{"NOAAStudyId":"16137","contactInfo":{"address":"325 Broadway, E/NE31","city":"Boulder","constraints":"Please cite original publication, online resource, dataset and publication DOIs (where available), and date accessed when using downloaded data. If there is no publication information, please cite investigator, title, online resource, and date accessed. The appearance of external links associated with a dataset does not constitute endorsement by the Department of Commerce/National Oceanic and Atmospheric Administration of external Web sites or the information, products or services contained therein. For other than authorized activities, the Department of Commerce/NOAA does not exercise any editorial control over the information you may find at these locations. These links are provided consistent with the stated purpose of this Department of Commerce/NOAA Web site.","country":"USA","dataCenterUrl":"https://www.ncdc.noaa.gov/data-access/paleoclimatology-data","email":"paleo@noaa.gov","fax":"303-497-6513","longName":"National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce ","phone":"303-497-6280","postalCode":"80305-3328","shortName":"DOC/NOAA/NESDIS/NCEI","state":"CO","type":"CONTACT INFORMATION"},"contributionDate":"2014-03-03","dataPublisher":"NOAA","dataType":"PALEOLIMNOLOGY","dataTypeInformation":"https://www.ncdc.noaa.gov/data-access/paleoclimatology-data/datasets/lake","difMetadataLink":"http://www1.ncdc.noaa.gov/pub/data/metadata/published/paleo/dif/xml/noaa-lake-16137.xml","doi":null,"earliestYearBP":12056,"earliestYearCE":-10106,"entryId":"noaa-lake-16137","funding":[{"fundingAgency":"US National Science Foundation","fundingGrant":"EAR-1003780, ATM-9809472, AGS-1137750"}],"investigators":"Stansell, N.D.; Polissar, P.J.; Abbott, M.B.; Bezada, M.; Steinman, B.; Braun, C.","mostRecentYearBP":-38,"mostRecentYearCE":1988,"onlineResourceLink":"https://www.ncdc.noaa.gov/paleo/study/16137","originalSource":null,"publication":[{"abstract":"Lake sediment records from the Cordillera de Mérida in the northern Venezuelan Andes document the history of local glacial variability and climate changes during the Holocene (~12 ka to the present). The valleys that contain these lakes have similar bedrock compositions and hypsometries, but have different headwall elevations and aspects, which makes them useful for investigating the magnitude of past glaciations. There was widespread glacial retreat in the Venezuelan Andes during the early Holocene, after which most watersheds remained ice free, and thus far only valleys with headwalls higher than ~4400 m asl contain evidence of glaciation during the last ~10 ka. There was a pronounced shift in sediment composition for the Montos (headwall: ~4750 m asl) and Los Anteojos (headwall: ~4400 m asl) records during the middle Holocene from ~8.0 to 7.7 ka when conditions appear to have become ice free and drier. There is tentative evidence that the glacier in the Mucubají valley (headwall: ~4609 m asl) advanced from ~8.1 to 6.6 ka and then retreated during the latter stages of the middle Holocene. Clastic sediment accumulation in other nearby lake basins was either low or decreased throughout most of the middle Holocene as watersheds stabilized under warmer and/or drier conditions. In the Montos record, there was another major shift in sediment composition that occurred from ~6.5 to 5.7 ka, similar to other regional records that suggest conditions were drier during this period. Overall, the late Holocene was a period of warmer and wetter conditions with ice extent at a minimum in the northern tropical Andes. There were also punctuated decadal to multi-centennial periods of higher clastic sediment accumulation during the last ~4 ka, likely in response to periods of cooling and/or local precipitation changes. In watersheds with headwalls above 4600 m asl, there is evidence of glacial advances during the Little Ice Age (~0.6-0.1 ka). The pattern of glacial variability is generally similar in both the northern and southern tropics during the Little Ice Age, suggesting that ice margins in both regions were responding to colder and wetter conditions during the latest Holocene. The observed pattern of Holocene climate variability in the Venezuelan Andes cannot be explained by insolation forcing alone, and tropical ocean influences were likely associated with the observed glacial and lake level changes.","author":{"name":"Nathan D. Stansell, Pratigya J. Polissar, Mark B. Abbott, Maximiliano Bezada, Byron A. Steinman, Carsten Braun"},"citation":"Nathan D. Stansell, Pratigya J. Polissar, Mark B. Abbott, Maximiliano Bezada, Byron A. Steinman, Carsten Braun. 2014. Proglacial lake sediment records reveal Holocene climate changes in the Venezuelan Andes. Quaternary Science Reviews, 89, 44-55. doi: 10.1016/j.quascirev.2014.01.021","edition":null,"identifier":{"id":"10.1016/j.quascirev.2014.01.021","type":"doi","url":"http://dx.doi.org/10.1016/j.quascirev.2014.01.021"},"issue":null,"journal":"Quaternary Science Reviews","pages":"44-55","pubRank":"1","pubYear":2014,"reportNumber":null,"title":"Proglacial lake sediment records reveal Holocene climate changes in the Venezuelan Andes","type":"publication","volume":"89"}],"reconstruction":"N","scienceKeywords":null,"site":[{"NOAASiteId":"37060","geo":{"geoType":"Feature","geometry":{"coordinates":["8.5383","-71.0737"],"type":"POINT"},"properties":{"easternmostLongitude":"-71.0737","maxElevationMeters":"3920","minElevationMeters":"3920","northernmostLatitude":"8.5383","southernmostLatitude":"8.5383","westernmostLongitude":"-71.0737"}},"locationName":"Continent>South 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