Foraminiferal faunal estimates of paleotemperature: Circumventing the no-analog problem yields cool ice age tropics


Autoria(s): Mix, Alan C; Morey, Ann E; Pisias, Nicklas G; Hostetler, Steven W
Cobertura

MEDIAN LATITUDE: -2.103441 * MEDIAN LONGITUDE: -82.051732 * SOUTH-BOUND LATITUDE: -64.550000 * WEST-BOUND LONGITUDE: 4.650000 * NORTH-BOUND LATITUDE: 76.817000 * EAST-BOUND LONGITUDE: -0.363000 * DATE/TIME START: 1874-06-13T00:00:00 * DATE/TIME END: 1991-05-24T06:08:00

Data(s)

07/05/1999

Resumo

The sensitivity of the tropics to climate change, particularly the amplitude of glacial-to-interglacial changes in sea surface temperature (SST), is one of the great controversies in paleoclimatology. Here we reassess faunal estimates of ice age SSTs, focusing on the problem of no-analog planktonic foraminiferal assemblages in the equatorial oceans that confounds both classical transfer function and modern analog methods. A new calibration strategy developed here, which uses past variability of species to define robust faunal assemblages, solves the no-analog problem and reveals ice age cooling of 5° to 6°C in the equatorial current systems of the Atlantic and eastern Pacific Oceans. Classical transfer functions underestimated temperature changes in some areas of the tropical oceans because core-top assemblages misrepresented the ice age faunal assemblages. Our finding is consistent with some geochemical estimates and model predictions of greater ice age cooling in the tropics than was inferred by Climate: Long-Range Investigation, Mapping, and Prediction (CLIMAP) [1981] and thus may help to resolve a long-standing controversy. Our new foraminiferal transfer function suggests that such cooling was limited to the equatorial current systems, however, and supports CLIMAP's inference of stability of the subtropical gyre centers.

Formato

application/zip, 14 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.692130

doi:10.1594/PANGAEA.692130

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Mix, Alan C; Morey, Ann E; Pisias, Nicklas G; Hostetler, Steven W (1999): Foraminiferal faunal estimates of paleotemperature: Circumventing the no-analog problem yields cool ice age tropics. Paleoceanography, 14(3), 350-359, doi:10.1029/1999PA900012

Palavras-Chave #138-846B; A150/180; A152-84; A153-154; A15-547TW; A15-552TW; A15-558; A15-558P; A15-558TW; A15-559FF; A15-572FF; A15-585GC; A15-586TW; A15-590GC; A15-591GC; A15-592FF; A15-596FF; A15-597A; A15-597B; A15-600FF; A15-602FF; A15-612GC; A15-614TW; A15-618GC; A156-4; A157-3; A164-13; A164-15; A164-16; A164-17; A164-23; A164-24; A164-5; A164-6; A164-61; A167-12; A167-13; A167-14; A167-18TW; A167-1TW; A172-1; A172-2; A173-4; A179-13; A179-15; A179-20; A179-24; A179-6; A179-7; A180-13; A180-15; A180-16; A180-20; A180-32; A180-39; A180-47; A180-47PC; A180-48; A180-48PC; A180-56; A180-69; A180-70; A180-72; A180-73; A180-74; A180-76; A180-78; A180-9; A181/185; A181-7; A181-9; A260210A; Agassiz; AH-1; AH-4; AH-5; AH-7; AH-8; All5402P; All5423P; All5424P; All542P; also published as VM28-122; AMPH-005G; AMPH-007PG; AMPH-011P; AMPH-012G; AMPH-013G; AMPH-016G; AMPH-017G; AMPH-019G; AMPH01AR; AMPH-021G; AMPH-022G; AMPH-023G; AMPH-024G; AMPH-107G; AMPH-130G; AMPH-131G; AMPH-132G; AMPH-133G; AMPH-134G; AMPH-135GV; AMPH-137GV; AMPH-138GV; AMPH-139GV; AMPHITRITE; AR1-117; AR1-119; AR1-144; AR2-113; AR2-117; AR2-128; AR2-136; AR3-25; AR3-38; AR3-45; AR4-52; AR4-55; AR4-56; AR4-63; Argo; ARIES; ARIES-046G; ARIES-049G; Atlantic; Atlantic Ocean; Bay of Bengal; BC; Box corer; BRA-262D; BRA-91AD; BRA-91D; BRA-96D; Calculated, see reference(s); CAP-1BG; CAP-1HG; CAP-2-1BG; CAP-32HG; CAP-3HG; CAP-42-1; CAP-44BG; CAP-48-2; CAP-48HG; CAP-49BG; CAP-4BG; CAP-50HG; CAP-5HG; CAP-6HG; CAP-8-2; CH10098P; CH10-98; CHA-164B; CHA-296; CHA-300; CHA-302; Challenger1872; CHM-5; CHU-23; CHU-23G; CHU-24; CHU-26; CHU-30; CHU-X1; CIRCE; CIRCE-21; CIRCE-239; CIRCE-24; CIRCE-26; CIRCE-27; CIRCE-32; CIRCE-36; CIRCE-38; CIRCE-42; CIRCE-44; Counting; CUS-3G; Delta SST residual; Depth; DEPTH, sediment/rock; DIS-385D; DIS-386D; DODO; DODO-117PG; DODO-119PG; DODO-126P; DODO-126PG; DODO-144G; DODO-173G; DODO-191; DODO-192G; DODO-193; DODO-195G; DODO-197; DODO-200V; DODO-201G; DODO-202V; DODO-204; DODO-220V; DRILL; Drilling/drill rig; DW010; DW013; DW034; DW035; DW036; DW048; DW050; DW058; DW089; DW137; DW147B; DWD-100B; DWD-108B; DWD-10BG; DWD-10HH; DWD-11BG; DWD-12BG; DWD-12HH; DWD-137G; DWD-13BG; DWD-13HH; DWD-143; DWD-147B; DWD-149; DWD-15BG; DWD-16BG; DWD-34HG; DWD-35HH; DWD-36HG; DWD-46BG; DWD-47B; DWD-47BG; DWD-48BG; DWD-48HG; DWD-49BG; DWD-50HG; DWD-54HG; DWD-56BG; DWD-56HG; DWD-58BG; DWD-58HH; DWD-59BG; DWD-60BG; DWD-61BG; DWD-62BG; DWD-63BG; DWD-64BG; DWD-68BG; DWD-70BG; DWD-71BG; DWD-73BG; DWD-74BG; DWD-75BG; DWD-76BG; DWD-77BG; DWD-78BG; DWD-79BG; DWD-83BG; DWD-89HH; DWD-89HH-2; DWD-93BG; East Atlantic; ELT11.010; ELT11.064; ELT11.089; ELT-1101; ELT-1110; ELT-1164; ELT-1189; ELT-1246; ELT-1271; ELT44; ELT44.027-PC; ELT45; ELT45.027-PC; ELT45.029-PC; ELT45.070-PC; ELT45.073-PC; ELT45.077-PC; ELT45.078-PC; ELT45.081-PC; ELT48; ELT48.003-PC; ELT48.011-PC; ELT48.022-PC; ELT48.023-PC; ELT48.027-PC; ELT49; ELT49.022-PC; ELT49.023-PC; ELT49.024-PC; ELT49.025-PC; Eltanin; ELT-C100; EN06601; EN066-10GGC; Endeavor; EQA-27; estimated minus actual SST; estimated SST for modern core top; Event; FANHMS2G; FANHMS4G; FFC; Free fall corer; G. aequilateralis; G. bulloides; G. calida; G. conglobatus; G. conglomerata; G. crassaformis; G. digitata; G. falconensis; G. glutinata; G. hexagona; G. hirsuta; G. inflata; G. quinqueloba; G. ruber; G. rubescens; G. sacculifer; G. scitula; G. tenellus; G. truncatulinoides d; G. truncatulinoides s; GC; GIK12392-1; Globigerina bulloides; Globigerina calida; Globigerina digitata; Globigerina falconensis; Globigerina quinqueloba; Globigerina rubescens; Globigerinella aequilateralis; Globigerinita glutinata; Globigerinoides conglobatus; Globigerinoides ruber; Globigerinoides sacculifer; Globigerinoides tenellus; Globoquadrina conglomerata; Globoquadrina hexagona; Globorotalia crassaformis; Globorotalia hirsuta; Globorotalia inflata; Globorotalia scitula; Globorotalia truncatulinoides dextral; Globorotalia truncatulinoides sinistral; Grab; GRAB; Gravity corer; H.M.S. Challenger (1872); Horizon; includes p/d intergrade; Indian Ocean; Joides Resolution; JSB-5P; JSB-6P; JYN2; JYN2-007G; JYN5; JYN5-019G; K708-001; K708-004; K708-006; K708-007; K708-008; K714-3; KAL; Kasten corer; KM1-41; Knr733P; KNR733P; Knr735P; KNR735P; Label; Latitude; LATITUDE; Leg138; LFGS; LFGS-36G; LFGS-38G; LFGS-45G; Longitude; LONGITUDE; LSDA; LSDA-103V; LSDA-106G; LSDA-107GA; LSDA-113G; LSDA-117G; LSDA-128G; LSDA-136G; LSDA-SCS; LSDA-SCS-002G; LSDA-SCS-003G; LSDA-SCS-006G; LSDA-SCS-008G; LSDA-SCS-009G; LSDA-SCS-013D; LSDH; LSDH-009G; LSDH-025V; LSDH-038V; LSDH-076PG; LSDH-077G; LSDH-078PG; LSDH-079P; LSDH-079PG; LSDH-080G; LSDH09; LSDH-093PG; LSDH-104G; LUSIAD-9; LUSIAD-A; LUSIAD-H; M12392-1; M25; M70-68; M70-PC-49; M70-PC-61; Marion Dufresne; MD10; MD13; MD76-131; MD76-132; MD76-135; MD77-168; MD77-169; MD77-170; MD77-171; MD77-174; MD77-176; MD77-179; MD77-180; MD77-181; MD77-185; MD77-191; MD77-194; MD77-196; MD77-199; MD77-202; MD77-203; MD77-204; MDPC03HO-043K; Melville; MEN; MEN-08G; MEN-11G; MEN-12G; Meteor (1964); MIDPAC; MONS01AR-MONS08AR; MONSOON; MPC-0-1; MPC-0-2; MPC-10-1; MPC-1-1; MPC-11-1; MPC-43K; MPC-45; MSN-100G; MSN-103P; MSN-104P; MSN-109P; MSN-10G; MSN-135P; MSN-136G; MSN-137P; MSN-138P; MSN-141G; MSN-14G; MSN-45G; MSN-52G; MSN-55G; MSN-56PG; MSN-63G; MSN-90G; MSN-93G; mt1-gyre; MT1-gyre; mt1-mid; MT1-mid; mt1-nrsh; MT1-nrsh; MUK-19BP; MUK-20BP; MUK-27HG; N. dutertrei; N. pachyderma d; N. pachyderma s; NEL-394D; Neogloboquadrina dutertrei; Neogloboquadrina pachyderma dextral; Neogloboquadrina pachyderma sinistral; NZO-A106; NZO-A181; NZO-A315; O. universa; ODP sample designation; Orbulina universa; OSIRIS II; OSIRIS III; P. obliquiloculata; Pacific Ocean; PAP-127V; PAP-14; PAP-19; PC; Piston corer; PLDS; PLDS-001G; PROA; PROA-011P; PROA-079PG; PROA-083PG; PROA-084PG; PROA-085PG-1; PROA-086P; PROA-086PG; PROA-087PG; PROA-088PG; PROA-089PG; PROA-103PG; PROA-118G; PROA-122G; PROA-124G1; PROA-146G; PROA-147G; PROA-149G; PROA-151G; PROA-155G; PROA-156G; PROA-160G; Pulleniatina obliquiloculata; RC0-113; RC0-117; RC0-121; RC08; RC08-102; RC08-103; RC08-145; RC08-16; RC08-18; RC08-22; RC08-23; RC08-27; RC08-28; RC08-39; RC08-40; RC08-41; RC08-46; RC08-50; RC08-53; RC08-60; RC08-61; RC08-62; RC08-63; RC08-94; RC09; RC09-124; RC09-126; RC09-139; RC09-14; RC09-143; RC09-150; RC09-155; RC09-160; RC09-161; RC09-162; RC09-163; RC09-212; RC09-222; RC09-225; RC09-49; RC09-61; RC09-67; RC10; RC10-114; RC10-139; RC10-140; RC10-141; RC10-142; RC10-143; RC10-146; RC10-161; RC10-162; RC10-172; RC10-175; RC10-176; RC10-22; RC10-49; RC10-50; RC10-52; RC10-53; RC10-54; RC10-56; RC10-62; RC10-64; RC10-97; RC11; RC11-10; RC11-103; RC11-106; RC11-11; RC11-111; RC11-116; RC11-117; RC11-12; RC11-120; RC11-121; RC11-122; RC11-128; RC11-13; RC11-134; RC11-138; RC11-139; RC11-14; RC11-141; RC11-145; RC11-146; RC11-147; RC11-15; RC11-16; RC11-160; RC11-162; RC11-21; RC11-210; RC11-213; RC11-22; RC11-220; RC11-230; RC11-238; RC11-255; RC11-26; RC11-260; RC11-35; RC11-37; RC11-78; RC11-79; RC11-80; RC11-86; RC11-9; RC12; RC12-107; RC12-121; RC12-138; RC12-139; RC12-143; RC12-146; RC12-233; RC12-234; RC12-235; RC12-241; RC12-266; RC12-268; RC12-291; RC12-292; RC12-293; RC12-294; RC12-297; RC12-298; RC12-299; RC12-300; RC12-303; RC12-304; RC12-328; RC12-33; RC12-330; RC12-331; RC12-332; RC12-333; RC12-335; RC12-339; RC12-340; RC12-341; RC12-342; RC12-343; RC12-344; RC12-347; RC12-350; RC12-361; RC12-365; RC12-366; RC12-417; RC12-418; RC12-45; RC13; RC13-108; RC13-110; RC13-113; RC13-115; RC13-122; RC13-136; RC13-138; RC13-140; RC13-151; RC13-152; RC13-153; RC13-158; RC13-159; RC13-17; RC13-184; RC13-189; RC13-190; RC13-195; RC13-196; RC13-197; RC13-199; RC13-205; RC13-209; RC13-210; RC13-227; RC13-229; RC13-242; RC13-253; RC13-275; RC13-81; RC14; RC14-29; RC14-31; RC14-31TW; RC14-33; RC14-33TW; RC14-34; RC14-34TW; RC14-35; RC14-35TW; RC14-36; RC14-37; RC14-37TW; RC14-39; RC14-39TW; RC14-44; RC14-44TW; RC14-7; RC14-79TW; RC14-9; RC14-92; RC14-93; RC14-94; RC14-97; RC15; RC15-115; RC15-143; RC15-145; RC15-151; RC15-91; RC15-93; RC15-94; RC17; RC17-101; RC17-102; RC17-103; RC17-104; RC17-105; RC17-110; RC17-113; RC17-114; RC17-116; RC17-121; RC17-123; RC17-125; RC17-126; RC17-127; RC17-132; RC17-142; RC17-144; RC17-145; RC17-176; RC17-177; RC17-178; RC17-69; RC17-73; RC17-98; RC18; RC18-47; RC24; RC24-1; RC24-16; RC24-27; RC24-7; RE009-7; RE010-002; RE5-034; RE5-036; RE5-054; RE5-057; RIS-101; RIS-103; RIS-104; RIS-105; RIS-106; RIS-108; RIS-121V; RIS-14; RIS-15G; RIS-17; RIS-17G; RIS-21G; RIS-24; RIS-29G; RIS-32; RIS-33; RIS-34; RIS-35; RIS-51G; Robert Conrad; S. dehiscens; Sample code/label; SCAN; SCAN-015P; SCAN-022PG; SCAN-023PG; SCAN-025G; SCAN-026G; SCAN-027G; SCAN-028G; SCAN-059P; SCAN-065G; SCAN-066G; SCAN-067G; SCAN-068G; SCAN-082P; SCAN-083P; SCAN-084P; SCAN-084PG; SCAN-085P; SCAN-086P; SCAN-087P; SCAN-088P; SCAN-088PG; SCAN-091G; SCAN-094P; SCAN-095G; SCAN-096P; SDS-93P; SDS-95P; SDS-97P; SDS-98P; Sea surface temperature, annual mean; Sea surface temperature, residual; see comment; SOB; SOB-009G; SOB-026GA; SOB-031GA; South Atlantic Ocean; Southern Borderland; South Pacific Ocean; SP008-004; SP009-003; SP010-005; Spencer F. Baird; Sphaeroidinella dehiscens; SST (1-12); Stranger; STYX_III; STYX_IX; STYX03AZ; STYX09AZ; STYXIII-75G; STYXIII-77P; STYXIII-80FF-34; STYXIII-81FF-41; STYXIII-81FF-44; STYXIII-84G; STYXIX-4CBX; T29-17P; T29-19P; T29-20P; T29-22P; T29-4P; T29-5P; T39-15P; T39-17P; T39-18P; T39-22P; T39-23P; T39-24P; T39-25P; TC; TET_38G; TET_41G; TET_43G; TET_44G; TET-4G; TET-5G; TET-6G; TET-7G; TET-8G; TETH01BD; TETH01BD-004G; TETH01BD-005G; TETH01BD-006G; TETH01BD-007G; TETH01BD-008G; TETH02BD; TETH02BD-038G; TETH02BD-041G; TETH02BD-043G; TETH02BD-044G; TETHYS_1; TETHYS_2; Thomas Washington; total of pink and white; TRI-02G; Trigger corer; TRIP03AR; TRIPOD_3; TSDY-10G; TSDY-11G; TSDY-12G; TSP-97G; V02; V02-9; V03; V03-128; V04; V04-12; V04-32; V04-8; V05; V05-1; V05-31; V05-40; V06; V06-5; V07; V07-13; V07-42; V07-53; V07-67; V07-68; V09; V09-31; V10; V10-88; V10-89; V12; V12-122; V12-18; V12-4; V12-43; V12-53; V12-56; V12-66; V12-7; V12-79; V12-80; V14; V14-100; V14-101; V14-102; V14-103; V14-104; V14-105; V14-106; V14-107; V14-108; V14-4; V14-47; V14-5; V14-7; V14-77; V14-81; V14-95; V14-96; V14-97; V14-98; V15; V15-136; V15-137; V15-157; V15-164; V15-168; V15-206; V15-23; V15-29; V15-30; V16; V16-189; V16-190; V16-20; V16-200; V16-205; V16-206; V16-209; V16-21; V16-227; V16-23; V16-25; V16-31; V16-33; V16-35; V16-36; V16-37; V16-39; V16-41; V16-50; V16-64; V16-65; V16-67; V16-84; V16-86; V16-87; V16-88; V16-93; V16-94; V16-95; V16-96; V17; V17-1; V17-144; V17-147; V17-158; V17-162; V17-163; V17-164; V17-165; V17-192; V17-196; V17-39; V18; V18-110; V18-117; V18-126; V18-16; V18-168; V18-182; V18-186; V18-188; V18-189; V18-191; V18-200; V18-21; V18-215; V18-312; V18-318; V18-34; V18-350; V18-353; V18-357; V18-373; V19; V19-110; V19-176; V19-177; V19-178; V19-183; V19-184; V19-185; V19-188; V19-19; V19-200; V19-201; V19-202; V19-204; V19-209; V19-21; V19-240; V19-242; V19-245; V19-246; V19-248; V19-25; V19-262; V19-27; V19-281; V19-283; V19-29; V19-291; V19-296; V19-298; V19-308; V19-309; V19-53; V19-55; V19-64; V19-65; V19-96; V20; V20-101; V20-103; V20-119; V20-133; V20-137; V20-139; V20-147; V20-15; V20-170; V20-171; V20-174; V20-175; V20-177; V20-212; V20-213; V20-227; V20-228; V20-23; V20-230; V20-233; V20-234; V20-235; V20-241; V20-242; V20-253; V20-26; V20-7; V20-96; V21; V21-103; V21-105; V21-107; V21-108; V21-109; V21-146; V21-210; V21-212; V21-214; V21-26; V21-28; V21-29; V21-30; V21-31; V21-33; V21-34; V21-39; V21-41; V21-79; V21-83; V21-84; V21-85; V21-93; V22; V22-106; V22-107; V22-108; V22-122; V22-168; V22-169; V22-171; V22-172; V22-174; V22-175; V22-177; V22-179; V22-180; V22-182; V22-186; V22-188; V22-196; V22-197; V22-202; V22-204; V22-211; V22-219; V22-222; V22-232; V22-24; V22-26; V22-36; V22-38; V22-71; V22-92; V22-93; V22-94; V23; V23-100; V23-101; V23-105; V23-107; V23-110; V23-13; V23-22; V23-23; V23-29; V23-38; V23-42; V23-60; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-109; V24-110; V24-117; V24-139; V24-143; V24-144; V24-145; V24-148; V24-149; V24-150; V24-151; V24-220; V24-221; V24-223; V24-229; V24-235; V24-237; V24-240; V24-241; V24-28; V24-48; V24-8; V24-96; V25; V25-24; V25-42; V25-44; V25-46; V25-56; V25-59; V25-60; V25-75; V26; V26-100; V26-104; V26-107; V26-165; V26-31; V26-41; V26-46; V26-50; V26-51; V26-52; V26-53; V26-55; V26-63; V26-68; V26-82; V27; V27-10; V27-104; V27-110; V27-114; V27-116; V27-122; V27-126; V27-136; V27-137; V27-143; V27-144; V27-15; V27-16; V27-162; V27-164; V27-167; V27-17; V27-172; V27-175; V27-178; V27-181; V27-184; V27-188; V27-19; V27-190; V27-191; V27-192; V27-20; V27-206; V27-21; V27-215; V27-227; V27-228; V27-23; V27-232; V27-233; V27-234; V27-239; V27-24; V27-248; V27-25; V27-250; V27-254; V27-263; V27-266; V27-28; V27-30; V27-32; V27-33; V27-38; V27-7; V28; V28-119; V28-122; V28-124; V28-127; V28-129; V28-134; V28-144; V28-146; V28-147; V28-148; V28-152; V28-153; V28-168; V28-201; V28-203; V28-228; V28-229; V28-230; V28-231; V28-232; V28-233; V28-234; V28-235; V28-238; V28-239; V28-243; V28-246; V28-248; V28-25; V28-250; V28-251; V28-252; V28-255; V28-259; V28-260; V28-261; V28-262; V28-28; V28-29; V28-292; V28-294; V28-296; V28-297; V28-30; V28-301; V28-304; V28-308; V28-309; V28-310; V28-311; V28-34; V28-342; V28-345; V28-358; V28-36; V28-41; V28-55; V28-65; V28-66; V28-7; V28-82; V28-83; V28-89; V28-90; V28-98; V29; V29-12; V29-134; V29-135; V29-14; V29-144; V29-15; V29-16; V29-167; V29-170; V29-172; V29-173; V29-174; V29-176; V29-177; V29-178; V29-179; V29-180; V29-183; V29-184; V29-189; V29-190; V29-193; V29-194; V29-198; V29-200; V29-202; V29-203; V29-204; V29-205; V29-209; V29-210; V29-211; V29-214; V29-215; V29-220; V29-222; V29-223; V29-25; V29-26; V29-29; V29-30; V29-31; V29-44; V29-45; V29-48; V29-6; V29-93; V30; V30-100; V30-36; V30-40; V30-41; V30-49; V30-51; V30-52; V30-54; V30-56; V30-58; V30-59; V30-61; V30-62; V30-64; V30-65; V30-67; V30-68; V30-96; V30-97; V30-99; V32; V32-102; V32-126; V32-127; V32-128; V32-130; V32-139; V32-173; V32-174; V32-8; V34; V34-100; V34-101; V34-106; V34-109; V34-111; V34-113; V34-114; V34-124; V34-126; V34-48; V34-49; V34-51; V34-52; V34-53; V34-54; V34-55; V34-56; V34-57; V34-58; V34-59; V34-80; V34-82; V34-83; V34-85; V34-87; V34-88; V34-89; V34-90; V34-91; V34-92; Vema; VNTR01; VNTR01-8PC; WAH-6-2; WAH-6-3; WAH-6-4; WAH-7; WAH-8-1; WAH-8-2; WAH-8-3; WAH-8-5; Y69-106P; Y69-71P; Y69-86P; Y71-03; Y71-03-02; Y71-06; Y71-06-12; Y71-09; Y71-09-101; Y73-03; Y73-03-006; Y73-03-016; Y73-04; Y73-04-034P; YALOC69; Yaquina; ZETES; ZTES03AR; ZTES-3G; ZTS3
Tipo

Dataset