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Ablabesmyia; AGE; Ceratopogonidae; Chaoborus; Chironomids; Chironomini indeterminata; Chironomus anthracinus-type; Chironomus plumosus-type; Cladopelma lateralis-type; Cladotanytarsus mancus-type; Cladotanytarsus-type A; Corynoneura edwardsi-type; Counting; Counting, microscope; Cricotopus bicinctus-type; Cricotopus cylindraceus-type; Cricotopus laricomalis-type; Cricotopus obnixus-type; CrookedPond_CP1a; Cryptochironomus; Demicryptochironomus; DEPTH, sediment/rock; Dicrotendipes nervosus-type; drought; Einfeldia; Endochironomus albipennis-type; Endochironomus impar-type; Georthocladius; Glyptotendipes barbipes-type; Glyptotendipes severini-type; Guttipelopia; Hand-held piston corer; Heterotrissocladius grimshawi-type; Heterotrissocladius marcidus-type; Heterotrissocladius subpilosus-type; HH_PC; Labrundinia; Lake core; Lauterborniella/Zavreliella; Limnophyes; Micropsectra insignilobus-type; Microtendipes pedellus-type; Nanocladius; Nilothauma; Oliveridia; ORDINAL NUMBER; Orthocladiinae indeterminata; Pagastiella; Parachironomus varus-type; Parakiefferiella bathophila-type; Parakiefferiella-type A; Parametriocnemus/Paraphaenocladius; Paratanytarsus penicillatus-type; Paratendipes albimanus-type; Paratendipes nudisquama-type; Polypedilum nubeculosum-type; Procladius; Psectrocladius calcaratus-type; Psectrocladius flavus-type; Psectrocladius sordidellus-type; Pseudochironomus; Pseudosmittia; Stempellina; Stempellinella/Zavrelia; Stenochironomus; Stictochironomus rosenschoeldi-type; Synorthocladius; Tanypodinae indeterminata; Tanytarsini indeterminata; Tanytarsus glabrescens-type; Tanytarsus indeterminata; Tanytarsus lugens-type; Tanytarsus mendax-type; Tanytarsus pallidicornis-type; Thienemanniella; Thienemannimyia; Tribelos; United States; Unniella; Xenochironomus; Zalutschia-type B; Zalutschia zalutschicola (1)
Northeast U.S. (1)
Holocene (3)
Climate change (1)
Common era (1)

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Chironomid counts for the Holocene record of Crooked Pond (US) (2023)

Engels, Stefan ; Cwynar, Les C ; Rees, Andrew BH ; [et al.]

PANGAEA

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Publication Date: 2024-04-17

Description: This dataset provides chironomid counts for the Holocene sediment sequence retrieved from Crooked Pond (United States). Sediment cores were retrieved from the lake using a 1-m long handheld piston corer deployed from a floating coring platform during field work in May 2009. Volumetric samples were obtained from splits of the core and processed in the laboratory (University of New Brunswick, Canada) using standard protocols. Chironomid counts are presented against both depth (cm) and age (cal yr. BP). A total of 58 downcore 1-cm-thick samples were analysed, ranging between 477.5cm depth (9056 cal yr BP) and 0.5cm depth (the present). The chironomid record provides information about changes in the chironomid fauna as well as in within-lake conditions. The dataset was produced to inform on the exact age and duration of a major lake-level lowstand during the mid-Holocene. This lowstand was compared to palynological transitions determined on pollen samples from an older core sequence derived from the same coring location.

Keywords: Ablabesmyia; AGE; Ceratopogonidae; Chaoborus; Chironomids; Chironomini indeterminata; Chironomus anthracinus-type; Chironomus plumosus-type; Cladopelma lateralis-type; Cladotanytarsus mancus-type; Cladotanytarsus-type A; Corynoneura edwardsi-type; Counting; Counting, microscope; Cricotopus bicinctus-type; Cricotopus cylindraceus-type; Cricotopus laricomalis-type; Cricotopus obnixus-type; CrookedPond_CP1a; Cryptochironomus; Demicryptochironomus; DEPTH, sediment/rock; Dicrotendipes nervosus-type; drought; Einfeldia; Endochironomus albipennis-type; Endochironomus impar-type; Georthocladius; Glyptotendipes barbipes-type; Glyptotendipes severini-type; Guttipelopia; Hand-held piston corer; Heterotrissocladius grimshawi-type; Heterotrissocladius marcidus-type; Heterotrissocladius subpilosus-type; HH_PC; Labrundinia; Lake core; Lauterborniella/Zavreliella; Limnophyes; Micropsectra insignilobus-type; Microtendipes pedellus-type; Nanocladius; Nilothauma; Oliveridia; ORDINAL NUMBER; Orthocladiinae indeterminata; Pagastiella; Parachironomus varus-type; Parakiefferiella bathophila-type; Parakiefferiella-type A; Parametriocnemus/Paraphaenocladius; Paratanytarsus penicillatus-type; Paratendipes albimanus-type; Paratendipes nudisquama-type; Polypedilum nubeculosum-type; Procladius; Psectrocladius calcaratus-type; Psectrocladius flavus-type; Psectrocladius sordidellus-type; Pseudochironomus; Pseudosmittia; Stempellina; Stempellinella/Zavrelia; Stenochironomus; Stictochironomus rosenschoeldi-type; Synorthocladius; Tanypodinae indeterminata; Tanytarsini indeterminata; Tanytarsus glabrescens-type; Tanytarsus indeterminata; Tanytarsus lugens-type; Tanytarsus mendax-type; Tanytarsus pallidicornis-type; Thienemanniella; Thienemannimyia; Tribelos; United States; Unniella; Xenochironomus; Zalutschia-type B; Zalutschia zalutschicola

Type: Dataset

Format: text/tab-separated-values, 4060 data points

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Centennial-to-millennial hydrologic trends and variability along the North Atlantic Coast, USA, during the Holocene (2014)

Newby, Paige E. ; Shuman, Bryan N. ; Donnelly, Jeffrey P. ; [et al.]

John Wiley & Sons

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Publication Date: 2022-05-26

Description: Author Posting. © American Geophysical Union, 2014. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geophysical Research Letters 41 (2014): 4300–4307, doi:10.1002/2014GL060183.

Description: Geophysical and sedimentary records from five lakes in Massachusetts reveal regionally coherent hydrologic variability during the Holocene. All of the lakes have risen since ~9.0 ka, but multicentury droughts after 5.6 ka repeatedly lowered their water levels. Quantified water level histories from the three best-studied lakes share 〉70% of their reconstructed variance. Four prominent low-water phases at 4.9–4.6, 4.2–3.9, 2.9–2.1, and 1.3–1.2 ka were synchronous across coastal lakes, even after accounting for age uncertainties. The droughts also affected sites up to ~200 km inland, but water level changes at 5.6–4.9 ka appear out of phase between inland and coastal lakes. During the enhanced multicentury variability after ~5.6 ka, droughts coincided with cooling in Greenland and may indicate circulation changes across the North Atlantic region. Overall, the records demonstrate that current water levels are exceptionally high and confirm the sensitivity of water resources in the northeast U.S. to climate change.

Description: The National Science Foundation (EAR-0602408, EAR- 1036191, and DEB-0816731 to Shuman; EAR-0602380 to Donnelly) and the Woods Hole Oceanographic Institution, Ocean and Climate Change Institute (Donnelly) funded this research.

Description: 2014-12-25

Keywords: Holocene ; Paleohydrology ; Northeast U.S. ; Ground-penetrating radar ; Lake levels ; Drought

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

Format: application/msword

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