Quantifying the distribution of nanodiamonds in pre-Younger Dryas to recent age deposits along Bull Creek, Oklahoma Panhandle, USA

Bement, Leland C.; Madden, Andrew S.; Carter, Brian J.; Simms, Alexander R.; Swindle, Andrew L.; Alexander, Hanna; Fine, Scott; Benamara, Mourad

doi:10.1073/pnas.1309734111

Cited by 28 publications

(58 citation statements)

References 57 publications

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“…Thus, the mere presence of nano/microdiamonds in sediments is not an indicator of impact processes. However, nanodiamonds concentrated at the YDB (and their complete absence immediately above and below this level), as reported [3][4][5][6][7][8], would suggest a unique event occurred at the time the sediments were deposited. In regard to the nature of the event, much emphasis has been placed on the reported presence of lonsdaleite in YDB sediments because it has been traditionally associated with shock processing [4][5][6][7].…”

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confidence: 87%

“…[3]. Later, Bement et al [8] reported a three order-of-magnitude larger 190 p.p.m. spike of nanodiamonds at the Bull Creek YDB, which is higher than that reported at all other YDB sites studied [7].…”

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confidence: 93%

“…While there are no known impact structures in North America that date to the onset of the YD stadial, physical evidence of one or more impact/bolide events is argued present in a stratigraphic horizon that is inferred to date to the Bølling-Ållerod/YD boundary (YDB) and span several continents (North America, South America, Greenland Ice Sheet, Europe, and the Middle East). While many of the proposed impact markers have been abandoned or rejected [1], reports of elevated concentrations of nanometer-sized diamonds, in particular the rare 2H polytype of diamond, lonsdaleite, in YDB sediments and Greenland ice, continue to be presented as the strongest evidence for an impact [2][3][4][5][6][7][8].Nanodiamonds are reported to occur in YDB sediments and in millimeter-scale carbon forms (variously termed, 'glass-like', 'spherules', and 'elongates') in those sediments. The carbon forms are proposed to be products of the impact [2,7] and/or the resulting continent-wide wildfires [2,4].…”

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confidence: 99%

“…Further, we determined that measurements of a nanodiamond abundance spike at the YDB reported by [7], and other impact proponents that used similar techniques, are critically flawed and are not credible [9]. Note, that the majority of the reported YDB nanodiamonds are not diamond, but rather are a controversial modified form of diamond termed 'n-diamond' [3][4][5][6][7][8]. Controversial 'i-carbon' is also reported at the YDB of many sites [6,7].…”

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confidence: 99%

“…Controversial 'i-carbon' is also reported at the YDB of many sites [6,7]. While neither are diamond polytypes, impact proponents describe them as nanodiamonds [3][4][5][6][7][8]. In YDB sediments, 'n-diamonds' are usually reported at higher abundances than diamond [6,7].…”

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confidence: 99%

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Did Nanodiamonds Rain from the Sky as Woolly Mammoths Fell in their Tracks Across North America 12,900 Years Ago?

et al. 2017

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The Younger Dryas (YD) Impact Hypothesis proposes that the Late Pleistocene megafauna extinctions, the YD stadial (a period at the end of the last glaciation marked by rapid climate change at its onset), and abrupt continent-wide disappearance of Clovis Paleoindian lithic technology from the sedimentary record were caused by a major cometary or meteoritic impact in North America roughly 12,900 years ago. While there are no known impact structures in North America that date to the onset of the YD stadial, physical evidence of one or more impact/bolide events is argued present in a stratigraphic horizon that is inferred to date to the Bølling-Ållerod/YD boundary (YDB) and span several continents (North America, South America, Greenland Ice Sheet, Europe, and the Middle East). While many of the proposed impact markers have been abandoned or rejected [1], reports of elevated concentrations of nanometer-sized diamonds, in particular the rare 2H polytype of diamond, lonsdaleite, in YDB sediments and Greenland ice, continue to be presented as the strongest evidence for an impact [2][3][4][5][6][7][8].Nanodiamonds are reported to occur in YDB sediments and in millimeter-scale carbon forms (variously termed, 'glass-like', 'spherules', and 'elongates') in those sediments. The carbon forms are proposed to be products of the impact [2,7] and/or the resulting continent-wide wildfires [2,4]. Carbon spherules and their fragments were isolated from the same YDB sediments at Arlington Canyon, Santa Rosa Island, CA that are reported to host nanodiamond-containing C spherules [4]. Three different specimen sets were separately crushed between sapphire discs: (i) five spherules/fragments from SRI 09-28A; (ii) eight spherules/fragments from AC-003; and (iii) 13 acid-washed spherules/fragments from AC-003; see [9]. Carbon spherules from sediments predating the YD and from modern forest fire soils were also separately crushed; see [10]. In addition, YDB sediment from Lommel, Belgium was processed by aciddissolution; see [9]. All specimens were characterized by transmission electron microscopy.Diamond is chemically inert, highly resistant to weathering, and will persist in the surface environment. Erosion of diamond-bearing source rocks and transport by wind or water could widely redistribute nanometer-to submicron-sized diamonds to distant alluvial deposits and sediments that bear little resemblance to the diamond source rocks. Thus, the mere presence of nano/microdiamonds in sediments is not an indicator of impact processes. However, nanodiamonds concentrated at the YDB (and their complete absence immediately above and below this level), as reported [3][4][5][6][7][8], would suggest a unique event occurred at the time the sediments were deposited. In regard to the nature of the event, much emphasis has been placed on the reported presence of lonsdaleite in YDB sediments because it has been traditionally associated with shock processing [4][5][6][7]. We found that polycrystalline aggregates of graphene and graphane occur in C spherules...

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confidence: 87%

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confidence: 93%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Did Nanodiamonds Rain from the Sky as Woolly Mammoths Fell in their Tracks Across North America 12,900 Years Ago?

et al. 2017

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Review: The ATPase mechanism of myosin and actomyosin

Geeves

2016

Biopolymers

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Myosins are a large family of molecular motors that use the common P-loop, Switch 1 and Switch 2 nucleotide binding motifs to recognize ATP, to create a catalytic site than can efficiently hydrolyze ATP and to communicate the state of the nucleotide pocket to other allosteric binding sites on myosin. The energy of ATP hydrolysis is used to do work against an external load. In this short review I will outline current thinking on the mechanism of ATP hydrolysis and how the energy of ATP hydrolysis is coupled to a series of protein conformational changes that allow a myosin, with the cytoskeleton track actin, to operate as a molecular motor of distinct types; fast movers, processive motors or strain sensors. © 2016 Wiley Periodicals, Inc. Biopolymers 105: 483-491, 2016.

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The Younger Dryas impact hypothesis: a cosmic catastrophe

Holliday

Surovell

Meltzer

et al. 2014

J Quaternary Science

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In this paper we review the evidence for the Younger Dryas impact hypothesis (YDIH), which proposes that at ∼12.9k cal a BP North America, South America, Europe and the Middle East were subjected to some sort of extraterrestrial event. This purported event is proposed as a catastrophic process responsible for: terminal Pleistocene environmental changes (onset of YD cooling, continent‐scale wildfires); extinction of late Pleistocene mammals; and demise of the Clovis ‘culture’ in North America, the earliest well‐documented, continent‐scale settlement of the region. The basic physics in the YDIH is not in accord with the physics of impacts nor the basic laws of physics. No YD boundary (YDB) crater, craters or other direct indicators of an impact are known. Age control is weak to non‐existent at 26 of the 29 localities claimed to have evidence for the YDIH. Attempts to reproduce the results of physical and geochemical analyses used to support the YDIH have failed or show that many indicators are not unique to an impact nor to ∼12.9k cal a BP. The depositional environments of purported indicators at most sites tend to concentrate particulate matter and probably created many ‘YDB zones’. Geomorphic, stratigraphic and fire records show no evidence of any sort of catastrophic changes in the environment at or immediately following the YDB. Late Pleistocene extinctions varied in time and across space. Archeological data provide no indication of population decline, demographic collapse or major adaptive shifts at or just after ∼12.9 ka. The data and the hypotheses generated by YDIH proponents are contradictory, inconsistent and incoherent.

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Quantifying the distribution of nanodiamonds in pre-Younger Dryas to recent age deposits along Bull Creek, Oklahoma Panhandle, USA

Cited by 28 publications

References 57 publications

Did Nanodiamonds Rain from the Sky as Woolly Mammoths Fell in their Tracks Across North America 12,900 Years Ago?

Did Nanodiamonds Rain from the Sky as Woolly Mammoths Fell in their Tracks Across North America 12,900 Years Ago?

Review: The ATPase mechanism of myosin and actomyosin

The Younger Dryas impact hypothesis: a cosmic catastrophe

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