Locality:

References:

Williams, P. A., Hatert, F., Pasero, M., Mills, S. J. (2012) New minerals and nomenclature modifications approved in 2012. CNMNC Newsletter No 13. Mineralogical Magazine, 76 (3) 807-817 doi:10.1180/minmag.2012.076.3.26

Bojar, Hans-Peter, Walter, Franz, Baumgartner, Judith (2017) Joanneumite, Cu(C₃N₃O₃H₂)₂(NH₃)₂, a new mineral from Pabellón de Pica, Chile and the crystal structure of its synthetic analogue. Mineralogical Magazine, 81 (1) 155-166 doi:10.1180/minmag.2016.080.078

ⓘ Laumontite

Formula: CaAl₂Si₄O₁₂ · 4H₂O

Description: Found on the south side of Pabellón de Pica in a cleft of Gabbro.

References:

SEM-EDS and Raman Spectroscopy by Joy Desor

ⓘ Magnesio-hornblende

Formula: ◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂

Description: SEM-EDS by Joy Desor

References:

Gerhard Möhn collectionIdentification: SEM-EDS

ⓘ Magnesite

Formula: MgCO₃

Description: Found in guano on the south side of Pabellón de Pica.

References:

SEM-EDS and XRD by Joy Desor and Gerhard Möhn

ⓘ Magnetite

Formula: Fe²⁺Fe³⁺₂O₄

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Microcline

Formula: K(AlSi₃O₈)

Description: Sediment grain in guano.

References:

SEM-EDS by Joy Desor

ⓘ Mirabilite

Formula: Na₂SO₄ · 10H₂O

References:

Joan Rosell - rosellminerals.com

ⓘ Möhnite (TL)

Formula: (NH₄)K₂Na(SO₄)₂

Type Locality:

Habit: Aggregates and clusters of brown imperfect bipyramidal or spindle-shaped crystals.

References:

Hålenius, U., Hatert, F., Pasero, M., Mills, S. J. (2015) New minerals and nomenclature modifications approved in 2015, CNMNC Newsletter No 24. Mineralogical Magazine, 79 (2) 247-251 doi:10.1180/minmag.2015.079.2.03

Chukanov, Nikita V., Aksenov, Sergey M., Rastsvetaeva, Ramiza K., Pekov, Igor V., Belakovskiy, Dmitry I., Britvin, Sergey N. (2015) Möhnite, (NH₄)K₂Na(SO₄)₂, a new guano mineral from Pabellón de Pica, Chile. Mineralogy and Petrology, 109 (5) 643-648 doi:10.1007/s00710-015-0395-1

ⓘ Natrolite

Formula: Na₂Al₂Si₃O₁₀ · 2H₂O

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Natroxalate

Formula: Na₂(C₂O₄)

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Newberyite

Formula: Mg(PO₃OH) · 3H₂O

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Nitratine

Formula: NaNO₃

References:

ⓘ Pabellóndepicaite (TL)

Formula: Cu²⁺₂(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O

Type Locality:

References:

Kampf, A. R., Möhn, G., Ma, C., and Désor, J.: Pabellóndepicaite, IMA 2023-104, in: CNMNC Newsletter 78, Eur. J. Mineral., 36, https://doi.org/10.5194/ejm-36-361-2024, 2024.

ⓘ Prehnite

Formula: Ca₂Al₂Si₃O₁₀(OH)₂

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Pyrite

Formula: FeS₂

References:

Gerhard Möhn collection

ⓘ Quartz

Formula: SiO₂

Description: Grains in guano.

References:

SEM-EDS by Joy Desor

ⓘ Salammoniac

Formula: NH₄Cl

References:

collected by Reynaldo Contreira

ⓘ Shilovite (TL)

Formula: Cu(NH₃)₄(NO₃)₂

Type Locality:

References:

Mineralogical Magazine, 78, 797-804.

Chukanov, Nikita V., Britvin, Sergey N., Möhn, Gerhard, Pekov, Igor V., Zubkova, Natalia V., Nestola, Fabrizio, Kasatkin, Anatoly V., Dini, Maurizio (2015) Shilovite, natural copper(II) tetrammine nitrate, a new mineral species. Mineralogical Magazine, 79 (3) 613-623 doi:10.1180/minmag.2015.079.3.07

ⓘ Syngenite

Formula: K₂Ca(SO₄)₂ · H₂O

Description: Found in guano on the south side of Pabellón de Pica.

References:

SEM-EDS by Joy Desor.

Wet Chemical by Gerhard Möhn.

ⓘ Thénardite

Formula: Na₂SO₄

References:

samples analysed by Gerhard Mohn and Joy Desor

ⓘ Thermonatrite

Formula: Na₂CO₃ · H₂O

References:

ⓘ Thomsonite-Ca

Formula: NaCa₂[Al₅Si₅O₂₀] · 6H₂O

References:

XRD by Gerhard Möhn

ⓘ Titanite

Formula: CaTi(SiO₄)O

Description: Found on the south side of Pabellón de Pica in a cleft of Gabbro.

References:

SEM-EDS by Joy Desor

ⓘ Triazolite (TL)

Formula: NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O

Type Locality:

References:

Hålenius, U., Hatert, F., Pasero, M., Mills, S. J. (2017) New minerals and nomenclature modifications approved in 2017, CNMNC Newsletter No 38. Mineralogical Magazine, 81 (4) 1033-1038 doi:10.1180/minmag.2017.081.062

ⓘ Wheatleyite

Formula: Na₂Cu(C₂O₄)₂ · 2H₂O

References:

SEM-EDS and Raman Spectroscopy by Joy Desor

ⓘ Zircon

Formula: Zr(SiO₄)

Description: Found on the south side of Pabellón de Pica in a cleft of Gabbro.

References:

SEM-EDS by Joy Desor

Gallery:

(NH₄)Al₂(PO₄)₂(OH) · 2H₂Oⓘ Ammoniotinsleyite (TL)

Ammoniotinsleyite

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Ammoniotinsleyite

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Ammoniotinsleyite

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

KNa₃Cu₂(C₂O₄)₄ⓘ Antipinite (TL)

Antipinite

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Antipinite

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

Antipinite

Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile

List of minerals arranged by Strunz 10th Edition classification

Group 2 - Sulphides and Sulfosalts
ⓘ	Chalcopyrite	2.CB.10a	CuFeS₂
ⓘ	Pyrite	2.EB.05a	FeS₂
Group 3 - Halides
ⓘ	Halite	3.AA.20	NaCl
ⓘ	Salammoniac	3.AA.25	NH₄Cl
ⓘ	Ammineite (TL)	3.C0.	[CuCl₂(NH₃)₂]
ⓘ	Atacamite	3.DA.10a	Cu₂(OH)₃Cl
ⓘ	Connellite	3.DA.25	Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O
Group 4 - Oxides and Hydroxides
ⓘ	Magnetite	4.BB.05	Fe²⁺Fe³⁺₂O₄
ⓘ	Ilmenite	4.CB.05	Fe²⁺TiO₃
ⓘ	Quartz	4.DA.05	SiO₂
Group 5 - Nitrates and Carbonates
ⓘ	Calcite	5.AB.05	CaCO₃
ⓘ	Magnesite	5.AB.05	MgCO₃
ⓘ	Huntite	5.AB.25	CaMg₃(CO₃)₄
ⓘ	Thermonatrite	5.CB.05	Na₂CO₃ · H₂O
ⓘ	Nitratine	5.NA.05	NaNO₃
ⓘ	Shilovite (TL)	5.NA.25	Cu(NH₃)₄(NO₃)₂
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
ⓘ	Möhnite (TL)	7.AC.35	(NH₄)K₂Na(SO₄)₂
ⓘ	Aphthitalite	7.AC.35	(K,Na)₃Na(SO₄)₂
ⓘ	Thénardite	7.AD.25	Na₂SO₄
ⓘ	Mirabilite	7.CD.10	Na₂SO₄ · 10H₂O
ⓘ	Eugsterite	7.CD.25	Na₄Ca(SO₄)₃ · 2H₂O
ⓘ	Syngenite	7.CD.35	K₂Ca(SO₄)₂ · H₂O
ⓘ	Gypsum	7.CD.40	CaSO₄ · 2H₂O
ⓘ	Chalcoalumite	7.DD.75	CuAl₄(SO₄)(OH)₁₂ · 3H₂O
ⓘ	Darapskite	7.DG.05	Na₃(SO₄)(NO₃) · H₂O
Group 8 - Phosphates, Arsenates and Vanadates
ⓘ	Hydroxylapatite	8.BN.05	Ca₅(PO₄)₃(OH)
ⓘ	Newberyite	8.CE.10	Mg(PO₃OH) · 3H₂O
ⓘ	Dittmarite	8.CH.20	(NH₄)Mg(PO₄) · H₂O
ⓘ	Ammoniotinsleyite (TL)	8.DH.	(NH₄)Al₂(PO₄)₂(OH) · 2H₂O
Group 9 - Silicates
ⓘ	Zircon	9.AD.30	Zr(SiO₄)
ⓘ	Titanite	9.AG.15	CaTi(SiO₄)O
ⓘ	Epidote	9.BG.05a	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
ⓘ	Augite	9.DA.15	(Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆
ⓘ	Magnesio-hornblende	9.DE.10	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
ⓘ	Prehnite	9.DP.20	Ca₂Al₂Si₃O₁₀(OH)₂
ⓘ	Clinochlore	9.EC.55	Mg₅Al(AlSi₃O₁₀)(OH)₈
ⓘ	Microcline	9.FA.30	K(AlSi₃O₈)
ⓘ	Albite	9.FA.35	Na(AlSi₃O₈)
ⓘ	Anorthite	9.FA.35	Ca(Al₂Si₂O₈)
ⓘ	Natrolite	9.GA.05	Na₂Al₂Si₃O₁₀ · 2H₂O
ⓘ	Thomsonite-Ca	9.GA.10	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
ⓘ	Laumontite	9.GB.10	CaAl₂Si₄O₁₂ · 4H₂O
Group 10 - Organic Compounds
ⓘ	Antipinite (TL)	10.00.	KNa₃Cu₂(C₂O₄)₄
ⓘ	Wheatleyite	10.AB.30	Na₂Cu(C₂O₄)₂ · 2H₂O
ⓘ	Natroxalate	10.AB.60	Na₂(C₂O₄)
ⓘ	Bojarite (TL)	10.CA.	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
ⓘ	Chanabayaite (TL)	10.CA.45	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
ⓘ	Triazolite (TL)	10.CA.50	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
ⓘ	Joanneumite (TL)	10.CA.60	Cu(C₃N₃O₃H₂)₂(NH₃)₂
Unclassified
ⓘ	Pabellóndepicaite (TL)	-	Cu²⁺₂(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O

List of minerals for each chemical element

H	Hydrogen
H	ⓘ Atacamite	Cu₂(OH)₃Cl
H	ⓘ Chalcoalumite	CuAl₄(SO₄)(OH)₁₂ · 3H₂O
H	ⓘ Clinochlore	Mg₅Al(AlSi₃O₁₀)(OH)₈
H	ⓘ Connellite	Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O
H	ⓘ Darapskite	Na₃(SO₄)(NO₃) · H₂O
H	ⓘ Dittmarite	(NH₄)Mg(PO₄) · H₂O
H	ⓘ Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
H	ⓘ Eugsterite	Na₄Ca(SO₄)₃ · 2H₂O
H	ⓘ Gypsum	CaSO₄ · 2H₂O
H	ⓘ Hydroxylapatite	Ca₅(PO₄)₃(OH)
H	ⓘ Laumontite	CaAl₂Si₄O₁₂ · 4H₂O
H	ⓘ Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
H	ⓘ Mirabilite	Na₂SO₄ · 10H₂O
H	ⓘ Newberyite	Mg(PO₃OH) · 3H₂O
H	ⓘ Natrolite	Na₂Al₂Si₃O₁₀ · 2H₂O
H	ⓘ Prehnite	Ca₂Al₂Si₃O₁₀(OH)₂
H	ⓘ Salammoniac	NH₄Cl
H	ⓘ Syngenite	K₂Ca(SO₄)₂ · H₂O
H	ⓘ Thermonatrite	Na₂CO₃ · H₂O
H	ⓘ Thomsonite-Ca	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
H	ⓘ Wheatleyite	Na₂Cu(C₂O₄)₂ · 2H₂O
H	ⓘ Ammineite	[CuCl₂(NH₃)₂]
H	ⓘ Joanneumite	Cu(C₃N₃O₃H₂)₂(NH₃)₂
H	ⓘ Chanabayaite	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
H	ⓘ Shilovite	Cu(NH₃)₄(NO₃)₂
H	ⓘ Möhnite	(NH₄)K₂Na(SO₄)₂
H	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
H	ⓘ Ammoniotinsleyite	(NH₄)Al₂(PO₄)₂(OH) · 2H₂O
H	ⓘ Bojarite	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
H	ⓘ Pabellóndepicaite	Cu₂²⁺(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O
C	Carbon
C	ⓘ Calcite	CaCO₃
C	ⓘ Huntite	CaMg₃(CO₃)₄
C	ⓘ Magnesite	MgCO₃
C	ⓘ Thermonatrite	Na₂CO₃ · H₂O
C	ⓘ Wheatleyite	Na₂Cu(C₂O₄)₂ · 2H₂O
C	ⓘ Natroxalate	Na₂(C₂O₄)
C	ⓘ Joanneumite	Cu(C₃N₃O₃H₂)₂(NH₃)₂
C	ⓘ Chanabayaite	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
C	ⓘ Antipinite	KNa₃Cu₂(C₂O₄)₄
C	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
C	ⓘ Bojarite	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
C	ⓘ Pabellóndepicaite	Cu₂²⁺(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O
N	Nitrogen
N	ⓘ Darapskite	Na₃(SO₄)(NO₃) · H₂O
N	ⓘ Dittmarite	(NH₄)Mg(PO₄) · H₂O
N	ⓘ Nitratine	NaNO₃
N	ⓘ Salammoniac	NH₄Cl
N	ⓘ Ammineite	[CuCl₂(NH₃)₂]
N	ⓘ Joanneumite	Cu(C₃N₃O₃H₂)₂(NH₃)₂
N	ⓘ Chanabayaite	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
N	ⓘ Shilovite	Cu(NH₃)₄(NO₃)₂
N	ⓘ Möhnite	(NH₄)K₂Na(SO₄)₂
N	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
N	ⓘ Ammoniotinsleyite	(NH₄)Al₂(PO₄)₂(OH) · 2H₂O
N	ⓘ Bojarite	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
N	ⓘ Pabellóndepicaite	Cu₂²⁺(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O
O	Oxygen
O	ⓘ Albite	Na(AlSi₃O₈)
O	ⓘ Anorthite	Ca(Al₂Si₂O₈)
O	ⓘ Aphthitalite	(K,Na)₃Na(SO₄)₂
O	ⓘ Atacamite	Cu₂(OH)₃Cl
O	ⓘ Augite	(Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆
O	ⓘ Calcite	CaCO₃
O	ⓘ Chalcoalumite	CuAl₄(SO₄)(OH)₁₂ · 3H₂O
O	ⓘ Clinochlore	Mg₅Al(AlSi₃O₁₀)(OH)₈
O	ⓘ Connellite	Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O
O	ⓘ Darapskite	Na₃(SO₄)(NO₃) · H₂O
O	ⓘ Dittmarite	(NH₄)Mg(PO₄) · H₂O
O	ⓘ Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
O	ⓘ Eugsterite	Na₄Ca(SO₄)₃ · 2H₂O
O	ⓘ Gypsum	CaSO₄ · 2H₂O
O	ⓘ Huntite	CaMg₃(CO₃)₄
O	ⓘ Hydroxylapatite	Ca₅(PO₄)₃(OH)
O	ⓘ Ilmenite	Fe²⁺TiO₃
O	ⓘ Laumontite	CaAl₂Si₄O₁₂ · 4H₂O
O	ⓘ Magnesite	MgCO₃
O	ⓘ Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
O	ⓘ Magnetite	Fe²⁺Fe₂³⁺O₄
O	ⓘ Microcline	K(AlSi₃O₈)
O	ⓘ Mirabilite	Na₂SO₄ · 10H₂O
O	ⓘ Newberyite	Mg(PO₃OH) · 3H₂O
O	ⓘ Nitratine	NaNO₃
O	ⓘ Natrolite	Na₂Al₂Si₃O₁₀ · 2H₂O
O	ⓘ Prehnite	Ca₂Al₂Si₃O₁₀(OH)₂
O	ⓘ Quartz	SiO₂
O	ⓘ Syngenite	K₂Ca(SO₄)₂ · H₂O
O	ⓘ Thénardite	Na₂SO₄
O	ⓘ Thermonatrite	Na₂CO₃ · H₂O
O	ⓘ Thomsonite-Ca	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
O	ⓘ Titanite	CaTi(SiO₄)O
O	ⓘ Wheatleyite	Na₂Cu(C₂O₄)₂ · 2H₂O
O	ⓘ Zircon	Zr(SiO₄)
O	ⓘ Natroxalate	Na₂(C₂O₄)
O	ⓘ Joanneumite	Cu(C₃N₃O₃H₂)₂(NH₃)₂
O	ⓘ Chanabayaite	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
O	ⓘ Shilovite	Cu(NH₃)₄(NO₃)₂
O	ⓘ Antipinite	KNa₃Cu₂(C₂O₄)₄
O	ⓘ Möhnite	(NH₄)K₂Na(SO₄)₂
O	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
O	ⓘ Ammoniotinsleyite	(NH₄)Al₂(PO₄)₂(OH) · 2H₂O
O	ⓘ Bojarite	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
O	ⓘ Pabellóndepicaite	Cu₂²⁺(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O
Na	Sodium
Na	ⓘ Albite	Na(AlSi₃O₈)
Na	ⓘ Aphthitalite	(K,Na)₃Na(SO₄)₂
Na	ⓘ Darapskite	Na₃(SO₄)(NO₃) · H₂O
Na	ⓘ Eugsterite	Na₄Ca(SO₄)₃ · 2H₂O
Na	ⓘ Halite	NaCl
Na	ⓘ Mirabilite	Na₂SO₄ · 10H₂O
Na	ⓘ Nitratine	NaNO₃
Na	ⓘ Natrolite	Na₂Al₂Si₃O₁₀ · 2H₂O
Na	ⓘ Thénardite	Na₂SO₄
Na	ⓘ Thermonatrite	Na₂CO₃ · H₂O
Na	ⓘ Thomsonite-Ca	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
Na	ⓘ Wheatleyite	Na₂Cu(C₂O₄)₂ · 2H₂O
Na	ⓘ Natroxalate	Na₂(C₂O₄)
Na	ⓘ Antipinite	KNa₃Cu₂(C₂O₄)₄
Na	ⓘ Möhnite	(NH₄)K₂Na(SO₄)₂
Na	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
Mg	Magnesium
Mg	ⓘ Augite	(Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆
Mg	ⓘ Clinochlore	Mg₅Al(AlSi₃O₁₀)(OH)₈
Mg	ⓘ Dittmarite	(NH₄)Mg(PO₄) · H₂O
Mg	ⓘ Huntite	CaMg₃(CO₃)₄
Mg	ⓘ Magnesite	MgCO₃
Mg	ⓘ Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
Mg	ⓘ Newberyite	Mg(PO₃OH) · 3H₂O
Al	Aluminium
Al	ⓘ Albite	Na(AlSi₃O₈)
Al	ⓘ Anorthite	Ca(Al₂Si₂O₈)
Al	ⓘ Chalcoalumite	CuAl₄(SO₄)(OH)₁₂ · 3H₂O
Al	ⓘ Clinochlore	Mg₅Al(AlSi₃O₁₀)(OH)₈
Al	ⓘ Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
Al	ⓘ Laumontite	CaAl₂Si₄O₁₂ · 4H₂O
Al	ⓘ Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
Al	ⓘ Microcline	K(AlSi₃O₈)
Al	ⓘ Natrolite	Na₂Al₂Si₃O₁₀ · 2H₂O
Al	ⓘ Prehnite	Ca₂Al₂Si₃O₁₀(OH)₂
Al	ⓘ Thomsonite-Ca	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
Al	ⓘ Ammoniotinsleyite	(NH₄)Al₂(PO₄)₂(OH) · 2H₂O
Si	Silicon
Si	ⓘ Albite	Na(AlSi₃O₈)
Si	ⓘ Anorthite	Ca(Al₂Si₂O₈)
Si	ⓘ Augite	(Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆
Si	ⓘ Clinochlore	Mg₅Al(AlSi₃O₁₀)(OH)₈
Si	ⓘ Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
Si	ⓘ Laumontite	CaAl₂Si₄O₁₂ · 4H₂O
Si	ⓘ Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
Si	ⓘ Microcline	K(AlSi₃O₈)
Si	ⓘ Natrolite	Na₂Al₂Si₃O₁₀ · 2H₂O
Si	ⓘ Prehnite	Ca₂Al₂Si₃O₁₀(OH)₂
Si	ⓘ Quartz	SiO₂
Si	ⓘ Thomsonite-Ca	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
Si	ⓘ Titanite	CaTi(SiO₄)O
Si	ⓘ Zircon	Zr(SiO₄)
P	Phosphorus
P	ⓘ Dittmarite	(NH₄)Mg(PO₄) · H₂O
P	ⓘ Hydroxylapatite	Ca₅(PO₄)₃(OH)
P	ⓘ Newberyite	Mg(PO₃OH) · 3H₂O
P	ⓘ Ammoniotinsleyite	(NH₄)Al₂(PO₄)₂(OH) · 2H₂O
S	Sulfur
S	ⓘ Aphthitalite	(K,Na)₃Na(SO₄)₂
S	ⓘ Chalcopyrite	CuFeS₂
S	ⓘ Chalcoalumite	CuAl₄(SO₄)(OH)₁₂ · 3H₂O
S	ⓘ Connellite	Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O
S	ⓘ Darapskite	Na₃(SO₄)(NO₃) · H₂O
S	ⓘ Eugsterite	Na₄Ca(SO₄)₃ · 2H₂O
S	ⓘ Gypsum	CaSO₄ · 2H₂O
S	ⓘ Mirabilite	Na₂SO₄ · 10H₂O
S	ⓘ Pyrite	FeS₂
S	ⓘ Syngenite	K₂Ca(SO₄)₂ · H₂O
S	ⓘ Thénardite	Na₂SO₄
S	ⓘ Möhnite	(NH₄)K₂Na(SO₄)₂
Cl	Chlorine
Cl	ⓘ Atacamite	Cu₂(OH)₃Cl
Cl	ⓘ Connellite	Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O
Cl	ⓘ Halite	NaCl
Cl	ⓘ Salammoniac	NH₄Cl
Cl	ⓘ Ammineite	[CuCl₂(NH₃)₂]
Cl	ⓘ Chanabayaite	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
Cl	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
Cl	ⓘ Bojarite	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
Cl	ⓘ Pabellóndepicaite	Cu₂²⁺(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O
K	Potassium
K	ⓘ Aphthitalite	(K,Na)₃Na(SO₄)₂
K	ⓘ Microcline	K(AlSi₃O₈)
K	ⓘ Syngenite	K₂Ca(SO₄)₂ · H₂O
K	ⓘ Antipinite	KNa₃Cu₂(C₂O₄)₄
K	ⓘ Möhnite	(NH₄)K₂Na(SO₄)₂
Ca	Calcium
Ca	ⓘ Anorthite	Ca(Al₂Si₂O₈)
Ca	ⓘ Augite	(Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆
Ca	ⓘ Calcite	CaCO₃
Ca	ⓘ Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
Ca	ⓘ Eugsterite	Na₄Ca(SO₄)₃ · 2H₂O
Ca	ⓘ Gypsum	CaSO₄ · 2H₂O
Ca	ⓘ Huntite	CaMg₃(CO₃)₄
Ca	ⓘ Hydroxylapatite	Ca₅(PO₄)₃(OH)
Ca	ⓘ Laumontite	CaAl₂Si₄O₁₂ · 4H₂O
Ca	ⓘ Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂
Ca	ⓘ Prehnite	Ca₂Al₂Si₃O₁₀(OH)₂
Ca	ⓘ Syngenite	K₂Ca(SO₄)₂ · H₂O
Ca	ⓘ Thomsonite-Ca	NaCa₂[Al₅Si₅O₂₀] · 6H₂O
Ca	ⓘ Titanite	CaTi(SiO₄)O
Ti	Titanium
Ti	ⓘ Ilmenite	Fe²⁺TiO₃
Ti	ⓘ Titanite	CaTi(SiO₄)O
Fe	Iron
Fe	ⓘ Augite	(Ca_xMg_yFe_z)(Mg_y1Fe_z1)Si₂O₆
Fe	ⓘ Chalcopyrite	CuFeS₂
Fe	ⓘ Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
Fe	ⓘ Ilmenite	Fe²⁺TiO₃
Fe	ⓘ Magnetite	Fe²⁺Fe₂³⁺O₄
Fe	ⓘ Pyrite	FeS₂
Cu	Copper
Cu	ⓘ Atacamite	Cu₂(OH)₃Cl
Cu	ⓘ Chalcopyrite	CuFeS₂
Cu	ⓘ Chalcoalumite	CuAl₄(SO₄)(OH)₁₂ · 3H₂O
Cu	ⓘ Connellite	Cu₁₉(SO₄)(OH)₃₂Cl₄ · 3H₂O
Cu	ⓘ Wheatleyite	Na₂Cu(C₂O₄)₂ · 2H₂O
Cu	ⓘ Ammineite	[CuCl₂(NH₃)₂]
Cu	ⓘ Joanneumite	Cu(C₃N₃O₃H₂)₂(NH₃)₂
Cu	ⓘ Chanabayaite	CuCl(N₃C₂H₂)(NH₃) · 0.25H₂O
Cu	ⓘ Shilovite	Cu(NH₃)₄(NO₃)₂
Cu	ⓘ Antipinite	KNa₃Cu₂(C₂O₄)₄
Cu	ⓘ Triazolite	NaCu₂(N₃C₂H₂)₂(NH₃)₂Cl₃ · 4H₂O
Cu	ⓘ Bojarite	Cu₃(N₃C₂H₂)₃(OH)Cl₂ · 6H₂O
Cu	ⓘ Pabellóndepicaite	Cu₂²⁺(N₃C₂H₂)₂(NH₃)₂(NO₃)Cl · 2H₂O
Zr	Zirconium
Zr	ⓘ Zircon	Zr(SiO₄)

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Wikipedia:	https://es.wikipedia.org/wiki/Pabell%C3%B3n_de_Pica
Wikidata ID:	Q48796548

Other Regions, Features and Areas containing this locality

Altiplano PlateTectonic Plate

South AmericaContinent

AndesMountain Range

South America Plate

Iquique basinBasin

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References

Chukanov, N.V., Zubkova, N.V., Mohn, G., Pekov, I.V., Pushcharovsky, D.Y., Zadov, A.E. (2015) Chanabayaite, Cu2(N3C2H2)2Cl(NH3Cl,H2О,□)4, a new mineral containing triazolate anion. Zapiski RMO: 144(2): 36-47.

Zubkova, N.V., Chukanov, N.V., Pekov, I.V., Möhn, G., Giester, G., Yapaskurt, V.O., Lykova, I.S., Pushcharovsky, D.Yu. (2016) The crystal structure of the natural 1,2,4-triazolate compound NaCu2Cl3[N3C2H2]2[NH3]2·4H2O. Zeitschrift für Kristallographie - Crystalline Materials: 231(1): 47-53.

Košek, Filip, Němec, Ivan, Jehlička, Jan (2023) Raman study of several Cu‐bearing complex minerals from the guano deposit at Pabellón de Pica, Tarapaca region, Chile. Journal of Raman Spectroscopy, 54 (11) 1172-1182 doi:10.1002/jrs.6506

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Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, ChileiRegional Level TypesPabellón de PicaHeadland ChanabayaVillage Iquique ProvinceProvince TarapacáRegion ChileCountry function showexplain() { $("#locexplain").toggle(); if (typeof movemap === "function") movemap(); }

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Pabellón de Pica, Chanabaya, Iquique Province, Tarapacá, Chile i
Regional Level Types
Pabellón de Pica Headland
Chanabaya Village
Iquique Province Province
Tarapacá Region
Chile Country